URL
https://opencores.org/ocsvn/openrisc_2011-10-31/openrisc_2011-10-31/trunk
Subversion Repositories openrisc_2011-10-31
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- This comparison shows the changes necessary to convert path
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- ↔ Reverse comparison
Rev 185 → Rev 348
/verilog/or1200_defines.v
3,10 → 3,10
//// OR1200's definitions //// |
//// //// |
//// This file is part of the OpenRISC 1200 project //// |
//// http://www.opencores.org/cores/or1k/ //// |
//// http://opencores.org/project,or1k //// |
//// //// |
//// Description //// |
//// Parameters of the OR1200 core //// |
//// Defines for the OR1200 core //// |
//// //// |
//// To Do: //// |
//// - add parameters that are missing //// |
41,214 → 41,10
//// //// |
////////////////////////////////////////////////////////////////////// |
// |
// CVS Revision History |
// |
// $Log: or1200_defines.v,v $ |
// Revision 1.45 2006/04/09 01:32:29 lampret |
// See OR1200_MAC_SHIFTBY in or1200_defines.v for explanation of the change. Since now no more 28 bits shift for l.macrc insns however for backward compatbility it is possible to set arbitry number of shifts. |
// |
// Revision 1.44 2005/10/19 11:37:56 jcastillo |
// Added support for RAMB16 Xilinx4/Spartan3 primitives |
// |
// Revision 1.43 2005/01/07 09:23:39 andreje |
// l.ff1 and l.cmov instructions added |
// |
// Revision 1.42 2004/06/08 18:17:36 lampret |
// Non-functional changes. Coding style fixes. |
// |
// Revision 1.41 2004/05/09 20:03:20 lampret |
// By default l.cust5 insns are disabled |
// |
// Revision 1.40 2004/05/09 19:49:04 lampret |
// Added some l.cust5 custom instructions as example |
// |
// Revision 1.39 2004/04/08 11:00:46 simont |
// Add support for 512B instruction cache. |
// |
// Revision 1.38 2004/04/05 08:29:57 lampret |
// Merged branch_qmem into main tree. |
// |
// Revision 1.35.4.6 2004/02/11 01:40:11 lampret |
// preliminary HW breakpoints support in debug unit (by default disabled). To enable define OR1200_DU_HWBKPTS. |
// |
// Revision 1.35.4.5 2004/01/15 06:46:38 markom |
// interface to debug changed; no more opselect; stb-ack protocol |
// |
// Revision 1.35.4.4 2004/01/11 22:45:46 andreje |
// Separate instruction and data QMEM decoders, QMEM acknowledge and byte-select added |
// |
// Revision 1.35.4.3 2003/12/17 13:43:38 simons |
// Exception prefix configuration changed. |
// |
// Revision 1.35.4.2 2003/12/05 00:05:03 lampret |
// Static exception prefix. |
// |
// Revision 1.35.4.1 2003/07/08 15:36:37 lampret |
// Added embedded memory QMEM. |
// |
// Revision 1.35 2003/04/24 00:16:07 lampret |
// No functional changes. Added defines to disable implementation of multiplier/MAC |
// |
// Revision 1.34 2003/04/20 22:23:57 lampret |
// No functional change. Only added customization for exception vectors. |
// |
// Revision 1.33 2003/04/07 20:56:07 lampret |
// Fixed OR1200_CLKDIV_x_SUPPORTED defines. Better description. |
// |
// Revision 1.32 2003/04/07 01:26:57 lampret |
// RFRAM defines comments updated. Altera LPM option added. |
// |
// Revision 1.31 2002/12/08 08:57:56 lampret |
// Added optional support for WB B3 specification (xwb_cti_o, xwb_bte_o). Made xwb_cab_o optional. |
// |
// Revision 1.30 2002/10/28 15:09:22 mohor |
// Previous check-in was done by mistake. |
// |
// Revision 1.29 2002/10/28 15:03:50 mohor |
// Signal scanb_sen renamed to scanb_en. |
// |
// Revision 1.28 2002/10/17 20:04:40 lampret |
// Added BIST scan. Special VS RAMs need to be used to implement BIST. |
// |
// Revision 1.27 2002/09/16 03:13:23 lampret |
// Removed obsolete comment. |
// |
// Revision 1.26 2002/09/08 05:52:16 lampret |
// Added optional l.div/l.divu insns. By default they are disabled. |
// |
// Revision 1.25 2002/09/07 19:16:10 lampret |
// If SR[CY] implemented with OR1200_IMPL_ADDC enabled, l.add/l.addi also set SR[CY]. |
// |
// Revision 1.24 2002/09/07 05:42:02 lampret |
// Added optional SR[CY]. Added define to enable additional (compare) flag modifiers. Defines are OR1200_IMPL_ADDC and OR1200_ADDITIONAL_FLAG_MODIFIERS. |
// |
// Revision 1.23 2002/09/04 00:50:34 lampret |
// Now most of the configuration registers are updatded automatically based on defines in or1200_defines.v. |
// |
// Revision 1.22 2002/09/03 22:28:21 lampret |
// As per Taylor Su suggestion all case blocks are full case by default and optionally (OR1200_CASE_DEFAULT) can be disabled to increase clock frequncy. |
// |
// Revision 1.21 2002/08/22 02:18:55 lampret |
// Store buffer has been tested and it works. BY default it is still disabled until uClinux confirms correct operation on FPGA board. |
// |
// Revision 1.20 2002/08/18 21:59:45 lampret |
// Disable SB until it is tested |
// |
// Revision 1.19 2002/08/18 19:53:08 lampret |
// Added store buffer. |
// |
// Revision 1.18 2002/08/15 06:04:11 lampret |
// Fixed Xilinx trace buffer address. REported by Taylor Su. |
// |
// Revision 1.17 2002/08/12 05:31:44 lampret |
// Added OR1200_WB_RETRY. Moved WB registered outsputs / samples inputs into lower section. |
// |
// Revision 1.16 2002/07/14 22:17:17 lampret |
// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized. |
// |
// Revision 1.15 2002/06/08 16:20:21 lampret |
// Added defines for enabling generic FF based memory macro for register file. |
// |
// Revision 1.14 2002/03/29 16:24:06 lampret |
// Changed comment about synopsys to _synopsys_ because synthesis was complaining about unknown directives |
// |
// Revision 1.13 2002/03/29 15:16:55 lampret |
// Some of the warnings fixed. |
// |
// Revision 1.12 2002/03/28 19:25:42 lampret |
// Added second type of Virtual Silicon two-port SRAM (for register file). Changed defines for VS STP RAMs. |
// |
// Revision 1.11 2002/03/28 19:13:17 lampret |
// Updated defines. |
// |
// Revision 1.10 2002/03/14 00:30:24 lampret |
// Added alternative for critical path in DU. |
// |
// Revision 1.9 2002/03/11 01:26:26 lampret |
// Fixed async loop. Changed multiplier type for ASIC. |
// |
// Revision 1.8 2002/02/11 04:33:17 lampret |
// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr. |
// |
// Revision 1.7 2002/02/01 19:56:54 lampret |
// Fixed combinational loops. |
// |
// Revision 1.6 2002/01/19 14:10:22 lampret |
// Fixed OR1200_XILINX_RAM32X1D. |
// |
// Revision 1.5 2002/01/18 07:56:00 lampret |
// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC. |
// |
// Revision 1.4 2002/01/14 09:44:12 lampret |
// Default ASIC configuration does not sample WB inputs. |
// |
// Revision 1.3 2002/01/08 00:51:08 lampret |
// Fixed typo. OR1200_REGISTERED_OUTPUTS was not defined. Should be. |
// |
// Revision 1.2 2002/01/03 21:23:03 lampret |
// Uncommented OR1200_REGISTERED_OUTPUTS for FPGA target. |
// |
// Revision 1.1 2002/01/03 08:16:15 lampret |
// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs. |
// |
// Revision 1.20 2001/12/04 05:02:36 lampret |
// Added OR1200_GENERIC_MULTP2_32X32 and OR1200_ASIC_MULTP2_32X32 |
// |
// Revision 1.19 2001/11/27 19:46:57 lampret |
// Now FPGA and ASIC target are separate. |
// |
// Revision 1.18 2001/11/23 21:42:31 simons |
// Program counter divided to PPC and NPC. |
// |
// Revision 1.17 2001/11/23 08:38:51 lampret |
// Changed DSR/DRR behavior and exception detection. |
// |
// Revision 1.16 2001/11/20 21:30:38 lampret |
// Added OR1200_REGISTERED_INPUTS. |
// |
// Revision 1.15 2001/11/19 14:29:48 simons |
// Cashes disabled. |
// |
// Revision 1.14 2001/11/13 10:02:21 lampret |
// Added 'setpc'. Renamed some signals (except_flushpipe into flushpipe etc) |
// |
// Revision 1.13 2001/11/12 01:45:40 lampret |
// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports. |
// |
// Revision 1.12 2001/11/10 03:43:57 lampret |
// Fixed exceptions. |
// |
// Revision 1.11 2001/11/02 18:57:14 lampret |
// Modified virtual silicon instantiations. |
// |
// Revision 1.10 2001/10/21 17:57:16 lampret |
// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF. |
// |
// Revision 1.9 2001/10/19 23:28:46 lampret |
// Fixed some synthesis warnings. Configured with caches and MMUs. |
// |
// Revision 1.8 2001/10/14 13:12:09 lampret |
// MP3 version. |
// |
// Revision 1.1.1.1 2001/10/06 10:18:36 igorm |
// no message |
// |
// Revision 1.3 2001/08/17 08:01:19 lampret |
// IC enable/disable. |
// |
// Revision 1.2 2001/08/13 03:36:20 lampret |
// Added cfg regs. Moved all defines into one defines.v file. More cleanup. |
// |
// Revision 1.1 2001/08/09 13:39:33 lampret |
// Major clean-up. |
// |
// Revision 1.2 2001/07/22 03:31:54 lampret |
// Fixed RAM's oen bug. Cache bypass under development. |
// |
// Revision 1.1 2001/07/20 00:46:03 lampret |
// Development version of RTL. Libraries are missing. |
// |
// |
// Revision 2.0 2010/06/30 11:00:00 ORSoC |
// Minor update: |
// Defines added, bugs fixed. |
|
// |
// Dump VCD |
328,12 → 124,14
//`define OR1200_XILINX_RAMB4 |
//`define OR1200_XILINX_RAM32X1D |
//`define OR1200_USE_RAM16X1D_FOR_RAM32X1D |
`define OR1200_ACTEL |
// Generic models should infer RAM blocks at synthesis time (not only effects |
// single port ram.) |
`define OR1200_GENERIC |
|
// |
// Do not implement Data cache |
// |
`define OR1200_NO_DC |
//`define OR1200_NO_DC |
|
// |
// Do not implement Insn cache |
365,8 → 163,8
//`define OR1200_IC_1W_512B |
//`define OR1200_IC_1W_4KB |
`define OR1200_IC_1W_8KB |
`define OR1200_DC_1W_4KB |
//`define OR1200_DC_1W_8KB |
//`define OR1200_DC_1W_4KB |
`define OR1200_DC_1W_8KB |
|
`endif |
|
403,7 → 201,7
// Disable bursts if they are not supported by the |
// memory subsystem (only affect cache line fill) |
// |
`define OR1200_NO_BURSTS |
//`define OR1200_NO_BURSTS |
// |
|
// |
492,29 → 290,29
// If you don't use them, then disable implementation |
// to save area. |
// |
`define OR1200_IMPL_ADDC |
//`define OR1200_IMPL_ADDC |
|
// |
// Implement carry bit SR[CY] |
// Implement l.sub instruction |
// |
// By default implementation of SR[CY] is enabled |
// to be compliant with the simulator. However |
// SR[CY] is explicitly only used by l.addc/l.addic |
// instructions and if these two insns are not |
// implemented there is not much point having SR[CY]. |
// By default implementation of l.sub instructions |
// is enabled to be compliant with the simulator. |
// If you don't use carry bit, then disable |
// implementation to save area. |
// |
`define OR1200_IMPL_CY |
`define OR1200_IMPL_SUB |
|
// |
// Implement optional l.div/l.divu instructions |
// Implement carry bit SR[CY] |
// |
// By default divide instructions are not implemented |
// to save area and increase clock frequency. or32 C/C++ |
// compiler can use soft library for division. |
// |
// To implement divide, multiplier needs to be implemented. |
// By default implementation of SR[CY] is enabled |
// to be compliant with the simulator. However SR[CY] |
// is explicitly only used by l.addc/l.addic/l.sub |
// instructions and if these three insns are not |
// implemented there is not much point having SR[CY]. |
// |
`define OR1200_IMPL_DIV |
//`define OR1200_IMPL_CY |
|
// |
// Implement rotate in the ALU |
558,6 → 356,17
`define OR1200_MAC_IMPLEMENTED |
|
// |
// Implement optional l.div/l.divu instructions |
// |
// By default divide instructions are not implemented |
// to save area and increase clock frequency. or32 C/C++ |
// compiler can use soft library for division. |
// |
// To implement divide, both multiplier and MAC needs to be implemented. |
// |
`define OR1200_DIV_IMPLEMENTED |
|
// |
// Low power, slower multiplier |
// |
// Select between low-power (larger) multiplier |
568,11 → 377,11
// |
//`define OR1200_LOWPWR_MULT |
|
|
// |
// Implement HW Single Precision FPU |
// |
`define OR1200_FPU_IMPLEMENTED |
//`define OR1200_FPU_IMPLEMENTED |
// |
|
// |
// Clock ratio RISC clock versus WB clock |
586,7 → 395,7
// For WB:RISC 1:4, 1:2 or 1:1, enable both defines and use |
// clmode to set ratio |
// |
`define OR1200_CLKDIV_2_SUPPORTED |
//`define OR1200_CLKDIV_2_SUPPORTED |
//`define OR1200_CLKDIV_4_SUPPORTED |
|
// |
595,7 → 404,7
// Memory macro w/ two ports (see or1200_tpram_32x32.v) |
//`define OR1200_RFRAM_TWOPORT |
// |
// Memory macro dual port (see or1200_dpram_32x32.v) |
// Memory macro dual port (see or1200_dpram.v) |
`define OR1200_RFRAM_DUALPORT |
|
// |
640,15 → 449,15
`define OR1200_ALUOP_COMP 4'd13 |
`define OR1200_ALUOP_MTSR 4'd14 |
`define OR1200_ALUOP_MFSR 4'd15 |
`define OR1200_ALUOP_CMOV 4'd14 |
`define OR1200_ALUOP_FF1 4'd15 |
`define OR1200_ALUOP_CMOV 4'd14 |
`define OR1200_ALUOP_FF1 4'd15 |
// |
// MACOPs |
// |
`define OR1200_MACOP_WIDTH 2 |
`define OR1200_MACOP_NOP 2'b00 |
`define OR1200_MACOP_MAC 2'b01 |
`define OR1200_MACOP_MSB 2'b10 |
`define OR1200_MACOP_WIDTH 3 |
`define OR1200_MACOP_NOP 3'b000 |
`define OR1200_MACOP_MAC 3'b001 |
`define OR1200_MACOP_MSB 3'b010 |
|
// |
// Shift/rotate ops |
665,6 → 474,11
`define OR1200_ONE_CYCLE 3'd0 |
`define OR1200_TWO_CYCLES 3'd1 |
|
// Execution control which will "wait on" a module to finish |
`define OR1200_WAIT_ON_WIDTH 2 |
`define OR1200_WAIT_ON_FPU `OR1200_WAIT_ON_WIDTH'd1 |
`define OR1200_WAIT_ON_MTSPR `OR1200_WAIT_ON_WIDTH'd2 |
|
// Operand MUX selects |
`define OR1200_SEL_WIDTH 2 |
`define OR1200_SEL_RF 2'd0 |
698,12 → 512,18
`define OR1200_LSUOP_LHS 4'b0101 |
`define OR1200_LSUOP_LWZ 4'b0110 |
`define OR1200_LSUOP_LWS 4'b0111 |
`define OR1200_LSUOP_LD 4'b0001 |
`define OR1200_LSUOP_SD 4'b1000 |
`define OR1200_LSUOP_SB 4'b1010 |
`define OR1200_LSUOP_SH 4'b1100 |
`define OR1200_LSUOP_SW 4'b1110 |
`define OR1200_LSUOP_LD 4'b0001 |
`define OR1200_LSUOP_SD 4'b1000 |
`define OR1200_LSUOP_SB 4'b1010 |
`define OR1200_LSUOP_SH 4'b1100 |
`define OR1200_LSUOP_SW 4'b1110 |
|
// Number of bits of load/store EA precalculated in ID stage |
// for balancing ID and EX stages. |
// |
// Valid range: 2,3,...,30,31 |
`define OR1200_LSUEA_PRECALC 2 |
|
// FETCHOPs |
`define OR1200_FETCHOP_WIDTH 1 |
`define OR1200_FETCHOP_NOP 1'b0 |
712,9 → 532,9
// |
// Register File Write-Back OPs |
// |
`ifdef OR1200_FPU_IMPLEMENTED |
// Bit 0: register file write enable |
// Bits 3-1: write-back mux selects |
// |
`define OR1200_RFWBOP_WIDTH 4 |
`define OR1200_RFWBOP_NOP 4'b0000 |
`define OR1200_RFWBOP_ALU 3'b000 |
722,16 → 542,6
`define OR1200_RFWBOP_SPRS 3'b010 |
`define OR1200_RFWBOP_LR 3'b011 |
`define OR1200_RFWBOP_FPU 3'b100 |
`else |
// Bit 0: register file write enable |
// Bits 2-1: write-back mux selects |
`define OR1200_RFWBOP_WIDTH 3 |
`define OR1200_RFWBOP_NOP 3'b000 |
`define OR1200_RFWBOP_ALU 2'b00 |
`define OR1200_RFWBOP_LSU 2'b01 |
`define OR1200_RFWBOP_SPRS 2'b10 |
`define OR1200_RFWBOP_LR 2'b11 |
`endif // !`ifdef OR1200_FPU_IMPLEMENTED |
|
// Compare instructions |
`define OR1200_COP_SFEQ 3'b000 |
745,33 → 555,31
`define OR1200_COMPOP_WIDTH 4 |
|
// |
// FPU OPs |
// FP OPs |
// |
// MSbit indicates FPU operation valid |
// |
`ifdef OR1200_FPU_IMPLEMENTED |
`define OR1200_FPUOP_WIDTH 8 |
/* FPU unit from Usselman takes 5 cycles from decode, so 4 ex. cycles */ |
`define OR1200_FPUOP_CYCLES 3'd4 |
/* FP instruction is double precision if bit 4 is set. We're a 32-bit |
implementation thus do not support double precision FP */ |
`define OR1200_FPUOP_DOUBLE_BIT 4 |
`define OR1200_FPUOP_ADD 8'b0000_0000 |
`define OR1200_FPUOP_SUB 8'b0000_0001 |
`define OR1200_FPUOP_MUL 8'b0000_0010 |
`define OR1200_FPUOP_DIV 8'b0000_0011 |
`define OR1200_FPUOP_ITOF 8'b0000_0100 |
`define OR1200_FPUOP_FTOI 8'b0000_0101 |
`define OR1200_FPUOP_REM 8'b0000_0110 |
`define OR1200_FPUOP_RESERVED 8'b0000_0111 |
`define OR1200_FPUOP_WIDTH 8 |
// FPU unit from Usselman takes 5 cycles from decode, so 4 ex. cycles |
`define OR1200_FPUOP_CYCLES 3'd4 |
// FP instruction is double precision if bit 4 is set. We're a 32-bit |
// implementation thus do not support double precision FP |
`define OR1200_FPUOP_DOUBLE_BIT 4 |
`define OR1200_FPUOP_ADD 8'b0000_0000 |
`define OR1200_FPUOP_SUB 8'b0000_0001 |
`define OR1200_FPUOP_MUL 8'b0000_0010 |
`define OR1200_FPUOP_DIV 8'b0000_0011 |
`define OR1200_FPUOP_ITOF 8'b0000_0100 |
`define OR1200_FPUOP_FTOI 8'b0000_0101 |
`define OR1200_FPUOP_REM 8'b0000_0110 |
`define OR1200_FPUOP_RESERVED 8'b0000_0111 |
// FP Compare instructions |
`define OR1200_FPCOP_SFEQ 8'b0000_1000 |
`define OR1200_FPCOP_SFNE 8'b0000_1001 |
`define OR1200_FPCOP_SFGT 8'b0000_1010 |
`define OR1200_FPCOP_SFGE 8'b0000_1011 |
`define OR1200_FPCOP_SFLT 8'b0000_1100 |
`define OR1200_FPCOP_SFLE 8'b0000_1101 |
`endif |
`define OR1200_FPCOP_SFEQ 8'b0000_1000 |
`define OR1200_FPCOP_SFNE 8'b0000_1001 |
`define OR1200_FPCOP_SFGT 8'b0000_1010 |
`define OR1200_FPCOP_SFGE 8'b0000_1011 |
`define OR1200_FPCOP_SFLT 8'b0000_1100 |
`define OR1200_FPCOP_SFLE 8'b0000_1101 |
|
// |
// TAGs for instruction bus |
837,9 → 645,7
/* */ |
`define OR1200_OR32_MTSPR 6'b110000 |
`define OR1200_OR32_MACMSB 6'b110001 |
`ifdef OR1200_FPU_IMPLEMENTED |
`define OR1200_OR32_FLOAT 6'b110010 |
`endif |
`define OR1200_OR32_FLOAT 6'b110010 |
/* */ |
`define OR1200_OR32_SW 6'b110101 |
`define OR1200_OR32_SB 6'b110110 |
848,6 → 654,7
`define OR1200_OR32_SFXX 6'b111001 |
//`define OR1200_OR32_CUST5 6'b111100 |
|
|
///////////////////////////////////////////////////// |
// |
// Exceptions |
892,7 → 699,6
// |
`define OR1200_EXCEPT_UNUSED `OR1200_EXCEPT_WIDTH'hf |
`define OR1200_EXCEPT_TRAP `OR1200_EXCEPT_WIDTH'he |
//`define OR1200_EXCEPT_BREAK `OR1200_EXCEPT_WIDTH'hd |
`define OR1200_EXCEPT_FLOAT `OR1200_EXCEPT_WIDTH'hd |
`define OR1200_EXCEPT_SYSCALL `OR1200_EXCEPT_WIDTH'hc |
`define OR1200_EXCEPT_RANGE `OR1200_EXCEPT_WIDTH'hb |
934,9 → 740,7
`define OR1200_SPR_GROUP_PM 5'd08 |
`define OR1200_SPR_GROUP_PIC 5'd09 |
`define OR1200_SPR_GROUP_TT 5'd10 |
`ifdef OR1200_FPU_IMPLEMENTED |
`define OR1200_SPR_GROUP_FPU 5'd11 |
`endif |
`define OR1200_SPR_GROUP_FPU 5'd11 |
|
///////////////////////////////////////////////////// |
// |
951,9 → 755,7
`define OR1200_SPR_NPC 11'd16 |
`define OR1200_SPR_SR 11'd17 |
`define OR1200_SPR_PPC 11'd18 |
`ifdef OR1200_FPU_IMPLEMENTED |
`define OR1200_SPR_FPCSR 11'd20 |
`endif |
`define OR1200_SPR_FPCSR 11'd20 |
`define OR1200_SPR_EPCR 11'd32 |
`define OR1200_SPR_EEAR 11'd48 |
`define OR1200_SPR_ESR 11'd64 |
961,7 → 763,7
// |
// SR bits |
// |
`define OR1200_SR_WIDTH 16 |
`define OR1200_SR_WIDTH 17 |
`define OR1200_SR_SM 0 |
`define OR1200_SR_TEE 1 |
`define OR1200_SR_IEE 2 |
978,6 → 780,7
`define OR1200_SR_DSX 13 // Unused |
`define OR1200_SR_EPH 14 |
`define OR1200_SR_FO 15 |
`define OR1200_SR_TED 16 |
`define OR1200_SR_CID 31:28 // Unimplemented |
|
// |
993,6 → 796,7
// |
`define OR1200_SR_EPH_DEF 1'b0 |
|
|
// |
// FPCSR bits |
// |
1010,7 → 814,6
`define OR1200_FPCSR_DZF 11 |
`define OR1200_FPCSR_RES 31:12 |
|
|
///////////////////////////////////////////////////// |
// |
// Power Management (PM) |
1058,14 → 861,18
// however already enough for use |
// with or32 gdb) |
// |
`define OR1200_DU_HWBKPTS |
//`define OR1200_DU_HWBKPTS |
|
// Number of DVR/DCR pairs, minus one, if HW breakpoints enabled |
`define OR1200_DU_DVRDCR_PAIRS 7 |
// Number of DVR/DCR pairs if HW breakpoints enabled |
// Comment / uncomment DU_DVRn / DU_DCRn pairs bellow according to this number ! |
// DU_DVR0..DU_DVR7 should be uncommented for 8 DU_DVRDCR_PAIRS |
`define OR1200_DU_DVRDCR_PAIRS 8 |
|
// Define if you want trace buffer |
// (for now only available for Xilinx Virtex FPGAs) |
//`define OR1200_DU_TB_IMPLEMENTED |
|
|
// |
// Address offsets of DU registers inside DU group |
// |
1134,8 → 941,8
// DMR2 bits |
`define OR1200_DU_DMR2_WCE0 0 |
`define OR1200_DU_DMR2_WCE1 1 |
`define OR1200_DU_DMR2_AWTC 11:2 |
`define OR1200_DU_DMR2_WGB 23:12 |
`define OR1200_DU_DMR2_AWTC 12:2 |
`define OR1200_DU_DMR2_WGB 23:13 |
|
// DWCR bits |
`define OR1200_DU_DWCR_COUNT 15:0 |
1318,7 → 1125,7
// cache inhibited 2GB-4GB (default) dcpu_adr_i[31] |
// cached 0GB-4GB 1'b0 |
// |
`define OR1200_DMMU_CI dcpu_cycstb_i && dcpu_adr_i[31] |
`define OR1200_DMMU_CI dcpu_adr_i[31] |
|
|
////////////////////////////////////////////// |
1426,9 → 1233,25
// 3 for 8 bytes, 4 for 16 bytes etc |
`define OR1200_DCLS 4 |
|
// Define to perform store refill (potential performance penalty) |
// `define OR1200_DC_STORE_REFILL |
// Define to enable default behavior of cache as write through |
// Turning this off enabled write back statergy |
// |
`define OR1200_DC_WRITETHROUGH |
|
// Define to enable stores from the stack not doing writethrough. |
// EXPERIMENTAL |
//`define OR1200_DC_NOSTACKWRITETHROUGH |
|
// Data cache SPR definitions |
`define OR1200_SPRGRP_DC_ADR_WIDTH 3 |
// Data cache group SPR addresses |
`define OR1200_SPRGRP_DC_DCCR 3'd0 // Not implemented |
`define OR1200_SPRGRP_DC_DCBPR 3'd1 // Not implemented |
`define OR1200_SPRGRP_DC_DCBFR 3'd2 |
`define OR1200_SPRGRP_DC_DCBIR 3'd3 |
`define OR1200_SPRGRP_DC_DCBWR 3'd4 // Not implemented |
`define OR1200_SPRGRP_DC_DCBLR 3'd5 // Not implemented |
|
// |
// DC configurations |
// |
1449,6 → 1272,7
`define OR1200_DCTAG_W 20 |
`endif |
|
|
///////////////////////////////////////////////// |
// |
// Store buffer (SB) |
1536,9 → 1360,9
// at higher addresses in reserved space. |
// |
`define OR1200_QMEM_IADDR 32'h0080_0000 |
`define OR1200_QMEM_IMASK 32'hfff0_0000 // Max QMEM size 1MB |
`define OR1200_QMEM_DADDR 32'h0080_0000 |
`define OR1200_QMEM_DMASK 32'hfff0_0000 // Max QMEM size 1MB |
`define OR1200_QMEM_IMASK 32'hfff0_0000 // Max QMEM size 1MB |
`define OR1200_QMEM_DADDR 32'h0080_0000 |
`define OR1200_QMEM_DMASK 32'hfff0_0000 // Max QMEM size 1MB |
|
// |
// QMEM interface byte-select capability |
1593,7 → 1417,7
`define OR1200_VR_VER_BITS 31:24 |
|
// VR values |
`define OR1200_VR_REV 6'h01 |
`define OR1200_VR_REV 6'h08 |
`define OR1200_VR_RES1 10'h000 |
`define OR1200_VR_CFG 8'h00 |
`define OR1200_VR_VER 8'h12 |
1610,7 → 1434,8
`define OR1200_UPR_PMP_BITS 8 |
`define OR1200_UPR_PICP_BITS 9 |
`define OR1200_UPR_TTP_BITS 10 |
`define OR1200_UPR_RES1_BITS 23:11 |
`define OR1200_UPR_FPP_BITS 11 |
`define OR1200_UPR_RES1_BITS 23:12 |
`define OR1200_UPR_CUP_BITS 31:24 |
|
// UPR values |
1635,7 → 1460,11
`else |
`define OR1200_UPR_IMP 1'b1 |
`endif |
`define OR1200_UPR_MP 1'b1 // MAC always present |
`ifdef OR1200_MAC_IMPLEMENTED |
`define OR1200_UPR_MP 1'b1 |
`else |
`define OR1200_UPR_MP 1'b0 |
`endif |
`ifdef OR1200_DU_IMPLEMENTED |
`define OR1200_UPR_DUP 1'b1 |
`else |
1642,22 → 1471,27
`define OR1200_UPR_DUP 1'b0 |
`endif |
`define OR1200_UPR_PCUP 1'b0 // Performance counters not present |
`ifdef OR1200_DU_IMPLEMENTED |
`ifdef OR1200_PM_IMPLEMENTED |
`define OR1200_UPR_PMP 1'b1 |
`else |
`define OR1200_UPR_PMP 1'b0 |
`endif |
`ifdef OR1200_DU_IMPLEMENTED |
`ifdef OR1200_PIC_IMPLEMENTED |
`define OR1200_UPR_PICP 1'b1 |
`else |
`define OR1200_UPR_PICP 1'b0 |
`endif |
`ifdef OR1200_DU_IMPLEMENTED |
`ifdef OR1200_TT_IMPLEMENTED |
`define OR1200_UPR_TTP 1'b1 |
`else |
`define OR1200_UPR_TTP 1'b0 |
`endif |
`define OR1200_UPR_RES1 13'h0000 |
`ifdef OR1200_FPU_IMPLEMENTED |
`define OR1200_UPR_FPP 1'b1 |
`else |
`define OR1200_UPR_FPP 1'b0 |
`endif |
`define OR1200_UPR_RES1 12'h000 |
`define OR1200_UPR_CUP 8'h00 |
|
// CPUCFGR fields |
1679,7 → 1513,12
`endif |
`define OR1200_CPUCFGR_OB32S 1'b1 |
`define OR1200_CPUCFGR_OB64S 1'b0 |
`define OR1200_CPUCFGR_OF32S 1'b0 |
`ifdef OR1200_FPU_IMPLEMENTED |
`define OR1200_CPUCFGR_OF32S 1'b1 |
`else |
`define OR1200_CPUCFGR_OF32S 1'b0 |
`endif |
|
`define OR1200_CPUCFGR_OF64S 1'b0 |
`define OR1200_CPUCFGR_OV64S 1'b0 |
`define OR1200_CPUCFGR_RES1 22'h000000 |
1765,11 → 1604,11
`define OR1200_DCCFGR_NCS 4'h0 // Irrelevant |
`define OR1200_DCCFGR_CBS 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CWS 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CCRI 1'b1 // Irrelevant |
`define OR1200_DCCFGR_CBIRI 1'b1 // Irrelevant |
`define OR1200_DCCFGR_CCRI 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CBIRI 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CBPRI 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CBLRI 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CBFRI 1'b1 // Irrelevant |
`define OR1200_DCCFGR_CBFRI 1'b0 // Irrelevant |
`define OR1200_DCCFGR_CBWBRI 1'b0 // Irrelevant |
`define OR1200_DCCFGR_RES1 17'h00000 |
`else |
1776,13 → 1615,21
`define OR1200_DCCFGR_NCW 3'h0 // 1 cache way |
`define OR1200_DCCFGR_NCS (`OR1200_DCTAG) // Num cache sets |
`define OR1200_DCCFGR_CBS (`OR1200_DCLS-4) // 16 byte cache block |
`define OR1200_DCCFGR_CWS 1'b0 // Write-through strategy |
`ifdef OR1200_DC_WRITETHROUGH |
`define OR1200_DCCFGR_CWS 1'b0 // Write-through strategy |
`else |
`define OR1200_DCCFGR_CWS 1'b1 // Write-back strategy |
`endif |
`define OR1200_DCCFGR_CCRI 1'b1 // Cache control reg impl. |
`define OR1200_DCCFGR_CBIRI 1'b1 // Cache block inv reg impl. |
`define OR1200_DCCFGR_CBPRI 1'b0 // Cache block prefetch reg not impl. |
`define OR1200_DCCFGR_CBLRI 1'b0 // Cache block lock reg not impl. |
`define OR1200_DCCFGR_CBFRI 1'b1 // Cache block flush reg impl. |
`define OR1200_DCCFGR_CBWBRI 1'b0 // Cache block WB reg not impl. |
`ifdef OR1200_DC_WRITETHROUGH |
`define OR1200_DCCFGR_CBWBRI 1'b0 // Cache block WB reg not impl. |
`else |
`define OR1200_DCCFGR_CBWBRI 1'b1 // Cache block WB reg impl. |
`endif |
`define OR1200_DCCFGR_RES1 17'h00000 |
`endif |
|
1827,13 → 1674,13
`endif |
|
// DCFGR fields |
`define OR1200_DCFGR_NDP_BITS 2:0 |
`define OR1200_DCFGR_WPCI_BITS 3 |
`define OR1200_DCFGR_RES1_BITS 31:4 |
`define OR1200_DCFGR_NDP_BITS 3:0 |
`define OR1200_DCFGR_WPCI_BITS 4 |
`define OR1200_DCFGR_RES1_BITS 31:5 |
|
// DCFGR values |
`ifdef OR1200_DU_HWBKPTS |
`define OR1200_DCFGR_NDP 3'h`OR1200_DU_DVRDCR_PAIRS // # of DVR/DCR pairs |
`define OR1200_DCFGR_NDP 4'h`OR1200_DU_DVRDCR_PAIRS // # of DVR/DCR pairs |
`ifdef OR1200_DU_DWCR0 |
`define OR1200_DCFGR_WPCI 1'b1 |
`else |
1840,8 → 1687,19
`define OR1200_DCFGR_WPCI 1'b0 // WP counters not impl. |
`endif |
`else |
`define OR1200_DCFGR_NDP 3'h0 // Zero DVR/DCR pairs |
`define OR1200_DCFGR_NDP 4'h0 // Zero DVR/DCR pairs |
`define OR1200_DCFGR_WPCI 1'b0 // WP counters not impl. |
`endif |
`define OR1200_DCFGR_RES1 28'h0000000 |
|
|
/////////////////////////////////////////////////////////////////////////////// |
// Boot Address Selection // |
// This only changes where the initial reset occurs. EPH setting is still // |
// used to determine where vectors are located. // |
/////////////////////////////////////////////////////////////////////////////// |
// Boot from 0xf0000100 |
//`define OR1200_BOOT_PCREG_DEFAULT 30'h3c00003f |
//`define OR1200_BOOT_ADR 32'hf0000100 |
// Boot from 0x100 |
`define OR1200_BOOT_PCREG_DEFAULT 30'h0000003f |
`define OR1200_BOOT_ADR 32'h00000100 |
/verilog/components/or1200r2/or1200_dc_fsm.v
File deleted
verilog/components/or1200r2/or1200_dc_fsm.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dpram_256x32.v
===================================================================
--- verilog/components/or1200r2/or1200_dpram_256x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_dpram_256x32.v (nonexistent)
@@ -1,214 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Double-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common double-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// double-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// ////
-//// To Do: ////
-//// - add additional RAMs ////
-//// - xilinx rams need external tri-state logic ////
-//// ////
-//// Author(s): ////
-//// - Nir Mor, nirm@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2005 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_dpram_256x32(
- // Generic synchronous double-port RAM interface
- clk_a, rst_a, ce_a, oe_a, addr_a, do_a,
- clk_b, rst_b, ce_b, we_b, addr_b, di_b
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 8;
-parameter dw = 32;
-
-//
-// Generic synchronous double-port RAM interface
-//
-input clk_a; // Clock
-input rst_a; // Reset
-input ce_a; // Chip enable input
-input oe_a; // Output enable input
-input [aw-1:0] addr_a; // address bus inputs
-output [dw-1:0] do_a; // output data bus
-input clk_b; // Clock
-input rst_b; // Reset
-input ce_b; // Chip enable input
-input we_b; // Write enable input
-input [aw-1:0] addr_b; // address bus inputs
-input [dw-1:0] di_b; // input data bus
-
-
-`ifdef OR1200_XILINX_RAMB4
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex/Spartan2
-//
-
-//
-// Block 0
-//
-RAMB4_S16_S16 ramb4_s16_0(
- .CLKA(clk_a),
- .RSTA(rst_a),
- .ADDRA(addr_a),
- .DIA(16'h0000),
- .ENA(ce_a),
- .WEA(1'b0),
- .DOA(do_a[15:0]),
-
- .CLKB(clk_b),
- .RSTB(rst_b),
- .ADDRB(addr_b),
- .DIB(di_b[15:0]),
- .ENB(ce_b),
- .WEB(we_b),
- .DOB()
-);
-
-//
-// Block 1
-//
-RAMB4_S16_S16 ramb4_s16_1(
- .CLKA(clk_a),
- .RSTA(rst_a),
- .ADDRA(addr_a),
- .DIA(16'h0000),
- .ENA(ce_a),
- .WEA(1'b0),
- .DOA(do_a[31:16]),
-
- .CLKB(clk_b),
- .RSTB(rst_b),
- .ADDRB(addr_b),
- .DIB(di_b[31:16]),
- .ENB(ce_b),
- .WEB(we_b),
- .DOB()
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB16
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex4/Spartan3E
-//
-// Added By Nir Mor
-//
-
-RAMB16_S36_S36 ramb16_s36_s36(
- .CLKA(clk_a),
- .SSRA(rst_a),
- .ADDRA({1'b0, addr_a}),
- .DIA(32'h00000000),
- .DIPA(4'h0),
- .ENA(ce_a),
- .WEA(1'b0),
- .DOA(do_a),
- .DOPA(),
-
- .CLKB(clk_b),
- .SSRB(rst_b),
- .ADDRB({1'b0, addr_b}),
- .DIB(di_b),
- .DIPB(4'h0),
- .ENB(ce_b),
- .WEB(we_b),
- .DOB(),
- .DOPB()
-);
-
-`else
-
-//
-// Generic double-port synchronous RAM model
-//
-
-//
-// Generic RAM's registers and wires
-//
-reg [dw-1:0] mem [(1<
verilog/components/or1200r2/or1200_dpram_256x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_genpc.v
===================================================================
--- verilog/components/or1200r2/or1200_genpc.v (revision 185)
+++ verilog/components/or1200r2/or1200_genpc.v (nonexistent)
@@ -1,338 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's generate PC ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// PC, interface to IC. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_genpc.v,v $
-// Revision 1.10 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.9 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.7.4.3 2003/12/17 13:43:38 simons
-// Exception prefix configuration changed.
-//
-// Revision 1.7.4.2 2003/12/04 23:44:31 lampret
-// Static exception prefix.
-//
-// Revision 1.7.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.7 2003/04/20 22:23:57 lampret
-// No functional change. Only added customization for exception vectors.
-//
-// Revision 1.6 2002/03/29 15:16:55 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.5 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.4 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.3 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/20 18:46:15 simons
-// Break point bug fixed
-//
-// Revision 1.9 2001/11/18 09:58:28 lampret
-// Fixed some l.trap typos.
-//
-// Revision 1.8 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_genpc(
- // Clock and reset
- clk, rst,
-
- // External i/f to IC
- icpu_adr_o, icpu_cycstb_o, icpu_sel_o, icpu_tag_o,
- icpu_rty_i, icpu_adr_i,
-
- // Internal i/f
- pre_branch_op, branch_op, except_type, except_prefix,
- branch_addrofs, lr_restor, flag, taken, except_start,
- binsn_addr, epcr, spr_dat_i, spr_pc_we, genpc_refetch,
- genpc_freeze, genpc_stop_prefetch, no_more_dslot
-);
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// External i/f to IC
-//
-output [31:0] icpu_adr_o;
-output icpu_cycstb_o;
-output [3:0] icpu_sel_o;
-output [3:0] icpu_tag_o;
-input icpu_rty_i;
-input [31:0] icpu_adr_i;
-
-//
-// Internal i/f
-//
-input [`OR1200_BRANCHOP_WIDTH-1:0] pre_branch_op;
-input [`OR1200_BRANCHOP_WIDTH-1:0] branch_op;
-input [`OR1200_EXCEPT_WIDTH-1:0] except_type;
-input except_prefix;
-input [31:2] branch_addrofs;
-input [31:0] lr_restor;
-input flag;
-output taken;
-input except_start;
-input [31:2] binsn_addr;
-input [31:0] epcr;
-input [31:0] spr_dat_i;
-input spr_pc_we;
-input genpc_refetch;
-input genpc_stop_prefetch;
-input genpc_freeze;
-input no_more_dslot;
-
-//
-// Internal wires and regs
-//
-reg [31:2] pcreg_default;
-wire [31:0] pcreg_boot;
-reg pcreg_select;
-reg [31:2] pcreg;
-reg [31:0] pc;
-reg taken; /* Set to in case of jump or taken branch */
-reg genpc_refetch_r;
-
-//
-// Address of insn to be fecthed
-//
-assign icpu_adr_o = !no_more_dslot & !except_start & !spr_pc_we & (icpu_rty_i | genpc_refetch) ? icpu_adr_i : pc;
-// assign icpu_adr_o = !except_start & !spr_pc_we & (icpu_rty_i | genpc_refetch) ? icpu_adr_i : pc;
-
-//
-// Control access to IC subsystem
-//
-// assign icpu_cycstb_o = !genpc_freeze & !no_more_dslot;
-assign icpu_cycstb_o = ~(genpc_freeze | (|pre_branch_op && !icpu_rty_i));
-//assign icpu_cycstb_o = !(genpc_freeze | genpc_refetch & genpc_refetch_r);
-//assign icpu_cycstb_o = !(genpc_freeze | genpc_stop_prefetch);
-assign icpu_sel_o = 4'b1111;
-assign icpu_tag_o = `OR1200_ITAG_NI;
-
-//
-// genpc_freeze_r
-//
-always @(posedge clk or posedge rst)
- if (rst)
- genpc_refetch_r <= #1 1'b0;
- else if (genpc_refetch)
- genpc_refetch_r <= #1 1'b1;
- else
- genpc_refetch_r <= #1 1'b0;
-
-//
-// Async calculation of new PC value. This value is used for addressing the IC.
-//
-always @(pcreg or branch_addrofs or binsn_addr or flag or branch_op or except_type
- or except_start or lr_restor or epcr or spr_pc_we or spr_dat_i or except_prefix) begin
- casex ({spr_pc_we, except_start, branch_op}) // synopsys parallel_case
- {2'b00, `OR1200_BRANCHOP_NOP}: begin
- pc = {pcreg + 30'd1, 2'b0};
- taken = 1'b0;
- end
- {2'b00, `OR1200_BRANCHOP_J}: begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_J: pc <= branch_addrofs %h", $time, branch_addrofs);
-// synopsys translate_on
-`endif
- pc = {branch_addrofs, 2'b0};
- taken = 1'b1;
- end
- {2'b00, `OR1200_BRANCHOP_JR}: begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_JR: pc <= lr_restor %h", $time, lr_restor);
-// synopsys translate_on
-`endif
- pc = lr_restor;
- taken = 1'b1;
- end
- {2'b00, `OR1200_BRANCHOP_BAL}: begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_BAL: pc %h = binsn_addr %h + branch_addrofs %h", $time, binsn_addr + branch_addrofs, binsn_addr, branch_addrofs);
-// synopsys translate_on
-`endif
- pc = {binsn_addr + branch_addrofs, 2'b0};
- taken = 1'b1;
- end
- {2'b00, `OR1200_BRANCHOP_BF}:
- if (flag) begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_BF: pc %h = binsn_addr %h + branch_addrofs %h", $time, binsn_addr + branch_addrofs, binsn_addr, branch_addrofs);
-// synopsys translate_on
-`endif
- pc = {binsn_addr + branch_addrofs, 2'b0};
- taken = 1'b1;
- end
- else begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_BF: not taken", $time);
-// synopsys translate_on
-`endif
- pc = {pcreg + 30'd1, 2'b0};
- taken = 1'b0;
- end
- {2'b00, `OR1200_BRANCHOP_BNF}:
- if (flag) begin
- pc = {pcreg + 30'd1, 2'b0};
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_BNF: not taken", $time);
-// synopsys translate_on
-`endif
- taken = 1'b0;
- end
- else begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_BNF: pc %h = binsn_addr %h + branch_addrofs %h", $time, binsn_addr + branch_addrofs, binsn_addr, branch_addrofs);
-// synopsys translate_on
-`endif
- pc = {binsn_addr + branch_addrofs, 2'b0};
- taken = 1'b1;
- end
- {2'b00, `OR1200_BRANCHOP_RFE}: begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: BRANCHOP_RFE: pc <= epcr %h", $time, epcr);
-// synopsys translate_on
-`endif
- pc = epcr;
- taken = 1'b1;
- end
- {2'b01, 3'bxxx}: begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("Starting exception: %h.", except_type);
-// synopsys translate_on
-`endif
- pc = {(except_prefix ? `OR1200_EXCEPT_EPH1_P : `OR1200_EXCEPT_EPH0_P), except_type, `OR1200_EXCEPT_V};
- taken = 1'b1;
- end
- default: begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("l.mtspr writing into PC: %h.", spr_dat_i);
-// synopsys translate_on
-`endif
- pc = spr_dat_i;
- taken = 1'b0;
- end
- endcase
-end
-
-//
-// PC register
-//
-//
-always @(posedge clk or posedge rst)
- if (rst) begin
- pcreg_default <= #1 30'd63;
- pcreg_select <= #1 1'b1;
- end
- else if (pcreg_select) begin
- pcreg_default <= #1 pcreg_boot[31:2];
- pcreg_select <= #1 1'b0;
- end
- else if (spr_pc_we) begin
- pcreg_default <= #1 spr_dat_i[31:2];
- end
- else if (no_more_dslot | except_start | !genpc_freeze & !icpu_rty_i & !genpc_refetch) begin
- pcreg_default <= #1 pc[31:2];
- end
-
-assign pcreg_boot = {(except_prefix ? `OR1200_EXCEPT_EPH1_P : `OR1200_EXCEPT_EPH0_P), `OR1200_EXCEPT_RESET, `OR1200_EXCEPT_V} - 1;
-
-always @(pcreg_boot or pcreg_default or pcreg_select)
- if (pcreg_select)
- pcreg = pcreg_boot[31:2];
- else
- pcreg = pcreg_default ;
-
-endmodule
verilog/components/or1200r2/or1200_genpc.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_reg2mem.v
===================================================================
--- verilog/components/or1200r2/or1200_reg2mem.v (revision 185)
+++ verilog/components/or1200r2/or1200_reg2mem.v (nonexistent)
@@ -1,137 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's reg2mem aligner ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Aligns register data to memory alignment. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_reg2mem.v,v $
-// Revision 1.2 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/19 23:28:46 lampret
-// Fixed some synthesis warnings. Configured with caches and MMUs.
-//
-// Revision 1.7 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_reg2mem(addr, lsu_op, regdata, memdata);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-input [1:0] addr;
-input [`OR1200_LSUOP_WIDTH-1:0] lsu_op;
-input [width-1:0] regdata;
-output [width-1:0] memdata;
-
-//
-// Internal regs and wires
-//
-reg [7:0] memdata_hh;
-reg [7:0] memdata_hl;
-reg [7:0] memdata_lh;
-reg [7:0] memdata_ll;
-
-assign memdata = {memdata_hh, memdata_hl, memdata_lh, memdata_ll};
-
-//
-// Mux to memdata[31:24]
-//
-always @(lsu_op or addr or regdata) begin
- casex({lsu_op, addr[1:0]}) // synopsys parallel_case
- {`OR1200_LSUOP_SB, 2'b00} : memdata_hh = regdata[7:0];
- {`OR1200_LSUOP_SH, 2'b00} : memdata_hh = regdata[15:8];
- default : memdata_hh = regdata[31:24];
- endcase
-end
-
-//
-// Mux to memdata[23:16]
-//
-always @(lsu_op or addr or regdata) begin
- casex({lsu_op, addr[1:0]}) // synopsys parallel_case
- {`OR1200_LSUOP_SW, 2'b00} : memdata_hl = regdata[23:16];
- default : memdata_hl = regdata[7:0];
- endcase
-end
-
-//
-// Mux to memdata[15:8]
-//
-always @(lsu_op or addr or regdata) begin
- casex({lsu_op, addr[1:0]}) // synopsys parallel_case
- {`OR1200_LSUOP_SB, 2'b10} : memdata_lh = regdata[7:0];
- default : memdata_lh = regdata[15:8];
- endcase
-end
-
-//
-// Mux to memdata[7:0]
-//
-always @(regdata)
- memdata_ll = regdata[7:0];
-
-endmodule
verilog/components/or1200r2/or1200_reg2mem.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_mem2reg.v
===================================================================
--- verilog/components/or1200r2/or1200_mem2reg.v (revision 185)
+++ verilog/components/or1200r2/or1200_mem2reg.v (nonexistent)
@@ -1,436 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's mem2reg alignment ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Two versions of Memory to register data alignment. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_mem2reg.v,v $
-// Revision 1.5 2002/09/03 22:28:21 lampret
-// As per Taylor Su suggestion all case blocks are full case by default and optionally (OR1200_CASE_DEFAULT) can be disabled to increase clock frequncy.
-//
-// Revision 1.4 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.3 2002/03/28 19:14:10 lampret
-// Changed define name from OR1200_MEM2REG_FAST to OR1200_IMPL_MEM2REG2
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/19 23:28:46 lampret
-// Fixed some synthesis warnings. Configured with caches and MMUs.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_mem2reg(addr, lsu_op, memdata, regdata);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-input [1:0] addr;
-input [`OR1200_LSUOP_WIDTH-1:0] lsu_op;
-input [width-1:0] memdata;
-output [width-1:0] regdata;
-
-
-//
-// In the past faster implementation of mem2reg (today probably slower)
-//
-`ifdef OR1200_IMPL_MEM2REG2
-
-`define OR1200_M2R_BYTE0 4'b0000
-`define OR1200_M2R_BYTE1 4'b0001
-`define OR1200_M2R_BYTE2 4'b0010
-`define OR1200_M2R_BYTE3 4'b0011
-`define OR1200_M2R_EXTB0 4'b0100
-`define OR1200_M2R_EXTB1 4'b0101
-`define OR1200_M2R_EXTB2 4'b0110
-`define OR1200_M2R_EXTB3 4'b0111
-`define OR1200_M2R_ZERO 4'b0000
-
-reg [7:0] regdata_hh;
-reg [7:0] regdata_hl;
-reg [7:0] regdata_lh;
-reg [7:0] regdata_ll;
-reg [width-1:0] aligned;
-reg [3:0] sel_byte0, sel_byte1,
- sel_byte2, sel_byte3;
-
-assign regdata = {regdata_hh, regdata_hl, regdata_lh, regdata_ll};
-
-//
-// Byte select 0
-//
-always @(addr or lsu_op) begin
- casex({lsu_op[2:0], addr}) // synopsys parallel_case
- {3'b01x, 2'b00}: // lbz/lbs 0
- sel_byte0 = `OR1200_M2R_BYTE3; // take byte 3
- {3'b01x, 2'b01}, // lbz/lbs 1
- {3'b10x, 2'b00}: // lhz/lhs 0
- sel_byte0 = `OR1200_M2R_BYTE2; // take byte 2
- {3'b01x, 2'b10}: // lbz/lbs 2
- sel_byte0 = `OR1200_M2R_BYTE1; // take byte 1
- default: // all other cases
- sel_byte0 = `OR1200_M2R_BYTE0; // take byte 0
- endcase
-end
-
-//
-// Byte select 1
-//
-always @(addr or lsu_op) begin
- casex({lsu_op[2:0], addr}) // synopsys parallel_case
- {3'b010, 2'bxx}: // lbz
- sel_byte1 = `OR1200_M2R_ZERO; // zero extend
- {3'b011, 2'b00}: // lbs 0
- sel_byte1 = `OR1200_M2R_EXTB3; // sign extend from byte 3
- {3'b011, 2'b01}: // lbs 1
- sel_byte1 = `OR1200_M2R_EXTB2; // sign extend from byte 2
- {3'b011, 2'b10}: // lbs 2
- sel_byte1 = `OR1200_M2R_EXTB1; // sign extend from byte 1
- {3'b011, 2'b11}: // lbs 3
- sel_byte1 = `OR1200_M2R_EXTB0; // sign extend from byte 0
- {3'b10x, 2'b00}: // lhz/lhs 0
- sel_byte1 = `OR1200_M2R_BYTE3; // take byte 3
- default: // all other cases
- sel_byte1 = `OR1200_M2R_BYTE1; // take byte 1
- endcase
-end
-
-//
-// Byte select 2
-//
-always @(addr or lsu_op) begin
- casex({lsu_op[2:0], addr}) // synopsys parallel_case
- {3'b010, 2'bxx}, // lbz
- {3'b100, 2'bxx}: // lhz
- sel_byte2 = `OR1200_M2R_ZERO; // zero extend
- {3'b011, 2'b00}, // lbs 0
- {3'b101, 2'b00}: // lhs 0
- sel_byte2 = `OR1200_M2R_EXTB3; // sign extend from byte 3
- {3'b011, 2'b01}: // lbs 1
- sel_byte2 = `OR1200_M2R_EXTB2; // sign extend from byte 2
- {3'b011, 2'b10}, // lbs 2
- {3'b101, 2'b10}: // lhs 0
- sel_byte2 = `OR1200_M2R_EXTB1; // sign extend from byte 1
- {3'b011, 2'b11}: // lbs 3
- sel_byte2 = `OR1200_M2R_EXTB0; // sign extend from byte 0
- default: // all other cases
- sel_byte2 = `OR1200_M2R_BYTE2; // take byte 2
- endcase
-end
-
-//
-// Byte select 3
-//
-always @(addr or lsu_op) begin
- casex({lsu_op[2:0], addr}) // synopsys parallel_case
- {3'b010, 2'bxx}, // lbz
- {3'b100, 2'bxx}: // lhz
- sel_byte3 = `OR1200_M2R_ZERO; // zero extend
- {3'b011, 2'b00}, // lbs 0
- {3'b101, 2'b00}: // lhs 0
- sel_byte3 = `OR1200_M2R_EXTB3; // sign extend from byte 3
- {3'b011, 2'b01}: // lbs 1
- sel_byte3 = `OR1200_M2R_EXTB2; // sign extend from byte 2
- {3'b011, 2'b10}, // lbs 2
- {3'b101, 2'b10}: // lhs 0
- sel_byte3 = `OR1200_M2R_EXTB1; // sign extend from byte 1
- {3'b011, 2'b11}: // lbs 3
- sel_byte3 = `OR1200_M2R_EXTB0; // sign extend from byte 0
- default: // all other cases
- sel_byte3 = `OR1200_M2R_BYTE3; // take byte 3
- endcase
-end
-
-//
-// Byte 0
-//
-always @(sel_byte0 or memdata) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte0) // synopsys parallel_case infer_mux
-`else
- case(sel_byte0) // synopsys full_case parallel_case infer_mux
-`endif
-`else
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte0) // synopsys parallel_case
-`else
- case(sel_byte0) // synopsys full_case parallel_case
-`endif
-`endif
- `OR1200_M2R_BYTE0: begin
- regdata_ll = memdata[7:0];
- end
- `OR1200_M2R_BYTE1: begin
- regdata_ll = memdata[15:8];
- end
- `OR1200_M2R_BYTE2: begin
- regdata_ll = memdata[23:16];
- end
-`ifdef OR1200_CASE_DEFAULT
- default: begin
-`else
- `OR1200_M2R_BYTE3: begin
-`endif
- regdata_ll = memdata[31:24];
- end
- endcase
-end
-
-//
-// Byte 1
-//
-always @(sel_byte1 or memdata) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte1) // synopsys parallel_case infer_mux
-`else
- case(sel_byte1) // synopsys full_case parallel_case infer_mux
-`endif
-`else
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte1) // synopsys parallel_case
-`else
- case(sel_byte1) // synopsys full_case parallel_case
-`endif
-`endif
- `OR1200_M2R_ZERO: begin
- regdata_lh = 8'h00;
- end
- `OR1200_M2R_BYTE1: begin
- regdata_lh = memdata[15:8];
- end
- `OR1200_M2R_BYTE3: begin
- regdata_lh = memdata[31:24];
- end
- `OR1200_M2R_EXTB0: begin
- regdata_lh = {8{memdata[7]}};
- end
- `OR1200_M2R_EXTB1: begin
- regdata_lh = {8{memdata[15]}};
- end
- `OR1200_M2R_EXTB2: begin
- regdata_lh = {8{memdata[23]}};
- end
-`ifdef OR1200_CASE_DEFAULT
- default: begin
-`else
- `OR1200_M2R_EXTB3: begin
-`endif
- regdata_lh = {8{memdata[31]}};
- end
- endcase
-end
-
-//
-// Byte 2
-//
-always @(sel_byte2 or memdata) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte2) // synopsys parallel_case infer_mux
-`else
- case(sel_byte2) // synopsys full_case parallel_case infer_mux
-`endif
-`else
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte2) // synopsys parallel_case
-`else
- case(sel_byte2) // synopsys full_case parallel_case
-`endif
-`endif
- `OR1200_M2R_ZERO: begin
- regdata_hl = 8'h00;
- end
- `OR1200_M2R_BYTE2: begin
- regdata_hl = memdata[23:16];
- end
- `OR1200_M2R_EXTB0: begin
- regdata_hl = {8{memdata[7]}};
- end
- `OR1200_M2R_EXTB1: begin
- regdata_hl = {8{memdata[15]}};
- end
- `OR1200_M2R_EXTB2: begin
- regdata_hl = {8{memdata[23]}};
- end
-`ifdef OR1200_CASE_DEFAULT
- default: begin
-`else
- `OR1200_M2R_EXTB3: begin
-`endif
- regdata_hl = {8{memdata[31]}};
- end
- endcase
-end
-
-//
-// Byte 3
-//
-always @(sel_byte3 or memdata) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte3) // synopsys parallel_case infer_mux
-`else
- case(sel_byte3) // synopsys full_case parallel_case infer_mux
-`endif
-`else
-`ifdef OR1200_CASE_DEFAULT
- case(sel_byte3) // synopsys parallel_case
-`else
- case(sel_byte3) // synopsys full_case parallel_case
-`endif
-`endif
- `OR1200_M2R_ZERO: begin
- regdata_hh = 8'h00;
- end
- `OR1200_M2R_BYTE3: begin
- regdata_hh = memdata[31:24];
- end
- `OR1200_M2R_EXTB0: begin
- regdata_hh = {8{memdata[7]}};
- end
- `OR1200_M2R_EXTB1: begin
- regdata_hh = {8{memdata[15]}};
- end
- `OR1200_M2R_EXTB2: begin
- regdata_hh = {8{memdata[23]}};
- end
-`ifdef OR1200_CASE_DEFAULT
- `OR1200_M2R_EXTB3: begin
-`else
- `OR1200_M2R_EXTB3: begin
-`endif
- regdata_hh = {8{memdata[31]}};
- end
- endcase
-end
-
-`else
-
-//
-// Straightforward implementation of mem2reg
-//
-
-reg [width-1:0] regdata;
-reg [width-1:0] aligned;
-
-//
-// Alignment
-//
-always @(addr or memdata) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
- case(addr) // synopsys parallel_case infer_mux
-`else
- case(addr) // synopsys parallel_case
-`endif
- 2'b00:
- aligned = memdata;
- 2'b01:
- aligned = {memdata[23:0], 8'b0};
- 2'b10:
- aligned = {memdata[15:0], 16'b0};
- 2'b11:
- aligned = {memdata[7:0], 24'b0};
- endcase
-end
-
-//
-// Bytes
-//
-always @(lsu_op or aligned) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
- case(lsu_op) // synopsys parallel_case infer_mux
-`else
- case(lsu_op) // synopsys parallel_case
-`endif
- `OR1200_LSUOP_LBZ: begin
- regdata[7:0] = aligned[31:24];
- regdata[31:8] = 24'b0;
- end
- `OR1200_LSUOP_LBS: begin
- regdata[7:0] = aligned[31:24];
- regdata[31:8] = {24{aligned[31]}};
- end
- `OR1200_LSUOP_LHZ: begin
- regdata[15:0] = aligned[31:16];
- regdata[31:16] = 16'b0;
- end
- `OR1200_LSUOP_LHS: begin
- regdata[15:0] = aligned[31:16];
- regdata[31:16] = {16{aligned[31]}};
- end
- default:
- regdata = aligned;
- endcase
-end
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_mem2reg.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_if.v
===================================================================
--- verilog/components/or1200r2/or1200_if.v (revision 185)
+++ verilog/components/or1200r2/or1200_if.v (nonexistent)
@@ -1,192 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's instruction fetch ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// PC, instruction fetch, interface to IC. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_if.v,v $
-// Revision 1.5 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.2 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/20 18:46:15 simons
-// Break point bug fixed
-//
-// Revision 1.9 2001/11/18 09:58:28 lampret
-// Fixed some l.trap typos.
-//
-// Revision 1.8 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_if(
- // Clock and reset
- clk, rst,
-
- // External i/f to IC
- icpu_dat_i, icpu_ack_i, icpu_err_i, icpu_adr_i, icpu_tag_i,
-
- // Internal i/f
- if_freeze, if_insn, if_pc, flushpipe,
- if_stall, no_more_dslot, genpc_refetch, rfe,
- except_itlbmiss, except_immufault, except_ibuserr
-);
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// External i/f to IC
-//
-input [31:0] icpu_dat_i;
-input icpu_ack_i;
-input icpu_err_i;
-input [31:0] icpu_adr_i;
-input [3:0] icpu_tag_i;
-
-//
-// Internal i/f
-//
-input if_freeze;
-output [31:0] if_insn;
-output [31:0] if_pc;
-input flushpipe;
-output if_stall;
-input no_more_dslot;
-output genpc_refetch;
-input rfe;
-output except_itlbmiss;
-output except_immufault;
-output except_ibuserr;
-
-//
-// Internal wires and regs
-//
-reg [31:0] insn_saved;
-reg [31:0] addr_saved;
-reg saved;
-
-//
-// IF stage insn
-//
-assign if_insn = no_more_dslot | rfe ? {`OR1200_OR32_NOP, 26'h041_0000} : saved ? insn_saved : icpu_err_i ? {`OR1200_OR32_NOP, 26'h041_0000} : icpu_ack_i ? icpu_dat_i : {`OR1200_OR32_NOP, 26'h061_0000};
-assign if_pc = saved ? addr_saved : icpu_adr_i;
-// assign if_stall = !icpu_err_i & !icpu_ack_i & !saved & !no_more_dslot;
-assign if_stall = !icpu_err_i & !icpu_ack_i & !saved;
-assign genpc_refetch = saved & icpu_ack_i;
-assign except_itlbmiss = saved | no_more_dslot ? 1'b0 : icpu_err_i & (icpu_tag_i == `OR1200_ITAG_TE);
-assign except_immufault = saved | no_more_dslot ? 1'b0 : icpu_err_i & (icpu_tag_i == `OR1200_ITAG_PE);
-assign except_ibuserr = saved | no_more_dslot ? 1'b0 : icpu_err_i & (icpu_tag_i == `OR1200_ITAG_BE);
-
-//
-// Flag for saved insn/address
-//
-always @(posedge clk or posedge rst)
- if (rst)
- saved <= #1 1'b0;
- else if (flushpipe)
- saved <= #1 1'b0;
- else if (icpu_ack_i & if_freeze & !saved)
- saved <= #1 1'b1;
- else if (!if_freeze)
- saved <= #1 1'b0;
-
-//
-// Store fetched instruction
-//
-always @(posedge clk or posedge rst)
- if (rst)
- insn_saved <= #1 {`OR1200_OR32_NOP, 26'h041_0000};
- else if (flushpipe)
- insn_saved <= #1 {`OR1200_OR32_NOP, 26'h041_0000};
- else if (icpu_ack_i & if_freeze & !saved)
- insn_saved <= #1 icpu_dat_i;
- else if (!if_freeze)
- insn_saved <= #1 {`OR1200_OR32_NOP, 26'h041_0000};
-
-//
-// Store fetched instruction's address
-//
-always @(posedge clk or posedge rst)
- if (rst)
- addr_saved <= #1 32'h00000000;
- else if (flushpipe)
- addr_saved <= #1 32'h00000000;
- else if (icpu_ack_i & if_freeze & !saved)
- addr_saved <= #1 icpu_adr_i;
- else if (!if_freeze)
- addr_saved <= #1 icpu_adr_i;
-
-endmodule
verilog/components/or1200r2/or1200_if.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_mult_mac.v
===================================================================
--- verilog/components/or1200r2/or1200_mult_mac.v (revision 185)
+++ verilog/components/or1200r2/or1200_mult_mac.v (nonexistent)
@@ -1,341 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Top level multiplier and MAC ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Multiplier is 32x32 however multiply instructions only ////
-//// use lower 32 bits of the result. MAC is 32x32=64+64. ////
-//// ////
-//// To Do: ////
-//// - make signed division better, w/o negating the operands ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_mult_mac.v,v $
-// Revision 1.5 2006/04/09 01:32:29 lampret
-// See OR1200_MAC_SHIFTBY in or1200_defines.v for explanation of the change. Since now no more 28 bits shift for l.macrc insns however for backward compatbility it is possible to set arbitry number of shifts.
-//
-// Revision 1.4 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.3 2003/04/24 00:16:07 lampret
-// No functional changes. Added defines to disable implementation of multiplier/MAC
-//
-// Revision 1.2 2002/09/08 05:52:16 lampret
-// Added optional l.div/l.divu insns. By default they are disabled.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.3 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.2 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:38 igorm
-// no message
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_mult_mac(
- // Clock and reset
- clk, rst,
-
- // Multiplier/MAC interface
- ex_freeze, id_macrc_op, macrc_op, a, b, mac_op, alu_op, result, mac_stall_r,
-
- // SPR interface
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o
-);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// Multiplier/MAC interface
-//
-input ex_freeze;
-input id_macrc_op;
-input macrc_op;
-input [width-1:0] a;
-input [width-1:0] b;
-input [`OR1200_MACOP_WIDTH-1:0] mac_op;
-input [`OR1200_ALUOP_WIDTH-1:0] alu_op;
-output [width-1:0] result;
-output mac_stall_r;
-
-//
-// SPR interface
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
-//
-// Internal wires and regs
-//
-`ifdef OR1200_MULT_IMPLEMENTED
-reg [width-1:0] result;
-reg [2*width-1:0] mul_prod_r;
-`else
-wire [width-1:0] result;
-wire [2*width-1:0] mul_prod_r;
-`endif
-wire [2*width-1:0] mul_prod;
-wire [`OR1200_MACOP_WIDTH-1:0] mac_op;
-`ifdef OR1200_MAC_IMPLEMENTED
-reg [`OR1200_MACOP_WIDTH-1:0] mac_op_r1;
-reg [`OR1200_MACOP_WIDTH-1:0] mac_op_r2;
-reg [`OR1200_MACOP_WIDTH-1:0] mac_op_r3;
-reg mac_stall_r;
-reg [2*width-1:0] mac_r;
-`else
-wire [`OR1200_MACOP_WIDTH-1:0] mac_op_r1;
-wire [`OR1200_MACOP_WIDTH-1:0] mac_op_r2;
-wire [`OR1200_MACOP_WIDTH-1:0] mac_op_r3;
-wire mac_stall_r;
-wire [2*width-1:0] mac_r;
-`endif
-wire [width-1:0] x;
-wire [width-1:0] y;
-wire spr_maclo_we;
-wire spr_machi_we;
-wire alu_op_div_divu;
-wire alu_op_div;
-reg div_free;
-`ifdef OR1200_IMPL_DIV
-wire [width-1:0] div_tmp;
-reg [5:0] div_cntr;
-`endif
-
-//
-// Combinatorial logic
-//
-`ifdef OR1200_MAC_IMPLEMENTED
-assign spr_maclo_we = spr_cs & spr_write & spr_addr[`OR1200_MAC_ADDR];
-assign spr_machi_we = spr_cs & spr_write & !spr_addr[`OR1200_MAC_ADDR];
-assign spr_dat_o = spr_addr[`OR1200_MAC_ADDR] ? mac_r[31:0] : mac_r[63:32];
-`else
-assign spr_maclo_we = 1'b0;
-assign spr_machi_we = 1'b0;
-assign spr_dat_o = 32'h0000_0000;
-`endif
-`ifdef OR1200_LOWPWR_MULT
-assign x = (alu_op_div & a[31]) ? ~a + 1'b1 : alu_op_div_divu | (alu_op == `OR1200_ALUOP_MUL) | (|mac_op) ? a : 32'h0000_0000;
-assign y = (alu_op_div & b[31]) ? ~b + 1'b1 : alu_op_div_divu | (alu_op == `OR1200_ALUOP_MUL) | (|mac_op) ? b : 32'h0000_0000;
-`else
-assign x = alu_op_div & a[31] ? ~a + 32'b1 : a;
-assign y = alu_op_div & b[31] ? ~b + 32'b1 : b;
-`endif
-`ifdef OR1200_IMPL_DIV
-assign alu_op_div = (alu_op == `OR1200_ALUOP_DIV);
-assign alu_op_div_divu = alu_op_div | (alu_op == `OR1200_ALUOP_DIVU);
-assign div_tmp = mul_prod_r[63:32] - y;
-`else
-assign alu_op_div = 1'b0;
-assign alu_op_div_divu = 1'b0;
-`endif
-
-`ifdef OR1200_MULT_IMPLEMENTED
-
-//
-// Select result of current ALU operation to be forwarded
-// to next instruction and to WB stage
-//
-always @(alu_op or mul_prod_r or mac_r or a or b)
- casex(alu_op) // synopsys parallel_case
-`ifdef OR1200_IMPL_DIV
- `OR1200_ALUOP_DIV:
- result = a[31] ^ b[31] ? ~mul_prod_r[31:0] + 1'b1 : mul_prod_r[31:0];
- `OR1200_ALUOP_DIVU,
-`endif
- `OR1200_ALUOP_MUL: begin
- result = mul_prod_r[31:0];
- end
- default:
-`ifdef OR1200_MAC_SHIFTBY
- result = mac_r[`OR1200_MAC_SHIFTBY+31:`OR1200_MAC_SHIFTBY];
-`else
- result = mac_r[31:0];
-`endif
- endcase
-
-//
-// Instantiation of the multiplier
-//
-`ifdef OR1200_ASIC_MULTP2_32X32
-or1200_amultp2_32x32 or1200_amultp2_32x32(
- .X(x),
- .Y(y),
- .RST(rst),
- .CLK(clk),
- .P(mul_prod)
-);
-`else // OR1200_ASIC_MULTP2_32X32
-or1200_gmultp2_32x32 or1200_gmultp2_32x32(
- .X(x),
- .Y(y),
- .RST(rst),
- .CLK(clk),
- .P(mul_prod)
-);
-`endif // OR1200_ASIC_MULTP2_32X32
-
-//
-// Registered output from the multiplier and
-// an optional divider
-//
-always @(posedge rst or posedge clk)
- if (rst) begin
- mul_prod_r <= #1 64'h0000_0000_0000_0000;
- div_free <= #1 1'b1;
-`ifdef OR1200_IMPL_DIV
- div_cntr <= #1 6'b00_0000;
-`endif
- end
-`ifdef OR1200_IMPL_DIV
- else if (|div_cntr) begin
- if (div_tmp[31])
- mul_prod_r <= #1 {mul_prod_r[62:0], 1'b0};
- else
- mul_prod_r <= #1 {div_tmp[30:0], mul_prod_r[31:0], 1'b1};
- div_cntr <= #1 div_cntr - 1'b1;
- end
- else if (alu_op_div_divu && div_free) begin
- mul_prod_r <= #1 {31'b0, x[31:0], 1'b0};
- div_cntr <= #1 6'b10_0000;
- div_free <= #1 1'b0;
- end
-`endif // OR1200_IMPL_DIV
- else if (div_free | !ex_freeze) begin
- mul_prod_r <= #1 mul_prod[63:0];
- div_free <= #1 1'b1;
- end
-
-`else // OR1200_MULT_IMPLEMENTED
-assign result = {width{1'b0}};
-assign mul_prod = {2*width{1'b0}};
-assign mul_prod_r = {2*width{1'b0}};
-`endif // OR1200_MULT_IMPLEMENTED
-
-`ifdef OR1200_MAC_IMPLEMENTED
-
-//
-// Propagation of l.mac opcode
-//
-always @(posedge clk or posedge rst)
- if (rst)
- mac_op_r1 <= #1 `OR1200_MACOP_WIDTH'b0;
- else
- mac_op_r1 <= #1 mac_op;
-
-//
-// Propagation of l.mac opcode
-//
-always @(posedge clk or posedge rst)
- if (rst)
- mac_op_r2 <= #1 `OR1200_MACOP_WIDTH'b0;
- else
- mac_op_r2 <= #1 mac_op_r1;
-
-//
-// Propagation of l.mac opcode
-//
-always @(posedge clk or posedge rst)
- if (rst)
- mac_op_r3 <= #1 `OR1200_MACOP_WIDTH'b0;
- else
- mac_op_r3 <= #1 mac_op_r2;
-
-//
-// Implementation of MAC
-//
-always @(posedge rst or posedge clk)
- if (rst)
- mac_r <= #1 64'h0000_0000_0000_0000;
-`ifdef OR1200_MAC_SPR_WE
- else if (spr_maclo_we)
- mac_r[31:0] <= #1 spr_dat_i;
- else if (spr_machi_we)
- mac_r[63:32] <= #1 spr_dat_i;
-`endif
- else if (mac_op_r3 == `OR1200_MACOP_MAC)
- mac_r <= #1 mac_r + mul_prod_r;
- else if (mac_op_r3 == `OR1200_MACOP_MSB)
- mac_r <= #1 mac_r - mul_prod_r;
- else if (macrc_op & !ex_freeze)
- mac_r <= #1 64'h0000_0000_0000_0000;
-
-//
-// Stall CPU if l.macrc is in ID and MAC still has to process l.mac instructions
-// in EX stage (e.g. inside multiplier)
-// This stall signal is also used by the divider.
-//
-always @(posedge rst or posedge clk)
- if (rst)
- mac_stall_r <= #1 1'b0;
- else
- mac_stall_r <= #1 (|mac_op | (|mac_op_r1) | (|mac_op_r2)) & (id_macrc_op | mac_stall_r)
-`ifdef OR1200_IMPL_DIV
- | (|div_cntr)
-`endif
- ;
-`else // OR1200_MAC_IMPLEMENTED
-assign mac_stall_r = 1'b0;
-assign mac_r = {2*width{1'b0}};
-assign mac_op_r1 = `OR1200_MACOP_WIDTH'b0;
-assign mac_op_r2 = `OR1200_MACOP_WIDTH'b0;
-assign mac_op_r3 = `OR1200_MACOP_WIDTH'b0;
-`endif // OR1200_MAC_IMPLEMENTED
-
-endmodule
verilog/components/or1200r2/or1200_mult_mac.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_top.v
===================================================================
--- verilog/components/or1200r2/or1200_top.v (revision 185)
+++ verilog/components/or1200r2/or1200_top.v (nonexistent)
@@ -1,1057 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200 Top Level ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// OR1200 Top Level ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_top.v,v $
-// Revision 1.13 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.12 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.10.4.9 2004/02/11 01:40:11 lampret
-// preliminary HW breakpoints support in debug unit (by default disabled). To enable define OR1200_DU_HWBKPTS.
-//
-// Revision 1.10.4.8 2004/01/17 21:14:14 simons
-// Errors fixed.
-//
-// Revision 1.10.4.7 2004/01/17 19:06:38 simons
-// Error fixed.
-//
-// Revision 1.10.4.6 2004/01/17 18:39:48 simons
-// Error fixed.
-//
-// Revision 1.10.4.5 2004/01/15 06:46:38 markom
-// interface to debug changed; no more opselect; stb-ack protocol
-//
-// Revision 1.10.4.4 2003/12/09 11:46:49 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.10.4.3 2003/12/05 00:08:44 lampret
-// Fixed instantiation name.
-//
-// Revision 1.10.4.2 2003/07/11 01:10:35 lampret
-// Added three missing wire declarations. No functional changes.
-//
-// Revision 1.10.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.10 2002/12/08 08:57:56 lampret
-// Added optional support for WB B3 specification (xwb_cti_o, xwb_bte_o). Made xwb_cab_o optional.
-//
-// Revision 1.9 2002/10/17 20:04:41 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.8 2002/08/18 19:54:22 lampret
-// Added store buffer.
-//
-// Revision 1.7 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.6 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.5 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.4 2002/02/01 19:56:55 lampret
-// Fixed combinational loops.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.13 2001/11/23 08:38:51 lampret
-// Changed DSR/DRR behavior and exception detection.
-//
-// Revision 1.12 2001/11/20 00:57:22 lampret
-// Fixed width of du_except.
-//
-// Revision 1.11 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.10 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.9 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.4 2001/08/13 03:36:20 lampret
-// Added cfg regs. Moved all defines into one defines.v file. More cleanup.
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:54 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_top(
- // System
- clk_i, rst_i, pic_ints_i, clmode_i,
-
- // Instruction WISHBONE INTERFACE
- iwb_clk_i, iwb_rst_i, iwb_ack_i, iwb_err_i, iwb_rty_i, iwb_dat_i,
- iwb_cyc_o, iwb_adr_o, iwb_stb_o, iwb_we_o, iwb_sel_o, iwb_dat_o,
-`ifdef OR1200_WB_CAB
- iwb_cab_o,
-`endif
-`ifdef OR1200_WB_B3
- iwb_cti_o, iwb_bte_o,
-`endif
- // Data WISHBONE INTERFACE
- dwb_clk_i, dwb_rst_i, dwb_ack_i, dwb_err_i, dwb_rty_i, dwb_dat_i,
- dwb_cyc_o, dwb_adr_o, dwb_stb_o, dwb_we_o, dwb_sel_o, dwb_dat_o,
-`ifdef OR1200_WB_CAB
- dwb_cab_o,
-`endif
-`ifdef OR1200_WB_B3
- dwb_cti_o, dwb_bte_o,
-`endif
-
- // External Debug Interface
- dbg_stall_i, dbg_ewt_i, dbg_lss_o, dbg_is_o, dbg_wp_o, dbg_bp_o,
- dbg_stb_i, dbg_we_i, dbg_adr_i, dbg_dat_i, dbg_dat_o, dbg_ack_o,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Power Management
- pm_cpustall_i,
- pm_clksd_o, pm_dc_gate_o, pm_ic_gate_o, pm_dmmu_gate_o,
- pm_immu_gate_o, pm_tt_gate_o, pm_cpu_gate_o, pm_wakeup_o, pm_lvolt_o
-
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-parameter ppic_ints = `OR1200_PIC_INTS;
-
-//
-// I/O
-//
-
-//
-// System
-//
-input clk_i;
-input rst_i;
-input [1:0] clmode_i; // 00 WB=RISC, 01 WB=RISC/2, 10 N/A, 11 WB=RISC/4
-input [ppic_ints-1:0] pic_ints_i;
-
-//
-// Instruction WISHBONE interface
-//
-input iwb_clk_i; // clock input
-input iwb_rst_i; // reset input
-input iwb_ack_i; // normal termination
-input iwb_err_i; // termination w/ error
-input iwb_rty_i; // termination w/ retry
-input [dw-1:0] iwb_dat_i; // input data bus
-output iwb_cyc_o; // cycle valid output
-output [aw-1:0] iwb_adr_o; // address bus outputs
-output iwb_stb_o; // strobe output
-output iwb_we_o; // indicates write transfer
-output [3:0] iwb_sel_o; // byte select outputs
-output [dw-1:0] iwb_dat_o; // output data bus
-`ifdef OR1200_WB_CAB
-output iwb_cab_o; // indicates consecutive address burst
-`endif
-`ifdef OR1200_WB_B3
-output [2:0] iwb_cti_o; // cycle type identifier
-output [1:0] iwb_bte_o; // burst type extension
-`endif
-
-//
-// Data WISHBONE interface
-//
-input dwb_clk_i; // clock input
-input dwb_rst_i; // reset input
-input dwb_ack_i; // normal termination
-input dwb_err_i; // termination w/ error
-input dwb_rty_i; // termination w/ retry
-input [dw-1:0] dwb_dat_i; // input data bus
-output dwb_cyc_o; // cycle valid output
-output [aw-1:0] dwb_adr_o; // address bus outputs
-output dwb_stb_o; // strobe output
-output dwb_we_o; // indicates write transfer
-output [3:0] dwb_sel_o; // byte select outputs
-output [dw-1:0] dwb_dat_o; // output data bus
-`ifdef OR1200_WB_CAB
-output dwb_cab_o; // indicates consecutive address burst
-`endif
-`ifdef OR1200_WB_B3
-output [2:0] dwb_cti_o; // cycle type identifier
-output [1:0] dwb_bte_o; // burst type extension
-`endif
-
-//
-// External Debug Interface
-//
-input dbg_stall_i; // External Stall Input
-input dbg_ewt_i; // External Watchpoint Trigger Input
-output [3:0] dbg_lss_o; // External Load/Store Unit Status
-output [1:0] dbg_is_o; // External Insn Fetch Status
-output [10:0] dbg_wp_o; // Watchpoints Outputs
-output dbg_bp_o; // Breakpoint Output
-input dbg_stb_i; // External Address/Data Strobe
-input dbg_we_i; // External Write Enable
-input [aw-1:0] dbg_adr_i; // External Address Input
-input [dw-1:0] dbg_dat_i; // External Data Input
-output [dw-1:0] dbg_dat_o; // External Data Output
-output dbg_ack_o; // External Data Acknowledge (not WB compatible)
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Power Management
-//
-input pm_cpustall_i;
-output [3:0] pm_clksd_o;
-output pm_dc_gate_o;
-output pm_ic_gate_o;
-output pm_dmmu_gate_o;
-output pm_immu_gate_o;
-output pm_tt_gate_o;
-output pm_cpu_gate_o;
-output pm_wakeup_o;
-output pm_lvolt_o;
-
-
-//
-// Internal wires and regs
-//
-
-//
-// DC to SB
-//
-wire [dw-1:0] dcsb_dat_dc;
-wire [aw-1:0] dcsb_adr_dc;
-wire dcsb_cyc_dc;
-wire dcsb_stb_dc;
-wire dcsb_we_dc;
-wire [3:0] dcsb_sel_dc;
-wire dcsb_cab_dc;
-wire [dw-1:0] dcsb_dat_sb;
-wire dcsb_ack_sb;
-wire dcsb_err_sb;
-
-//
-// SB to BIU
-//
-wire [dw-1:0] sbbiu_dat_sb;
-wire [aw-1:0] sbbiu_adr_sb;
-wire sbbiu_cyc_sb;
-wire sbbiu_stb_sb;
-wire sbbiu_we_sb;
-wire [3:0] sbbiu_sel_sb;
-wire sbbiu_cab_sb;
-wire [dw-1:0] sbbiu_dat_biu;
-wire sbbiu_ack_biu;
-wire sbbiu_err_biu;
-
-//
-// IC to BIU
-//
-wire [dw-1:0] icbiu_dat_ic;
-wire [aw-1:0] icbiu_adr_ic;
-wire icbiu_cyc_ic;
-wire icbiu_stb_ic;
-wire icbiu_we_ic;
-wire [3:0] icbiu_sel_ic;
-wire [3:0] icbiu_tag_ic;
-wire icbiu_cab_ic;
-wire [dw-1:0] icbiu_dat_biu;
-wire icbiu_ack_biu;
-wire icbiu_err_biu;
-wire [3:0] icbiu_tag_biu;
-
-//
-// SR Interface
-//
-wire boot_adr_sel = `OR1200_SR_EPH_DEF;
-
-//
-// CPU's SPR access to various RISC units (shared wires)
-//
-wire supv;
-wire [aw-1:0] spr_addr;
-wire [dw-1:0] spr_dat_cpu;
-wire [31:0] spr_cs;
-wire spr_we;
-
-//
-// DMMU and CPU
-//
-wire dmmu_en;
-wire [31:0] spr_dat_dmmu;
-
-//
-// DMMU and QMEM
-//
-wire qmemdmmu_err_qmem;
-wire [3:0] qmemdmmu_tag_qmem;
-wire [aw-1:0] qmemdmmu_adr_dmmu;
-wire qmemdmmu_cycstb_dmmu;
-wire qmemdmmu_ci_dmmu;
-
-//
-// CPU and data memory subsystem
-//
-wire dc_en;
-wire [31:0] dcpu_adr_cpu;
-wire dcpu_cycstb_cpu;
-wire dcpu_we_cpu;
-wire [3:0] dcpu_sel_cpu;
-wire [3:0] dcpu_tag_cpu;
-wire [31:0] dcpu_dat_cpu;
-wire [31:0] dcpu_dat_qmem;
-wire dcpu_ack_qmem;
-wire dcpu_rty_qmem;
-wire dcpu_err_dmmu;
-wire [3:0] dcpu_tag_dmmu;
-
-//
-// IMMU and CPU
-//
-wire immu_en;
-wire [31:0] spr_dat_immu;
-
-//
-// CPU and insn memory subsystem
-//
-wire ic_en;
-wire [31:0] icpu_adr_cpu;
-wire icpu_cycstb_cpu;
-wire [3:0] icpu_sel_cpu;
-wire [3:0] icpu_tag_cpu;
-wire [31:0] icpu_dat_qmem;
-wire icpu_ack_qmem;
-wire [31:0] icpu_adr_immu;
-wire icpu_err_immu;
-wire [3:0] icpu_tag_immu;
-wire icpu_rty_immu;
-
-//
-// IMMU and QMEM
-//
-wire [aw-1:0] qmemimmu_adr_immu;
-wire qmemimmu_rty_qmem;
-wire qmemimmu_err_qmem;
-wire [3:0] qmemimmu_tag_qmem;
-wire qmemimmu_cycstb_immu;
-wire qmemimmu_ci_immu;
-
-//
-// QMEM and IC
-//
-wire [aw-1:0] icqmem_adr_qmem;
-wire icqmem_rty_ic;
-wire icqmem_err_ic;
-wire [3:0] icqmem_tag_ic;
-wire icqmem_cycstb_qmem;
-wire icqmem_ci_qmem;
-wire [31:0] icqmem_dat_ic;
-wire icqmem_ack_ic;
-
-//
-// QMEM and DC
-//
-wire [aw-1:0] dcqmem_adr_qmem;
-wire dcqmem_rty_dc;
-wire dcqmem_err_dc;
-wire [3:0] dcqmem_tag_dc;
-wire dcqmem_cycstb_qmem;
-wire dcqmem_ci_qmem;
-wire [31:0] dcqmem_dat_dc;
-wire [31:0] dcqmem_dat_qmem;
-wire dcqmem_we_qmem;
-wire [3:0] dcqmem_sel_qmem;
-wire dcqmem_ack_dc;
-
-//
-// Connection between CPU and PIC
-//
-wire [dw-1:0] spr_dat_pic;
-wire pic_wakeup;
-wire sig_int;
-
-//
-// Connection between CPU and PM
-//
-wire [dw-1:0] spr_dat_pm;
-
-//
-// CPU and TT
-//
-wire [dw-1:0] spr_dat_tt;
-wire sig_tick;
-
-//
-// Debug port and caches/MMUs
-//
-wire [dw-1:0] spr_dat_du;
-wire du_stall;
-wire [dw-1:0] du_addr;
-wire [dw-1:0] du_dat_du;
-wire du_read;
-wire du_write;
-wire [13:0] du_except;
-wire [`OR1200_DU_DSR_WIDTH-1:0] du_dsr;
-wire [dw-1:0] du_dat_cpu;
-wire du_hwbkpt;
-
-wire ex_freeze;
-wire [31:0] ex_insn;
-wire [31:0] id_pc;
-wire [`OR1200_BRANCHOP_WIDTH-1:0] branch_op;
-wire [31:0] spr_dat_npc;
-wire [31:0] rf_dataw;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-wire mbist_immu_so;
-wire mbist_ic_so;
-wire mbist_dmmu_so;
-wire mbist_dc_so;
-wire mbist_qmem_so;
-wire mbist_immu_si = mbist_si_i;
-wire mbist_ic_si = mbist_immu_so;
-wire mbist_qmem_si = mbist_ic_so;
-wire mbist_dmmu_si = mbist_qmem_so;
-wire mbist_dc_si = mbist_dmmu_so;
-assign mbist_so_o = mbist_dc_so;
-`endif
-
-wire [3:0] icqmem_sel_qmem;
-wire [3:0] icqmem_tag_qmem;
-wire [3:0] dcqmem_tag_qmem;
-
-//
-// Instantiation of Instruction WISHBONE BIU
-//
-or1200_iwb_biu iwb_biu(
- // RISC clk, rst and clock control
- .clk(clk_i),
- .rst(rst_i),
- .clmode(clmode_i),
-
- // WISHBONE interface
- .wb_clk_i(iwb_clk_i),
- .wb_rst_i(iwb_rst_i),
- .wb_ack_i(iwb_ack_i),
- .wb_err_i(iwb_err_i),
- .wb_rty_i(iwb_rty_i),
- .wb_dat_i(iwb_dat_i),
- .wb_cyc_o(iwb_cyc_o),
- .wb_adr_o(iwb_adr_o),
- .wb_stb_o(iwb_stb_o),
- .wb_we_o(iwb_we_o),
- .wb_sel_o(iwb_sel_o),
- .wb_dat_o(iwb_dat_o),
-`ifdef OR1200_WB_CAB
- .wb_cab_o(iwb_cab_o),
-`endif
-`ifdef OR1200_WB_B3
- .wb_cti_o(iwb_cti_o),
- .wb_bte_o(iwb_bte_o),
-`endif
-
- // Internal RISC bus
- .biu_dat_i(icbiu_dat_ic),
- .biu_adr_i(icbiu_adr_ic),
- .biu_cyc_i(icbiu_cyc_ic),
- .biu_stb_i(icbiu_stb_ic),
- .biu_we_i(icbiu_we_ic),
- .biu_sel_i(icbiu_sel_ic),
- .biu_cab_i(icbiu_cab_ic),
- .biu_dat_o(icbiu_dat_biu),
- .biu_ack_o(icbiu_ack_biu),
- .biu_err_o(icbiu_err_biu)
-);
-
-//
-// Instantiation of Data WISHBONE BIU
-//
-or1200_wb_biu dwb_biu(
- // RISC clk, rst and clock control
- .clk(clk_i),
- .rst(rst_i),
- .clmode(clmode_i),
-
- // WISHBONE interface
- .wb_clk_i(dwb_clk_i),
- .wb_rst_i(dwb_rst_i),
- .wb_ack_i(dwb_ack_i),
- .wb_err_i(dwb_err_i),
- .wb_rty_i(dwb_rty_i),
- .wb_dat_i(dwb_dat_i),
- .wb_cyc_o(dwb_cyc_o),
- .wb_adr_o(dwb_adr_o),
- .wb_stb_o(dwb_stb_o),
- .wb_we_o(dwb_we_o),
- .wb_sel_o(dwb_sel_o),
- .wb_dat_o(dwb_dat_o),
-`ifdef OR1200_WB_CAB
- .wb_cab_o(dwb_cab_o),
-`endif
-`ifdef OR1200_WB_B3
- .wb_cti_o(dwb_cti_o),
- .wb_bte_o(dwb_bte_o),
-`endif
-
- // Internal RISC bus
- .biu_dat_i(sbbiu_dat_sb),
- .biu_adr_i(sbbiu_adr_sb),
- .biu_cyc_i(sbbiu_cyc_sb),
- .biu_stb_i(sbbiu_stb_sb),
- .biu_we_i(sbbiu_we_sb),
- .biu_sel_i(sbbiu_sel_sb),
- .biu_cab_i(sbbiu_cab_sb),
- .biu_dat_o(sbbiu_dat_biu),
- .biu_ack_o(sbbiu_ack_biu),
- .biu_err_o(sbbiu_err_biu)
-);
-
-//
-// Instantiation of IMMU
-//
-or1200_immu_top or1200_immu_top(
- // Rst and clk
- .clk(clk_i),
- .rst(rst_i),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_immu_si),
- .mbist_so_o(mbist_immu_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // CPU and IMMU
- .ic_en(ic_en),
- .immu_en(immu_en),
- .supv(supv),
- .icpu_adr_i(icpu_adr_cpu),
- .icpu_cycstb_i(icpu_cycstb_cpu),
- .icpu_adr_o(icpu_adr_immu),
- .icpu_tag_o(icpu_tag_immu),
- .icpu_rty_o(icpu_rty_immu),
- .icpu_err_o(icpu_err_immu),
-
- // SR Interface
- .boot_adr_sel_i(boot_adr_sel),
-
- // SPR access
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_IMMU]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_immu),
-
- // QMEM and IMMU
- .qmemimmu_rty_i(qmemimmu_rty_qmem),
- .qmemimmu_err_i(qmemimmu_err_qmem),
- .qmemimmu_tag_i(qmemimmu_tag_qmem),
- .qmemimmu_adr_o(qmemimmu_adr_immu),
- .qmemimmu_cycstb_o(qmemimmu_cycstb_immu),
- .qmemimmu_ci_o(qmemimmu_ci_immu)
-);
-
-//
-// Instantiation of Instruction Cache
-//
-or1200_ic_top or1200_ic_top(
- .clk(clk_i),
- .rst(rst_i),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_ic_si),
- .mbist_so_o(mbist_ic_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // IC and QMEM
- .ic_en(ic_en),
- .icqmem_adr_i(icqmem_adr_qmem),
- .icqmem_cycstb_i(icqmem_cycstb_qmem),
- .icqmem_ci_i(icqmem_ci_qmem),
- .icqmem_sel_i(icqmem_sel_qmem),
- .icqmem_tag_i(icqmem_tag_qmem),
- .icqmem_dat_o(icqmem_dat_ic),
- .icqmem_ack_o(icqmem_ack_ic),
- .icqmem_rty_o(icqmem_rty_ic),
- .icqmem_err_o(icqmem_err_ic),
- .icqmem_tag_o(icqmem_tag_ic),
-
- // SPR access
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_IC]),
- .spr_write(spr_we),
- .spr_dat_i(spr_dat_cpu),
-
- // IC and BIU
- .icbiu_dat_o(icbiu_dat_ic),
- .icbiu_adr_o(icbiu_adr_ic),
- .icbiu_cyc_o(icbiu_cyc_ic),
- .icbiu_stb_o(icbiu_stb_ic),
- .icbiu_we_o(icbiu_we_ic),
- .icbiu_sel_o(icbiu_sel_ic),
- .icbiu_cab_o(icbiu_cab_ic),
- .icbiu_dat_i(icbiu_dat_biu),
- .icbiu_ack_i(icbiu_ack_biu),
- .icbiu_err_i(icbiu_err_biu)
-);
-
-//
-// Instantiation of Instruction Cache
-//
-or1200_cpu or1200_cpu(
- .clk(clk_i),
- .rst(rst_i),
-
- // Connection QMEM and IFETCHER inside CPU
- .ic_en(ic_en),
- .icpu_adr_o(icpu_adr_cpu),
- .icpu_cycstb_o(icpu_cycstb_cpu),
- .icpu_sel_o(icpu_sel_cpu),
- .icpu_tag_o(icpu_tag_cpu),
- .icpu_dat_i(icpu_dat_qmem),
- .icpu_ack_i(icpu_ack_qmem),
- .icpu_rty_i(icpu_rty_immu),
- .icpu_adr_i(icpu_adr_immu),
- .icpu_err_i(icpu_err_immu),
- .icpu_tag_i(icpu_tag_immu),
-
- // Connection CPU to external Debug port
- .ex_freeze(ex_freeze),
- .ex_insn(ex_insn),
- .id_pc(id_pc),
- .branch_op(branch_op),
- .du_stall(du_stall),
- .du_addr(du_addr),
- .du_dat_du(du_dat_du),
- .du_read(du_read),
- .du_write(du_write),
- .du_dsr(du_dsr),
- .du_except(du_except),
- .du_dat_cpu(du_dat_cpu),
- .du_hwbkpt(du_hwbkpt),
- .rf_dataw(rf_dataw),
-
-
- // Connection IMMU and CPU internally
- .immu_en(immu_en),
-
- // Connection QMEM and CPU
- .dc_en(dc_en),
- .dcpu_adr_o(dcpu_adr_cpu),
- .dcpu_cycstb_o(dcpu_cycstb_cpu),
- .dcpu_we_o(dcpu_we_cpu),
- .dcpu_sel_o(dcpu_sel_cpu),
- .dcpu_tag_o(dcpu_tag_cpu),
- .dcpu_dat_o(dcpu_dat_cpu),
- .dcpu_dat_i(dcpu_dat_qmem),
- .dcpu_ack_i(dcpu_ack_qmem),
- .dcpu_rty_i(dcpu_rty_qmem),
- .dcpu_err_i(dcpu_err_dmmu),
- .dcpu_tag_i(dcpu_tag_dmmu),
-
- // Connection DMMU and CPU internally
- .dmmu_en(dmmu_en),
-
- // SR Interface
- .boot_adr_sel_i(boot_adr_sel),
-
- // Connection PIC and CPU's EXCEPT
- .sig_int(sig_int),
- .sig_tick(sig_tick),
-
- // SPRs
- .supv(supv),
- .spr_addr(spr_addr),
- .spr_dat_cpu(spr_dat_cpu),
- .spr_dat_pic(spr_dat_pic),
- .spr_dat_tt(spr_dat_tt),
- .spr_dat_pm(spr_dat_pm),
- .spr_dat_dmmu(spr_dat_dmmu),
- .spr_dat_immu(spr_dat_immu),
- .spr_dat_du(spr_dat_du),
- .spr_dat_npc(spr_dat_npc),
- .spr_cs(spr_cs),
- .spr_we(spr_we)
-);
-
-//
-// Instantiation of DMMU
-//
-or1200_dmmu_top or1200_dmmu_top(
- // Rst and clk
- .clk(clk_i),
- .rst(rst_i),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_dmmu_si),
- .mbist_so_o(mbist_dmmu_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // CPU i/f
- .dc_en(dc_en),
- .dmmu_en(dmmu_en),
- .supv(supv),
- .dcpu_adr_i(dcpu_adr_cpu),
- .dcpu_cycstb_i(dcpu_cycstb_cpu),
- .dcpu_we_i(dcpu_we_cpu),
- .dcpu_tag_o(dcpu_tag_dmmu),
- .dcpu_err_o(dcpu_err_dmmu),
-
- // SPR access
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_DMMU]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_dmmu),
-
- // QMEM and DMMU
- .qmemdmmu_err_i(qmemdmmu_err_qmem),
- .qmemdmmu_tag_i(qmemdmmu_tag_qmem),
- .qmemdmmu_adr_o(qmemdmmu_adr_dmmu),
- .qmemdmmu_cycstb_o(qmemdmmu_cycstb_dmmu),
- .qmemdmmu_ci_o(qmemdmmu_ci_dmmu)
-);
-
-//
-// Instantiation of Data Cache
-//
-or1200_dc_top or1200_dc_top(
- .clk(clk_i),
- .rst(rst_i),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_dc_si),
- .mbist_so_o(mbist_dc_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // DC and QMEM
- .dc_en(dc_en),
- .dcqmem_adr_i(dcqmem_adr_qmem),
- .dcqmem_cycstb_i(dcqmem_cycstb_qmem),
- .dcqmem_ci_i(dcqmem_ci_qmem),
- .dcqmem_we_i(dcqmem_we_qmem),
- .dcqmem_sel_i(dcqmem_sel_qmem),
- .dcqmem_tag_i(dcqmem_tag_qmem),
- .dcqmem_dat_i(dcqmem_dat_qmem),
- .dcqmem_dat_o(dcqmem_dat_dc),
- .dcqmem_ack_o(dcqmem_ack_dc),
- .dcqmem_rty_o(dcqmem_rty_dc),
- .dcqmem_err_o(dcqmem_err_dc),
- .dcqmem_tag_o(dcqmem_tag_dc),
-
- // SPR access
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_DC]),
- .spr_write(spr_we),
- .spr_dat_i(spr_dat_cpu),
-
- // DC and BIU
- .dcsb_dat_o(dcsb_dat_dc),
- .dcsb_adr_o(dcsb_adr_dc),
- .dcsb_cyc_o(dcsb_cyc_dc),
- .dcsb_stb_o(dcsb_stb_dc),
- .dcsb_we_o(dcsb_we_dc),
- .dcsb_sel_o(dcsb_sel_dc),
- .dcsb_cab_o(dcsb_cab_dc),
- .dcsb_dat_i(dcsb_dat_sb),
- .dcsb_ack_i(dcsb_ack_sb),
- .dcsb_err_i(dcsb_err_sb)
-);
-
-//
-// Instantiation of embedded memory - qmem
-//
-or1200_qmem_top or1200_qmem_top(
- .clk(clk_i),
- .rst(rst_i),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_qmem_si),
- .mbist_so_o(mbist_qmem_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // QMEM and CPU/IMMU
- .qmemimmu_adr_i(qmemimmu_adr_immu),
- .qmemimmu_cycstb_i(qmemimmu_cycstb_immu),
- .qmemimmu_ci_i(qmemimmu_ci_immu),
- .qmemicpu_sel_i(icpu_sel_cpu),
- .qmemicpu_tag_i(icpu_tag_cpu),
- .qmemicpu_dat_o(icpu_dat_qmem),
- .qmemicpu_ack_o(icpu_ack_qmem),
- .qmemimmu_rty_o(qmemimmu_rty_qmem),
- .qmemimmu_err_o(qmemimmu_err_qmem),
- .qmemimmu_tag_o(qmemimmu_tag_qmem),
-
- // QMEM and IC
- .icqmem_adr_o(icqmem_adr_qmem),
- .icqmem_cycstb_o(icqmem_cycstb_qmem),
- .icqmem_ci_o(icqmem_ci_qmem),
- .icqmem_sel_o(icqmem_sel_qmem),
- .icqmem_tag_o(icqmem_tag_qmem),
- .icqmem_dat_i(icqmem_dat_ic),
- .icqmem_ack_i(icqmem_ack_ic),
- .icqmem_rty_i(icqmem_rty_ic),
- .icqmem_err_i(icqmem_err_ic),
- .icqmem_tag_i(icqmem_tag_ic),
-
- // QMEM and CPU/DMMU
- .qmemdmmu_adr_i(qmemdmmu_adr_dmmu),
- .qmemdmmu_cycstb_i(qmemdmmu_cycstb_dmmu),
- .qmemdmmu_ci_i(qmemdmmu_ci_dmmu),
- .qmemdcpu_we_i(dcpu_we_cpu),
- .qmemdcpu_sel_i(dcpu_sel_cpu),
- .qmemdcpu_tag_i(dcpu_tag_cpu),
- .qmemdcpu_dat_i(dcpu_dat_cpu),
- .qmemdcpu_dat_o(dcpu_dat_qmem),
- .qmemdcpu_ack_o(dcpu_ack_qmem),
- .qmemdcpu_rty_o(dcpu_rty_qmem),
- .qmemdmmu_err_o(qmemdmmu_err_qmem),
- .qmemdmmu_tag_o(qmemdmmu_tag_qmem),
-
- // QMEM and DC
- .dcqmem_adr_o(dcqmem_adr_qmem),
- .dcqmem_cycstb_o(dcqmem_cycstb_qmem),
- .dcqmem_ci_o(dcqmem_ci_qmem),
- .dcqmem_we_o(dcqmem_we_qmem),
- .dcqmem_sel_o(dcqmem_sel_qmem),
- .dcqmem_tag_o(dcqmem_tag_qmem),
- .dcqmem_dat_o(dcqmem_dat_qmem),
- .dcqmem_dat_i(dcqmem_dat_dc),
- .dcqmem_ack_i(dcqmem_ack_dc),
- .dcqmem_rty_i(dcqmem_rty_dc),
- .dcqmem_err_i(dcqmem_err_dc),
- .dcqmem_tag_i(dcqmem_tag_dc)
-);
-
-//
-// Instantiation of Store Buffer
-//
-or1200_sb or1200_sb(
- // RISC clock, reset
- .clk(clk_i),
- .rst(rst_i),
-
- // Internal RISC bus (DC<->SB)
- .dcsb_dat_i(dcsb_dat_dc),
- .dcsb_adr_i(dcsb_adr_dc),
- .dcsb_cyc_i(dcsb_cyc_dc),
- .dcsb_stb_i(dcsb_stb_dc),
- .dcsb_we_i(dcsb_we_dc),
- .dcsb_sel_i(dcsb_sel_dc),
- .dcsb_cab_i(dcsb_cab_dc),
- .dcsb_dat_o(dcsb_dat_sb),
- .dcsb_ack_o(dcsb_ack_sb),
- .dcsb_err_o(dcsb_err_sb),
-
- // SB and BIU
- .sbbiu_dat_o(sbbiu_dat_sb),
- .sbbiu_adr_o(sbbiu_adr_sb),
- .sbbiu_cyc_o(sbbiu_cyc_sb),
- .sbbiu_stb_o(sbbiu_stb_sb),
- .sbbiu_we_o(sbbiu_we_sb),
- .sbbiu_sel_o(sbbiu_sel_sb),
- .sbbiu_cab_o(sbbiu_cab_sb),
- .sbbiu_dat_i(sbbiu_dat_biu),
- .sbbiu_ack_i(sbbiu_ack_biu),
- .sbbiu_err_i(sbbiu_err_biu)
-);
-
-//
-// Instantiation of Debug Unit
-//
-or1200_du or1200_du(
- // RISC Internal Interface
- .clk(clk_i),
- .rst(rst_i),
- .dcpu_cycstb_i(dcpu_cycstb_cpu),
- .dcpu_we_i(dcpu_we_cpu),
- .dcpu_adr_i(dcpu_adr_cpu),
- .dcpu_dat_lsu(dcpu_dat_cpu),
- .dcpu_dat_dc(dcpu_dat_qmem),
- .icpu_cycstb_i(icpu_cycstb_cpu),
- .ex_freeze(ex_freeze),
- .branch_op(branch_op),
- .ex_insn(ex_insn),
- .id_pc(id_pc),
- .du_dsr(du_dsr),
-
- // For Trace buffer
- .spr_dat_npc(spr_dat_npc),
- .rf_dataw(rf_dataw),
-
- // DU's access to SPR unit
- .du_stall(du_stall),
- .du_addr(du_addr),
- .du_dat_i(du_dat_cpu),
- .du_dat_o(du_dat_du),
- .du_read(du_read),
- .du_write(du_write),
- .du_except(du_except),
- .du_hwbkpt(du_hwbkpt),
-
- // Access to DU's SPRs
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_DU]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_du),
-
- // External Debug Interface
- .dbg_stall_i(dbg_stall_i),
- .dbg_ewt_i(dbg_ewt_i),
- .dbg_lss_o(dbg_lss_o),
- .dbg_is_o(dbg_is_o),
- .dbg_wp_o(dbg_wp_o),
- .dbg_bp_o(dbg_bp_o),
- .dbg_stb_i(dbg_stb_i),
- .dbg_we_i(dbg_we_i),
- .dbg_adr_i(dbg_adr_i),
- .dbg_dat_i(dbg_dat_i),
- .dbg_dat_o(dbg_dat_o),
- .dbg_ack_o(dbg_ack_o)
-);
-
-//
-// Programmable interrupt controller
-//
-or1200_pic or1200_pic(
- // RISC Internal Interface
- .clk(clk_i),
- .rst(rst_i),
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_PIC]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_pic),
- .pic_wakeup(pic_wakeup),
- .intr(sig_int),
-
- // PIC Interface
- .pic_int(pic_ints_i)
-);
-
-//
-// Instantiation of Tick timer
-//
-or1200_tt or1200_tt(
- // RISC Internal Interface
- .clk(clk_i),
- .rst(rst_i),
- .du_stall(du_stall),
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_TT]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_tt),
- .intr(sig_tick)
-);
-
-//
-// Instantiation of Power Management
-//
-or1200_pm or1200_pm(
- // RISC Internal Interface
- .clk(clk_i),
- .rst(rst_i),
- .pic_wakeup(pic_wakeup),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_pm),
-
- // Power Management Interface
- .pm_cpustall(pm_cpustall_i),
- .pm_clksd(pm_clksd_o),
- .pm_dc_gate(pm_dc_gate_o),
- .pm_ic_gate(pm_ic_gate_o),
- .pm_dmmu_gate(pm_dmmu_gate_o),
- .pm_immu_gate(pm_immu_gate_o),
- .pm_tt_gate(pm_tt_gate_o),
- .pm_cpu_gate(pm_cpu_gate_o),
- .pm_wakeup(pm_wakeup_o),
- .pm_lvolt(pm_lvolt_o)
-);
-
-
-endmodule
verilog/components/or1200r2/or1200_top.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_rfram_generic.v
===================================================================
--- verilog/components/or1200r2/or1200_rfram_generic.v (revision 185)
+++ verilog/components/or1200r2/or1200_rfram_generic.v (nonexistent)
@@ -1,293 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's register file generic memory ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Generic (flip-flop based) register file memory ////
-//// ////
-//// To Do: ////
-//// - nothing ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-// $Log: or1200_rfram_generic.v,v $
-// Revision 1.3 2004/06/08 18:16:32 lampret
-// GPR0 hardwired to zero.
-//
-// Revision 1.2 2002/09/03 22:28:21 lampret
-// As per Taylor Su suggestion all case blocks are full case by default and optionally (OR1200_CASE_DEFAULT) can be disabled to increase clock frequncy.
-//
-// Revision 1.1 2002/06/08 16:23:30 lampret
-// Generic flip-flop based memory macro for register file.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_rfram_generic(
- // Clock and reset
- clk, rst,
-
- // Port A
- ce_a, addr_a, do_a,
-
- // Port B
- ce_b, addr_b, do_b,
-
- // Port W
- ce_w, we_w, addr_w, di_w
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_REGFILE_ADDR_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// Port A
-//
-input ce_a;
-input [aw-1:0] addr_a;
-output [dw-1:0] do_a;
-
-//
-// Port B
-//
-input ce_b;
-input [aw-1:0] addr_b;
-output [dw-1:0] do_b;
-
-//
-// Port W
-//
-input ce_w;
-input we_w;
-input [aw-1:0] addr_w;
-input [dw-1:0] di_w;
-
-//
-// Internal wires and regs
-//
-reg [aw-1:0] intaddr_a;
-reg [aw-1:0] intaddr_b;
-`ifdef OR1200_RFRAM_16REG
-reg [16*dw-1:0] mem;
-`else
-reg [32*dw-1:0] mem;
-`endif
-reg [dw-1:0] do_a;
-reg [dw-1:0] do_b;
-
- // Function to access GPRs (for use by Verilator). No need to hide this one
- // from the simulator, since it has an input (as required by IEEE 1364-2001).
- function [31:0] get_gpr;
- // verilator public
- input [aw-1:0] gpr_no;
-
- get_gpr = { mem[gpr_no*32 + 31], mem[gpr_no*32 + 30],
- mem[gpr_no*32 + 29], mem[gpr_no*32 + 28],
- mem[gpr_no*32 + 27], mem[gpr_no*32 + 26],
- mem[gpr_no*32 + 25], mem[gpr_no*32 + 24],
- mem[gpr_no*32 + 23], mem[gpr_no*32 + 22],
- mem[gpr_no*32 + 21], mem[gpr_no*32 + 20],
- mem[gpr_no*32 + 19], mem[gpr_no*32 + 18],
- mem[gpr_no*32 + 17], mem[gpr_no*32 + 16],
- mem[gpr_no*32 + 15], mem[gpr_no*32 + 14],
- mem[gpr_no*32 + 13], mem[gpr_no*32 + 12],
- mem[gpr_no*32 + 11], mem[gpr_no*32 + 10],
- mem[gpr_no*32 + 9], mem[gpr_no*32 + 8],
- mem[gpr_no*32 + 7], mem[gpr_no*32 + 6],
- mem[gpr_no*32 + 5], mem[gpr_no*32 + 4],
- mem[gpr_no*32 + 3], mem[gpr_no*32 + 2],
- mem[gpr_no*32 + 1], mem[gpr_no*32 + 0] };
-
- endfunction // get_gpr
-
-//
-// Write port
-//
-always @(posedge clk or posedge rst)
- if (rst) begin
- mem <= #1 {512'h0, 512'h0};
- end
- else if (ce_w & we_w)
- case (addr_w) // synopsys parallel_case
- 5'd01: mem[32*1+31:32*1] <= #1 di_w;
- 5'd02: mem[32*2+31:32*2] <= #1 di_w;
- 5'd03: mem[32*3+31:32*3] <= #1 di_w;
- 5'd04: mem[32*4+31:32*4] <= #1 di_w;
- 5'd05: mem[32*5+31:32*5] <= #1 di_w;
- 5'd06: mem[32*6+31:32*6] <= #1 di_w;
- 5'd07: mem[32*7+31:32*7] <= #1 di_w;
- 5'd08: mem[32*8+31:32*8] <= #1 di_w;
- 5'd09: mem[32*9+31:32*9] <= #1 di_w;
- 5'd10: mem[32*10+31:32*10] <= #1 di_w;
- 5'd11: mem[32*11+31:32*11] <= #1 di_w;
- 5'd12: mem[32*12+31:32*12] <= #1 di_w;
- 5'd13: mem[32*13+31:32*13] <= #1 di_w;
- 5'd14: mem[32*14+31:32*14] <= #1 di_w;
- 5'd15: mem[32*15+31:32*15] <= #1 di_w;
-`ifdef OR1200_RFRAM_16REG
-`else
- 5'd16: mem[32*16+31:32*16] <= #1 di_w;
- 5'd17: mem[32*17+31:32*17] <= #1 di_w;
- 5'd18: mem[32*18+31:32*18] <= #1 di_w;
- 5'd19: mem[32*19+31:32*19] <= #1 di_w;
- 5'd20: mem[32*20+31:32*20] <= #1 di_w;
- 5'd21: mem[32*21+31:32*21] <= #1 di_w;
- 5'd22: mem[32*22+31:32*22] <= #1 di_w;
- 5'd23: mem[32*23+31:32*23] <= #1 di_w;
- 5'd24: mem[32*24+31:32*24] <= #1 di_w;
- 5'd25: mem[32*25+31:32*25] <= #1 di_w;
- 5'd26: mem[32*26+31:32*26] <= #1 di_w;
- 5'd27: mem[32*27+31:32*27] <= #1 di_w;
- 5'd28: mem[32*28+31:32*28] <= #1 di_w;
- 5'd29: mem[32*29+31:32*29] <= #1 di_w;
- 5'd30: mem[32*30+31:32*30] <= #1 di_w;
- 5'd31: mem[32*31+31:32*31] <= #1 di_w;
-`endif
- default: mem[32*0+31:32*0] <= #1 32'h0000_0000;
- endcase
-
-//
-// Read port A
-//
-always @(posedge clk or posedge rst)
- if (rst) begin
- intaddr_a <= #1 5'h00;
- end
- else if (ce_a)
- intaddr_a <= #1 addr_a;
-
-always @(mem or intaddr_a)
- case (intaddr_a) // synopsys parallel_case
- 5'd01: do_a = mem[32*1+31:32*1];
- 5'd02: do_a = mem[32*2+31:32*2];
- 5'd03: do_a = mem[32*3+31:32*3];
- 5'd04: do_a = mem[32*4+31:32*4];
- 5'd05: do_a = mem[32*5+31:32*5];
- 5'd06: do_a = mem[32*6+31:32*6];
- 5'd07: do_a = mem[32*7+31:32*7];
- 5'd08: do_a = mem[32*8+31:32*8];
- 5'd09: do_a = mem[32*9+31:32*9];
- 5'd10: do_a = mem[32*10+31:32*10];
- 5'd11: do_a = mem[32*11+31:32*11];
- 5'd12: do_a = mem[32*12+31:32*12];
- 5'd13: do_a = mem[32*13+31:32*13];
- 5'd14: do_a = mem[32*14+31:32*14];
- 5'd15: do_a = mem[32*15+31:32*15];
-`ifdef OR1200_RFRAM_16REG
-`else
- 5'd16: do_a = mem[32*16+31:32*16];
- 5'd17: do_a = mem[32*17+31:32*17];
- 5'd18: do_a = mem[32*18+31:32*18];
- 5'd19: do_a = mem[32*19+31:32*19];
- 5'd20: do_a = mem[32*20+31:32*20];
- 5'd21: do_a = mem[32*21+31:32*21];
- 5'd22: do_a = mem[32*22+31:32*22];
- 5'd23: do_a = mem[32*23+31:32*23];
- 5'd24: do_a = mem[32*24+31:32*24];
- 5'd25: do_a = mem[32*25+31:32*25];
- 5'd26: do_a = mem[32*26+31:32*26];
- 5'd27: do_a = mem[32*27+31:32*27];
- 5'd28: do_a = mem[32*28+31:32*28];
- 5'd29: do_a = mem[32*29+31:32*29];
- 5'd30: do_a = mem[32*30+31:32*30];
- 5'd31: do_a = mem[32*31+31:32*31];
-`endif
- default: do_a = 32'h0000_0000;
- endcase
-
-//
-// Read port B
-//
-always @(posedge clk or posedge rst)
- if (rst) begin
- intaddr_b <= #1 5'h00;
- end
- else if (ce_b)
- intaddr_b <= #1 addr_b;
-
-always @(mem or intaddr_b)
- case (intaddr_b) // synopsys parallel_case
- 5'd01: do_b = mem[32*1+31:32*1];
- 5'd02: do_b = mem[32*2+31:32*2];
- 5'd03: do_b = mem[32*3+31:32*3];
- 5'd04: do_b = mem[32*4+31:32*4];
- 5'd05: do_b = mem[32*5+31:32*5];
- 5'd06: do_b = mem[32*6+31:32*6];
- 5'd07: do_b = mem[32*7+31:32*7];
- 5'd08: do_b = mem[32*8+31:32*8];
- 5'd09: do_b = mem[32*9+31:32*9];
- 5'd10: do_b = mem[32*10+31:32*10];
- 5'd11: do_b = mem[32*11+31:32*11];
- 5'd12: do_b = mem[32*12+31:32*12];
- 5'd13: do_b = mem[32*13+31:32*13];
- 5'd14: do_b = mem[32*14+31:32*14];
- 5'd15: do_b = mem[32*15+31:32*15];
-`ifdef OR1200_RFRAM_16REG
-`else
- 5'd16: do_b = mem[32*16+31:32*16];
- 5'd17: do_b = mem[32*17+31:32*17];
- 5'd18: do_b = mem[32*18+31:32*18];
- 5'd19: do_b = mem[32*19+31:32*19];
- 5'd20: do_b = mem[32*20+31:32*20];
- 5'd21: do_b = mem[32*21+31:32*21];
- 5'd22: do_b = mem[32*22+31:32*22];
- 5'd23: do_b = mem[32*23+31:32*23];
- 5'd24: do_b = mem[32*24+31:32*24];
- 5'd25: do_b = mem[32*25+31:32*25];
- 5'd26: do_b = mem[32*26+31:32*26];
- 5'd27: do_b = mem[32*27+31:32*27];
- 5'd28: do_b = mem[32*28+31:32*28];
- 5'd29: do_b = mem[32*29+31:32*29];
- 5'd30: do_b = mem[32*30+31:32*30];
- 5'd31: do_b = mem[32*31+31:32*31];
-`endif
- default: do_b = 32'h0000_0000;
- endcase
-
-endmodule
verilog/components/or1200r2/or1200_rfram_generic.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dpram.v
===================================================================
--- verilog/components/or1200r2/or1200_dpram.v (revision 185)
+++ verilog/components/or1200r2/or1200_dpram.v (nonexistent)
@@ -1,124 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Double-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common double-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// double-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Author(s): ////
-//// - Michael Unneback, unneback@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_dpram
- (
- // Generic synchronous double-port RAM interface
- clk_a, ce_a, addr_a, do_a,
- clk_b, ce_b, we_b, addr_b, di_b
- );
-
- //
- // Default address and data buses width
- //
- parameter aw = 5;
- parameter dw = 32;
-
- //
- // Generic synchronous double-port RAM interface
- //
- input clk_a; // Clock
- input ce_a; // Chip enable input
- input [aw-1:0] addr_a; // address bus inputs
- output [dw-1:0] do_a; // output data bus
- input clk_b; // Clock
- input ce_b; // Chip enable input
- input we_b; // Write enable input
- input [aw-1:0] addr_b; // address bus inputs
- input [dw-1:0] di_b; // input data bus
-
- //
- // Internal wires and registers
- //
-
- //
- // Generic double-port synchronous RAM model
- //
-
- //
- // Generic RAM's registers and wires
- //
- reg [dw-1:0] mem [(1<
verilog/components/or1200r2/or1200_dpram.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_lsu.v
===================================================================
--- verilog/components/or1200r2/or1200_lsu.v (revision 185)
+++ verilog/components/or1200r2/or1200_lsu.v (nonexistent)
@@ -1,198 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Load/Store unit ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Interface between CPU and DC. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_lsu.v,v $
-// Revision 1.5 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.4 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.3 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.2 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/11/30 18:59:47 simons
-// *** empty log message ***
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_lsu(
-
- // Internal i/f
- addrbase, addrofs, lsu_op, lsu_datain, lsu_dataout, lsu_stall, lsu_unstall,
- du_stall, except_align, except_dtlbmiss, except_dmmufault, except_dbuserr,
-
- // External i/f to DC
- dcpu_adr_o, dcpu_cycstb_o, dcpu_we_o, dcpu_sel_o, dcpu_tag_o, dcpu_dat_o,
- dcpu_dat_i, dcpu_ack_i, dcpu_rty_i, dcpu_err_i, dcpu_tag_i
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_REGFILE_ADDR_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Internal i/f
-//
-input [31:0] addrbase;
-input [31:0] addrofs;
-input [`OR1200_LSUOP_WIDTH-1:0] lsu_op;
-input [dw-1:0] lsu_datain;
-output [dw-1:0] lsu_dataout;
-output lsu_stall;
-output lsu_unstall;
-input du_stall;
-output except_align;
-output except_dtlbmiss;
-output except_dmmufault;
-output except_dbuserr;
-
-//
-// External i/f to DC
-//
-output [31:0] dcpu_adr_o;
-output dcpu_cycstb_o;
-output dcpu_we_o;
-output [3:0] dcpu_sel_o;
-output [3:0] dcpu_tag_o;
-output [31:0] dcpu_dat_o;
-input [31:0] dcpu_dat_i;
-input dcpu_ack_i;
-input dcpu_rty_i;
-input dcpu_err_i;
-input [3:0] dcpu_tag_i;
-
-//
-// Internal wires/regs
-//
-reg [3:0] dcpu_sel_o;
-
-//
-// Internal I/F assignments
-//
-assign lsu_stall = dcpu_rty_i & dcpu_cycstb_o;
-assign lsu_unstall = dcpu_ack_i;
-assign except_align = ((lsu_op == `OR1200_LSUOP_SH) | (lsu_op == `OR1200_LSUOP_LHZ) | (lsu_op == `OR1200_LSUOP_LHS)) & dcpu_adr_o[0]
- | ((lsu_op == `OR1200_LSUOP_SW) | (lsu_op == `OR1200_LSUOP_LWZ) | (lsu_op == `OR1200_LSUOP_LWS)) & |dcpu_adr_o[1:0];
-assign except_dtlbmiss = dcpu_err_i & (dcpu_tag_i == `OR1200_DTAG_TE);
-assign except_dmmufault = dcpu_err_i & (dcpu_tag_i == `OR1200_DTAG_PE);
-assign except_dbuserr = dcpu_err_i & (dcpu_tag_i == `OR1200_DTAG_BE);
-
-//
-// External I/F assignments
-//
-assign dcpu_adr_o = addrbase + addrofs;
-assign dcpu_cycstb_o = du_stall | lsu_unstall | except_align ? 1'b0 : |lsu_op;
-assign dcpu_we_o = lsu_op[3];
-assign dcpu_tag_o = dcpu_cycstb_o ? `OR1200_DTAG_ND : `OR1200_DTAG_IDLE;
-always @(lsu_op or dcpu_adr_o)
- casex({lsu_op, dcpu_adr_o[1:0]})
- {`OR1200_LSUOP_SB, 2'b00} : dcpu_sel_o = 4'b1000;
- {`OR1200_LSUOP_SB, 2'b01} : dcpu_sel_o = 4'b0100;
- {`OR1200_LSUOP_SB, 2'b10} : dcpu_sel_o = 4'b0010;
- {`OR1200_LSUOP_SB, 2'b11} : dcpu_sel_o = 4'b0001;
- {`OR1200_LSUOP_SH, 2'b00} : dcpu_sel_o = 4'b1100;
- {`OR1200_LSUOP_SH, 2'b10} : dcpu_sel_o = 4'b0011;
- {`OR1200_LSUOP_SW, 2'b00} : dcpu_sel_o = 4'b1111;
- {`OR1200_LSUOP_LBZ, 2'b00}, {`OR1200_LSUOP_LBS, 2'b00} : dcpu_sel_o = 4'b1000;
- {`OR1200_LSUOP_LBZ, 2'b01}, {`OR1200_LSUOP_LBS, 2'b01} : dcpu_sel_o = 4'b0100;
- {`OR1200_LSUOP_LBZ, 2'b10}, {`OR1200_LSUOP_LBS, 2'b10} : dcpu_sel_o = 4'b0010;
- {`OR1200_LSUOP_LBZ, 2'b11}, {`OR1200_LSUOP_LBS, 2'b11} : dcpu_sel_o = 4'b0001;
- {`OR1200_LSUOP_LHZ, 2'b00}, {`OR1200_LSUOP_LHS, 2'b00} : dcpu_sel_o = 4'b1100;
- {`OR1200_LSUOP_LHZ, 2'b10}, {`OR1200_LSUOP_LHS, 2'b10} : dcpu_sel_o = 4'b0011;
- {`OR1200_LSUOP_LWZ, 2'b00}, {`OR1200_LSUOP_LWS, 2'b00} : dcpu_sel_o = 4'b1111;
- default : dcpu_sel_o = 4'b0000;
- endcase
-
-//
-// Instantiation of Memory-to-regfile aligner
-//
-or1200_mem2reg or1200_mem2reg(
- .addr(dcpu_adr_o[1:0]),
- .lsu_op(lsu_op),
- .memdata(dcpu_dat_i),
- .regdata(lsu_dataout)
-);
-
-//
-// Instantiation of Regfile-to-memory aligner
-//
-or1200_reg2mem or1200_reg2mem(
- .addr(dcpu_adr_o[1:0]),
- .lsu_op(lsu_op),
- .regdata(lsu_datain),
- .memdata(dcpu_dat_o)
-);
-
-endmodule
verilog/components/or1200r2/or1200_lsu.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_sb.v
===================================================================
--- verilog/components/or1200r2/or1200_sb.v (revision 185)
+++ verilog/components/or1200r2/or1200_sb.v (nonexistent)
@@ -1,196 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Store Buffer ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Implements store buffer. ////
-//// ////
-//// To Do: ////
-//// - byte combining ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2002 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_sb.v,v $
-// Revision 1.2 2002/08/22 02:18:55 lampret
-// Store buffer has been tested and it works. BY default it is still disabled until uClinux confirms correct operation on FPGA board.
-//
-// Revision 1.1 2002/08/18 19:53:08 lampret
-// Added store buffer.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_sb(
- // RISC clock, reset
- clk, rst,
-
- // Internal RISC bus (DC<->SB)
- dcsb_dat_i, dcsb_adr_i, dcsb_cyc_i, dcsb_stb_i, dcsb_we_i, dcsb_sel_i, dcsb_cab_i,
- dcsb_dat_o, dcsb_ack_o, dcsb_err_o,
-
- // BIU bus
- sbbiu_dat_o, sbbiu_adr_o, sbbiu_cyc_o, sbbiu_stb_o, sbbiu_we_o, sbbiu_sel_o, sbbiu_cab_o,
- sbbiu_dat_i, sbbiu_ack_i, sbbiu_err_i
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// RISC clock, reset
-//
-input clk; // RISC clock
-input rst; // RISC reset
-
-//
-// Internal RISC bus (DC<->SB)
-//
-input [dw-1:0] dcsb_dat_i; // input data bus
-input [aw-1:0] dcsb_adr_i; // address bus
-input dcsb_cyc_i; // WB cycle
-input dcsb_stb_i; // WB strobe
-input dcsb_we_i; // WB write enable
-input dcsb_cab_i; // CAB input
-input [3:0] dcsb_sel_i; // byte selects
-output [dw-1:0] dcsb_dat_o; // output data bus
-output dcsb_ack_o; // ack output
-output dcsb_err_o; // err output
-
-//
-// BIU bus
-//
-output [dw-1:0] sbbiu_dat_o; // output data bus
-output [aw-1:0] sbbiu_adr_o; // address bus
-output sbbiu_cyc_o; // WB cycle
-output sbbiu_stb_o; // WB strobe
-output sbbiu_we_o; // WB write enable
-output sbbiu_cab_o; // CAB input
-output [3:0] sbbiu_sel_o; // byte selects
-input [dw-1:0] sbbiu_dat_i; // input data bus
-input sbbiu_ack_i; // ack output
-input sbbiu_err_i; // err output
-
-`ifdef OR1200_SB_IMPLEMENTED
-
-//
-// Internal wires and regs
-//
-wire [4+dw+aw-1:0] fifo_dat_i; // FIFO data in
-wire [4+dw+aw-1:0] fifo_dat_o; // FIFO data out
-wire fifo_wr;
-wire fifo_rd;
-wire fifo_full;
-wire fifo_empty;
-wire sel_sb;
-reg outstanding_store;
-reg fifo_wr_ack;
-
-//
-// FIFO data in/out
-//
-assign fifo_dat_i = {dcsb_sel_i, dcsb_dat_i, dcsb_adr_i};
-assign {sbbiu_sel_o, sbbiu_dat_o, sbbiu_adr_o} = sel_sb ? fifo_dat_o : {dcsb_sel_i, dcsb_dat_i, dcsb_adr_i};
-
-//
-// Control
-//
-assign fifo_wr = dcsb_cyc_i & dcsb_stb_i & dcsb_we_i & ~fifo_full & ~fifo_wr_ack;
-assign fifo_rd = ~outstanding_store;
-assign dcsb_dat_o = sbbiu_dat_i;
-assign dcsb_ack_o = sel_sb ? fifo_wr_ack : sbbiu_ack_i;
-assign dcsb_err_o = sel_sb ? 1'b0 : sbbiu_err_i; // SB never returns error
-assign sbbiu_cyc_o = sel_sb ? outstanding_store : dcsb_cyc_i;
-assign sbbiu_stb_o = sel_sb ? outstanding_store : dcsb_stb_i;
-assign sbbiu_we_o = sel_sb ? 1'b1 : dcsb_we_i;
-assign sbbiu_cab_o = sel_sb ? 1'b0 : dcsb_cab_i;
-assign sel_sb = ~fifo_empty | (fifo_empty & outstanding_store); // | fifo_wr;
-
-//
-// Store buffer FIFO instantiation
-//
-or1200_sb_fifo or1200_sb_fifo (
- .clk_i(clk),
- .rst_i(rst),
- .dat_i(fifo_dat_i),
- .wr_i(fifo_wr),
- .rd_i(fifo_rd),
- .dat_o(fifo_dat_o),
- .full_o(fifo_full),
- .empty_o(fifo_empty)
-);
-
-//
-// fifo_rd
-//
-always @(posedge clk or posedge rst)
- if (rst)
- outstanding_store <= #1 1'b0;
- else if (sbbiu_ack_i)
- outstanding_store <= #1 1'b0;
- else if (sel_sb | fifo_wr)
- outstanding_store <= #1 1'b1;
-
-//
-// fifo_wr_ack
-//
-always @(posedge clk or posedge rst)
- if (rst)
- fifo_wr_ack <= #1 1'b0;
- else if (fifo_wr)
- fifo_wr_ack <= #1 1'b1;
- else
- fifo_wr_ack <= #1 1'b0;
-
-`else // !OR1200_SB_IMPLEMENTED
-
-assign sbbiu_dat_o = dcsb_dat_i;
-assign sbbiu_adr_o = dcsb_adr_i;
-assign sbbiu_cyc_o = dcsb_cyc_i;
-assign sbbiu_stb_o = dcsb_stb_i;
-assign sbbiu_we_o = dcsb_we_i;
-assign sbbiu_cab_o = dcsb_cab_i;
-assign sbbiu_sel_o = dcsb_sel_i;
-assign dcsb_dat_o = sbbiu_dat_i;
-assign dcsb_ack_o = sbbiu_ack_i;
-assign dcsb_err_o = sbbiu_err_i;
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_sb.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_immu_tlb.v
===================================================================
--- verilog/components/or1200r2/or1200_immu_tlb.v (revision 185)
+++ verilog/components/or1200r2/or1200_immu_tlb.v (nonexistent)
@@ -1,309 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Instruction TLB ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of ITLB. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_immu_tlb.v,v $
-// Revision 1.9 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.8 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.6.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.6 2002/10/28 16:34:32 mohor
-// RAMs wrong connected to the BIST scan chain.
-//
-// Revision 1.5 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.4 2002/08/14 06:23:50 lampret
-// Disabled ITLB translation when 1) doing access to ITLB SPRs or 2) crossing page. This modification was tested only with parts of IMMU test - remaining test cases needs to be run.
-//
-// Revision 1.3 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.2 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Insn TLB
-//
-
-module or1200_immu_tlb(
- // Rst and clk
- clk, rst,
-
- // I/F for translation
- tlb_en, vaddr, hit, ppn, uxe, sxe, ci,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // SPR access
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// I/F for translation
-//
-input tlb_en;
-input [aw-1:0] vaddr;
-output hit;
-output [31:`OR1200_IMMU_PS] ppn;
-output uxe;
-output sxe;
-output ci;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// SPR access
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
-//
-// Internal wires and regs
-//
-wire [`OR1200_ITLB_TAG] vpn;
-wire v;
-wire [`OR1200_ITLB_INDXW-1:0] tlb_index;
-wire tlb_mr_en;
-wire tlb_mr_we;
-wire [`OR1200_ITLBMRW-1:0] tlb_mr_ram_in;
-wire [`OR1200_ITLBMRW-1:0] tlb_mr_ram_out;
-wire tlb_tr_en;
-wire tlb_tr_we;
-wire [`OR1200_ITLBTRW-1:0] tlb_tr_ram_in;
-wire [`OR1200_ITLBTRW-1:0] tlb_tr_ram_out;
-
-// BIST
-`ifdef OR1200_BIST
-wire itlb_mr_ram_si;
-wire itlb_mr_ram_so;
-wire itlb_tr_ram_si;
-wire itlb_tr_ram_so;
-`endif
-
-//
-// Implemented bits inside match and translate registers
-//
-// itlbwYmrX: vpn 31-19 v 0
-// itlbwYtrX: ppn 31-13 uxe 7 sxe 6
-//
-// itlb memory width:
-// 19 bits for ppn
-// 13 bits for vpn
-// 1 bit for valid
-// 2 bits for protection
-// 1 bit for cache inhibit
-
-//
-// Enable for Match registers
-//
-assign tlb_mr_en = tlb_en | (spr_cs & !spr_addr[`OR1200_ITLB_TM_ADDR]);
-
-//
-// Write enable for Match registers
-//
-assign tlb_mr_we = spr_cs & spr_write & !spr_addr[`OR1200_ITLB_TM_ADDR];
-
-//
-// Enable for Translate registers
-//
-assign tlb_tr_en = tlb_en | (spr_cs & spr_addr[`OR1200_ITLB_TM_ADDR]);
-
-//
-// Write enable for Translate registers
-//
-assign tlb_tr_we = spr_cs & spr_write & spr_addr[`OR1200_ITLB_TM_ADDR];
-
-//
-// Output to SPRS unit
-//
-assign spr_dat_o = (!spr_write & !spr_addr[`OR1200_ITLB_TM_ADDR]) ?
- {vpn, tlb_index, {`OR1200_ITLB_TAGW-7{1'b0}}, 1'b0, 5'b00000, v} :
- (!spr_write & spr_addr[`OR1200_ITLB_TM_ADDR]) ?
- {ppn, {`OR1200_IMMU_PS-8{1'b0}}, uxe, sxe, {4{1'b0}}, ci, 1'b0} :
- 32'h00000000;
-
-//
-// Assign outputs from Match registers
-//
-assign {vpn, v} = tlb_mr_ram_out;
-
-//
-// Assign to Match registers inputs
-//
-assign tlb_mr_ram_in = {spr_dat_i[`OR1200_ITLB_TAG], spr_dat_i[`OR1200_ITLBMR_V_BITS]};
-
-//
-// Assign outputs from Translate registers
-//
-assign {ppn, uxe, sxe, ci} = tlb_tr_ram_out;
-
-//
-// Assign to Translate registers inputs
-//
-assign tlb_tr_ram_in = {spr_dat_i[31:`OR1200_IMMU_PS],
- spr_dat_i[`OR1200_ITLBTR_UXE_BITS],
- spr_dat_i[`OR1200_ITLBTR_SXE_BITS],
- spr_dat_i[`OR1200_ITLBTR_CI_BITS]};
-
-//
-// Generate hit
-//
-assign hit = (vpn == vaddr[`OR1200_ITLB_TAG]) & v;
-
-//
-// TLB index is normally vaddr[18:13]. If it is SPR access then index is
-// spr_addr[5:0].
-//
-assign tlb_index = spr_cs ? spr_addr[`OR1200_ITLB_INDXW-1:0] : vaddr[`OR1200_ITLB_INDX];
-
-
-`ifdef OR1200_BIST
-assign itlb_mr_ram_si = mbist_si_i;
-assign itlb_tr_ram_si = itlb_mr_ram_so;
-assign mbist_so_o = itlb_tr_ram_so;
-`endif
-
-
-//
-// Instantiation of ITLB Match Registers
-//
- or1200_spram #
- (
- .aw(6),
- .dw(14)
- )
- itlb_mr_ram
- (
- .clk(clk),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(itlb_mr_ram_si),
- .mbist_so_o(itlb_mr_ram_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .ce(tlb_mr_en),
- .we(tlb_mr_we),
- //.oe(1'b1),
- .addr(tlb_index),
- .di(tlb_mr_ram_in),
- .doq(tlb_mr_ram_out)
- );
-
-//
-// Instantiation of ITLB Translate Registers
-//
- or1200_spram #
- (
- .aw(6),
- .dw(22)
- )
- itlb_tr_ram
- (
- .clk(clk),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(itlb_tr_ram_si),
- .mbist_so_o(itlb_tr_ram_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .ce(tlb_tr_en),
- .we(tlb_tr_we),
- //.oe(1'b1),
- .addr(tlb_index),
- .di(tlb_tr_ram_in),
- .doq(tlb_tr_ram_out)
- );
-
-endmodule
verilog/components/or1200r2/or1200_immu_tlb.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dc_top.v
===================================================================
--- verilog/components/or1200r2/or1200_dc_top.v (revision 185)
+++ verilog/components/or1200r2/or1200_dc_top.v (nonexistent)
@@ -1,345 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Data Cache top level ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of all DC blocks. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_dc_top.v,v $
-// Revision 1.8 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.6.4.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.6.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.6 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.5 2002/08/18 19:54:47 lampret
-// Added store buffer.
-//
-// Revision 1.4 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.9 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.4 2001/08/13 03:36:20 lampret
-// Added cfg regs. Moved all defines into one defines.v file. More cleanup.
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:53 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Data cache
-//
-module or1200_dc_top(
- // Rst, clk and clock control
- clk, rst,
-
- // External i/f
- dcsb_dat_o, dcsb_adr_o, dcsb_cyc_o, dcsb_stb_o, dcsb_we_o, dcsb_sel_o, dcsb_cab_o,
- dcsb_dat_i, dcsb_ack_i, dcsb_err_i,
-
- // Internal i/f
- dc_en,
- dcqmem_adr_i, dcqmem_cycstb_i, dcqmem_ci_i,
- dcqmem_we_i, dcqmem_sel_i, dcqmem_tag_i, dcqmem_dat_i,
- dcqmem_dat_o, dcqmem_ack_o, dcqmem_rty_o, dcqmem_err_o, dcqmem_tag_o,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // SPRs
- spr_cs, spr_write, spr_dat_i
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// External I/F
-//
-output [dw-1:0] dcsb_dat_o;
-output [31:0] dcsb_adr_o;
-output dcsb_cyc_o;
-output dcsb_stb_o;
-output dcsb_we_o;
-output [3:0] dcsb_sel_o;
-output dcsb_cab_o;
-input [dw-1:0] dcsb_dat_i;
-input dcsb_ack_i;
-input dcsb_err_i;
-
-//
-// Internal I/F
-//
-input dc_en;
-input [31:0] dcqmem_adr_i;
-input dcqmem_cycstb_i;
-input dcqmem_ci_i;
-input dcqmem_we_i;
-input [3:0] dcqmem_sel_i;
-input [3:0] dcqmem_tag_i;
-input [dw-1:0] dcqmem_dat_i;
-output [dw-1:0] dcqmem_dat_o;
-output dcqmem_ack_o;
-output dcqmem_rty_o;
-output dcqmem_err_o;
-output [3:0] dcqmem_tag_o;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// SPR access
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_dat_i;
-
-//
-// Internal wires and regs
-//
-wire tag_v;
-wire [`OR1200_DCTAG_W-2:0] tag;
-wire [dw-1:0] to_dcram;
-wire [dw-1:0] from_dcram;
-wire [31:0] saved_addr;
-wire [3:0] dcram_we;
-wire dctag_we;
-wire [31:0] dc_addr;
-wire dcfsm_biu_read;
-wire dcfsm_biu_write;
-reg tagcomp_miss;
-wire [`OR1200_DCINDXH:`OR1200_DCLS] dctag_addr;
-wire dctag_en;
-wire dctag_v;
-wire dc_inv;
-wire dcfsm_first_hit_ack;
-wire dcfsm_first_miss_ack;
-wire dcfsm_first_miss_err;
-wire dcfsm_burst;
-wire dcfsm_tag_we;
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-wire mbist_ram_so;
-wire mbist_tag_so;
-wire mbist_ram_si = mbist_si_i;
-wire mbist_tag_si = mbist_ram_so;
-assign mbist_so_o = mbist_tag_so;
-`endif
-
-//
-// Simple assignments
-//
-assign dcsb_adr_o = dc_addr;
-assign dc_inv = spr_cs & spr_write;
-assign dctag_we = dcfsm_tag_we | dc_inv;
-assign dctag_addr = dc_inv ? spr_dat_i[`OR1200_DCINDXH:`OR1200_DCLS] : dc_addr[`OR1200_DCINDXH:`OR1200_DCLS];
-assign dctag_en = dc_inv | dc_en;
-assign dctag_v = ~dc_inv;
-
-//
-// Data to BIU is from DCRAM when DC is enabled or from LSU when
-// DC is disabled
-//
-assign dcsb_dat_o = dcqmem_dat_i;
-
-//
-// Bypases of the DC when DC is disabled
-//
-assign dcsb_cyc_o = (dc_en) ? dcfsm_biu_read | dcfsm_biu_write : dcqmem_cycstb_i;
-assign dcsb_stb_o = (dc_en) ? dcfsm_biu_read | dcfsm_biu_write : dcqmem_cycstb_i;
-assign dcsb_we_o = (dc_en) ? dcfsm_biu_write : dcqmem_we_i;
-assign dcsb_sel_o = (dc_en & dcfsm_biu_read & !dcfsm_biu_write & !dcqmem_ci_i) ? 4'b1111 : dcqmem_sel_i;
-assign dcsb_cab_o = (dc_en) ? dcsb_cyc_o & dcfsm_burst : 1'b0;
-assign dcqmem_rty_o = ~dcqmem_ack_o;
-assign dcqmem_tag_o = dcqmem_err_o ? `OR1200_DTAG_BE : dcqmem_tag_i;
-
-//
-// DC/LSU normal and error termination
-//
-assign dcqmem_ack_o = dc_en ? dcfsm_first_hit_ack | dcfsm_first_miss_ack : dcsb_ack_i;
-assign dcqmem_err_o = dc_en ? dcfsm_first_miss_err : dcsb_err_i;
-
-//
-// Select between claddr generated by DC FSM and addr[3:2] generated by LSU
-//
-//assign dc_addr = (dcfsm_biu_read | dcfsm_biu_write) ? saved_addr : dcqmem_adr_i;
-
-//
-// Select between input data generated by LSU or by BIU
-//
-assign to_dcram = (dcfsm_biu_read) ? dcsb_dat_i : dcqmem_dat_i;
-
-//
-// Select between data generated by DCRAM or passed by BIU
-//
-assign dcqmem_dat_o = dcfsm_first_miss_ack | !dc_en ? dcsb_dat_i : from_dcram;
-
-//
-// Tag comparison
-//
-always @(tag or saved_addr or tag_v) begin
- if ((tag != saved_addr[31:`OR1200_DCTAGL]) || !tag_v)
- tagcomp_miss = 1'b1;
- else
- tagcomp_miss = 1'b0;
-end
-
-//
-// Instantiation of DC Finite State Machine
-//
-or1200_dc_fsm or1200_dc_fsm(
- .clk(clk),
- .rst(rst),
- .dc_en(dc_en),
- .dcqmem_cycstb_i(dcqmem_cycstb_i),
- .dcqmem_ci_i(dcqmem_ci_i),
- .dcqmem_we_i(dcqmem_we_i),
- .dcqmem_sel_i(dcqmem_sel_i),
- .tagcomp_miss(tagcomp_miss),
- .biudata_valid(dcsb_ack_i),
- .biudata_error(dcsb_err_i),
- .start_addr(dcqmem_adr_i),
- .saved_addr(saved_addr),
- .dcram_we(dcram_we),
- .biu_read(dcfsm_biu_read),
- .biu_write(dcfsm_biu_write),
- .first_hit_ack(dcfsm_first_hit_ack),
- .first_miss_ack(dcfsm_first_miss_ack),
- .first_miss_err(dcfsm_first_miss_err),
- .burst(dcfsm_burst),
- .tag_we(dcfsm_tag_we),
- .dc_addr(dc_addr)
-);
-
-//
-// Instantiation of DC main memory
-//
-or1200_dc_ram or1200_dc_ram(
- .clk(clk),
- .rst(rst),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_ram_si),
- .mbist_so_o(mbist_ram_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .addr(dc_addr[`OR1200_DCINDXH:2]),
- .en(dc_en),
- .we(dcram_we),
- .datain(to_dcram),
- .dataout(from_dcram)
-);
-
-//
-// Instantiation of DC TAG memory
-//
-or1200_dc_tag or1200_dc_tag(
- .clk(clk),
- .rst(rst),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_tag_si),
- .mbist_so_o(mbist_tag_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .addr(dctag_addr),
- .en(dctag_en),
- .we(dctag_we),
- .datain({dc_addr[31:`OR1200_DCTAGL], dctag_v}),
- .tag_v(tag_v),
- .tag(tag)
-);
-
-endmodule
verilog/components/or1200r2/or1200_dc_top.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_256x21.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_256x21.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_256x21.v (nonexistent)
@@ -1,419 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMBS16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_256x21.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/27 21:24:04 lampret
-// Changed instantiation name of VS RAMs.
-//
-// Revision 1.9 2001/11/27 19:45:04 lampret
-// Fixed VS RAM instantiation - again.
-//
-// Revision 1.8 2001/11/23 21:42:31 simons
-// Program counter divided to PPC and NPC.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_256x21(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 8;
-parameter dw = 21;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-`ifdef OR1200_XILINX_RAMB4
-wire [10:0] unconnected;
-`else
-`ifdef OR1200_XILINX_RAMB16
-wire [10:0] unconnected;
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_256x21 #(dw, 1<
verilog/components/or1200r2/or1200_spram_256x21.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_128x32.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_128x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_128x32.v (nonexistent)
@@ -1,283 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// ////
-//// To Do: ////
-//// - add support for other RAM's ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_128x32.v,v $
-// Revision 1.3 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.2 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.1 2004/04/08 11:00:46 simont
-// Add support for 512B instruction cache.
-//
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_128x32(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 7;
-parameter dw = 32;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-`else
-`ifdef OR1200_BIST
-`else
-`endif
-`endif
-`ifdef OR1200_BIST
-`endif
-`else
-
-`ifdef OR1200_AVANT_ATP
-
-//
-// Instantiation of ASIC memory:
-//
-// Avant! Asynchronous Two-Port RAM
-//
-
-`else
-
-`ifdef OR1200_VIRAGE_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virage Synchronous 1-port R/W RAM
-//
-
-`else
-
-`ifdef OR1200_VIRTUALSILICON_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virtual Silicon Single-Port Synchronous SRAM
-//
-`ifdef UNUSED
-`else
-`ifdef OR1200_BIST
-`else
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
-`endif
-
-`else
-
-`ifdef OR1200_XILINX_RAMB4
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex/Spartan2
-//
-
-//
-// Block 0
-//
-RAMB4_S16 ramb4_s16_0(
- .CLK(clk),
- .RST(rst),
- .ADDR({1'b0, addr}),
- .DI(di[15:0]),
- .EN(ce),
- .WE(we),
- .DO(doq[15:0])
-);
-
-//
-// Block 1
-//
-RAMB4_S16 ramb4_s16_1(
- .CLK(clk),
- .RST(rst),
- .ADDR({1'b0, addr}),
- .DI(di[31:16]),
- .EN(ce),
- .WE(we),
- .DO(doq[31:16])
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB16
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex4/Spartan3E
-//
-// Added By Nir Mor
-//
-
-RAMB16_S36 ramb16_s36(
- .CLK(clk),
- .SSR(rst),
- .ADDR({2'b00, addr}),
- .DI(di),
- .DIP(4'h0),
- .EN(ce),
- .WE(we),
- .DO(doq),
- .DOP()
-);
-
-`else
-
-//
-// Generic single-port synchronous RAM model
-//
-
-//
-// Generic RAM's registers and wires
-//
-reg [dw-1:0] mem [(1<
verilog/components/or1200r2/or1200_spram_128x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_operandmuxes.v
===================================================================
--- verilog/components/or1200r2/or1200_operandmuxes.v (revision 185)
+++ verilog/components/or1200r2/or1200_operandmuxes.v (nonexistent)
@@ -1,187 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's register file read operands mux ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Mux for two register file read operands. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_operandmuxes.v,v $
-// Revision 1.2 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/11/12 01:45:40 lampret
-// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:05 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_operandmuxes(
- // Clock and reset
- clk, rst,
-
- // Internal i/f
- id_freeze, ex_freeze, rf_dataa, rf_datab, ex_forw, wb_forw,
- simm, sel_a, sel_b, operand_a, operand_b, muxed_b
-);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-input clk;
-input rst;
-input id_freeze;
-input ex_freeze;
-input [width-1:0] rf_dataa;
-input [width-1:0] rf_datab;
-input [width-1:0] ex_forw;
-input [width-1:0] wb_forw;
-input [width-1:0] simm;
-input [`OR1200_SEL_WIDTH-1:0] sel_a;
-input [`OR1200_SEL_WIDTH-1:0] sel_b;
-output [width-1:0] operand_a;
-output [width-1:0] operand_b;
-output [width-1:0] muxed_b;
-
-//
-// Internal wires and regs
-//
-reg [width-1:0] operand_a;
-reg [width-1:0] operand_b;
-reg [width-1:0] muxed_a;
-reg [width-1:0] muxed_b;
-reg saved_a;
-reg saved_b;
-
-//
-// Operand A register
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- operand_a <= #1 32'd0;
- saved_a <= #1 1'b0;
- end else if (!ex_freeze && id_freeze && !saved_a) begin
- operand_a <= #1 muxed_a;
- saved_a <= #1 1'b1;
- end else if (!ex_freeze && !saved_a) begin
- operand_a <= #1 muxed_a;
- end else if (!ex_freeze && !id_freeze)
- saved_a <= #1 1'b0;
-end
-
-//
-// Operand B register
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- operand_b <= #1 32'd0;
- saved_b <= #1 1'b0;
- end else if (!ex_freeze && id_freeze && !saved_b) begin
- operand_b <= #1 muxed_b;
- saved_b <= #1 1'b1;
- end else if (!ex_freeze && !saved_b) begin
- operand_b <= #1 muxed_b;
- end else if (!ex_freeze && !id_freeze)
- saved_b <= #1 1'b0;
-end
-
-//
-// Forwarding logic for operand A register
-//
-always @(ex_forw or wb_forw or rf_dataa or sel_a) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
- casex (sel_a) // synopsys parallel_case infer_mux
-`else
- casex (sel_a) // synopsys parallel_case
-`endif
- `OR1200_SEL_EX_FORW:
- muxed_a = ex_forw;
- `OR1200_SEL_WB_FORW:
- muxed_a = wb_forw;
- default:
- muxed_a = rf_dataa;
- endcase
-end
-
-//
-// Forwarding logic for operand B register
-//
-always @(simm or ex_forw or wb_forw or rf_datab or sel_b) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
- casex (sel_b) // synopsys parallel_case infer_mux
-`else
- casex (sel_b) // synopsys parallel_case
-`endif
- `OR1200_SEL_IMM:
- muxed_b = simm;
- `OR1200_SEL_EX_FORW:
- muxed_b = ex_forw;
- `OR1200_SEL_WB_FORW:
- muxed_b = wb_forw;
- default:
- muxed_b = rf_datab;
- endcase
-end
-
-endmodule
verilog/components/or1200r2/or1200_operandmuxes.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_1024x32_bw.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_1024x32_bw.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_1024x32_bw.v (nonexistent)
@@ -1,573 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM with byte write signals ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_1024x32_bw.v,v $
-// Revision 1.4 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.3 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.2 2003/10/17 07:59:44 markom
-// mbist signals updated according to newest convention
-//
-// Revision 1.1 2003/08/27 08:38:36 simons
-// Added support for rams with byte write access.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_1024x32_bw(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; // bist chain shift control
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input [3:0] we; // Write enable input
-input oe; // Output enable input
-input [9:0] addr; // address bus inputs
-input [31:0] di; // input data bus
-output [31:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_1024x32_bw artisan_ssp(
-`else
-`ifdef OR1200_BIST
-art_hssp_1024x32_bw_bist artisan_ssp(
-`else
-art_hssp_1024x32_bw artisan_ssp(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CLK(clk),
- .CEN(~ce),
- .WEN(~we),
- .A(addr),
- .D(di),
- .OEN(~oe),
- .Q(doq)
-);
-
-`else
-
-`ifdef OR1200_AVANT_ATP
-
-//
-// Instantiation of ASIC memory:
-//
-// Avant! Asynchronous Two-Port RAM
-//
-avant_atp avant_atp(
- .web(~we),
- .reb(),
- .oeb(~oe),
- .rcsb(),
- .wcsb(),
- .ra(addr),
- .wa(addr),
- .di(di),
- .doq(doq)
-);
-
-`else
-
-`ifdef OR1200_VIRAGE_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virage Synchronous 1-port R/W RAM
-//
-virage_ssp virage_ssp(
- .clk(clk),
- .adr(addr),
- .d(di),
- .we(we),
- .oe(oe),
- .me(ce),
- .q(doq)
-);
-
-`else
-
-`ifdef OR1200_VIRTUALSILICON_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virtual Silicon Single-Port Synchronous SRAM
-//
-`ifdef OR1200_BIST
-wire mbist_si_i_ram_0;
-wire mbist_si_i_ram_1;
-wire mbist_si_i_ram_2;
-wire mbist_si_i_ram_3;
-wire mbist_so_o_ram_0;
-wire mbist_so_o_ram_1;
-wire mbist_so_o_ram_2;
-wire mbist_so_o_ram_3;
-assign mbist_si_i_ram_0 = mbist_si_i;
-assign mbist_si_i_ram_1 = mbist_so_o_ram_0;
-assign mbist_si_i_ram_2 = mbist_so_o_ram_1;
-assign mbist_si_i_ram_3 = mbist_so_o_ram_2;
-assign mbist_so_o = mbist_so_o_ram_3;
-`endif
-
-`ifdef UNUSED
-vs_hdsp_1024x8 vs_ssp_0(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_1024x8_bist vs_ssp_0(
-`else
-vs_hdsp_1024x8 vs_ssp_0(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_0),
- .mbist_so_o(mbist_so_o_ram_0),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[7:0]),
- .WEN(~we[0]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[7:0])
-);
-
-`ifdef UNUSED
-vs_hdsp_1024x8 vs_ssp_1(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_1024x8_bist vs_ssp_1(
-`else
-vs_hdsp_1024x8 vs_ssp_1(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_1),
- .mbist_so_o(mbist_so_o_ram_1),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[15:8]),
- .WEN(~we[1]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[15:8])
-);
-
-`ifdef UNUSED
-vs_hdsp_1024x8 vs_ssp_2(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_1024x8_bist vs_ssp_2(
-`else
-vs_hdsp_1024x8 vs_ssp_2(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_2),
- .mbist_so_o(mbist_so_o_ram_2),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[23:16]),
- .WEN(~we[2]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[23:16])
-);
-
-`ifdef UNUSED
-vs_hdsp_1024x8 vs_ssp_3(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_1024x8_bist vs_ssp_3(
-`else
-vs_hdsp_1024x8 vs_ssp_3(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_3),
- .mbist_so_o(mbist_so_o_ram_3),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[31:24]),
- .WEN(~we[3]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[31:24])
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB4
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex/Spartan2
-//
-
-//
-// Block 0
-//
-RAMB4_S4 ramb4_s4_0(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[3:0]),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[3:0])
-);
-
-//
-// Block 1
-//
-RAMB4_S4 ramb4_s4_1(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[7:4]),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[7:4])
-);
-
-//
-// Block 2
-//
-RAMB4_S4 ramb4_s4_2(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[11:8]),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[11:8])
-);
-
-//
-// Block 3
-//
-RAMB4_S4 ramb4_s4_3(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[15:12]),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[15:12])
-);
-
-//
-// Block 4
-//
-RAMB4_S4 ramb4_s4_4(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[19:16]),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[19:16])
-);
-
-//
-// Block 5
-//
-RAMB4_S4 ramb4_s4_5(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[23:20]),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[23:20])
-);
-
-//
-// Block 6
-//
-RAMB4_S4 ramb4_s4_6(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[27:24]),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[27:24])
-);
-
-//
-// Block 7
-//
-RAMB4_S4 ramb4_s4_7(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[31:28]),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[31:28])
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB16
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex4/Spartan3E
-//
-// Added By Nir Mor
-//
-
-//
-// Block 0
-//
-RAMB16_S9 ramb16_s9_0(
- .CLK(clk),
- .SSR(rst),
- .ADDR({1'b0,addr}),
- .DI(di[7:0]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[7:0]),
- .DOP()
-);
-
-//
-// Block 1
-//
-RAMB16_S9 ramb16_s9_1(
- .CLK(clk),
- .SSR(rst),
- .ADDR({1'b0,addr}),
- .DI(di[15:8]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[15:8]),
- .DOP()
-);
-
-//
-// Block 2
-//
-RAMB16_S9 ramb16_s9_2(
- .CLK(clk),
- .SSR(rst),
- .ADDR({1'b0,addr}),
- .DI(di[23:16]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[23:16]),
- .DOP()
-);
-
-//
-// Block 3
-//
-RAMB16_S9 ramb16_s9_3(
- .CLK(clk),
- .SSR(rst),
- .ADDR({1'b0,addr}),
- .DI(di[31:24]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[31:24]),
- .DOP()
-);
-
-`else
-
-//
-// Generic single-port synchronous RAM model
-//
-
-//
-// Generic RAM's registers and wires
-//
-reg [7:0] mem_0 [1023:0]; // RAM content
-reg [7:0] mem_1 [1023:0]; // RAM content
-reg [7:0] mem_2 [1023:0]; // RAM content
-reg [7:0] mem_3 [1023:0]; // RAM content
-reg [9:0] addr_reg; // RAM address register
-
-//
-// Data output drivers
-//
-assign doq = (oe) ? {mem_3[addr_reg], mem_2[addr_reg], mem_1[addr_reg], mem_0[addr_reg]} : {32{1'b0}};
-
-//
-// RAM address register
-//
-always @(posedge clk or posedge rst)
- if (rst)
- addr_reg <= #1 10'h000;
- else if (ce)
- addr_reg <= #1 addr;
-
-//
-// RAM write byte 0
-//
-always @(posedge clk)
- if (ce && we[0])
- mem_0[addr] <= #1 di[7:0];
-
-//
-// RAM write byte 1
-//
-always @(posedge clk)
- if (ce && we[1])
- mem_1[addr] <= #1 di[15:8];
-
-//
-// RAM write byte 2
-//
-always @(posedge clk)
- if (ce && we[2])
- mem_2[addr] <= #1 di[23:16];
-
-//
-// RAM write byte 3
-//
-always @(posedge clk)
- if (ce && we[3])
- mem_3[addr] <= #1 di[31:24];
-
-
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-`endif // !OR1200_VIRTUALSILICON_SSP
-`endif // !OR1200_VIRAGE_SSP
-`endif // !OR1200_AVANT_ATP
-`endif // !OR1200_ARTISAN_SSP
-
-endmodule
verilog/components/or1200r2/or1200_spram_1024x32_bw.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_2048x8.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_2048x8.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_2048x8.v (nonexistent)
@@ -1,429 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_2048x8.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_2048x8(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 11;
-parameter dw = 8;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_2048x8 #(dw, 1<
verilog/components/or1200r2/or1200_spram_2048x8.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_iwb_biu.v
===================================================================
--- verilog/components/or1200r2/or1200_iwb_biu.v (revision 185)
+++ verilog/components/or1200r2/or1200_iwb_biu.v (nonexistent)
@@ -1,519 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's WISHBONE BIU ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Implements WISHBONE interface ////
-//// ////
-//// To Do: ////
-//// - if biu_cyc/stb are deasserted and wb_ack_i is asserted ////
-//// and this happens even before aborted_r is asssrted, ////
-//// wb_ack_i will be delivered even though transfer is ////
-//// internally considered already aborted. However most ////
-//// wb_ack_i are externally registered and delayed. Normally ////
-//// this shouldn't cause any problems. ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_iwb_biu.v,v $
-// Revision 1.2 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.1 2003/12/05 00:12:08 lampret
-// New wb_biu for iwb interface.
-//
-// Revision 1.6.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.6 2003/04/07 20:57:46 lampret
-// Fixed OR1200_CLKDIV_x_SUPPORTED defines. Fixed order of ifdefs.
-//
-// Revision 1.5 2002/12/08 08:57:56 lampret
-// Added optional support for WB B3 specification (xwb_cti_o, xwb_bte_o). Made xwb_cab_o optional.
-//
-// Revision 1.4 2002/09/16 03:09:16 lampret
-// Fixed a combinational loop.
-//
-// Revision 1.3 2002/08/12 05:31:37 lampret
-// Added optional retry counter for wb_rty_i. Added graceful termination for aborted transfers.
-//
-// Revision 1.2 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.12 2001/11/22 13:42:51 lampret
-// Added wb_cyc_o assignment after it was removed by accident.
-//
-// Revision 1.11 2001/11/20 21:28:10 lampret
-// Added optional sampling of inputs.
-//
-// Revision 1.10 2001/11/18 11:32:00 lampret
-// OR1200_REGISTERED_OUTPUTS can now be enabled.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:54 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:23 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_iwb_biu(
- // RISC clock, reset and clock control
- clk, rst, clmode,
-
- // WISHBONE interface
- wb_clk_i, wb_rst_i, wb_ack_i, wb_err_i, wb_rty_i, wb_dat_i,
- wb_cyc_o, wb_adr_o, wb_stb_o, wb_we_o, wb_sel_o, wb_dat_o,
-`ifdef OR1200_WB_CAB
- wb_cab_o,
-`endif
-`ifdef OR1200_WB_B3
- wb_cti_o, wb_bte_o,
-`endif
-
- // Internal RISC bus
- biu_dat_i, biu_adr_i, biu_cyc_i, biu_stb_i, biu_we_i, biu_sel_i, biu_cab_i,
- biu_dat_o, biu_ack_o, biu_err_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// RISC clock, reset and clock control
-//
-input clk; // RISC clock
-input rst; // RISC reset
-input [1:0] clmode; // 00 WB=RISC, 01 WB=RISC/2, 10 N/A, 11 WB=RISC/4
-
-//
-// WISHBONE interface
-//
-input wb_clk_i; // clock input
-input wb_rst_i; // reset input
-input wb_ack_i; // normal termination
-input wb_err_i; // termination w/ error
-input wb_rty_i; // termination w/ retry
-input [dw-1:0] wb_dat_i; // input data bus
-output wb_cyc_o; // cycle valid output
-output [aw-1:0] wb_adr_o; // address bus outputs
-output wb_stb_o; // strobe output
-output wb_we_o; // indicates write transfer
-output [3:0] wb_sel_o; // byte select outputs
-output [dw-1:0] wb_dat_o; // output data bus
-`ifdef OR1200_WB_CAB
-output wb_cab_o; // consecutive address burst
-`endif
-`ifdef OR1200_WB_B3
-output [2:0] wb_cti_o; // cycle type identifier
-output [1:0] wb_bte_o; // burst type extension
-`endif
-
-//
-// Internal RISC interface
-//
-input [dw-1:0] biu_dat_i; // input data bus
-input [aw-1:0] biu_adr_i; // address bus
-input biu_cyc_i; // WB cycle
-input biu_stb_i; // WB strobe
-input biu_we_i; // WB write enable
-input biu_cab_i; // CAB input
-input [3:0] biu_sel_i; // byte selects
-output [31:0] biu_dat_o; // output data bus
-output biu_ack_o; // ack output
-output biu_err_o; // err output
-
-//
-// Registers
-//
-reg [1:0] valid_div; // Used for synchronization
-`ifdef OR1200_REGISTERED_OUTPUTS
-reg [aw-1:0] wb_adr_o; // address bus outputs
-reg wb_cyc_o; // cycle output
-reg wb_stb_o; // strobe output
-reg wb_we_o; // indicates write transfer
-reg [3:0] wb_sel_o; // byte select outputs
-`ifdef OR1200_WB_CAB
-reg wb_cab_o; // CAB output
-`endif
-`ifdef OR1200_WB_B3
-reg [1:0] burst_len; // burst counter
-reg [2:0] wb_cti_o; // cycle type identifier
-`endif
-reg [dw-1:0] wb_dat_o; // output data bus
-`endif
-`ifdef OR1200_REGISTERED_INPUTS
-reg long_ack_o; // normal termination
-reg long_err_o; // error termination
-reg [dw-1:0] biu_dat_o; // output data bus
-`else
-wire long_ack_o; // normal termination
-wire long_err_o; // error termination
-`endif
-wire aborted; // Graceful abort
-reg aborted_r; // Graceful abort
-wire retry; // Retry
-`ifdef OR1200_WB_RETRY
-reg [`OR1200_WB_RETRY-1:0] retry_cntr; // Retry counter
-`endif
-reg previous_complete;
-wire same_addr;
-wire repeated_access;
-reg repeated_access_ack;
-reg [dw-1:0] wb_dat_r; // saved previous data read
-
-//
-// WISHBONE I/F <-> Internal RISC I/F conversion
-//
-
-//
-// Address bus
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_adr_o <= #1 {aw{1'b0}};
- else if ((biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~aborted & ~(wb_stb_o & ~wb_ack_i) | biu_cab_i & (previous_complete | biu_ack_o))
- wb_adr_o <= #1 biu_adr_i;
-`else
-assign wb_adr_o = biu_adr_i;
-`endif
-
-//
-// Same access as previous one, store previous read data
-//
-assign same_addr = wb_adr_o == biu_adr_i;
-assign repeated_access = same_addr & previous_complete;
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_dat_r <= #1 32'h0000_0000;
- else if (wb_ack_i)
- wb_dat_r <= #1 wb_dat_i;
-
-always @(posedge clk or posedge rst)
- if (rst)
- repeated_access_ack <= #1 1'b0;
- else if (repeated_access & biu_cyc_i & biu_stb_i)
- repeated_access_ack <= #1 1'b1;
- else
- repeated_access_ack <= #1 1'b0;
-
-//
-// Previous access completed
-//
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- previous_complete <= #1 1'b1;
- else if (wb_ack_i & biu_cyc_i & biu_stb_i)
- previous_complete <= #1 1'b1;
- else if ((biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~aborted & ~(wb_stb_o & ~wb_ack_i))
- previous_complete <= #1 1'b0;
-
-//
-// Input data bus
-//
-`ifdef OR1200_REGISTERED_INPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- biu_dat_o <= #1 32'h0000_0000;
- else if (wb_ack_i)
- biu_dat_o <= #1 wb_dat_i;
-`else
-assign biu_dat_o = repeated_access_ack ? wb_dat_r : wb_dat_i;
-`endif
-
-//
-// Output data bus
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_dat_o <= #1 {dw{1'b0}};
- else if ((biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~aborted)
- wb_dat_o <= #1 biu_dat_i;
-`else
-assign wb_dat_o = biu_dat_i;
-`endif
-
-//
-// Valid_div counts RISC clock cycles by modulo 4
-// and is used to synchronize external WB i/f to
-// RISC clock
-//
-always @(posedge clk or posedge rst)
- if (rst)
- valid_div <= #1 2'b0;
- else
- valid_div <= #1 valid_div + 1'd1;
-
-//
-// biu_ack_o is one RISC clock cycle long long_ack_o.
-// long_ack_o is one, two or four RISC clock cycles long because
-// WISHBONE can work at 1, 1/2 or 1/4 RISC clock.
-//
-assign biu_ack_o = (repeated_access_ack | long_ack_o) & ~aborted_r
-`ifdef OR1200_CLKDIV_2_SUPPORTED
- & (valid_div[0] | ~clmode[0])
-`ifdef OR1200_CLKDIV_4_SUPPORTED
- & (valid_div[1] | ~clmode[1])
-`endif
-`endif
- ;
-
-//
-// Acknowledgment of the data to the RISC
-//
-// long_ack_o
-//
-`ifdef OR1200_REGISTERED_INPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- long_ack_o <= #1 1'b0;
- else
- long_ack_o <= #1 wb_ack_i & ~aborted;
-`else
-assign long_ack_o = wb_ack_i;
-`endif
-
-//
-// biu_err_o is one RISC clock cycle long long_err_o.
-// long_err_o is one, two or four RISC clock cycles long because
-// WISHBONE can work at 1, 1/2 or 1/4 RISC clock.
-//
-assign biu_err_o = long_err_o
-`ifdef OR1200_CLKDIV_2_SUPPORTED
- & (valid_div[0] | ~clmode[0])
-`ifdef OR1200_CLKDIV_4_SUPPORTED
- & (valid_div[1] | ~clmode[1])
-`endif
-`endif
- ;
-
-//
-// Error termination
-//
-// long_err_o
-//
-`ifdef OR1200_REGISTERED_INPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- long_err_o <= #1 1'b0;
- else
- long_err_o <= #1 wb_err_i & ~aborted;
-`else
-assign long_err_o = wb_err_i & ~aborted_r;
-`endif
-
-//
-// Retry counter
-//
-// Assert 'retry' when 'wb_rty_i' is sampled high and keep it high
-// until retry counter doesn't expire
-//
-`ifdef OR1200_WB_RETRY
-assign retry = wb_rty_i | (|retry_cntr);
-`else
-assign retry = 1'b0;
-`endif
-`ifdef OR1200_WB_RETRY
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- retry_cntr <= #1 1'b0;
- else if (wb_rty_i)
- retry_cntr <= #1 {`OR1200_WB_RETRY{1'b1}};
- else if (retry_cntr)
- retry_cntr <= #1 retry_cntr - 7'd1;
-`endif
-
-//
-// Graceful completion of aborted transfers
-//
-// Assert 'aborted' when 1) current transfer is in progress (wb_stb_o; which
-// we know is only asserted together with wb_cyc_o) 2) and in next WB clock cycle
-// wb_stb_o would be deasserted (biu_cyc_i and biu_stb_i are low) 3) and
-// there is no termination of current transfer in this WB clock cycle (wb_ack_i
-// and wb_err_i are low).
-// 'aborted_r' is registered 'aborted' and extended until this "aborted" transfer
-// is properly terminated with wb_ack_i/wb_err_i.
-//
-assign aborted = wb_stb_o & ~(biu_cyc_i & biu_stb_i) & ~(wb_ack_i | wb_err_i);
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- aborted_r <= #1 1'b0;
- else if (wb_ack_i | wb_err_i)
- aborted_r <= #1 1'b0;
- else if (aborted)
- aborted_r <= #1 1'b1;
-
-//
-// WB cyc_o
-//
-// Either 1) normal transfer initiated by biu_cyc_i (and biu_cab_i if
-// bursts are enabled) and possibly suspended by 'retry'
-// or 2) extended "aborted" transfer
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_cyc_o <= #1 1'b0;
- else
-`ifdef OR1200_NO_BURSTS
- wb_cyc_o <= #1 biu_cyc_i & ~wb_ack_i & ~retry & ~repeated_access | aborted & ~wb_ack_i;
-`else
- wb_cyc_o <= #1 biu_cyc_i & ~wb_ack_i & ~retry & ~repeated_access | biu_cab_i | aborted & ~wb_ack_i;
-`endif
-`else
-`ifdef OR1200_NO_BURSTS
-assign wb_cyc_o = biu_cyc_i & ~retry;
-`else
-assign wb_cyc_o = biu_cyc_i | biu_cab_i & ~retry;
-`endif
-`endif
-
-//
-// WB stb_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_stb_o <= #1 1'b0;
- else
- wb_stb_o <= #1 (biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~retry & ~repeated_access & ~repeated_access_ack | aborted & ~wb_ack_i;
-`else
-assign wb_stb_o = biu_cyc_i & biu_stb_i;
-`endif
-
-//
-// WB we_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_we_o <= #1 1'b0;
- else
- wb_we_o <= #1 biu_cyc_i & biu_stb_i & biu_we_i | aborted & wb_we_o;
-`else
-assign wb_we_o = biu_cyc_i & biu_stb_i & biu_we_i;
-`endif
-
-//
-// WB sel_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_sel_o <= #1 4'b0000;
- else
- wb_sel_o <= #1 biu_sel_i;
-`else
-assign wb_sel_o = biu_sel_i;
-`endif
-
-`ifdef OR1200_WB_CAB
-//
-// WB cab_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_cab_o <= #1 1'b0;
- else
- wb_cab_o <= #1 biu_cab_i;
-`else
-assign wb_cab_o = biu_cab_i;
-`endif
-`endif
-
-`ifdef OR1200_WB_B3
-//
-// Count burst beats
-//
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- burst_len <= #1 2'b00;
- else if (biu_cab_i && burst_len && wb_ack_i)
- burst_len <= #1 burst_len - 1'b1;
- else if (~biu_cab_i)
- burst_len <= #1 2'b11;
-
-//
-// WB cti_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_cti_o <= #1 3'b000; // classic cycle
-`ifdef OR1200_NO_BURSTS
- else
- wb_cti_o <= #1 3'b111; // end-of-burst
-`else
- else if (biu_cab_i && burst_len[1])
- wb_cti_o <= #1 3'b010; // incrementing burst cycle
- else if (biu_cab_i && wb_ack_i)
- wb_cti_o <= #1 3'b111; // end-of-burst
-`endif // OR1200_NO_BURSTS
-`else
-Unsupported !!!;
-`endif
-
-//
-// WB bte_o
-//
-assign wb_bte_o = 2'b01; // 4-beat wrap burst
-
-`endif // OR1200_WB_B3
-
-endmodule
verilog/components/or1200r2/or1200_iwb_biu.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_alu.v
===================================================================
--- verilog/components/or1200r2/or1200_alu.v (revision 185)
+++ verilog/components/or1200r2/or1200_alu.v (nonexistent)
@@ -1,435 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's ALU ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// ALU ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_alu.v,v $
-// Revision 1.15 2005/01/07 09:23:39 andreje
-// l.ff1 and l.cmov instructions added
-//
-// Revision 1.14 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.13 2004/05/09 19:49:03 lampret
-// Added some l.cust5 custom instructions as example
-//
-// Revision 1.12 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.11 2003/04/24 00:16:07 lampret
-// No functional changes. Added defines to disable implementation of multiplier/MAC
-//
-// Revision 1.10 2002/09/08 05:52:16 lampret
-// Added optional l.div/l.divu insns. By default they are disabled.
-//
-// Revision 1.9 2002/09/07 19:16:10 lampret
-// If SR[CY] implemented with OR1200_IMPL_ADDC enabled, l.add/l.addi also set SR[CY].
-//
-// Revision 1.8 2002/09/07 05:42:02 lampret
-// Added optional SR[CY]. Added define to enable additional (compare) flag modifiers. Defines are OR1200_IMPL_ADDC and OR1200_ADDITIONAL_FLAG_MODIFIERS.
-//
-// Revision 1.7 2002/09/03 22:28:21 lampret
-// As per Taylor Su suggestion all case blocks are full case by default and optionally (OR1200_CASE_DEFAULT) can be disabled to increase clock frequncy.
-//
-// Revision 1.6 2002/03/29 16:40:10 lampret
-// Added a directive to ignore signed division variables that are only used in simulation.
-//
-// Revision 1.5 2002/03/29 16:33:59 lampret
-// Added again just recently removed full_case directive
-//
-// Revision 1.4 2002/03/29 15:16:53 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.3 2002/01/28 01:15:59 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/12 01:45:40 lampret
-// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/19 23:28:45 lampret
-// Fixed some synthesis warnings. Configured with caches and MMUs.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_alu(
- a, b, mult_mac_result, macrc_op,
- alu_op, shrot_op, comp_op,
- cust5_op, cust5_limm,
- result, flagforw, flag_we,
- cyforw, cy_we, carry, flag
-);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-input [width-1:0] a;
-input [width-1:0] b;
-input [width-1:0] mult_mac_result;
-input macrc_op;
-input [`OR1200_ALUOP_WIDTH-1:0] alu_op;
-input [`OR1200_SHROTOP_WIDTH-1:0] shrot_op;
-input [`OR1200_COMPOP_WIDTH-1:0] comp_op;
-input [4:0] cust5_op;
-input [5:0] cust5_limm;
-output [width-1:0] result;
-output flagforw;
-output flag_we;
-output cyforw;
-output cy_we;
-input carry;
-input flag;
-
-//
-// Internal wires and regs
-//
-reg [width-1:0] result;
-reg [width-1:0] shifted_rotated;
-reg [width-1:0] result_cust5;
-reg flagforw;
-reg flagcomp;
-reg flag_we;
-reg cy_we;
-wire [width-1:0] comp_a;
-wire [width-1:0] comp_b;
-`ifdef OR1200_IMPL_ALU_COMP1
-wire a_eq_b;
-wire a_lt_b;
-`endif
-wire [width-1:0] result_sum;
-`ifdef OR1200_IMPL_ADDC
-wire [width-1:0] result_csum;
-wire cy_csum;
-`endif
-wire [width-1:0] result_and;
-wire cy_sum;
-reg cyforw;
-
-//
-// Combinatorial logic
-//
-assign comp_a = {a[width-1] ^ comp_op[3] , a[width-2:0]};
-assign comp_b = {b[width-1] ^ comp_op[3] , b[width-2:0]};
-`ifdef OR1200_IMPL_ALU_COMP1
-assign a_eq_b = (comp_a == comp_b);
-assign a_lt_b = (comp_a < comp_b);
-`endif
-assign {cy_sum, result_sum} = a + b;
-`ifdef OR1200_IMPL_ADDC
-assign {cy_csum, result_csum} = a + b + {`OR1200_OPERAND_WIDTH'd0, carry};
-`endif
-assign result_and = a & b;
-
-//
-// Simulation check for bad ALU behavior
-//
-`ifdef OR1200_WARNINGS
-// synopsys translate_off
-always @(result) begin
- if (result === 32'bx)
- $display("%t: WARNING: 32'bx detected on ALU result bus. Please check !", $time);
-end
-// synopsys translate_on
-`endif
-
-//
-// Central part of the ALU
-//
-always @(alu_op or a or b or result_sum or result_and or macrc_op or shifted_rotated or mult_mac_result or flag or result_cust5 or carry
-`ifdef OR1200_IMPL_ADDC
- or result_csum
-`endif
-) begin
-`ifdef OR1200_CASE_DEFAULT
- casex (alu_op) // synopsys parallel_case
-`else
- casex (alu_op) // synopsys full_case parallel_case
-`endif
- `OR1200_ALUOP_FF1: begin
- result = a[0] ? 1 : a[1] ? 2 : a[2] ? 3 : a[3] ? 4 : a[4] ? 5 : a[5] ? 6 : a[6] ? 7 : a[7] ? 8 : a[8] ? 9 : a[9] ? 10 : a[10] ? 11 : a[11] ? 12 : a[12] ? 13 : a[13] ? 14 : a[14] ? 15 : a[15] ? 16 : a[16] ? 17 : a[17] ? 18 : a[18] ? 19 : a[19] ? 20 : a[20] ? 21 : a[21] ? 22 : a[22] ? 23 : a[23] ? 24 : a[24] ? 25 : a[25] ? 26 : a[26] ? 27 : a[27] ? 28 : a[28] ? 29 : a[29] ? 30 : a[30] ? 31 : a[31] ? 32 : 0;
- end
- `OR1200_ALUOP_CUST5 : begin
- result = result_cust5;
- end
- `OR1200_ALUOP_SHROT : begin
- result = shifted_rotated;
- end
- `OR1200_ALUOP_ADD : begin
- result = result_sum;
- end
-`ifdef OR1200_IMPL_ADDC
- `OR1200_ALUOP_ADDC : begin
- result = result_csum;
- end
-`endif
- `OR1200_ALUOP_SUB : begin
- result = a - b;
- end
- `OR1200_ALUOP_XOR : begin
- result = a ^ b;
- end
- `OR1200_ALUOP_OR : begin
- result = a | b;
- end
- `OR1200_ALUOP_IMM : begin
- result = b;
- end
- `OR1200_ALUOP_MOVHI : begin
- if (macrc_op) begin
- result = mult_mac_result;
- end
- else begin
- result = b << 16;
- end
- end
-`ifdef OR1200_MULT_IMPLEMENTED
-`ifdef OR1200_IMPL_DIV
- `OR1200_ALUOP_DIV,
- `OR1200_ALUOP_DIVU,
-`endif
- `OR1200_ALUOP_MUL : begin
- result = mult_mac_result;
- end
-`endif
- `OR1200_ALUOP_CMOV: begin
- result = flag ? a : b;
- end
-
-`ifdef OR1200_CASE_DEFAULT
- default: begin
-`else
- `OR1200_ALUOP_COMP, `OR1200_ALUOP_AND:
- begin
-`endif
- result=result_and;
- end
- endcase
-end
-
-//
-// l.cust5 custom instructions
-//
-// Examples for move byte, set bit and clear bit
-//
-always @(cust5_op or cust5_limm or a or b) begin
- casex (cust5_op) // synopsys parallel_case
- 5'h1 : begin
- casex (cust5_limm[1:0])
- 2'h0: result_cust5 = {a[31:8], b[7:0]};
- 2'h1: result_cust5 = {a[31:16], b[7:0], a[7:0]};
- 2'h2: result_cust5 = {a[31:24], b[7:0], a[15:0]};
- 2'h3: result_cust5 = {b[7:0], a[23:0]};
- endcase
- end
- 5'h2 :
- result_cust5 = a | (1 << cust5_limm);
- 5'h3 :
- result_cust5 = a & (32'hffffffff ^ (1 << cust5_limm));
-//
-// *** Put here new l.cust5 custom instructions ***
-//
- default: begin
- result_cust5 = a;
- end
- endcase
-end
-
-//
-// Generate flag and flag write enable
-//
-always @(alu_op or result_sum or result_and or flagcomp
-`ifdef OR1200_IMPL_ADDC
- or result_csum
-`endif
-) begin
- casex (alu_op) // synopsys parallel_case
-`ifdef OR1200_ADDITIONAL_FLAG_MODIFIERS
- `OR1200_ALUOP_ADD : begin
- flagforw = (result_sum == 32'h0000_0000);
- flag_we = 1'b1;
- end
-`ifdef OR1200_IMPL_ADDC
- `OR1200_ALUOP_ADDC : begin
- flagforw = (result_csum == 32'h0000_0000);
- flag_we = 1'b1;
- end
-`endif
- `OR1200_ALUOP_AND: begin
- flagforw = (result_and == 32'h0000_0000);
- flag_we = 1'b1;
- end
-`endif
- `OR1200_ALUOP_COMP: begin
- flagforw = flagcomp;
- flag_we = 1'b1;
- end
- default: begin
- flagforw = 1'b0;
- flag_we = 1'b0;
- end
- endcase
-end
-
-//
-// Generate SR[CY] write enable
-//
-always @(alu_op or cy_sum
-`ifdef OR1200_IMPL_ADDC
- or cy_csum
-`endif
-) begin
- casex (alu_op) // synopsys parallel_case
-`ifdef OR1200_IMPL_CY
- `OR1200_ALUOP_ADD : begin
- cyforw = cy_sum;
- cy_we = 1'b1;
- end
-`ifdef OR1200_IMPL_ADDC
- `OR1200_ALUOP_ADDC: begin
- cyforw = cy_csum;
- cy_we = 1'b1;
- end
-`endif
-`endif
- default: begin
- cyforw = 1'b0;
- cy_we = 1'b0;
- end
- endcase
-end
-
-//
-// Shifts and rotation
-//
-always @(shrot_op or a or b) begin
- case (shrot_op) // synopsys parallel_case
- `OR1200_SHROTOP_SLL :
- shifted_rotated = (a << b[4:0]);
- `OR1200_SHROTOP_SRL :
- shifted_rotated = (a >> b[4:0]);
-
-`ifdef OR1200_IMPL_ALU_ROTATE
- `OR1200_SHROTOP_ROR :
- shifted_rotated = (a << (6'd32-{1'b0, b[4:0]})) | (a >> b[4:0]);
-`endif
- default:
- shifted_rotated = ({32{a[31]}} << (6'd32-{1'b0, b[4:0]})) | a >> b[4:0];
- endcase
-end
-
-//
-// First type of compare implementation
-//
-`ifdef OR1200_IMPL_ALU_COMP1
-always @(comp_op or a_eq_b or a_lt_b) begin
- case(comp_op[2:0]) // synopsys parallel_case
- `OR1200_COP_SFEQ:
- flagcomp = a_eq_b;
- `OR1200_COP_SFNE:
- flagcomp = ~a_eq_b;
- `OR1200_COP_SFGT:
- flagcomp = ~(a_eq_b | a_lt_b);
- `OR1200_COP_SFGE:
- flagcomp = ~a_lt_b;
- `OR1200_COP_SFLT:
- flagcomp = a_lt_b;
- `OR1200_COP_SFLE:
- flagcomp = a_eq_b | a_lt_b;
- default:
- flagcomp = 1'b0;
- endcase
-end
-`endif
-
-//
-// Second type of compare implementation
-//
-`ifdef OR1200_IMPL_ALU_COMP2
-always @(comp_op or comp_a or comp_b) begin
- case(comp_op[2:0]) // synopsys parallel_case
- `OR1200_COP_SFEQ:
- flagcomp = (comp_a == comp_b);
- `OR1200_COP_SFNE:
- flagcomp = (comp_a != comp_b);
- `OR1200_COP_SFGT:
- flagcomp = (comp_a > comp_b);
- `OR1200_COP_SFGE:
- flagcomp = (comp_a >= comp_b);
- `OR1200_COP_SFLT:
- flagcomp = (comp_a < comp_b);
- `OR1200_COP_SFLE:
- flagcomp = (comp_a <= comp_b);
- default:
- flagcomp = 1'b0;
- endcase
-end
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_alu.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram.v
===================================================================
--- verilog/components/or1200r2/or1200_spram.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram.v (nonexistent)
@@ -1,126 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Author(s): ////
-//// - Michael Unneback, unneback@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram
- (
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, ce, we, addr, di, doq
- );
-
- //
- // Default address and data buses width
- //
- parameter aw = 10;
- parameter dw = 32;
-
-`ifdef OR1200_BIST
- //
- // RAM BIST
- //
- input mbist_si_i;
- input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
- output mbist_so_o;
-`endif
-
- //
- // Generic synchronous single-port RAM interface
- //
- input clk; // Clock
- input ce; // Chip enable input
- input we; // Write enable input
- //input oe; // Output enable input
- input [aw-1:0] addr; // address bus inputs
- input [dw-1:0] di; // input data bus
- output [dw-1:0] doq; // output data bus
-
- //
- // Internal wires and registers
- //
-
- //
- // Generic single-port synchronous RAM model
- //
-
- //
- // Generic RAM's registers and wires
- //
-`ifdef OR1200_ACTEL
- reg [dw-1:0] mem [(1<
verilog/components/or1200r2/or1200_spram.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_32x24.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_32x24.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_32x24.v (nonexistent)
@@ -1,310 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_32x24.v,v $
-// Revision 1.3 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.2 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.1 2004/04/08 11:00:46 simont
-// Add support for 512B instruction cache.
-//
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_32x24(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 5;
-parameter dw = 24;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-`ifdef OR1200_XILINX_RAMB4
-wire [31:24] unconnected;
-`else
-`ifdef OR1200_XILINX_RAMB16
-wire [31:24] unconnected;
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-`else
-`ifdef OR1200_BIST
-`else
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
-`endif
-
-`else
-
-`ifdef OR1200_AVANT_ATP
-
-//
-// Instantiation of ASIC memory:
-//
-// Avant! Asynchronous Two-Port RAM
-//
-
-`else
-
-`ifdef OR1200_VIRAGE_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virage Synchronous 1-port R/W RAM
-//
-
-`else
-
-`ifdef OR1200_VIRTUALSILICON_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virtual Silicon Single-Port Synchronous SRAM
-//
-`ifdef UNUSED
-`else
-`ifdef OR1200_BIST
-`else
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
-`endif
-
-`else
-
-`ifdef OR1200_XILINX_RAMB4
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex/Spartan2
-//
-
-//
-// Block 0
-//
-RAMB4_S16 ramb4_s16_0(
- .CLK(clk),
- .RST(rst),
- .ADDR({3'h0, addr}),
- .DI(di[15:0]),
- .EN(ce),
- .WE(we),
- .DO(doq[15:0])
-);
-
-//
-// Block 1
-//
-RAMB4_S16 ramb4_s16_1(
- .CLK(clk),
- .RST(rst),
- .ADDR({3'h0, addr}),
- .DI({8'h00, di[23:16]}),
- .EN(ce),
- .WE(we),
- .DO({unconnected, doq[23:16]})
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB16
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex4/Spartan3E
-//
-// Added By Nir Mor
-//
-
-RAMB16_S36 ramb16_s36(
- .CLK(clk),
- .SSR(rst),
- .ADDR({4'b0000, addr}),
- .DI({8'h00, di}),
- .DIP(4'h0),
- .EN(ce),
- .WE(we),
- .DO({unconnected, doq}),
- .DOP()
-);
-
-`else
-
-`ifdef OR1200_ALTERA_LPM
-
-//
-// Instantiation of FPGA memory:
-//
-// Altera LPM
-//
-// Added By Jamil Khatib
-//
-
-
-`else
-
-//
-// Generic single-port synchronous RAM model
-//
-
-//
-// Generic RAM's registers and wires
-//
-reg [dw-1:0] mem [(1<
verilog/components/or1200r2/or1200_spram_32x24.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dmmu_top.v
===================================================================
--- verilog/components/or1200r2/or1200_dmmu_top.v (revision 185)
+++ verilog/components/or1200r2/or1200_dmmu_top.v (nonexistent)
@@ -1,352 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Data MMU top level ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of all DMMU blocks. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_dmmu_top.v,v $
-// Revision 1.9 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.7.4.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.7.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.7 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.6 2002/03/29 15:16:55 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.5 2002/02/14 15:34:02 simons
-// Lapsus fixed.
-//
-// Revision 1.4 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/17 08:03:35 lampret
-// *** empty log message ***
-//
-// Revision 1.2 2001/07/22 03:31:53 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Data MMU
-//
-
-module or1200_dmmu_top(
- // Rst and clk
- clk, rst,
-
- // CPU i/f
- dc_en, dmmu_en, supv, dcpu_adr_i, dcpu_cycstb_i, dcpu_we_i,
- dcpu_tag_o, dcpu_err_o,
-
- // SPR access
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // DC i/f
- qmemdmmu_err_i, qmemdmmu_tag_i, qmemdmmu_adr_o, qmemdmmu_cycstb_o, qmemdmmu_ci_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// CPU I/F
-//
-input dc_en;
-input dmmu_en;
-input supv;
-input [aw-1:0] dcpu_adr_i;
-input dcpu_cycstb_i;
-input dcpu_we_i;
-output [3:0] dcpu_tag_o;
-output dcpu_err_o;
-
-//
-// SPR access
-//
-input spr_cs;
-input spr_write;
-input [aw-1:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// DC I/F
-//
-input qmemdmmu_err_i;
-input [3:0] qmemdmmu_tag_i;
-output [aw-1:0] qmemdmmu_adr_o;
-output qmemdmmu_cycstb_o;
-output qmemdmmu_ci_o;
-
-//
-// Internal wires and regs
-//
-wire dtlb_spr_access;
-wire [31:`OR1200_DMMU_PS] dtlb_ppn;
-wire dtlb_hit;
-wire dtlb_uwe;
-wire dtlb_ure;
-wire dtlb_swe;
-wire dtlb_sre;
-wire [31:0] dtlb_dat_o;
-wire dtlb_en;
-wire dtlb_ci;
-wire fault;
-wire miss;
-`ifdef OR1200_NO_DMMU
-`else
-reg dtlb_done;
-reg [31:`OR1200_DMMU_PS] dcpu_vpn_r;
-`endif
-
-//
-// Implemented bits inside match and translate registers
-//
-// dtlbwYmrX: vpn 31-10 v 0
-// dtlbwYtrX: ppn 31-10 swe 9 sre 8 uwe 7 ure 6
-//
-// dtlb memory width:
-// 19 bits for ppn
-// 13 bits for vpn
-// 1 bit for valid
-// 4 bits for protection
-// 1 bit for cache inhibit
-
-`ifdef OR1200_NO_DMMU
-
-//
-// Put all outputs in inactive state
-//
-assign spr_dat_o = 32'h00000000;
-assign qmemdmmu_adr_o = dcpu_adr_i;
-assign dcpu_tag_o = qmemdmmu_tag_i;
-assign qmemdmmu_cycstb_o = dcpu_cycstb_i;
-assign dcpu_err_o = qmemdmmu_err_i;
-assign qmemdmmu_ci_o = `OR1200_DMMU_CI;
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-
-`else
-
-//
-// DTLB SPR access
-//
-// 0A00 - 0AFF dtlbmr w0
-// 0A00 - 0A3F dtlbmr w0 [63:0]
-//
-// 0B00 - 0BFF dtlbtr w0
-// 0B00 - 0B3F dtlbtr w0 [63:0]
-//
-assign dtlb_spr_access = spr_cs;
-
-//
-// Tags:
-//
-// OR1200_DTAG_TE - TLB miss Exception
-// OR1200_DTAG_PE - Page fault Exception
-//
-assign dcpu_tag_o = miss ? `OR1200_DTAG_TE : fault ? `OR1200_DTAG_PE : qmemdmmu_tag_i;
-
-//
-// dcpu_err_o
-//
-assign dcpu_err_o = miss | fault | qmemdmmu_err_i;
-
-//
-// Assert dtlb_done one clock cycle after new address and dtlb_en must be active.
-//
-always @(posedge clk or posedge rst)
- if (rst)
- dtlb_done <= #1 1'b0;
- else if (dtlb_en)
- dtlb_done <= #1 dcpu_cycstb_i;
- else
- dtlb_done <= #1 1'b0;
-
-//
-// Cut transfer if something goes wrong with translation. Also delayed signals because of translation delay.
-//
-assign qmemdmmu_cycstb_o = (!dc_en & dmmu_en) ? ~(miss | fault) & dtlb_done & dcpu_cycstb_i : ~(miss | fault) & dcpu_cycstb_i;
-//assign qmemdmmu_cycstb_o = (dmmu_en) ? ~(miss | fault) & dcpu_cycstb_i : (miss | fault) ? 1'b0 : dcpu_cycstb_i;
-
-//
-// Cache Inhibit
-//
-assign qmemdmmu_ci_o = dmmu_en ? dtlb_done & dtlb_ci : `OR1200_DMMU_CI;
-
-//
-// Register dcpu_adr_i's VPN for use when DMMU is not enabled but PPN is expected to come
-// one clock cycle after offset part.
-//
-always @(posedge clk or posedge rst)
- if (rst)
- dcpu_vpn_r <= #1 {31-`OR1200_DMMU_PS{1'b0}};
- else
- dcpu_vpn_r <= #1 dcpu_adr_i[31:`OR1200_DMMU_PS];
-
-//
-// Physical address is either translated virtual address or
-// simply equal when DMMU is disabled
-//
-// assign qmemdmmu_adr_o = dmmu_en ? {dtlb_ppn, dcpu_adr_i[`OR1200_DMMU_PS-1:0]} : {dcpu_vpn_r, dcpu_adr_i[`OR1200_DMMU_PS-1:0]};
-assign qmemdmmu_adr_o = dmmu_en ? {dtlb_ppn, dcpu_adr_i[`OR1200_DMMU_PS-1:0]} : dcpu_adr_i;
-
-//
-// Output to SPRS unit
-//
-assign spr_dat_o = dtlb_spr_access ? dtlb_dat_o : 32'h00000000;
-
-//
-// Page fault exception logic
-//
-assign fault = dtlb_done &
- ( (!dcpu_we_i & !supv & !dtlb_ure) // Load in user mode not enabled
- || (!dcpu_we_i & supv & !dtlb_sre) // Load in supv mode not enabled
- || (dcpu_we_i & !supv & !dtlb_uwe) // Store in user mode not enabled
- || (dcpu_we_i & supv & !dtlb_swe) ); // Store in supv mode not enabled
-
-//
-// TLB Miss exception logic
-//
-assign miss = dtlb_done & !dtlb_hit;
-
-//
-// DTLB Enable
-//
-assign dtlb_en = dmmu_en & dcpu_cycstb_i;
-
-//
-// Instantiation of DTLB
-//
-or1200_dmmu_tlb or1200_dmmu_tlb(
- // Rst and clk
- .clk(clk),
- .rst(rst),
-
- // I/F for translation
- .tlb_en(dtlb_en),
- .vaddr(dcpu_adr_i),
- .hit(dtlb_hit),
- .ppn(dtlb_ppn),
- .uwe(dtlb_uwe),
- .ure(dtlb_ure),
- .swe(dtlb_swe),
- .sre(dtlb_sre),
- .ci(dtlb_ci),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // SPR access
- .spr_cs(dtlb_spr_access),
- .spr_write(spr_write),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_i),
- .spr_dat_o(dtlb_dat_o)
-);
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_dmmu_top.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_amultp2_32x32.v
===================================================================
--- verilog/components/or1200r2/or1200_amultp2_32x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_amultp2_32x32.v (nonexistent)
@@ -1,2538 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's 32x32 multiply for ASIC ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// 32x32 multiply for ASIC ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_amultp2_32x32.v,v $
-// Revision 1.2 2003/04/07 01:23:31 lampret
-// Added another pipe stage to match gmult. One day second pipe in amult and gmult might be removed to get better performance.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/12/04 05:02:35 lampret
-// Added OR1200_GENERIC_MULTP2_32X32 and OR1200_ASIC_MULTP2_32X32
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-`ifdef OR1200_ASIC_MULTP2_32X32
-
-module PP_LOW ( ONEPOS, ONENEG, TWONEG, INA, INB, PPBIT );
-input ONEPOS;
-input ONENEG;
-input TWONEG;
-input INA;
-input INB;
-output PPBIT;
- assign PPBIT = (ONEPOS & INA) | (ONENEG & INB) | TWONEG;
-endmodule
-
-
-module PP_MIDDLE ( ONEPOS, ONENEG, TWOPOS, TWONEG, INA, INB, INC, IND, PPBIT );
-input ONEPOS;
-input ONENEG;
-input TWOPOS;
-input TWONEG;
-input INA;
-input INB;
-input INC;
-input IND;
-output PPBIT;
- assign PPBIT = ~ (( ~ (INA & TWOPOS)) & ( ~ (INB & TWONEG)) & ( ~ (INC & ONEPOS)) & ( ~ (IND & ONENEG)));
-endmodule
-
-
-module PP_HIGH ( ONEPOS, ONENEG, TWOPOS, TWONEG, INA, INB, PPBIT );
-input ONEPOS;
-input ONENEG;
-input TWOPOS;
-input TWONEG;
-input INA;
-input INB;
-output PPBIT;
- assign PPBIT = ~ ((INA & ONEPOS) | (INB & ONENEG) | (INA & TWOPOS) | (INB & TWONEG));
-endmodule
-
-
-module R_GATE ( INA, INB, INC, PPBIT );
-input INA;
-input INB;
-input INC;
-output PPBIT;
- assign PPBIT = ( ~ (INA & INB)) & INC;
-endmodule
-
-
-module DECODER ( INA, INB, INC, TWOPOS, TWONEG, ONEPOS, ONENEG );
-input INA;
-input INB;
-input INC;
-output TWOPOS;
-output TWONEG;
-output ONEPOS;
-output ONENEG;
- assign TWOPOS = ~ ( ~ (INA & INB & ( ~ INC)));
- assign TWONEG = ~ ( ~ (( ~ INA) & ( ~ INB) & INC));
- assign ONEPOS = (( ~ INA) & INB & ( ~ INC)) | (( ~ INC) & ( ~ INB) & INA);
- assign ONENEG = (INA & ( ~ INB) & INC) | (INC & INB & ( ~ INA));
-endmodule
-
-
-module BOOTHCODER_33_32 ( OPA, OPB, SUMMAND );
-input [0:32] OPA;
-input [0:31] OPB;
-output [0:575] SUMMAND;
- wire [0:32] INV_MULTIPLICAND;
- wire [0:63] INT_MULTIPLIER;
- wire LOGIC_ONE, LOGIC_ZERO;
- assign LOGIC_ONE = 1;
- assign LOGIC_ZERO = 0;
- DECODER DEC_0 (.INA (LOGIC_ZERO) , .INB (OPB[0]) , .INC (OPB[1]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) );
- assign INV_MULTIPLICAND[0] = ~ OPA[0];
- PP_LOW PPL_0 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[0]) );
- R_GATE RGATE_0 (.INA (LOGIC_ZERO) , .INB (OPB[0]) , .INC (OPB[1]) , .PPBIT (SUMMAND[1]) );
- assign INV_MULTIPLICAND[1] = ~ OPA[1];
- PP_MIDDLE PPM_0 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[2]) );
- assign INV_MULTIPLICAND[2] = ~ OPA[2];
- PP_MIDDLE PPM_1 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[3]) );
- assign INV_MULTIPLICAND[3] = ~ OPA[3];
- PP_MIDDLE PPM_2 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[6]) );
- assign INV_MULTIPLICAND[4] = ~ OPA[4];
- PP_MIDDLE PPM_3 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[8]) );
- assign INV_MULTIPLICAND[5] = ~ OPA[5];
- PP_MIDDLE PPM_4 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[12]) );
- assign INV_MULTIPLICAND[6] = ~ OPA[6];
- PP_MIDDLE PPM_5 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[15]) );
- assign INV_MULTIPLICAND[7] = ~ OPA[7];
- PP_MIDDLE PPM_6 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[20]) );
- assign INV_MULTIPLICAND[8] = ~ OPA[8];
- PP_MIDDLE PPM_7 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[24]) );
- assign INV_MULTIPLICAND[9] = ~ OPA[9];
- PP_MIDDLE PPM_8 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[30]) );
- assign INV_MULTIPLICAND[10] = ~ OPA[10];
- PP_MIDDLE PPM_9 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[35]) );
- assign INV_MULTIPLICAND[11] = ~ OPA[11];
- PP_MIDDLE PPM_10 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[42]) );
- assign INV_MULTIPLICAND[12] = ~ OPA[12];
- PP_MIDDLE PPM_11 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[48]) );
- assign INV_MULTIPLICAND[13] = ~ OPA[13];
- PP_MIDDLE PPM_12 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[56]) );
- assign INV_MULTIPLICAND[14] = ~ OPA[14];
- PP_MIDDLE PPM_13 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[63]) );
- assign INV_MULTIPLICAND[15] = ~ OPA[15];
- PP_MIDDLE PPM_14 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[72]) );
- assign INV_MULTIPLICAND[16] = ~ OPA[16];
- PP_MIDDLE PPM_15 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[80]) );
- assign INV_MULTIPLICAND[17] = ~ OPA[17];
- PP_MIDDLE PPM_16 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[90]) );
- assign INV_MULTIPLICAND[18] = ~ OPA[18];
- PP_MIDDLE PPM_17 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[99]) );
- assign INV_MULTIPLICAND[19] = ~ OPA[19];
- PP_MIDDLE PPM_18 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[110]) );
- assign INV_MULTIPLICAND[20] = ~ OPA[20];
- PP_MIDDLE PPM_19 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[120]) );
- assign INV_MULTIPLICAND[21] = ~ OPA[21];
- PP_MIDDLE PPM_20 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[132]) );
- assign INV_MULTIPLICAND[22] = ~ OPA[22];
- PP_MIDDLE PPM_21 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[143]) );
- assign INV_MULTIPLICAND[23] = ~ OPA[23];
- PP_MIDDLE PPM_22 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[156]) );
- assign INV_MULTIPLICAND[24] = ~ OPA[24];
- PP_MIDDLE PPM_23 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[168]) );
- assign INV_MULTIPLICAND[25] = ~ OPA[25];
- PP_MIDDLE PPM_24 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[182]) );
- assign INV_MULTIPLICAND[26] = ~ OPA[26];
- PP_MIDDLE PPM_25 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[195]) );
- assign INV_MULTIPLICAND[27] = ~ OPA[27];
- PP_MIDDLE PPM_26 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[210]) );
- assign INV_MULTIPLICAND[28] = ~ OPA[28];
- PP_MIDDLE PPM_27 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[224]) );
- assign INV_MULTIPLICAND[29] = ~ OPA[29];
- PP_MIDDLE PPM_28 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[240]) );
- assign INV_MULTIPLICAND[30] = ~ OPA[30];
- PP_MIDDLE PPM_29 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[255]) );
- assign INV_MULTIPLICAND[31] = ~ OPA[31];
- PP_MIDDLE PPM_30 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[272]) );
- assign INV_MULTIPLICAND[32] = ~ OPA[32];
- PP_MIDDLE PPM_31 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[288]) );
- PP_HIGH PPH_0 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[0]) , .TWONEG (INT_MULTIPLIER[1]) , .ONEPOS (INT_MULTIPLIER[2]) , .ONENEG (INT_MULTIPLIER[3]) , .PPBIT (SUMMAND[304]) );
- assign SUMMAND[305] = 1;
- DECODER DEC_1 (.INA (OPB[1]) , .INB (OPB[2]) , .INC (OPB[3]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) );
- PP_LOW PPL_1 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[4]) );
- R_GATE RGATE_1 (.INA (OPB[1]) , .INB (OPB[2]) , .INC (OPB[3]) , .PPBIT (SUMMAND[5]) );
- PP_MIDDLE PPM_32 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[7]) );
- PP_MIDDLE PPM_33 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[9]) );
- PP_MIDDLE PPM_34 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[13]) );
- PP_MIDDLE PPM_35 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[16]) );
- PP_MIDDLE PPM_36 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[21]) );
- PP_MIDDLE PPM_37 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[25]) );
- PP_MIDDLE PPM_38 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[31]) );
- PP_MIDDLE PPM_39 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[36]) );
- PP_MIDDLE PPM_40 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[43]) );
- PP_MIDDLE PPM_41 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[49]) );
- PP_MIDDLE PPM_42 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[57]) );
- PP_MIDDLE PPM_43 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[64]) );
- PP_MIDDLE PPM_44 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[73]) );
- PP_MIDDLE PPM_45 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[81]) );
- PP_MIDDLE PPM_46 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[91]) );
- PP_MIDDLE PPM_47 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[100]) );
- PP_MIDDLE PPM_48 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[111]) );
- PP_MIDDLE PPM_49 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[121]) );
- PP_MIDDLE PPM_50 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[133]) );
- PP_MIDDLE PPM_51 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[144]) );
- PP_MIDDLE PPM_52 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[157]) );
- PP_MIDDLE PPM_53 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[169]) );
- PP_MIDDLE PPM_54 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[183]) );
- PP_MIDDLE PPM_55 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[196]) );
- PP_MIDDLE PPM_56 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[211]) );
- PP_MIDDLE PPM_57 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[225]) );
- PP_MIDDLE PPM_58 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[241]) );
- PP_MIDDLE PPM_59 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[256]) );
- PP_MIDDLE PPM_60 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[273]) );
- PP_MIDDLE PPM_61 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[289]) );
- PP_MIDDLE PPM_62 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[306]) );
- PP_MIDDLE PPM_63 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[321]) );
- assign SUMMAND[322] = LOGIC_ONE;
- PP_HIGH PPH_1 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[4]) , .TWONEG (INT_MULTIPLIER[5]) , .ONEPOS (INT_MULTIPLIER[6]) , .ONENEG (INT_MULTIPLIER[7]) , .PPBIT (SUMMAND[337]) );
- DECODER DEC_2 (.INA (OPB[3]) , .INB (OPB[4]) , .INC (OPB[5]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) );
- PP_LOW PPL_2 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[10]) );
- R_GATE RGATE_2 (.INA (OPB[3]) , .INB (OPB[4]) , .INC (OPB[5]) , .PPBIT (SUMMAND[11]) );
- PP_MIDDLE PPM_64 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[14]) );
- PP_MIDDLE PPM_65 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[17]) );
- PP_MIDDLE PPM_66 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[22]) );
- PP_MIDDLE PPM_67 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[26]) );
- PP_MIDDLE PPM_68 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[32]) );
- PP_MIDDLE PPM_69 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[37]) );
- PP_MIDDLE PPM_70 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[44]) );
- PP_MIDDLE PPM_71 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[50]) );
- PP_MIDDLE PPM_72 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[58]) );
- PP_MIDDLE PPM_73 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[65]) );
- PP_MIDDLE PPM_74 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[74]) );
- PP_MIDDLE PPM_75 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[82]) );
- PP_MIDDLE PPM_76 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[92]) );
- PP_MIDDLE PPM_77 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[101]) );
- PP_MIDDLE PPM_78 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[112]) );
- PP_MIDDLE PPM_79 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[122]) );
- PP_MIDDLE PPM_80 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[134]) );
- PP_MIDDLE PPM_81 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[145]) );
- PP_MIDDLE PPM_82 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[158]) );
- PP_MIDDLE PPM_83 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[170]) );
- PP_MIDDLE PPM_84 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[184]) );
- PP_MIDDLE PPM_85 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[197]) );
- PP_MIDDLE PPM_86 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[212]) );
- PP_MIDDLE PPM_87 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[226]) );
- PP_MIDDLE PPM_88 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[242]) );
- PP_MIDDLE PPM_89 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[257]) );
- PP_MIDDLE PPM_90 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[274]) );
- PP_MIDDLE PPM_91 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[290]) );
- PP_MIDDLE PPM_92 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[307]) );
- PP_MIDDLE PPM_93 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[323]) );
- PP_MIDDLE PPM_94 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[338]) );
- PP_MIDDLE PPM_95 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[352]) );
- assign SUMMAND[353] = LOGIC_ONE;
- PP_HIGH PPH_2 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[8]) , .TWONEG (INT_MULTIPLIER[9]) , .ONEPOS (INT_MULTIPLIER[10]) , .ONENEG (INT_MULTIPLIER[11]) , .PPBIT (SUMMAND[367]) );
- DECODER DEC_3 (.INA (OPB[5]) , .INB (OPB[6]) , .INC (OPB[7]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) );
- PP_LOW PPL_3 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[18]) );
- R_GATE RGATE_3 (.INA (OPB[5]) , .INB (OPB[6]) , .INC (OPB[7]) , .PPBIT (SUMMAND[19]) );
- PP_MIDDLE PPM_96 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[23]) );
- PP_MIDDLE PPM_97 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[27]) );
- PP_MIDDLE PPM_98 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[33]) );
- PP_MIDDLE PPM_99 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[38]) );
- PP_MIDDLE PPM_100 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[45]) );
- PP_MIDDLE PPM_101 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[51]) );
- PP_MIDDLE PPM_102 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[59]) );
- PP_MIDDLE PPM_103 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[66]) );
- PP_MIDDLE PPM_104 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[75]) );
- PP_MIDDLE PPM_105 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[83]) );
- PP_MIDDLE PPM_106 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[93]) );
- PP_MIDDLE PPM_107 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[102]) );
- PP_MIDDLE PPM_108 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[113]) );
- PP_MIDDLE PPM_109 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[123]) );
- PP_MIDDLE PPM_110 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[135]) );
- PP_MIDDLE PPM_111 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[146]) );
- PP_MIDDLE PPM_112 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[159]) );
- PP_MIDDLE PPM_113 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[171]) );
- PP_MIDDLE PPM_114 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[185]) );
- PP_MIDDLE PPM_115 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[198]) );
- PP_MIDDLE PPM_116 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[213]) );
- PP_MIDDLE PPM_117 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[227]) );
- PP_MIDDLE PPM_118 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[243]) );
- PP_MIDDLE PPM_119 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[258]) );
- PP_MIDDLE PPM_120 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[275]) );
- PP_MIDDLE PPM_121 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[291]) );
- PP_MIDDLE PPM_122 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[308]) );
- PP_MIDDLE PPM_123 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[324]) );
- PP_MIDDLE PPM_124 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[339]) );
- PP_MIDDLE PPM_125 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[354]) );
- PP_MIDDLE PPM_126 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[368]) );
- PP_MIDDLE PPM_127 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[381]) );
- assign SUMMAND[382] = LOGIC_ONE;
- PP_HIGH PPH_3 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[12]) , .TWONEG (INT_MULTIPLIER[13]) , .ONEPOS (INT_MULTIPLIER[14]) , .ONENEG (INT_MULTIPLIER[15]) , .PPBIT (SUMMAND[395]) );
- DECODER DEC_4 (.INA (OPB[7]) , .INB (OPB[8]) , .INC (OPB[9]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) );
- PP_LOW PPL_4 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[28]) );
- R_GATE RGATE_4 (.INA (OPB[7]) , .INB (OPB[8]) , .INC (OPB[9]) , .PPBIT (SUMMAND[29]) );
- PP_MIDDLE PPM_128 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[34]) );
- PP_MIDDLE PPM_129 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[39]) );
- PP_MIDDLE PPM_130 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[46]) );
- PP_MIDDLE PPM_131 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[52]) );
- PP_MIDDLE PPM_132 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[60]) );
- PP_MIDDLE PPM_133 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[67]) );
- PP_MIDDLE PPM_134 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[76]) );
- PP_MIDDLE PPM_135 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[84]) );
- PP_MIDDLE PPM_136 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[94]) );
- PP_MIDDLE PPM_137 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[103]) );
- PP_MIDDLE PPM_138 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[114]) );
- PP_MIDDLE PPM_139 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[124]) );
- PP_MIDDLE PPM_140 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[136]) );
- PP_MIDDLE PPM_141 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[147]) );
- PP_MIDDLE PPM_142 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[160]) );
- PP_MIDDLE PPM_143 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[172]) );
- PP_MIDDLE PPM_144 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[186]) );
- PP_MIDDLE PPM_145 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[199]) );
- PP_MIDDLE PPM_146 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[214]) );
- PP_MIDDLE PPM_147 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[228]) );
- PP_MIDDLE PPM_148 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[244]) );
- PP_MIDDLE PPM_149 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[259]) );
- PP_MIDDLE PPM_150 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[276]) );
- PP_MIDDLE PPM_151 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[292]) );
- PP_MIDDLE PPM_152 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[309]) );
- PP_MIDDLE PPM_153 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[325]) );
- PP_MIDDLE PPM_154 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[340]) );
- PP_MIDDLE PPM_155 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[355]) );
- PP_MIDDLE PPM_156 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[369]) );
- PP_MIDDLE PPM_157 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[383]) );
- PP_MIDDLE PPM_158 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[396]) );
- PP_MIDDLE PPM_159 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[408]) );
- assign SUMMAND[409] = LOGIC_ONE;
- PP_HIGH PPH_4 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[16]) , .TWONEG (INT_MULTIPLIER[17]) , .ONEPOS (INT_MULTIPLIER[18]) , .ONENEG (INT_MULTIPLIER[19]) , .PPBIT (SUMMAND[421]) );
- DECODER DEC_5 (.INA (OPB[9]) , .INB (OPB[10]) , .INC (OPB[11]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) );
- PP_LOW PPL_5 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[40]) );
- R_GATE RGATE_5 (.INA (OPB[9]) , .INB (OPB[10]) , .INC (OPB[11]) , .PPBIT (SUMMAND[41]) );
- PP_MIDDLE PPM_160 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[47]) );
- PP_MIDDLE PPM_161 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[53]) );
- PP_MIDDLE PPM_162 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[61]) );
- PP_MIDDLE PPM_163 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[68]) );
- PP_MIDDLE PPM_164 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[77]) );
- PP_MIDDLE PPM_165 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[85]) );
- PP_MIDDLE PPM_166 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[95]) );
- PP_MIDDLE PPM_167 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[104]) );
- PP_MIDDLE PPM_168 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[115]) );
- PP_MIDDLE PPM_169 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[125]) );
- PP_MIDDLE PPM_170 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[137]) );
- PP_MIDDLE PPM_171 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[148]) );
- PP_MIDDLE PPM_172 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[161]) );
- PP_MIDDLE PPM_173 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[173]) );
- PP_MIDDLE PPM_174 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[187]) );
- PP_MIDDLE PPM_175 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[200]) );
- PP_MIDDLE PPM_176 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[215]) );
- PP_MIDDLE PPM_177 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[229]) );
- PP_MIDDLE PPM_178 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[245]) );
- PP_MIDDLE PPM_179 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[260]) );
- PP_MIDDLE PPM_180 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[277]) );
- PP_MIDDLE PPM_181 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[293]) );
- PP_MIDDLE PPM_182 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[310]) );
- PP_MIDDLE PPM_183 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[326]) );
- PP_MIDDLE PPM_184 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[341]) );
- PP_MIDDLE PPM_185 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[356]) );
- PP_MIDDLE PPM_186 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[370]) );
- PP_MIDDLE PPM_187 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[384]) );
- PP_MIDDLE PPM_188 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[397]) );
- PP_MIDDLE PPM_189 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[410]) );
- PP_MIDDLE PPM_190 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[422]) );
- PP_MIDDLE PPM_191 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[433]) );
- assign SUMMAND[434] = LOGIC_ONE;
- PP_HIGH PPH_5 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[20]) , .TWONEG (INT_MULTIPLIER[21]) , .ONEPOS (INT_MULTIPLIER[22]) , .ONENEG (INT_MULTIPLIER[23]) , .PPBIT (SUMMAND[445]) );
- DECODER DEC_6 (.INA (OPB[11]) , .INB (OPB[12]) , .INC (OPB[13]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) );
- PP_LOW PPL_6 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[54]) );
- R_GATE RGATE_6 (.INA (OPB[11]) , .INB (OPB[12]) , .INC (OPB[13]) , .PPBIT (SUMMAND[55]) );
- PP_MIDDLE PPM_192 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[62]) );
- PP_MIDDLE PPM_193 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[69]) );
- PP_MIDDLE PPM_194 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[78]) );
- PP_MIDDLE PPM_195 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[86]) );
- PP_MIDDLE PPM_196 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[96]) );
- PP_MIDDLE PPM_197 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[105]) );
- PP_MIDDLE PPM_198 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[116]) );
- PP_MIDDLE PPM_199 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[126]) );
- PP_MIDDLE PPM_200 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[138]) );
- PP_MIDDLE PPM_201 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[149]) );
- PP_MIDDLE PPM_202 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[162]) );
- PP_MIDDLE PPM_203 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[174]) );
- PP_MIDDLE PPM_204 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[188]) );
- PP_MIDDLE PPM_205 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[201]) );
- PP_MIDDLE PPM_206 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[216]) );
- PP_MIDDLE PPM_207 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[230]) );
- PP_MIDDLE PPM_208 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[246]) );
- PP_MIDDLE PPM_209 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[261]) );
- PP_MIDDLE PPM_210 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[278]) );
- PP_MIDDLE PPM_211 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[294]) );
- PP_MIDDLE PPM_212 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[311]) );
- PP_MIDDLE PPM_213 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[327]) );
- PP_MIDDLE PPM_214 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[342]) );
- PP_MIDDLE PPM_215 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[357]) );
- PP_MIDDLE PPM_216 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[371]) );
- PP_MIDDLE PPM_217 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[385]) );
- PP_MIDDLE PPM_218 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[398]) );
- PP_MIDDLE PPM_219 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[411]) );
- PP_MIDDLE PPM_220 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[423]) );
- PP_MIDDLE PPM_221 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[435]) );
- PP_MIDDLE PPM_222 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[446]) );
- PP_MIDDLE PPM_223 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[456]) );
- assign SUMMAND[457] = LOGIC_ONE;
- PP_HIGH PPH_6 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[24]) , .TWONEG (INT_MULTIPLIER[25]) , .ONEPOS (INT_MULTIPLIER[26]) , .ONENEG (INT_MULTIPLIER[27]) , .PPBIT (SUMMAND[467]) );
- DECODER DEC_7 (.INA (OPB[13]) , .INB (OPB[14]) , .INC (OPB[15]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) );
- PP_LOW PPL_7 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[70]) );
- R_GATE RGATE_7 (.INA (OPB[13]) , .INB (OPB[14]) , .INC (OPB[15]) , .PPBIT (SUMMAND[71]) );
- PP_MIDDLE PPM_224 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[79]) );
- PP_MIDDLE PPM_225 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[87]) );
- PP_MIDDLE PPM_226 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[97]) );
- PP_MIDDLE PPM_227 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[106]) );
- PP_MIDDLE PPM_228 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[117]) );
- PP_MIDDLE PPM_229 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[127]) );
- PP_MIDDLE PPM_230 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[139]) );
- PP_MIDDLE PPM_231 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[150]) );
- PP_MIDDLE PPM_232 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[163]) );
- PP_MIDDLE PPM_233 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[175]) );
- PP_MIDDLE PPM_234 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[189]) );
- PP_MIDDLE PPM_235 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[202]) );
- PP_MIDDLE PPM_236 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[217]) );
- PP_MIDDLE PPM_237 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[231]) );
- PP_MIDDLE PPM_238 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[247]) );
- PP_MIDDLE PPM_239 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[262]) );
- PP_MIDDLE PPM_240 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[279]) );
- PP_MIDDLE PPM_241 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[295]) );
- PP_MIDDLE PPM_242 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[312]) );
- PP_MIDDLE PPM_243 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[328]) );
- PP_MIDDLE PPM_244 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[343]) );
- PP_MIDDLE PPM_245 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[358]) );
- PP_MIDDLE PPM_246 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[372]) );
- PP_MIDDLE PPM_247 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[386]) );
- PP_MIDDLE PPM_248 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[399]) );
- PP_MIDDLE PPM_249 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[412]) );
- PP_MIDDLE PPM_250 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[424]) );
- PP_MIDDLE PPM_251 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[436]) );
- PP_MIDDLE PPM_252 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[447]) );
- PP_MIDDLE PPM_253 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[458]) );
- PP_MIDDLE PPM_254 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[468]) );
- PP_MIDDLE PPM_255 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[477]) );
- assign SUMMAND[478] = LOGIC_ONE;
- PP_HIGH PPH_7 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[28]) , .TWONEG (INT_MULTIPLIER[29]) , .ONEPOS (INT_MULTIPLIER[30]) , .ONENEG (INT_MULTIPLIER[31]) , .PPBIT (SUMMAND[487]) );
- DECODER DEC_8 (.INA (OPB[15]) , .INB (OPB[16]) , .INC (OPB[17]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) );
- PP_LOW PPL_8 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[88]) );
- R_GATE RGATE_8 (.INA (OPB[15]) , .INB (OPB[16]) , .INC (OPB[17]) , .PPBIT (SUMMAND[89]) );
- PP_MIDDLE PPM_256 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[98]) );
- PP_MIDDLE PPM_257 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[107]) );
- PP_MIDDLE PPM_258 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[118]) );
- PP_MIDDLE PPM_259 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[128]) );
- PP_MIDDLE PPM_260 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[140]) );
- PP_MIDDLE PPM_261 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[151]) );
- PP_MIDDLE PPM_262 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[164]) );
- PP_MIDDLE PPM_263 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[176]) );
- PP_MIDDLE PPM_264 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[190]) );
- PP_MIDDLE PPM_265 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[203]) );
- PP_MIDDLE PPM_266 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[218]) );
- PP_MIDDLE PPM_267 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[232]) );
- PP_MIDDLE PPM_268 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[248]) );
- PP_MIDDLE PPM_269 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[263]) );
- PP_MIDDLE PPM_270 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[280]) );
- PP_MIDDLE PPM_271 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[296]) );
- PP_MIDDLE PPM_272 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[313]) );
- PP_MIDDLE PPM_273 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[329]) );
- PP_MIDDLE PPM_274 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[344]) );
- PP_MIDDLE PPM_275 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[359]) );
- PP_MIDDLE PPM_276 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[373]) );
- PP_MIDDLE PPM_277 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[387]) );
- PP_MIDDLE PPM_278 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[400]) );
- PP_MIDDLE PPM_279 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[413]) );
- PP_MIDDLE PPM_280 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[425]) );
- PP_MIDDLE PPM_281 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[437]) );
- PP_MIDDLE PPM_282 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[448]) );
- PP_MIDDLE PPM_283 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[459]) );
- PP_MIDDLE PPM_284 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[469]) );
- PP_MIDDLE PPM_285 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[479]) );
- PP_MIDDLE PPM_286 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[488]) );
- PP_MIDDLE PPM_287 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[496]) );
- assign SUMMAND[497] = LOGIC_ONE;
- PP_HIGH PPH_8 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[32]) , .TWONEG (INT_MULTIPLIER[33]) , .ONEPOS (INT_MULTIPLIER[34]) , .ONENEG (INT_MULTIPLIER[35]) , .PPBIT (SUMMAND[505]) );
- DECODER DEC_9 (.INA (OPB[17]) , .INB (OPB[18]) , .INC (OPB[19]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) );
- PP_LOW PPL_9 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[108]) );
- R_GATE RGATE_9 (.INA (OPB[17]) , .INB (OPB[18]) , .INC (OPB[19]) , .PPBIT (SUMMAND[109]) );
- PP_MIDDLE PPM_288 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[119]) );
- PP_MIDDLE PPM_289 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[129]) );
- PP_MIDDLE PPM_290 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[141]) );
- PP_MIDDLE PPM_291 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[152]) );
- PP_MIDDLE PPM_292 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[165]) );
- PP_MIDDLE PPM_293 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[177]) );
- PP_MIDDLE PPM_294 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[191]) );
- PP_MIDDLE PPM_295 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[204]) );
- PP_MIDDLE PPM_296 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[219]) );
- PP_MIDDLE PPM_297 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[233]) );
- PP_MIDDLE PPM_298 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[249]) );
- PP_MIDDLE PPM_299 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[264]) );
- PP_MIDDLE PPM_300 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[281]) );
- PP_MIDDLE PPM_301 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[297]) );
- PP_MIDDLE PPM_302 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[314]) );
- PP_MIDDLE PPM_303 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[330]) );
- PP_MIDDLE PPM_304 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[345]) );
- PP_MIDDLE PPM_305 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[360]) );
- PP_MIDDLE PPM_306 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[374]) );
- PP_MIDDLE PPM_307 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[388]) );
- PP_MIDDLE PPM_308 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[401]) );
- PP_MIDDLE PPM_309 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[414]) );
- PP_MIDDLE PPM_310 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[426]) );
- PP_MIDDLE PPM_311 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[438]) );
- PP_MIDDLE PPM_312 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[449]) );
- PP_MIDDLE PPM_313 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[460]) );
- PP_MIDDLE PPM_314 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[470]) );
- PP_MIDDLE PPM_315 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[480]) );
- PP_MIDDLE PPM_316 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[489]) );
- PP_MIDDLE PPM_317 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[498]) );
- PP_MIDDLE PPM_318 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[506]) );
- PP_MIDDLE PPM_319 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[513]) );
- assign SUMMAND[514] = LOGIC_ONE;
- PP_HIGH PPH_9 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[36]) , .TWONEG (INT_MULTIPLIER[37]) , .ONEPOS (INT_MULTIPLIER[38]) , .ONENEG (INT_MULTIPLIER[39]) , .PPBIT (SUMMAND[521]) );
- DECODER DEC_10 (.INA (OPB[19]) , .INB (OPB[20]) , .INC (OPB[21]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) );
- PP_LOW PPL_10 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[130]) );
- R_GATE RGATE_10 (.INA (OPB[19]) , .INB (OPB[20]) , .INC (OPB[21]) , .PPBIT (SUMMAND[131]) );
- PP_MIDDLE PPM_320 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[142]) );
- PP_MIDDLE PPM_321 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[153]) );
- PP_MIDDLE PPM_322 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[166]) );
- PP_MIDDLE PPM_323 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[178]) );
- PP_MIDDLE PPM_324 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[192]) );
- PP_MIDDLE PPM_325 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[205]) );
- PP_MIDDLE PPM_326 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[220]) );
- PP_MIDDLE PPM_327 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[234]) );
- PP_MIDDLE PPM_328 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[250]) );
- PP_MIDDLE PPM_329 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[265]) );
- PP_MIDDLE PPM_330 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[282]) );
- PP_MIDDLE PPM_331 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[298]) );
- PP_MIDDLE PPM_332 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[315]) );
- PP_MIDDLE PPM_333 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[331]) );
- PP_MIDDLE PPM_334 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[346]) );
- PP_MIDDLE PPM_335 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[361]) );
- PP_MIDDLE PPM_336 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[375]) );
- PP_MIDDLE PPM_337 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[389]) );
- PP_MIDDLE PPM_338 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[402]) );
- PP_MIDDLE PPM_339 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[415]) );
- PP_MIDDLE PPM_340 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[427]) );
- PP_MIDDLE PPM_341 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[439]) );
- PP_MIDDLE PPM_342 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[450]) );
- PP_MIDDLE PPM_343 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[461]) );
- PP_MIDDLE PPM_344 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[471]) );
- PP_MIDDLE PPM_345 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[481]) );
- PP_MIDDLE PPM_346 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[490]) );
- PP_MIDDLE PPM_347 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[499]) );
- PP_MIDDLE PPM_348 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[507]) );
- PP_MIDDLE PPM_349 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[515]) );
- PP_MIDDLE PPM_350 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[522]) );
- PP_MIDDLE PPM_351 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[528]) );
- assign SUMMAND[529] = LOGIC_ONE;
- PP_HIGH PPH_10 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[40]) , .TWONEG (INT_MULTIPLIER[41]) , .ONEPOS (INT_MULTIPLIER[42]) , .ONENEG (INT_MULTIPLIER[43]) , .PPBIT (SUMMAND[535]) );
- DECODER DEC_11 (.INA (OPB[21]) , .INB (OPB[22]) , .INC (OPB[23]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) );
- PP_LOW PPL_11 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[154]) );
- R_GATE RGATE_11 (.INA (OPB[21]) , .INB (OPB[22]) , .INC (OPB[23]) , .PPBIT (SUMMAND[155]) );
- PP_MIDDLE PPM_352 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[167]) );
- PP_MIDDLE PPM_353 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[179]) );
- PP_MIDDLE PPM_354 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[193]) );
- PP_MIDDLE PPM_355 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[206]) );
- PP_MIDDLE PPM_356 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[221]) );
- PP_MIDDLE PPM_357 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[235]) );
- PP_MIDDLE PPM_358 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[251]) );
- PP_MIDDLE PPM_359 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[266]) );
- PP_MIDDLE PPM_360 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[283]) );
- PP_MIDDLE PPM_361 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[299]) );
- PP_MIDDLE PPM_362 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[316]) );
- PP_MIDDLE PPM_363 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[332]) );
- PP_MIDDLE PPM_364 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[347]) );
- PP_MIDDLE PPM_365 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[362]) );
- PP_MIDDLE PPM_366 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[376]) );
- PP_MIDDLE PPM_367 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[390]) );
- PP_MIDDLE PPM_368 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[403]) );
- PP_MIDDLE PPM_369 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[416]) );
- PP_MIDDLE PPM_370 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[428]) );
- PP_MIDDLE PPM_371 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[440]) );
- PP_MIDDLE PPM_372 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[451]) );
- PP_MIDDLE PPM_373 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[462]) );
- PP_MIDDLE PPM_374 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[472]) );
- PP_MIDDLE PPM_375 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[482]) );
- PP_MIDDLE PPM_376 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[491]) );
- PP_MIDDLE PPM_377 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[500]) );
- PP_MIDDLE PPM_378 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[508]) );
- PP_MIDDLE PPM_379 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[516]) );
- PP_MIDDLE PPM_380 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[523]) );
- PP_MIDDLE PPM_381 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[530]) );
- PP_MIDDLE PPM_382 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[536]) );
- PP_MIDDLE PPM_383 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[541]) );
- assign SUMMAND[542] = LOGIC_ONE;
- PP_HIGH PPH_11 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[44]) , .TWONEG (INT_MULTIPLIER[45]) , .ONEPOS (INT_MULTIPLIER[46]) , .ONENEG (INT_MULTIPLIER[47]) , .PPBIT (SUMMAND[547]) );
- DECODER DEC_12 (.INA (OPB[23]) , .INB (OPB[24]) , .INC (OPB[25]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) );
- PP_LOW PPL_12 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[180]) );
- R_GATE RGATE_12 (.INA (OPB[23]) , .INB (OPB[24]) , .INC (OPB[25]) , .PPBIT (SUMMAND[181]) );
- PP_MIDDLE PPM_384 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[194]) );
- PP_MIDDLE PPM_385 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[207]) );
- PP_MIDDLE PPM_386 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[222]) );
- PP_MIDDLE PPM_387 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[236]) );
- PP_MIDDLE PPM_388 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[252]) );
- PP_MIDDLE PPM_389 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[267]) );
- PP_MIDDLE PPM_390 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[284]) );
- PP_MIDDLE PPM_391 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[300]) );
- PP_MIDDLE PPM_392 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[317]) );
- PP_MIDDLE PPM_393 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[333]) );
- PP_MIDDLE PPM_394 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[348]) );
- PP_MIDDLE PPM_395 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[363]) );
- PP_MIDDLE PPM_396 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[377]) );
- PP_MIDDLE PPM_397 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[391]) );
- PP_MIDDLE PPM_398 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[404]) );
- PP_MIDDLE PPM_399 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[417]) );
- PP_MIDDLE PPM_400 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[429]) );
- PP_MIDDLE PPM_401 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[441]) );
- PP_MIDDLE PPM_402 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[452]) );
- PP_MIDDLE PPM_403 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[463]) );
- PP_MIDDLE PPM_404 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[473]) );
- PP_MIDDLE PPM_405 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[483]) );
- PP_MIDDLE PPM_406 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[492]) );
- PP_MIDDLE PPM_407 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[501]) );
- PP_MIDDLE PPM_408 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[509]) );
- PP_MIDDLE PPM_409 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[517]) );
- PP_MIDDLE PPM_410 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[524]) );
- PP_MIDDLE PPM_411 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[531]) );
- PP_MIDDLE PPM_412 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[537]) );
- PP_MIDDLE PPM_413 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[543]) );
- PP_MIDDLE PPM_414 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[548]) );
- PP_MIDDLE PPM_415 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[552]) );
- assign SUMMAND[553] = LOGIC_ONE;
- PP_HIGH PPH_12 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[48]) , .TWONEG (INT_MULTIPLIER[49]) , .ONEPOS (INT_MULTIPLIER[50]) , .ONENEG (INT_MULTIPLIER[51]) , .PPBIT (SUMMAND[557]) );
- DECODER DEC_13 (.INA (OPB[25]) , .INB (OPB[26]) , .INC (OPB[27]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) );
- PP_LOW PPL_13 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[208]) );
- R_GATE RGATE_13 (.INA (OPB[25]) , .INB (OPB[26]) , .INC (OPB[27]) , .PPBIT (SUMMAND[209]) );
- PP_MIDDLE PPM_416 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[223]) );
- PP_MIDDLE PPM_417 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[237]) );
- PP_MIDDLE PPM_418 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[253]) );
- PP_MIDDLE PPM_419 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[268]) );
- PP_MIDDLE PPM_420 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[285]) );
- PP_MIDDLE PPM_421 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[301]) );
- PP_MIDDLE PPM_422 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[318]) );
- PP_MIDDLE PPM_423 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[334]) );
- PP_MIDDLE PPM_424 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[349]) );
- PP_MIDDLE PPM_425 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[364]) );
- PP_MIDDLE PPM_426 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[378]) );
- PP_MIDDLE PPM_427 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[392]) );
- PP_MIDDLE PPM_428 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[405]) );
- PP_MIDDLE PPM_429 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[418]) );
- PP_MIDDLE PPM_430 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[430]) );
- PP_MIDDLE PPM_431 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[442]) );
- PP_MIDDLE PPM_432 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[453]) );
- PP_MIDDLE PPM_433 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[464]) );
- PP_MIDDLE PPM_434 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[474]) );
- PP_MIDDLE PPM_435 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[484]) );
- PP_MIDDLE PPM_436 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[493]) );
- PP_MIDDLE PPM_437 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[502]) );
- PP_MIDDLE PPM_438 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[510]) );
- PP_MIDDLE PPM_439 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[518]) );
- PP_MIDDLE PPM_440 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[525]) );
- PP_MIDDLE PPM_441 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[532]) );
- PP_MIDDLE PPM_442 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[538]) );
- PP_MIDDLE PPM_443 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[544]) );
- PP_MIDDLE PPM_444 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[549]) );
- PP_MIDDLE PPM_445 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[554]) );
- PP_MIDDLE PPM_446 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[558]) );
- PP_MIDDLE PPM_447 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[561]) );
- assign SUMMAND[562] = LOGIC_ONE;
- PP_HIGH PPH_13 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[52]) , .TWONEG (INT_MULTIPLIER[53]) , .ONEPOS (INT_MULTIPLIER[54]) , .ONENEG (INT_MULTIPLIER[55]) , .PPBIT (SUMMAND[565]) );
- DECODER DEC_14 (.INA (OPB[27]) , .INB (OPB[28]) , .INC (OPB[29]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) );
- PP_LOW PPL_14 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[238]) );
- R_GATE RGATE_14 (.INA (OPB[27]) , .INB (OPB[28]) , .INC (OPB[29]) , .PPBIT (SUMMAND[239]) );
- PP_MIDDLE PPM_448 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[254]) );
- PP_MIDDLE PPM_449 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[269]) );
- PP_MIDDLE PPM_450 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[286]) );
- PP_MIDDLE PPM_451 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[302]) );
- PP_MIDDLE PPM_452 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[319]) );
- PP_MIDDLE PPM_453 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[335]) );
- PP_MIDDLE PPM_454 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[350]) );
- PP_MIDDLE PPM_455 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[365]) );
- PP_MIDDLE PPM_456 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[379]) );
- PP_MIDDLE PPM_457 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[393]) );
- PP_MIDDLE PPM_458 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[406]) );
- PP_MIDDLE PPM_459 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[419]) );
- PP_MIDDLE PPM_460 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[431]) );
- PP_MIDDLE PPM_461 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[443]) );
- PP_MIDDLE PPM_462 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[454]) );
- PP_MIDDLE PPM_463 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[465]) );
- PP_MIDDLE PPM_464 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[475]) );
- PP_MIDDLE PPM_465 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[485]) );
- PP_MIDDLE PPM_466 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[494]) );
- PP_MIDDLE PPM_467 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[503]) );
- PP_MIDDLE PPM_468 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[511]) );
- PP_MIDDLE PPM_469 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[519]) );
- PP_MIDDLE PPM_470 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[526]) );
- PP_MIDDLE PPM_471 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[533]) );
- PP_MIDDLE PPM_472 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[539]) );
- PP_MIDDLE PPM_473 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[545]) );
- PP_MIDDLE PPM_474 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[550]) );
- PP_MIDDLE PPM_475 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[555]) );
- PP_MIDDLE PPM_476 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[559]) );
- PP_MIDDLE PPM_477 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[563]) );
- PP_MIDDLE PPM_478 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[566]) );
- PP_MIDDLE PPM_479 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[568]) );
- assign SUMMAND[569] = LOGIC_ONE;
- PP_HIGH PPH_14 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[56]) , .TWONEG (INT_MULTIPLIER[57]) , .ONEPOS (INT_MULTIPLIER[58]) , .ONENEG (INT_MULTIPLIER[59]) , .PPBIT (SUMMAND[571]) );
- DECODER DEC_15 (.INA (OPB[29]) , .INB (OPB[30]) , .INC (OPB[31]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) );
- PP_LOW PPL_15 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[270]) );
- R_GATE RGATE_15 (.INA (OPB[29]) , .INB (OPB[30]) , .INC (OPB[31]) , .PPBIT (SUMMAND[271]) );
- PP_MIDDLE PPM_480 (.INA (OPA[0]) , .INB (INV_MULTIPLICAND[0]) , .INC (OPA[1]) , .IND (INV_MULTIPLICAND[1]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[287]) );
- PP_MIDDLE PPM_481 (.INA (OPA[1]) , .INB (INV_MULTIPLICAND[1]) , .INC (OPA[2]) , .IND (INV_MULTIPLICAND[2]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[303]) );
- PP_MIDDLE PPM_482 (.INA (OPA[2]) , .INB (INV_MULTIPLICAND[2]) , .INC (OPA[3]) , .IND (INV_MULTIPLICAND[3]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[320]) );
- PP_MIDDLE PPM_483 (.INA (OPA[3]) , .INB (INV_MULTIPLICAND[3]) , .INC (OPA[4]) , .IND (INV_MULTIPLICAND[4]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[336]) );
- PP_MIDDLE PPM_484 (.INA (OPA[4]) , .INB (INV_MULTIPLICAND[4]) , .INC (OPA[5]) , .IND (INV_MULTIPLICAND[5]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[351]) );
- PP_MIDDLE PPM_485 (.INA (OPA[5]) , .INB (INV_MULTIPLICAND[5]) , .INC (OPA[6]) , .IND (INV_MULTIPLICAND[6]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[366]) );
- PP_MIDDLE PPM_486 (.INA (OPA[6]) , .INB (INV_MULTIPLICAND[6]) , .INC (OPA[7]) , .IND (INV_MULTIPLICAND[7]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[380]) );
- PP_MIDDLE PPM_487 (.INA (OPA[7]) , .INB (INV_MULTIPLICAND[7]) , .INC (OPA[8]) , .IND (INV_MULTIPLICAND[8]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[394]) );
- PP_MIDDLE PPM_488 (.INA (OPA[8]) , .INB (INV_MULTIPLICAND[8]) , .INC (OPA[9]) , .IND (INV_MULTIPLICAND[9]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[407]) );
- PP_MIDDLE PPM_489 (.INA (OPA[9]) , .INB (INV_MULTIPLICAND[9]) , .INC (OPA[10]) , .IND (INV_MULTIPLICAND[10]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[420]) );
- PP_MIDDLE PPM_490 (.INA (OPA[10]) , .INB (INV_MULTIPLICAND[10]) , .INC (OPA[11]) , .IND (INV_MULTIPLICAND[11]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[432]) );
- PP_MIDDLE PPM_491 (.INA (OPA[11]) , .INB (INV_MULTIPLICAND[11]) , .INC (OPA[12]) , .IND (INV_MULTIPLICAND[12]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[444]) );
- PP_MIDDLE PPM_492 (.INA (OPA[12]) , .INB (INV_MULTIPLICAND[12]) , .INC (OPA[13]) , .IND (INV_MULTIPLICAND[13]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[455]) );
- PP_MIDDLE PPM_493 (.INA (OPA[13]) , .INB (INV_MULTIPLICAND[13]) , .INC (OPA[14]) , .IND (INV_MULTIPLICAND[14]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[466]) );
- PP_MIDDLE PPM_494 (.INA (OPA[14]) , .INB (INV_MULTIPLICAND[14]) , .INC (OPA[15]) , .IND (INV_MULTIPLICAND[15]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[476]) );
- PP_MIDDLE PPM_495 (.INA (OPA[15]) , .INB (INV_MULTIPLICAND[15]) , .INC (OPA[16]) , .IND (INV_MULTIPLICAND[16]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[486]) );
- PP_MIDDLE PPM_496 (.INA (OPA[16]) , .INB (INV_MULTIPLICAND[16]) , .INC (OPA[17]) , .IND (INV_MULTIPLICAND[17]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[495]) );
- PP_MIDDLE PPM_497 (.INA (OPA[17]) , .INB (INV_MULTIPLICAND[17]) , .INC (OPA[18]) , .IND (INV_MULTIPLICAND[18]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[504]) );
- PP_MIDDLE PPM_498 (.INA (OPA[18]) , .INB (INV_MULTIPLICAND[18]) , .INC (OPA[19]) , .IND (INV_MULTIPLICAND[19]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[512]) );
- PP_MIDDLE PPM_499 (.INA (OPA[19]) , .INB (INV_MULTIPLICAND[19]) , .INC (OPA[20]) , .IND (INV_MULTIPLICAND[20]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[520]) );
- PP_MIDDLE PPM_500 (.INA (OPA[20]) , .INB (INV_MULTIPLICAND[20]) , .INC (OPA[21]) , .IND (INV_MULTIPLICAND[21]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[527]) );
- PP_MIDDLE PPM_501 (.INA (OPA[21]) , .INB (INV_MULTIPLICAND[21]) , .INC (OPA[22]) , .IND (INV_MULTIPLICAND[22]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[534]) );
- PP_MIDDLE PPM_502 (.INA (OPA[22]) , .INB (INV_MULTIPLICAND[22]) , .INC (OPA[23]) , .IND (INV_MULTIPLICAND[23]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[540]) );
- PP_MIDDLE PPM_503 (.INA (OPA[23]) , .INB (INV_MULTIPLICAND[23]) , .INC (OPA[24]) , .IND (INV_MULTIPLICAND[24]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[546]) );
- PP_MIDDLE PPM_504 (.INA (OPA[24]) , .INB (INV_MULTIPLICAND[24]) , .INC (OPA[25]) , .IND (INV_MULTIPLICAND[25]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[551]) );
- PP_MIDDLE PPM_505 (.INA (OPA[25]) , .INB (INV_MULTIPLICAND[25]) , .INC (OPA[26]) , .IND (INV_MULTIPLICAND[26]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[556]) );
- PP_MIDDLE PPM_506 (.INA (OPA[26]) , .INB (INV_MULTIPLICAND[26]) , .INC (OPA[27]) , .IND (INV_MULTIPLICAND[27]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[560]) );
- PP_MIDDLE PPM_507 (.INA (OPA[27]) , .INB (INV_MULTIPLICAND[27]) , .INC (OPA[28]) , .IND (INV_MULTIPLICAND[28]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[564]) );
- PP_MIDDLE PPM_508 (.INA (OPA[28]) , .INB (INV_MULTIPLICAND[28]) , .INC (OPA[29]) , .IND (INV_MULTIPLICAND[29]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[567]) );
- PP_MIDDLE PPM_509 (.INA (OPA[29]) , .INB (INV_MULTIPLICAND[29]) , .INC (OPA[30]) , .IND (INV_MULTIPLICAND[30]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[570]) );
- PP_MIDDLE PPM_510 (.INA (OPA[30]) , .INB (INV_MULTIPLICAND[30]) , .INC (OPA[31]) , .IND (INV_MULTIPLICAND[31]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[572]) );
- PP_MIDDLE PPM_511 (.INA (OPA[31]) , .INB (INV_MULTIPLICAND[31]) , .INC (OPA[32]) , .IND (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[573]) );
- assign SUMMAND[574] = LOGIC_ONE;
- PP_HIGH PPH_15 (.INA (OPA[32]) , .INB (INV_MULTIPLICAND[32]) , .TWOPOS (INT_MULTIPLIER[60]) , .TWONEG (INT_MULTIPLIER[61]) , .ONEPOS (INT_MULTIPLIER[62]) , .ONENEG (INT_MULTIPLIER[63]) , .PPBIT (SUMMAND[575]) );
-endmodule
-
-
-module FULL_ADDER ( DATA_A, DATA_B, DATA_C, SAVE, CARRY );
-input DATA_A;
-input DATA_B;
-input DATA_C;
-output SAVE;
-output CARRY;
- wire TMP;
- assign TMP = DATA_A ^ DATA_B;
- assign SAVE = TMP ^ DATA_C;
- assign CARRY = ~ (( ~ (TMP & DATA_C)) & ( ~ (DATA_A & DATA_B)));
-endmodule
-
-
-module HALF_ADDER ( DATA_A, DATA_B, SAVE, CARRY );
-input DATA_A;
-input DATA_B;
-output SAVE;
-output CARRY;
- assign SAVE = DATA_A ^ DATA_B;
- assign CARRY = DATA_A & DATA_B;
-endmodule
-
-
-module FLIPFLOP ( DIN, RST, CLK, DOUT );
-input DIN;
-input RST;
-input CLK;
-output DOUT;
- reg DOUT_reg;
- always @ ( posedge RST or posedge CLK ) begin
- if (RST)
- DOUT_reg <= 1'b0;
- else
- DOUT_reg <= #1 DIN;
- end
- assign DOUT = DOUT_reg;
-endmodule
-
-
-module WALLACE_33_32 ( SUMMAND, RST, CLK, CARRY, SUM );
-input [0:575] SUMMAND;
-input RST;
-input CLK;
-output [0:62] CARRY;
-output [0:63] SUM;
- wire [0:7] LATCHED_PP;
- wire [0:523] INT_CARRY;
- wire [0:669] INT_SUM;
- HALF_ADDER HA_0 (.DATA_A (SUMMAND[0]) , .DATA_B (SUMMAND[1]) , .SAVE (INT_SUM[0]) , .CARRY (INT_CARRY[0]) );
- FLIPFLOP LA_0 (.DIN (INT_SUM[0]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[0]) );
- FLIPFLOP LA_1 (.DIN (INT_CARRY[0]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[0]) );
- assign INT_SUM[1] = SUMMAND[2];
- assign CARRY[1] = 0;
- FLIPFLOP LA_2 (.DIN (INT_SUM[1]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[1]) );
- FULL_ADDER FA_0 (.DATA_A (SUMMAND[3]) , .DATA_B (SUMMAND[4]) , .DATA_C (SUMMAND[5]) , .SAVE (INT_SUM[2]) , .CARRY (INT_CARRY[1]) );
- FLIPFLOP LA_3 (.DIN (INT_SUM[2]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[2]) );
- FLIPFLOP LA_4 (.DIN (INT_CARRY[1]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[2]) );
- HALF_ADDER HA_1 (.DATA_A (SUMMAND[6]) , .DATA_B (SUMMAND[7]) , .SAVE (INT_SUM[3]) , .CARRY (INT_CARRY[2]) );
- FLIPFLOP LA_5 (.DIN (INT_SUM[3]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[3]) );
- FLIPFLOP LA_6 (.DIN (INT_CARRY[2]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[3]) );
- FULL_ADDER FA_1 (.DATA_A (SUMMAND[8]) , .DATA_B (SUMMAND[9]) , .DATA_C (SUMMAND[10]) , .SAVE (INT_SUM[4]) , .CARRY (INT_CARRY[4]) );
- assign INT_SUM[5] = SUMMAND[11];
- HALF_ADDER HA_2 (.DATA_A (INT_SUM[4]) , .DATA_B (INT_SUM[5]) , .SAVE (INT_SUM[6]) , .CARRY (INT_CARRY[3]) );
- FLIPFLOP LA_7 (.DIN (INT_SUM[6]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[4]) );
- FLIPFLOP LA_8 (.DIN (INT_CARRY[3]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[4]) );
- FULL_ADDER FA_2 (.DATA_A (SUMMAND[12]) , .DATA_B (SUMMAND[13]) , .DATA_C (SUMMAND[14]) , .SAVE (INT_SUM[7]) , .CARRY (INT_CARRY[6]) );
- HALF_ADDER HA_3 (.DATA_A (INT_SUM[7]) , .DATA_B (INT_CARRY[4]) , .SAVE (INT_SUM[8]) , .CARRY (INT_CARRY[5]) );
- FLIPFLOP LA_9 (.DIN (INT_SUM[8]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[5]) );
- FLIPFLOP LA_10 (.DIN (INT_CARRY[5]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[5]) );
- FULL_ADDER FA_3 (.DATA_A (SUMMAND[15]) , .DATA_B (SUMMAND[16]) , .DATA_C (SUMMAND[17]) , .SAVE (INT_SUM[9]) , .CARRY (INT_CARRY[8]) );
- HALF_ADDER HA_4 (.DATA_A (SUMMAND[18]) , .DATA_B (SUMMAND[19]) , .SAVE (INT_SUM[10]) , .CARRY (INT_CARRY[9]) );
- FULL_ADDER FA_4 (.DATA_A (INT_SUM[9]) , .DATA_B (INT_SUM[10]) , .DATA_C (INT_CARRY[6]) , .SAVE (INT_SUM[11]) , .CARRY (INT_CARRY[7]) );
- FLIPFLOP LA_11 (.DIN (INT_SUM[11]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[6]) );
- FLIPFLOP LA_12 (.DIN (INT_CARRY[7]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[6]) );
- FULL_ADDER FA_5 (.DATA_A (SUMMAND[20]) , .DATA_B (SUMMAND[21]) , .DATA_C (SUMMAND[22]) , .SAVE (INT_SUM[12]) , .CARRY (INT_CARRY[11]) );
- assign INT_SUM[13] = SUMMAND[23];
- FULL_ADDER FA_6 (.DATA_A (INT_SUM[12]) , .DATA_B (INT_SUM[13]) , .DATA_C (INT_CARRY[8]) , .SAVE (INT_SUM[14]) , .CARRY (INT_CARRY[12]) );
- assign INT_SUM[15] = INT_CARRY[9];
- HALF_ADDER HA_5 (.DATA_A (INT_SUM[14]) , .DATA_B (INT_SUM[15]) , .SAVE (INT_SUM[16]) , .CARRY (INT_CARRY[10]) );
- FLIPFLOP LA_13 (.DIN (INT_SUM[16]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[7]) );
- FLIPFLOP LA_14 (.DIN (INT_CARRY[10]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[7]) );
- FULL_ADDER FA_7 (.DATA_A (SUMMAND[24]) , .DATA_B (SUMMAND[25]) , .DATA_C (SUMMAND[26]) , .SAVE (INT_SUM[17]) , .CARRY (INT_CARRY[14]) );
- FULL_ADDER FA_8 (.DATA_A (SUMMAND[27]) , .DATA_B (SUMMAND[28]) , .DATA_C (SUMMAND[29]) , .SAVE (INT_SUM[18]) , .CARRY (INT_CARRY[15]) );
- FULL_ADDER FA_9 (.DATA_A (INT_SUM[17]) , .DATA_B (INT_SUM[18]) , .DATA_C (INT_CARRY[11]) , .SAVE (INT_SUM[19]) , .CARRY (INT_CARRY[16]) );
- HALF_ADDER HA_6 (.DATA_A (INT_SUM[19]) , .DATA_B (INT_CARRY[12]) , .SAVE (INT_SUM[20]) , .CARRY (INT_CARRY[13]) );
- FLIPFLOP LA_15 (.DIN (INT_SUM[20]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[8]) );
- FLIPFLOP LA_16 (.DIN (INT_CARRY[13]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[8]) );
- FULL_ADDER FA_10 (.DATA_A (SUMMAND[30]) , .DATA_B (SUMMAND[31]) , .DATA_C (SUMMAND[32]) , .SAVE (INT_SUM[21]) , .CARRY (INT_CARRY[18]) );
- HALF_ADDER HA_7 (.DATA_A (SUMMAND[33]) , .DATA_B (SUMMAND[34]) , .SAVE (INT_SUM[22]) , .CARRY (INT_CARRY[19]) );
- FULL_ADDER FA_11 (.DATA_A (INT_SUM[21]) , .DATA_B (INT_SUM[22]) , .DATA_C (INT_CARRY[14]) , .SAVE (INT_SUM[23]) , .CARRY (INT_CARRY[20]) );
- assign INT_SUM[24] = INT_CARRY[15];
- FULL_ADDER FA_12 (.DATA_A (INT_SUM[23]) , .DATA_B (INT_SUM[24]) , .DATA_C (INT_CARRY[16]) , .SAVE (INT_SUM[25]) , .CARRY (INT_CARRY[17]) );
- FLIPFLOP LA_17 (.DIN (INT_SUM[25]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[9]) );
- FLIPFLOP LA_18 (.DIN (INT_CARRY[17]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[9]) );
- FULL_ADDER FA_13 (.DATA_A (SUMMAND[35]) , .DATA_B (SUMMAND[36]) , .DATA_C (SUMMAND[37]) , .SAVE (INT_SUM[26]) , .CARRY (INT_CARRY[22]) );
- FULL_ADDER FA_14 (.DATA_A (SUMMAND[38]) , .DATA_B (SUMMAND[39]) , .DATA_C (SUMMAND[40]) , .SAVE (INT_SUM[27]) , .CARRY (INT_CARRY[23]) );
- assign INT_SUM[28] = SUMMAND[41];
- FULL_ADDER FA_15 (.DATA_A (INT_SUM[26]) , .DATA_B (INT_SUM[27]) , .DATA_C (INT_SUM[28]) , .SAVE (INT_SUM[29]) , .CARRY (INT_CARRY[24]) );
- HALF_ADDER HA_8 (.DATA_A (INT_CARRY[18]) , .DATA_B (INT_CARRY[19]) , .SAVE (INT_SUM[30]) , .CARRY (INT_CARRY[25]) );
- FULL_ADDER FA_16 (.DATA_A (INT_SUM[29]) , .DATA_B (INT_SUM[30]) , .DATA_C (INT_CARRY[20]) , .SAVE (INT_SUM[31]) , .CARRY (INT_CARRY[21]) );
- FLIPFLOP LA_19 (.DIN (INT_SUM[31]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[10]) );
- FLIPFLOP LA_20 (.DIN (INT_CARRY[21]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[10]) );
- FULL_ADDER FA_17 (.DATA_A (SUMMAND[42]) , .DATA_B (SUMMAND[43]) , .DATA_C (SUMMAND[44]) , .SAVE (INT_SUM[32]) , .CARRY (INT_CARRY[27]) );
- FULL_ADDER FA_18 (.DATA_A (SUMMAND[45]) , .DATA_B (SUMMAND[46]) , .DATA_C (SUMMAND[47]) , .SAVE (INT_SUM[33]) , .CARRY (INT_CARRY[28]) );
- FULL_ADDER FA_19 (.DATA_A (INT_SUM[32]) , .DATA_B (INT_SUM[33]) , .DATA_C (INT_CARRY[22]) , .SAVE (INT_SUM[34]) , .CARRY (INT_CARRY[29]) );
- assign INT_SUM[35] = INT_CARRY[23];
- FULL_ADDER FA_20 (.DATA_A (INT_SUM[34]) , .DATA_B (INT_SUM[35]) , .DATA_C (INT_CARRY[24]) , .SAVE (INT_SUM[36]) , .CARRY (INT_CARRY[30]) );
- assign INT_SUM[37] = INT_CARRY[25];
- HALF_ADDER HA_9 (.DATA_A (INT_SUM[36]) , .DATA_B (INT_SUM[37]) , .SAVE (INT_SUM[38]) , .CARRY (INT_CARRY[26]) );
- FLIPFLOP LA_21 (.DIN (INT_SUM[38]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[11]) );
- FLIPFLOP LA_22 (.DIN (INT_CARRY[26]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[11]) );
- FULL_ADDER FA_21 (.DATA_A (SUMMAND[48]) , .DATA_B (SUMMAND[49]) , .DATA_C (SUMMAND[50]) , .SAVE (INT_SUM[39]) , .CARRY (INT_CARRY[32]) );
- FULL_ADDER FA_22 (.DATA_A (SUMMAND[51]) , .DATA_B (SUMMAND[52]) , .DATA_C (SUMMAND[53]) , .SAVE (INT_SUM[40]) , .CARRY (INT_CARRY[33]) );
- assign INT_SUM[41] = SUMMAND[54];
- assign INT_SUM[42] = SUMMAND[55];
- FULL_ADDER FA_23 (.DATA_A (INT_SUM[39]) , .DATA_B (INT_SUM[40]) , .DATA_C (INT_SUM[41]) , .SAVE (INT_SUM[43]) , .CARRY (INT_CARRY[34]) );
- FULL_ADDER FA_24 (.DATA_A (INT_SUM[42]) , .DATA_B (INT_CARRY[27]) , .DATA_C (INT_CARRY[28]) , .SAVE (INT_SUM[44]) , .CARRY (INT_CARRY[35]) );
- FULL_ADDER FA_25 (.DATA_A (INT_SUM[43]) , .DATA_B (INT_SUM[44]) , .DATA_C (INT_CARRY[29]) , .SAVE (INT_SUM[45]) , .CARRY (INT_CARRY[36]) );
- HALF_ADDER HA_10 (.DATA_A (INT_SUM[45]) , .DATA_B (INT_CARRY[30]) , .SAVE (INT_SUM[46]) , .CARRY (INT_CARRY[31]) );
- FLIPFLOP LA_23 (.DIN (INT_SUM[46]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[12]) );
- FLIPFLOP LA_24 (.DIN (INT_CARRY[31]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[12]) );
- FULL_ADDER FA_26 (.DATA_A (SUMMAND[56]) , .DATA_B (SUMMAND[57]) , .DATA_C (SUMMAND[58]) , .SAVE (INT_SUM[47]) , .CARRY (INT_CARRY[38]) );
- FULL_ADDER FA_27 (.DATA_A (SUMMAND[59]) , .DATA_B (SUMMAND[60]) , .DATA_C (SUMMAND[61]) , .SAVE (INT_SUM[48]) , .CARRY (INT_CARRY[39]) );
- assign INT_SUM[49] = SUMMAND[62];
- FULL_ADDER FA_28 (.DATA_A (INT_SUM[47]) , .DATA_B (INT_SUM[48]) , .DATA_C (INT_SUM[49]) , .SAVE (INT_SUM[50]) , .CARRY (INT_CARRY[40]) );
- HALF_ADDER HA_11 (.DATA_A (INT_CARRY[32]) , .DATA_B (INT_CARRY[33]) , .SAVE (INT_SUM[51]) , .CARRY (INT_CARRY[41]) );
- FULL_ADDER FA_29 (.DATA_A (INT_SUM[50]) , .DATA_B (INT_SUM[51]) , .DATA_C (INT_CARRY[34]) , .SAVE (INT_SUM[52]) , .CARRY (INT_CARRY[42]) );
- assign INT_SUM[53] = INT_CARRY[35];
- FULL_ADDER FA_30 (.DATA_A (INT_SUM[52]) , .DATA_B (INT_SUM[53]) , .DATA_C (INT_CARRY[36]) , .SAVE (INT_SUM[54]) , .CARRY (INT_CARRY[37]) );
- FLIPFLOP LA_25 (.DIN (INT_SUM[54]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[13]) );
- FLIPFLOP LA_26 (.DIN (INT_CARRY[37]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[13]) );
- FULL_ADDER FA_31 (.DATA_A (SUMMAND[63]) , .DATA_B (SUMMAND[64]) , .DATA_C (SUMMAND[65]) , .SAVE (INT_SUM[55]) , .CARRY (INT_CARRY[44]) );
- FULL_ADDER FA_32 (.DATA_A (SUMMAND[66]) , .DATA_B (SUMMAND[67]) , .DATA_C (SUMMAND[68]) , .SAVE (INT_SUM[56]) , .CARRY (INT_CARRY[45]) );
- FULL_ADDER FA_33 (.DATA_A (SUMMAND[69]) , .DATA_B (SUMMAND[70]) , .DATA_C (SUMMAND[71]) , .SAVE (INT_SUM[57]) , .CARRY (INT_CARRY[46]) );
- FULL_ADDER FA_34 (.DATA_A (INT_SUM[55]) , .DATA_B (INT_SUM[56]) , .DATA_C (INT_SUM[57]) , .SAVE (INT_SUM[58]) , .CARRY (INT_CARRY[47]) );
- HALF_ADDER HA_12 (.DATA_A (INT_CARRY[38]) , .DATA_B (INT_CARRY[39]) , .SAVE (INT_SUM[59]) , .CARRY (INT_CARRY[48]) );
- FULL_ADDER FA_35 (.DATA_A (INT_SUM[58]) , .DATA_B (INT_SUM[59]) , .DATA_C (INT_CARRY[40]) , .SAVE (INT_SUM[60]) , .CARRY (INT_CARRY[49]) );
- assign INT_SUM[61] = INT_CARRY[41];
- FULL_ADDER FA_36 (.DATA_A (INT_SUM[60]) , .DATA_B (INT_SUM[61]) , .DATA_C (INT_CARRY[42]) , .SAVE (INT_SUM[62]) , .CARRY (INT_CARRY[43]) );
- FLIPFLOP LA_27 (.DIN (INT_SUM[62]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[14]) );
- FLIPFLOP LA_28 (.DIN (INT_CARRY[43]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[14]) );
- FULL_ADDER FA_37 (.DATA_A (SUMMAND[72]) , .DATA_B (SUMMAND[73]) , .DATA_C (SUMMAND[74]) , .SAVE (INT_SUM[63]) , .CARRY (INT_CARRY[51]) );
- FULL_ADDER FA_38 (.DATA_A (SUMMAND[75]) , .DATA_B (SUMMAND[76]) , .DATA_C (SUMMAND[77]) , .SAVE (INT_SUM[64]) , .CARRY (INT_CARRY[52]) );
- HALF_ADDER HA_13 (.DATA_A (SUMMAND[78]) , .DATA_B (SUMMAND[79]) , .SAVE (INT_SUM[65]) , .CARRY (INT_CARRY[53]) );
- FULL_ADDER FA_39 (.DATA_A (INT_SUM[63]) , .DATA_B (INT_SUM[64]) , .DATA_C (INT_SUM[65]) , .SAVE (INT_SUM[66]) , .CARRY (INT_CARRY[54]) );
- FULL_ADDER FA_40 (.DATA_A (INT_CARRY[44]) , .DATA_B (INT_CARRY[45]) , .DATA_C (INT_CARRY[46]) , .SAVE (INT_SUM[67]) , .CARRY (INT_CARRY[55]) );
- FULL_ADDER FA_41 (.DATA_A (INT_SUM[66]) , .DATA_B (INT_SUM[67]) , .DATA_C (INT_CARRY[47]) , .SAVE (INT_SUM[68]) , .CARRY (INT_CARRY[56]) );
- assign INT_SUM[69] = INT_CARRY[48];
- FULL_ADDER FA_42 (.DATA_A (INT_SUM[68]) , .DATA_B (INT_SUM[69]) , .DATA_C (INT_CARRY[49]) , .SAVE (INT_SUM[70]) , .CARRY (INT_CARRY[50]) );
- FLIPFLOP LA_29 (.DIN (INT_SUM[70]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[15]) );
- FLIPFLOP LA_30 (.DIN (INT_CARRY[50]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[15]) );
- FULL_ADDER FA_43 (.DATA_A (SUMMAND[80]) , .DATA_B (SUMMAND[81]) , .DATA_C (SUMMAND[82]) , .SAVE (INT_SUM[71]) , .CARRY (INT_CARRY[58]) );
- FULL_ADDER FA_44 (.DATA_A (SUMMAND[83]) , .DATA_B (SUMMAND[84]) , .DATA_C (SUMMAND[85]) , .SAVE (INT_SUM[72]) , .CARRY (INT_CARRY[59]) );
- FULL_ADDER FA_45 (.DATA_A (SUMMAND[86]) , .DATA_B (SUMMAND[87]) , .DATA_C (SUMMAND[88]) , .SAVE (INT_SUM[73]) , .CARRY (INT_CARRY[60]) );
- assign INT_SUM[74] = SUMMAND[89];
- FULL_ADDER FA_46 (.DATA_A (INT_SUM[71]) , .DATA_B (INT_SUM[72]) , .DATA_C (INT_SUM[73]) , .SAVE (INT_SUM[75]) , .CARRY (INT_CARRY[61]) );
- FULL_ADDER FA_47 (.DATA_A (INT_SUM[74]) , .DATA_B (INT_CARRY[51]) , .DATA_C (INT_CARRY[52]) , .SAVE (INT_SUM[76]) , .CARRY (INT_CARRY[62]) );
- assign INT_SUM[77] = INT_CARRY[53];
- FULL_ADDER FA_48 (.DATA_A (INT_SUM[75]) , .DATA_B (INT_SUM[76]) , .DATA_C (INT_SUM[77]) , .SAVE (INT_SUM[78]) , .CARRY (INT_CARRY[63]) );
- HALF_ADDER HA_14 (.DATA_A (INT_CARRY[54]) , .DATA_B (INT_CARRY[55]) , .SAVE (INT_SUM[79]) , .CARRY (INT_CARRY[64]) );
- FULL_ADDER FA_49 (.DATA_A (INT_SUM[78]) , .DATA_B (INT_SUM[79]) , .DATA_C (INT_CARRY[56]) , .SAVE (INT_SUM[80]) , .CARRY (INT_CARRY[57]) );
- FLIPFLOP LA_31 (.DIN (INT_SUM[80]) , .RST(RST), .CLK (CLK) , .DOUT (SUM[16]) );
- FLIPFLOP LA_32 (.DIN (INT_CARRY[57]) , .RST(RST), .CLK (CLK) , .DOUT (CARRY[16]) );
- FULL_ADDER FA_50 (.DATA_A (SUMMAND[90]) , .DATA_B (SUMMAND[91]) , .DATA_C (SUMMAND[92]) , .SAVE (INT_SUM[81]) , .CARRY (INT_CARRY[65]) );
- FULL_ADDER FA_51 (.DATA_A (SUMMAND[93]) , .DATA_B (SUMMAND[94]) , .DATA_C (SUMMAND[95]) , .SAVE (INT_SUM[82]) , .CARRY (INT_CARRY[66]) );
- FULL_ADDER FA_52 (.DATA_A (SUMMAND[96]) , .DATA_B (SUMMAND[97]) , .DATA_C (SUMMAND[98]) , .SAVE (INT_SUM[83]) , .CARRY (INT_CARRY[67]) );
- FULL_ADDER FA_53 (.DATA_A (INT_SUM[81]) , .DATA_B (INT_SUM[82]) , .DATA_C (INT_SUM[83]) , .SAVE (INT_SUM[84]) , .CARRY (INT_CARRY[68]) );
- FULL_ADDER FA_54 (.DATA_A (INT_CARRY[58]) , .DATA_B (INT_CARRY[59]) , .DATA_C (INT_CARRY[60]) , .SAVE (INT_SUM[85]) , .CARRY (INT_CARRY[69]) );
- FULL_ADDER FA_55 (.DATA_A (INT_SUM[84]) , .DATA_B (INT_SUM[85]) , .DATA_C (INT_CARRY[61]) , .SAVE (INT_SUM[86]) , .CARRY (INT_CARRY[70]) );
- assign INT_SUM[87] = INT_CARRY[62];
- FULL_ADDER FA_56 (.DATA_A (INT_SUM[86]) , .DATA_B (INT_SUM[87]) , .DATA_C (INT_CARRY[63]) , .SAVE (INT_SUM[88]) , .CARRY (INT_CARRY[71]) );
- assign INT_SUM[90] = INT_CARRY[64];
- FLIPFLOP LA_33 (.DIN (INT_SUM[88]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[89]) );
- FLIPFLOP LA_34 (.DIN (INT_SUM[90]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[91]) );
- HALF_ADDER HA_15 (.DATA_A (INT_SUM[89]) , .DATA_B (INT_SUM[91]) , .SAVE (SUM[17]) , .CARRY (CARRY[17]) );
- FULL_ADDER FA_57 (.DATA_A (SUMMAND[99]) , .DATA_B (SUMMAND[100]) , .DATA_C (SUMMAND[101]) , .SAVE (INT_SUM[92]) , .CARRY (INT_CARRY[73]) );
- FULL_ADDER FA_58 (.DATA_A (SUMMAND[102]) , .DATA_B (SUMMAND[103]) , .DATA_C (SUMMAND[104]) , .SAVE (INT_SUM[93]) , .CARRY (INT_CARRY[74]) );
- FULL_ADDER FA_59 (.DATA_A (SUMMAND[105]) , .DATA_B (SUMMAND[106]) , .DATA_C (SUMMAND[107]) , .SAVE (INT_SUM[94]) , .CARRY (INT_CARRY[75]) );
- assign INT_SUM[95] = SUMMAND[108];
- assign INT_SUM[96] = SUMMAND[109];
- FULL_ADDER FA_60 (.DATA_A (INT_SUM[92]) , .DATA_B (INT_SUM[93]) , .DATA_C (INT_SUM[94]) , .SAVE (INT_SUM[97]) , .CARRY (INT_CARRY[76]) );
- FULL_ADDER FA_61 (.DATA_A (INT_SUM[95]) , .DATA_B (INT_SUM[96]) , .DATA_C (INT_CARRY[65]) , .SAVE (INT_SUM[98]) , .CARRY (INT_CARRY[77]) );
- assign INT_SUM[99] = INT_CARRY[66];
- assign INT_SUM[100] = INT_CARRY[67];
- FULL_ADDER FA_62 (.DATA_A (INT_SUM[97]) , .DATA_B (INT_SUM[98]) , .DATA_C (INT_SUM[99]) , .SAVE (INT_SUM[101]) , .CARRY (INT_CARRY[78]) );
- FULL_ADDER FA_63 (.DATA_A (INT_SUM[100]) , .DATA_B (INT_CARRY[68]) , .DATA_C (INT_CARRY[69]) , .SAVE (INT_SUM[102]) , .CARRY (INT_CARRY[79]) );
- FULL_ADDER FA_64 (.DATA_A (INT_SUM[101]) , .DATA_B (INT_SUM[102]) , .DATA_C (INT_CARRY[70]) , .SAVE (INT_SUM[103]) , .CARRY (INT_CARRY[80]) );
- FLIPFLOP LA_35 (.DIN (INT_SUM[103]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[104]) );
- FLIPFLOP LA_36 (.DIN (INT_CARRY[71]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[72]) );
- HALF_ADDER HA_16 (.DATA_A (INT_SUM[104]) , .DATA_B (INT_CARRY[72]) , .SAVE (SUM[18]) , .CARRY (CARRY[18]) );
- FULL_ADDER FA_65 (.DATA_A (SUMMAND[110]) , .DATA_B (SUMMAND[111]) , .DATA_C (SUMMAND[112]) , .SAVE (INT_SUM[105]) , .CARRY (INT_CARRY[82]) );
- FULL_ADDER FA_66 (.DATA_A (SUMMAND[113]) , .DATA_B (SUMMAND[114]) , .DATA_C (SUMMAND[115]) , .SAVE (INT_SUM[106]) , .CARRY (INT_CARRY[83]) );
- FULL_ADDER FA_67 (.DATA_A (SUMMAND[116]) , .DATA_B (SUMMAND[117]) , .DATA_C (SUMMAND[118]) , .SAVE (INT_SUM[107]) , .CARRY (INT_CARRY[84]) );
- assign INT_SUM[108] = SUMMAND[119];
- FULL_ADDER FA_68 (.DATA_A (INT_SUM[105]) , .DATA_B (INT_SUM[106]) , .DATA_C (INT_SUM[107]) , .SAVE (INT_SUM[109]) , .CARRY (INT_CARRY[85]) );
- FULL_ADDER FA_69 (.DATA_A (INT_SUM[108]) , .DATA_B (INT_CARRY[73]) , .DATA_C (INT_CARRY[74]) , .SAVE (INT_SUM[110]) , .CARRY (INT_CARRY[86]) );
- assign INT_SUM[111] = INT_CARRY[75];
- FULL_ADDER FA_70 (.DATA_A (INT_SUM[109]) , .DATA_B (INT_SUM[110]) , .DATA_C (INT_SUM[111]) , .SAVE (INT_SUM[112]) , .CARRY (INT_CARRY[87]) );
- HALF_ADDER HA_17 (.DATA_A (INT_CARRY[76]) , .DATA_B (INT_CARRY[77]) , .SAVE (INT_SUM[113]) , .CARRY (INT_CARRY[88]) );
- FULL_ADDER FA_71 (.DATA_A (INT_SUM[112]) , .DATA_B (INT_SUM[113]) , .DATA_C (INT_CARRY[78]) , .SAVE (INT_SUM[114]) , .CARRY (INT_CARRY[89]) );
- assign INT_SUM[116] = INT_CARRY[79];
- FLIPFLOP LA_37 (.DIN (INT_SUM[114]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[115]) );
- FLIPFLOP LA_38 (.DIN (INT_SUM[116]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[117]) );
- FLIPFLOP LA_39 (.DIN (INT_CARRY[80]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[81]) );
- FULL_ADDER FA_72 (.DATA_A (INT_SUM[115]) , .DATA_B (INT_SUM[117]) , .DATA_C (INT_CARRY[81]) , .SAVE (SUM[19]) , .CARRY (CARRY[19]) );
- FULL_ADDER FA_73 (.DATA_A (SUMMAND[120]) , .DATA_B (SUMMAND[121]) , .DATA_C (SUMMAND[122]) , .SAVE (INT_SUM[118]) , .CARRY (INT_CARRY[91]) );
- FULL_ADDER FA_74 (.DATA_A (SUMMAND[123]) , .DATA_B (SUMMAND[124]) , .DATA_C (SUMMAND[125]) , .SAVE (INT_SUM[119]) , .CARRY (INT_CARRY[92]) );
- FULL_ADDER FA_75 (.DATA_A (SUMMAND[126]) , .DATA_B (SUMMAND[127]) , .DATA_C (SUMMAND[128]) , .SAVE (INT_SUM[120]) , .CARRY (INT_CARRY[93]) );
- FULL_ADDER FA_76 (.DATA_A (SUMMAND[129]) , .DATA_B (SUMMAND[130]) , .DATA_C (SUMMAND[131]) , .SAVE (INT_SUM[121]) , .CARRY (INT_CARRY[94]) );
- FULL_ADDER FA_77 (.DATA_A (INT_SUM[118]) , .DATA_B (INT_SUM[119]) , .DATA_C (INT_SUM[120]) , .SAVE (INT_SUM[122]) , .CARRY (INT_CARRY[95]) );
- FULL_ADDER FA_78 (.DATA_A (INT_SUM[121]) , .DATA_B (INT_CARRY[82]) , .DATA_C (INT_CARRY[83]) , .SAVE (INT_SUM[123]) , .CARRY (INT_CARRY[96]) );
- assign INT_SUM[124] = INT_CARRY[84];
- FULL_ADDER FA_79 (.DATA_A (INT_SUM[122]) , .DATA_B (INT_SUM[123]) , .DATA_C (INT_SUM[124]) , .SAVE (INT_SUM[125]) , .CARRY (INT_CARRY[97]) );
- HALF_ADDER HA_18 (.DATA_A (INT_CARRY[85]) , .DATA_B (INT_CARRY[86]) , .SAVE (INT_SUM[126]) , .CARRY (INT_CARRY[98]) );
- FULL_ADDER FA_80 (.DATA_A (INT_SUM[125]) , .DATA_B (INT_SUM[126]) , .DATA_C (INT_CARRY[87]) , .SAVE (INT_SUM[127]) , .CARRY (INT_CARRY[99]) );
- assign INT_SUM[129] = INT_CARRY[88];
- FLIPFLOP LA_40 (.DIN (INT_SUM[127]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[128]) );
- FLIPFLOP LA_41 (.DIN (INT_SUM[129]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[130]) );
- FLIPFLOP LA_42 (.DIN (INT_CARRY[89]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[90]) );
- FULL_ADDER FA_81 (.DATA_A (INT_SUM[128]) , .DATA_B (INT_SUM[130]) , .DATA_C (INT_CARRY[90]) , .SAVE (SUM[20]) , .CARRY (CARRY[20]) );
- FULL_ADDER FA_82 (.DATA_A (SUMMAND[132]) , .DATA_B (SUMMAND[133]) , .DATA_C (SUMMAND[134]) , .SAVE (INT_SUM[131]) , .CARRY (INT_CARRY[101]) );
- FULL_ADDER FA_83 (.DATA_A (SUMMAND[135]) , .DATA_B (SUMMAND[136]) , .DATA_C (SUMMAND[137]) , .SAVE (INT_SUM[132]) , .CARRY (INT_CARRY[102]) );
- FULL_ADDER FA_84 (.DATA_A (SUMMAND[138]) , .DATA_B (SUMMAND[139]) , .DATA_C (SUMMAND[140]) , .SAVE (INT_SUM[133]) , .CARRY (INT_CARRY[103]) );
- assign INT_SUM[134] = SUMMAND[141];
- assign INT_SUM[135] = SUMMAND[142];
- FULL_ADDER FA_85 (.DATA_A (INT_SUM[131]) , .DATA_B (INT_SUM[132]) , .DATA_C (INT_SUM[133]) , .SAVE (INT_SUM[136]) , .CARRY (INT_CARRY[104]) );
- FULL_ADDER FA_86 (.DATA_A (INT_SUM[134]) , .DATA_B (INT_SUM[135]) , .DATA_C (INT_CARRY[91]) , .SAVE (INT_SUM[137]) , .CARRY (INT_CARRY[105]) );
- FULL_ADDER FA_87 (.DATA_A (INT_CARRY[92]) , .DATA_B (INT_CARRY[93]) , .DATA_C (INT_CARRY[94]) , .SAVE (INT_SUM[138]) , .CARRY (INT_CARRY[106]) );
- FULL_ADDER FA_88 (.DATA_A (INT_SUM[136]) , .DATA_B (INT_SUM[137]) , .DATA_C (INT_SUM[138]) , .SAVE (INT_SUM[139]) , .CARRY (INT_CARRY[107]) );
- HALF_ADDER HA_19 (.DATA_A (INT_CARRY[95]) , .DATA_B (INT_CARRY[96]) , .SAVE (INT_SUM[140]) , .CARRY (INT_CARRY[108]) );
- FULL_ADDER FA_89 (.DATA_A (INT_SUM[139]) , .DATA_B (INT_SUM[140]) , .DATA_C (INT_CARRY[97]) , .SAVE (INT_SUM[141]) , .CARRY (INT_CARRY[109]) );
- assign INT_SUM[143] = INT_CARRY[98];
- FLIPFLOP LA_43 (.DIN (INT_SUM[141]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[142]) );
- FLIPFLOP LA_44 (.DIN (INT_SUM[143]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[144]) );
- FLIPFLOP LA_45 (.DIN (INT_CARRY[99]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[100]) );
- FULL_ADDER FA_90 (.DATA_A (INT_SUM[142]) , .DATA_B (INT_SUM[144]) , .DATA_C (INT_CARRY[100]) , .SAVE (SUM[21]) , .CARRY (CARRY[21]) );
- FULL_ADDER FA_91 (.DATA_A (SUMMAND[143]) , .DATA_B (SUMMAND[144]) , .DATA_C (SUMMAND[145]) , .SAVE (INT_SUM[145]) , .CARRY (INT_CARRY[111]) );
- FULL_ADDER FA_92 (.DATA_A (SUMMAND[146]) , .DATA_B (SUMMAND[147]) , .DATA_C (SUMMAND[148]) , .SAVE (INT_SUM[146]) , .CARRY (INT_CARRY[112]) );
- FULL_ADDER FA_93 (.DATA_A (SUMMAND[149]) , .DATA_B (SUMMAND[150]) , .DATA_C (SUMMAND[151]) , .SAVE (INT_SUM[147]) , .CARRY (INT_CARRY[113]) );
- FULL_ADDER FA_94 (.DATA_A (SUMMAND[152]) , .DATA_B (SUMMAND[153]) , .DATA_C (SUMMAND[154]) , .SAVE (INT_SUM[148]) , .CARRY (INT_CARRY[114]) );
- assign INT_SUM[149] = SUMMAND[155];
- FULL_ADDER FA_95 (.DATA_A (INT_SUM[145]) , .DATA_B (INT_SUM[146]) , .DATA_C (INT_SUM[147]) , .SAVE (INT_SUM[150]) , .CARRY (INT_CARRY[115]) );
- FULL_ADDER FA_96 (.DATA_A (INT_SUM[148]) , .DATA_B (INT_SUM[149]) , .DATA_C (INT_CARRY[101]) , .SAVE (INT_SUM[151]) , .CARRY (INT_CARRY[116]) );
- HALF_ADDER HA_20 (.DATA_A (INT_CARRY[102]) , .DATA_B (INT_CARRY[103]) , .SAVE (INT_SUM[152]) , .CARRY (INT_CARRY[117]) );
- FULL_ADDER FA_97 (.DATA_A (INT_SUM[150]) , .DATA_B (INT_SUM[151]) , .DATA_C (INT_SUM[152]) , .SAVE (INT_SUM[153]) , .CARRY (INT_CARRY[118]) );
- FULL_ADDER FA_98 (.DATA_A (INT_CARRY[104]) , .DATA_B (INT_CARRY[105]) , .DATA_C (INT_CARRY[106]) , .SAVE (INT_SUM[154]) , .CARRY (INT_CARRY[119]) );
- FULL_ADDER FA_99 (.DATA_A (INT_SUM[153]) , .DATA_B (INT_SUM[154]) , .DATA_C (INT_CARRY[107]) , .SAVE (INT_SUM[155]) , .CARRY (INT_CARRY[120]) );
- assign INT_SUM[157] = INT_CARRY[108];
- FLIPFLOP LA_46 (.DIN (INT_SUM[155]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[156]) );
- FLIPFLOP LA_47 (.DIN (INT_SUM[157]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[158]) );
- FLIPFLOP LA_48 (.DIN (INT_CARRY[109]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[110]) );
- FULL_ADDER FA_100 (.DATA_A (INT_SUM[156]) , .DATA_B (INT_SUM[158]) , .DATA_C (INT_CARRY[110]) , .SAVE (SUM[22]) , .CARRY (CARRY[22]) );
- FULL_ADDER FA_101 (.DATA_A (SUMMAND[156]) , .DATA_B (SUMMAND[157]) , .DATA_C (SUMMAND[158]) , .SAVE (INT_SUM[159]) , .CARRY (INT_CARRY[122]) );
- FULL_ADDER FA_102 (.DATA_A (SUMMAND[159]) , .DATA_B (SUMMAND[160]) , .DATA_C (SUMMAND[161]) , .SAVE (INT_SUM[160]) , .CARRY (INT_CARRY[123]) );
- FULL_ADDER FA_103 (.DATA_A (SUMMAND[162]) , .DATA_B (SUMMAND[163]) , .DATA_C (SUMMAND[164]) , .SAVE (INT_SUM[161]) , .CARRY (INT_CARRY[124]) );
- FULL_ADDER FA_104 (.DATA_A (SUMMAND[165]) , .DATA_B (SUMMAND[166]) , .DATA_C (SUMMAND[167]) , .SAVE (INT_SUM[162]) , .CARRY (INT_CARRY[125]) );
- FULL_ADDER FA_105 (.DATA_A (INT_SUM[159]) , .DATA_B (INT_SUM[160]) , .DATA_C (INT_SUM[161]) , .SAVE (INT_SUM[163]) , .CARRY (INT_CARRY[126]) );
- FULL_ADDER FA_106 (.DATA_A (INT_SUM[162]) , .DATA_B (INT_CARRY[111]) , .DATA_C (INT_CARRY[112]) , .SAVE (INT_SUM[164]) , .CARRY (INT_CARRY[127]) );
- HALF_ADDER HA_21 (.DATA_A (INT_CARRY[113]) , .DATA_B (INT_CARRY[114]) , .SAVE (INT_SUM[165]) , .CARRY (INT_CARRY[128]) );
- FULL_ADDER FA_107 (.DATA_A (INT_SUM[163]) , .DATA_B (INT_SUM[164]) , .DATA_C (INT_SUM[165]) , .SAVE (INT_SUM[166]) , .CARRY (INT_CARRY[129]) );
- FULL_ADDER FA_108 (.DATA_A (INT_CARRY[115]) , .DATA_B (INT_CARRY[116]) , .DATA_C (INT_CARRY[117]) , .SAVE (INT_SUM[167]) , .CARRY (INT_CARRY[130]) );
- FULL_ADDER FA_109 (.DATA_A (INT_SUM[166]) , .DATA_B (INT_SUM[167]) , .DATA_C (INT_CARRY[118]) , .SAVE (INT_SUM[168]) , .CARRY (INT_CARRY[131]) );
- assign INT_SUM[170] = INT_CARRY[119];
- FLIPFLOP LA_49 (.DIN (INT_SUM[168]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[169]) );
- FLIPFLOP LA_50 (.DIN (INT_SUM[170]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[171]) );
- FLIPFLOP LA_51 (.DIN (INT_CARRY[120]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[121]) );
- FULL_ADDER FA_110 (.DATA_A (INT_SUM[169]) , .DATA_B (INT_SUM[171]) , .DATA_C (INT_CARRY[121]) , .SAVE (SUM[23]) , .CARRY (CARRY[23]) );
- FULL_ADDER FA_111 (.DATA_A (SUMMAND[168]) , .DATA_B (SUMMAND[169]) , .DATA_C (SUMMAND[170]) , .SAVE (INT_SUM[172]) , .CARRY (INT_CARRY[133]) );
- FULL_ADDER FA_112 (.DATA_A (SUMMAND[171]) , .DATA_B (SUMMAND[172]) , .DATA_C (SUMMAND[173]) , .SAVE (INT_SUM[173]) , .CARRY (INT_CARRY[134]) );
- FULL_ADDER FA_113 (.DATA_A (SUMMAND[174]) , .DATA_B (SUMMAND[175]) , .DATA_C (SUMMAND[176]) , .SAVE (INT_SUM[174]) , .CARRY (INT_CARRY[135]) );
- FULL_ADDER FA_114 (.DATA_A (SUMMAND[177]) , .DATA_B (SUMMAND[178]) , .DATA_C (SUMMAND[179]) , .SAVE (INT_SUM[175]) , .CARRY (INT_CARRY[136]) );
- HALF_ADDER HA_22 (.DATA_A (SUMMAND[180]) , .DATA_B (SUMMAND[181]) , .SAVE (INT_SUM[176]) , .CARRY (INT_CARRY[137]) );
- FULL_ADDER FA_115 (.DATA_A (INT_SUM[172]) , .DATA_B (INT_SUM[173]) , .DATA_C (INT_SUM[174]) , .SAVE (INT_SUM[177]) , .CARRY (INT_CARRY[138]) );
- FULL_ADDER FA_116 (.DATA_A (INT_SUM[175]) , .DATA_B (INT_SUM[176]) , .DATA_C (INT_CARRY[122]) , .SAVE (INT_SUM[178]) , .CARRY (INT_CARRY[139]) );
- FULL_ADDER FA_117 (.DATA_A (INT_CARRY[123]) , .DATA_B (INT_CARRY[124]) , .DATA_C (INT_CARRY[125]) , .SAVE (INT_SUM[179]) , .CARRY (INT_CARRY[140]) );
- FULL_ADDER FA_118 (.DATA_A (INT_SUM[177]) , .DATA_B (INT_SUM[178]) , .DATA_C (INT_SUM[179]) , .SAVE (INT_SUM[180]) , .CARRY (INT_CARRY[141]) );
- FULL_ADDER FA_119 (.DATA_A (INT_CARRY[126]) , .DATA_B (INT_CARRY[127]) , .DATA_C (INT_CARRY[128]) , .SAVE (INT_SUM[181]) , .CARRY (INT_CARRY[142]) );
- FULL_ADDER FA_120 (.DATA_A (INT_SUM[180]) , .DATA_B (INT_SUM[181]) , .DATA_C (INT_CARRY[129]) , .SAVE (INT_SUM[182]) , .CARRY (INT_CARRY[143]) );
- assign INT_SUM[184] = INT_CARRY[130];
- FLIPFLOP LA_52 (.DIN (INT_SUM[182]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[183]) );
- FLIPFLOP LA_53 (.DIN (INT_SUM[184]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[185]) );
- FLIPFLOP LA_54 (.DIN (INT_CARRY[131]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[132]) );
- FULL_ADDER FA_121 (.DATA_A (INT_SUM[183]) , .DATA_B (INT_SUM[185]) , .DATA_C (INT_CARRY[132]) , .SAVE (SUM[24]) , .CARRY (CARRY[24]) );
- FULL_ADDER FA_122 (.DATA_A (SUMMAND[182]) , .DATA_B (SUMMAND[183]) , .DATA_C (SUMMAND[184]) , .SAVE (INT_SUM[186]) , .CARRY (INT_CARRY[145]) );
- FULL_ADDER FA_123 (.DATA_A (SUMMAND[185]) , .DATA_B (SUMMAND[186]) , .DATA_C (SUMMAND[187]) , .SAVE (INT_SUM[187]) , .CARRY (INT_CARRY[146]) );
- FULL_ADDER FA_124 (.DATA_A (SUMMAND[188]) , .DATA_B (SUMMAND[189]) , .DATA_C (SUMMAND[190]) , .SAVE (INT_SUM[188]) , .CARRY (INT_CARRY[147]) );
- FULL_ADDER FA_125 (.DATA_A (SUMMAND[191]) , .DATA_B (SUMMAND[192]) , .DATA_C (SUMMAND[193]) , .SAVE (INT_SUM[189]) , .CARRY (INT_CARRY[148]) );
- assign INT_SUM[190] = SUMMAND[194];
- FULL_ADDER FA_126 (.DATA_A (INT_SUM[186]) , .DATA_B (INT_SUM[187]) , .DATA_C (INT_SUM[188]) , .SAVE (INT_SUM[191]) , .CARRY (INT_CARRY[149]) );
- FULL_ADDER FA_127 (.DATA_A (INT_SUM[189]) , .DATA_B (INT_SUM[190]) , .DATA_C (INT_CARRY[133]) , .SAVE (INT_SUM[192]) , .CARRY (INT_CARRY[150]) );
- FULL_ADDER FA_128 (.DATA_A (INT_CARRY[134]) , .DATA_B (INT_CARRY[135]) , .DATA_C (INT_CARRY[136]) , .SAVE (INT_SUM[193]) , .CARRY (INT_CARRY[151]) );
- assign INT_SUM[194] = INT_CARRY[137];
- FULL_ADDER FA_129 (.DATA_A (INT_SUM[191]) , .DATA_B (INT_SUM[192]) , .DATA_C (INT_SUM[193]) , .SAVE (INT_SUM[195]) , .CARRY (INT_CARRY[152]) );
- FULL_ADDER FA_130 (.DATA_A (INT_SUM[194]) , .DATA_B (INT_CARRY[138]) , .DATA_C (INT_CARRY[139]) , .SAVE (INT_SUM[196]) , .CARRY (INT_CARRY[153]) );
- assign INT_SUM[197] = INT_CARRY[140];
- FULL_ADDER FA_131 (.DATA_A (INT_SUM[195]) , .DATA_B (INT_SUM[196]) , .DATA_C (INT_SUM[197]) , .SAVE (INT_SUM[198]) , .CARRY (INT_CARRY[154]) );
- HALF_ADDER HA_23 (.DATA_A (INT_CARRY[141]) , .DATA_B (INT_CARRY[142]) , .SAVE (INT_SUM[200]) , .CARRY (INT_CARRY[156]) );
- FLIPFLOP LA_55 (.DIN (INT_SUM[198]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[199]) );
- FLIPFLOP LA_56 (.DIN (INT_SUM[200]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[201]) );
- FLIPFLOP LA_57 (.DIN (INT_CARRY[143]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[144]) );
- FULL_ADDER FA_132 (.DATA_A (INT_SUM[199]) , .DATA_B (INT_SUM[201]) , .DATA_C (INT_CARRY[144]) , .SAVE (SUM[25]) , .CARRY (CARRY[25]) );
- FULL_ADDER FA_133 (.DATA_A (SUMMAND[195]) , .DATA_B (SUMMAND[196]) , .DATA_C (SUMMAND[197]) , .SAVE (INT_SUM[202]) , .CARRY (INT_CARRY[158]) );
- FULL_ADDER FA_134 (.DATA_A (SUMMAND[198]) , .DATA_B (SUMMAND[199]) , .DATA_C (SUMMAND[200]) , .SAVE (INT_SUM[203]) , .CARRY (INT_CARRY[159]) );
- FULL_ADDER FA_135 (.DATA_A (SUMMAND[201]) , .DATA_B (SUMMAND[202]) , .DATA_C (SUMMAND[203]) , .SAVE (INT_SUM[204]) , .CARRY (INT_CARRY[160]) );
- FULL_ADDER FA_136 (.DATA_A (SUMMAND[204]) , .DATA_B (SUMMAND[205]) , .DATA_C (SUMMAND[206]) , .SAVE (INT_SUM[205]) , .CARRY (INT_CARRY[161]) );
- FULL_ADDER FA_137 (.DATA_A (SUMMAND[207]) , .DATA_B (SUMMAND[208]) , .DATA_C (SUMMAND[209]) , .SAVE (INT_SUM[206]) , .CARRY (INT_CARRY[162]) );
- FULL_ADDER FA_138 (.DATA_A (INT_SUM[202]) , .DATA_B (INT_SUM[203]) , .DATA_C (INT_SUM[204]) , .SAVE (INT_SUM[207]) , .CARRY (INT_CARRY[163]) );
- FULL_ADDER FA_139 (.DATA_A (INT_SUM[205]) , .DATA_B (INT_SUM[206]) , .DATA_C (INT_CARRY[145]) , .SAVE (INT_SUM[208]) , .CARRY (INT_CARRY[164]) );
- FULL_ADDER FA_140 (.DATA_A (INT_CARRY[146]) , .DATA_B (INT_CARRY[147]) , .DATA_C (INT_CARRY[148]) , .SAVE (INT_SUM[209]) , .CARRY (INT_CARRY[165]) );
- FULL_ADDER FA_141 (.DATA_A (INT_SUM[207]) , .DATA_B (INT_SUM[208]) , .DATA_C (INT_SUM[209]) , .SAVE (INT_SUM[210]) , .CARRY (INT_CARRY[166]) );
- FULL_ADDER FA_142 (.DATA_A (INT_CARRY[149]) , .DATA_B (INT_CARRY[150]) , .DATA_C (INT_CARRY[151]) , .SAVE (INT_SUM[211]) , .CARRY (INT_CARRY[167]) );
- FULL_ADDER FA_143 (.DATA_A (INT_SUM[210]) , .DATA_B (INT_SUM[211]) , .DATA_C (INT_CARRY[152]) , .SAVE (INT_SUM[212]) , .CARRY (INT_CARRY[168]) );
- assign INT_SUM[214] = INT_CARRY[153];
- FLIPFLOP LA_58 (.DIN (INT_SUM[212]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[213]) );
- FLIPFLOP LA_59 (.DIN (INT_SUM[214]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[215]) );
- FLIPFLOP LA_60 (.DIN (INT_CARRY[154]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[155]) );
- FULL_ADDER FA_144 (.DATA_A (INT_SUM[213]) , .DATA_B (INT_SUM[215]) , .DATA_C (INT_CARRY[155]) , .SAVE (INT_SUM[216]) , .CARRY (INT_CARRY[170]) );
- FLIPFLOP LA_61 (.DIN (INT_CARRY[156]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[157]) );
- assign INT_SUM[217] = INT_CARRY[157];
- HALF_ADDER HA_24 (.DATA_A (INT_SUM[216]) , .DATA_B (INT_SUM[217]) , .SAVE (SUM[26]) , .CARRY (CARRY[26]) );
- FULL_ADDER FA_145 (.DATA_A (SUMMAND[210]) , .DATA_B (SUMMAND[211]) , .DATA_C (SUMMAND[212]) , .SAVE (INT_SUM[218]) , .CARRY (INT_CARRY[171]) );
- FULL_ADDER FA_146 (.DATA_A (SUMMAND[213]) , .DATA_B (SUMMAND[214]) , .DATA_C (SUMMAND[215]) , .SAVE (INT_SUM[219]) , .CARRY (INT_CARRY[172]) );
- FULL_ADDER FA_147 (.DATA_A (SUMMAND[216]) , .DATA_B (SUMMAND[217]) , .DATA_C (SUMMAND[218]) , .SAVE (INT_SUM[220]) , .CARRY (INT_CARRY[173]) );
- FULL_ADDER FA_148 (.DATA_A (SUMMAND[219]) , .DATA_B (SUMMAND[220]) , .DATA_C (SUMMAND[221]) , .SAVE (INT_SUM[221]) , .CARRY (INT_CARRY[174]) );
- HALF_ADDER HA_25 (.DATA_A (SUMMAND[222]) , .DATA_B (SUMMAND[223]) , .SAVE (INT_SUM[222]) , .CARRY (INT_CARRY[175]) );
- FULL_ADDER FA_149 (.DATA_A (INT_SUM[218]) , .DATA_B (INT_SUM[219]) , .DATA_C (INT_SUM[220]) , .SAVE (INT_SUM[223]) , .CARRY (INT_CARRY[176]) );
- FULL_ADDER FA_150 (.DATA_A (INT_SUM[221]) , .DATA_B (INT_SUM[222]) , .DATA_C (INT_CARRY[158]) , .SAVE (INT_SUM[224]) , .CARRY (INT_CARRY[177]) );
- FULL_ADDER FA_151 (.DATA_A (INT_CARRY[159]) , .DATA_B (INT_CARRY[160]) , .DATA_C (INT_CARRY[161]) , .SAVE (INT_SUM[225]) , .CARRY (INT_CARRY[178]) );
- assign INT_SUM[226] = INT_CARRY[162];
- FULL_ADDER FA_152 (.DATA_A (INT_SUM[223]) , .DATA_B (INT_SUM[224]) , .DATA_C (INT_SUM[225]) , .SAVE (INT_SUM[227]) , .CARRY (INT_CARRY[179]) );
- FULL_ADDER FA_153 (.DATA_A (INT_SUM[226]) , .DATA_B (INT_CARRY[163]) , .DATA_C (INT_CARRY[164]) , .SAVE (INT_SUM[228]) , .CARRY (INT_CARRY[180]) );
- assign INT_SUM[229] = INT_CARRY[165];
- FULL_ADDER FA_154 (.DATA_A (INT_SUM[227]) , .DATA_B (INT_SUM[228]) , .DATA_C (INT_SUM[229]) , .SAVE (INT_SUM[230]) , .CARRY (INT_CARRY[181]) );
- assign INT_SUM[232] = INT_CARRY[166];
- assign INT_SUM[234] = INT_CARRY[167];
- FLIPFLOP LA_62 (.DIN (INT_SUM[230]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[231]) );
- FLIPFLOP LA_63 (.DIN (INT_SUM[232]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[233]) );
- FLIPFLOP LA_64 (.DIN (INT_SUM[234]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[235]) );
- FULL_ADDER FA_155 (.DATA_A (INT_SUM[231]) , .DATA_B (INT_SUM[233]) , .DATA_C (INT_SUM[235]) , .SAVE (INT_SUM[236]) , .CARRY (INT_CARRY[183]) );
- FLIPFLOP LA_65 (.DIN (INT_CARRY[168]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[169]) );
- assign INT_SUM[237] = INT_CARRY[169];
- FULL_ADDER FA_156 (.DATA_A (INT_SUM[236]) , .DATA_B (INT_SUM[237]) , .DATA_C (INT_CARRY[170]) , .SAVE (SUM[27]) , .CARRY (CARRY[27]) );
- FULL_ADDER FA_157 (.DATA_A (SUMMAND[224]) , .DATA_B (SUMMAND[225]) , .DATA_C (SUMMAND[226]) , .SAVE (INT_SUM[238]) , .CARRY (INT_CARRY[184]) );
- FULL_ADDER FA_158 (.DATA_A (SUMMAND[227]) , .DATA_B (SUMMAND[228]) , .DATA_C (SUMMAND[229]) , .SAVE (INT_SUM[239]) , .CARRY (INT_CARRY[185]) );
- FULL_ADDER FA_159 (.DATA_A (SUMMAND[230]) , .DATA_B (SUMMAND[231]) , .DATA_C (SUMMAND[232]) , .SAVE (INT_SUM[240]) , .CARRY (INT_CARRY[186]) );
- FULL_ADDER FA_160 (.DATA_A (SUMMAND[233]) , .DATA_B (SUMMAND[234]) , .DATA_C (SUMMAND[235]) , .SAVE (INT_SUM[241]) , .CARRY (INT_CARRY[187]) );
- FULL_ADDER FA_161 (.DATA_A (SUMMAND[236]) , .DATA_B (SUMMAND[237]) , .DATA_C (SUMMAND[238]) , .SAVE (INT_SUM[242]) , .CARRY (INT_CARRY[188]) );
- assign INT_SUM[243] = SUMMAND[239];
- FULL_ADDER FA_162 (.DATA_A (INT_SUM[238]) , .DATA_B (INT_SUM[239]) , .DATA_C (INT_SUM[240]) , .SAVE (INT_SUM[244]) , .CARRY (INT_CARRY[189]) );
- FULL_ADDER FA_163 (.DATA_A (INT_SUM[241]) , .DATA_B (INT_SUM[242]) , .DATA_C (INT_SUM[243]) , .SAVE (INT_SUM[245]) , .CARRY (INT_CARRY[190]) );
- FULL_ADDER FA_164 (.DATA_A (INT_CARRY[171]) , .DATA_B (INT_CARRY[172]) , .DATA_C (INT_CARRY[173]) , .SAVE (INT_SUM[246]) , .CARRY (INT_CARRY[191]) );
- assign INT_SUM[247] = INT_CARRY[174];
- assign INT_SUM[248] = INT_CARRY[175];
- FULL_ADDER FA_165 (.DATA_A (INT_SUM[244]) , .DATA_B (INT_SUM[245]) , .DATA_C (INT_SUM[246]) , .SAVE (INT_SUM[249]) , .CARRY (INT_CARRY[192]) );
- FULL_ADDER FA_166 (.DATA_A (INT_SUM[247]) , .DATA_B (INT_SUM[248]) , .DATA_C (INT_CARRY[176]) , .SAVE (INT_SUM[250]) , .CARRY (INT_CARRY[193]) );
- assign INT_SUM[251] = INT_CARRY[177];
- assign INT_SUM[252] = INT_CARRY[178];
- FULL_ADDER FA_167 (.DATA_A (INT_SUM[249]) , .DATA_B (INT_SUM[250]) , .DATA_C (INT_SUM[251]) , .SAVE (INT_SUM[253]) , .CARRY (INT_CARRY[194]) );
- FULL_ADDER FA_168 (.DATA_A (INT_SUM[252]) , .DATA_B (INT_CARRY[179]) , .DATA_C (INT_CARRY[180]) , .SAVE (INT_SUM[255]) , .CARRY (INT_CARRY[196]) );
- FLIPFLOP LA_66 (.DIN (INT_SUM[253]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[254]) );
- FLIPFLOP LA_67 (.DIN (INT_SUM[255]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[256]) );
- FLIPFLOP LA_68 (.DIN (INT_CARRY[181]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[182]) );
- FULL_ADDER FA_169 (.DATA_A (INT_SUM[254]) , .DATA_B (INT_SUM[256]) , .DATA_C (INT_CARRY[182]) , .SAVE (INT_SUM[257]) , .CARRY (INT_CARRY[198]) );
- HALF_ADDER HA_26 (.DATA_A (INT_SUM[257]) , .DATA_B (INT_CARRY[183]) , .SAVE (SUM[28]) , .CARRY (CARRY[28]) );
- FULL_ADDER FA_170 (.DATA_A (SUMMAND[240]) , .DATA_B (SUMMAND[241]) , .DATA_C (SUMMAND[242]) , .SAVE (INT_SUM[258]) , .CARRY (INT_CARRY[199]) );
- FULL_ADDER FA_171 (.DATA_A (SUMMAND[243]) , .DATA_B (SUMMAND[244]) , .DATA_C (SUMMAND[245]) , .SAVE (INT_SUM[259]) , .CARRY (INT_CARRY[200]) );
- FULL_ADDER FA_172 (.DATA_A (SUMMAND[246]) , .DATA_B (SUMMAND[247]) , .DATA_C (SUMMAND[248]) , .SAVE (INT_SUM[260]) , .CARRY (INT_CARRY[201]) );
- FULL_ADDER FA_173 (.DATA_A (SUMMAND[249]) , .DATA_B (SUMMAND[250]) , .DATA_C (SUMMAND[251]) , .SAVE (INT_SUM[261]) , .CARRY (INT_CARRY[202]) );
- FULL_ADDER FA_174 (.DATA_A (SUMMAND[252]) , .DATA_B (SUMMAND[253]) , .DATA_C (SUMMAND[254]) , .SAVE (INT_SUM[262]) , .CARRY (INT_CARRY[203]) );
- FULL_ADDER FA_175 (.DATA_A (INT_SUM[258]) , .DATA_B (INT_SUM[259]) , .DATA_C (INT_SUM[260]) , .SAVE (INT_SUM[263]) , .CARRY (INT_CARRY[204]) );
- FULL_ADDER FA_176 (.DATA_A (INT_SUM[261]) , .DATA_B (INT_SUM[262]) , .DATA_C (INT_CARRY[184]) , .SAVE (INT_SUM[264]) , .CARRY (INT_CARRY[205]) );
- FULL_ADDER FA_177 (.DATA_A (INT_CARRY[185]) , .DATA_B (INT_CARRY[186]) , .DATA_C (INT_CARRY[187]) , .SAVE (INT_SUM[265]) , .CARRY (INT_CARRY[206]) );
- assign INT_SUM[266] = INT_CARRY[188];
- FULL_ADDER FA_178 (.DATA_A (INT_SUM[263]) , .DATA_B (INT_SUM[264]) , .DATA_C (INT_SUM[265]) , .SAVE (INT_SUM[267]) , .CARRY (INT_CARRY[207]) );
- FULL_ADDER FA_179 (.DATA_A (INT_SUM[266]) , .DATA_B (INT_CARRY[189]) , .DATA_C (INT_CARRY[190]) , .SAVE (INT_SUM[268]) , .CARRY (INT_CARRY[208]) );
- assign INT_SUM[269] = INT_CARRY[191];
- FULL_ADDER FA_180 (.DATA_A (INT_SUM[267]) , .DATA_B (INT_SUM[268]) , .DATA_C (INT_SUM[269]) , .SAVE (INT_SUM[270]) , .CARRY (INT_CARRY[209]) );
- HALF_ADDER HA_27 (.DATA_A (INT_CARRY[192]) , .DATA_B (INT_CARRY[193]) , .SAVE (INT_SUM[272]) , .CARRY (INT_CARRY[211]) );
- FLIPFLOP LA_69 (.DIN (INT_SUM[270]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[271]) );
- FLIPFLOP LA_70 (.DIN (INT_SUM[272]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[273]) );
- FLIPFLOP LA_71 (.DIN (INT_CARRY[194]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[195]) );
- FULL_ADDER FA_181 (.DATA_A (INT_SUM[271]) , .DATA_B (INT_SUM[273]) , .DATA_C (INT_CARRY[195]) , .SAVE (INT_SUM[274]) , .CARRY (INT_CARRY[213]) );
- FLIPFLOP LA_72 (.DIN (INT_CARRY[196]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[197]) );
- assign INT_SUM[275] = INT_CARRY[197];
- FULL_ADDER FA_182 (.DATA_A (INT_SUM[274]) , .DATA_B (INT_SUM[275]) , .DATA_C (INT_CARRY[198]) , .SAVE (SUM[29]) , .CARRY (CARRY[29]) );
- FULL_ADDER FA_183 (.DATA_A (SUMMAND[255]) , .DATA_B (SUMMAND[256]) , .DATA_C (SUMMAND[257]) , .SAVE (INT_SUM[276]) , .CARRY (INT_CARRY[214]) );
- FULL_ADDER FA_184 (.DATA_A (SUMMAND[258]) , .DATA_B (SUMMAND[259]) , .DATA_C (SUMMAND[260]) , .SAVE (INT_SUM[277]) , .CARRY (INT_CARRY[215]) );
- FULL_ADDER FA_185 (.DATA_A (SUMMAND[261]) , .DATA_B (SUMMAND[262]) , .DATA_C (SUMMAND[263]) , .SAVE (INT_SUM[278]) , .CARRY (INT_CARRY[216]) );
- FULL_ADDER FA_186 (.DATA_A (SUMMAND[264]) , .DATA_B (SUMMAND[265]) , .DATA_C (SUMMAND[266]) , .SAVE (INT_SUM[279]) , .CARRY (INT_CARRY[217]) );
- FULL_ADDER FA_187 (.DATA_A (SUMMAND[267]) , .DATA_B (SUMMAND[268]) , .DATA_C (SUMMAND[269]) , .SAVE (INT_SUM[280]) , .CARRY (INT_CARRY[218]) );
- assign INT_SUM[281] = SUMMAND[270];
- assign INT_SUM[282] = SUMMAND[271];
- FULL_ADDER FA_188 (.DATA_A (INT_SUM[276]) , .DATA_B (INT_SUM[277]) , .DATA_C (INT_SUM[278]) , .SAVE (INT_SUM[283]) , .CARRY (INT_CARRY[219]) );
- FULL_ADDER FA_189 (.DATA_A (INT_SUM[279]) , .DATA_B (INT_SUM[280]) , .DATA_C (INT_SUM[281]) , .SAVE (INT_SUM[284]) , .CARRY (INT_CARRY[220]) );
- FULL_ADDER FA_190 (.DATA_A (INT_SUM[282]) , .DATA_B (INT_CARRY[199]) , .DATA_C (INT_CARRY[200]) , .SAVE (INT_SUM[285]) , .CARRY (INT_CARRY[221]) );
- FULL_ADDER FA_191 (.DATA_A (INT_CARRY[201]) , .DATA_B (INT_CARRY[202]) , .DATA_C (INT_CARRY[203]) , .SAVE (INT_SUM[286]) , .CARRY (INT_CARRY[222]) );
- FULL_ADDER FA_192 (.DATA_A (INT_SUM[283]) , .DATA_B (INT_SUM[284]) , .DATA_C (INT_SUM[285]) , .SAVE (INT_SUM[287]) , .CARRY (INT_CARRY[223]) );
- FULL_ADDER FA_193 (.DATA_A (INT_SUM[286]) , .DATA_B (INT_CARRY[204]) , .DATA_C (INT_CARRY[205]) , .SAVE (INT_SUM[288]) , .CARRY (INT_CARRY[224]) );
- assign INT_SUM[289] = INT_CARRY[206];
- FULL_ADDER FA_194 (.DATA_A (INT_SUM[287]) , .DATA_B (INT_SUM[288]) , .DATA_C (INT_SUM[289]) , .SAVE (INT_SUM[290]) , .CARRY (INT_CARRY[225]) );
- HALF_ADDER HA_28 (.DATA_A (INT_CARRY[207]) , .DATA_B (INT_CARRY[208]) , .SAVE (INT_SUM[292]) , .CARRY (INT_CARRY[227]) );
- FLIPFLOP LA_73 (.DIN (INT_SUM[290]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[291]) );
- FLIPFLOP LA_74 (.DIN (INT_SUM[292]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[293]) );
- FLIPFLOP LA_75 (.DIN (INT_CARRY[209]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[210]) );
- FULL_ADDER FA_195 (.DATA_A (INT_SUM[291]) , .DATA_B (INT_SUM[293]) , .DATA_C (INT_CARRY[210]) , .SAVE (INT_SUM[294]) , .CARRY (INT_CARRY[229]) );
- FLIPFLOP LA_76 (.DIN (INT_CARRY[211]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[212]) );
- assign INT_SUM[295] = INT_CARRY[212];
- FULL_ADDER FA_196 (.DATA_A (INT_SUM[294]) , .DATA_B (INT_SUM[295]) , .DATA_C (INT_CARRY[213]) , .SAVE (SUM[30]) , .CARRY (CARRY[30]) );
- FULL_ADDER FA_197 (.DATA_A (SUMMAND[272]) , .DATA_B (SUMMAND[273]) , .DATA_C (SUMMAND[274]) , .SAVE (INT_SUM[296]) , .CARRY (INT_CARRY[230]) );
- FULL_ADDER FA_198 (.DATA_A (SUMMAND[275]) , .DATA_B (SUMMAND[276]) , .DATA_C (SUMMAND[277]) , .SAVE (INT_SUM[297]) , .CARRY (INT_CARRY[231]) );
- FULL_ADDER FA_199 (.DATA_A (SUMMAND[278]) , .DATA_B (SUMMAND[279]) , .DATA_C (SUMMAND[280]) , .SAVE (INT_SUM[298]) , .CARRY (INT_CARRY[232]) );
- FULL_ADDER FA_200 (.DATA_A (SUMMAND[281]) , .DATA_B (SUMMAND[282]) , .DATA_C (SUMMAND[283]) , .SAVE (INT_SUM[299]) , .CARRY (INT_CARRY[233]) );
- FULL_ADDER FA_201 (.DATA_A (SUMMAND[284]) , .DATA_B (SUMMAND[285]) , .DATA_C (SUMMAND[286]) , .SAVE (INT_SUM[300]) , .CARRY (INT_CARRY[234]) );
- assign INT_SUM[301] = SUMMAND[287];
- FULL_ADDER FA_202 (.DATA_A (INT_SUM[296]) , .DATA_B (INT_SUM[297]) , .DATA_C (INT_SUM[298]) , .SAVE (INT_SUM[302]) , .CARRY (INT_CARRY[235]) );
- FULL_ADDER FA_203 (.DATA_A (INT_SUM[299]) , .DATA_B (INT_SUM[300]) , .DATA_C (INT_SUM[301]) , .SAVE (INT_SUM[303]) , .CARRY (INT_CARRY[236]) );
- FULL_ADDER FA_204 (.DATA_A (INT_CARRY[214]) , .DATA_B (INT_CARRY[215]) , .DATA_C (INT_CARRY[216]) , .SAVE (INT_SUM[304]) , .CARRY (INT_CARRY[237]) );
- assign INT_SUM[305] = INT_CARRY[217];
- assign INT_SUM[306] = INT_CARRY[218];
- FULL_ADDER FA_205 (.DATA_A (INT_SUM[302]) , .DATA_B (INT_SUM[303]) , .DATA_C (INT_SUM[304]) , .SAVE (INT_SUM[307]) , .CARRY (INT_CARRY[238]) );
- FULL_ADDER FA_206 (.DATA_A (INT_SUM[305]) , .DATA_B (INT_SUM[306]) , .DATA_C (INT_CARRY[219]) , .SAVE (INT_SUM[308]) , .CARRY (INT_CARRY[239]) );
- FULL_ADDER FA_207 (.DATA_A (INT_CARRY[220]) , .DATA_B (INT_CARRY[221]) , .DATA_C (INT_CARRY[222]) , .SAVE (INT_SUM[309]) , .CARRY (INT_CARRY[240]) );
- FULL_ADDER FA_208 (.DATA_A (INT_SUM[307]) , .DATA_B (INT_SUM[308]) , .DATA_C (INT_SUM[309]) , .SAVE (INT_SUM[310]) , .CARRY (INT_CARRY[241]) );
- HALF_ADDER HA_29 (.DATA_A (INT_CARRY[223]) , .DATA_B (INT_CARRY[224]) , .SAVE (INT_SUM[312]) , .CARRY (INT_CARRY[243]) );
- FLIPFLOP LA_77 (.DIN (INT_SUM[310]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[311]) );
- FLIPFLOP LA_78 (.DIN (INT_SUM[312]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[313]) );
- FLIPFLOP LA_79 (.DIN (INT_CARRY[225]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[226]) );
- FULL_ADDER FA_209 (.DATA_A (INT_SUM[311]) , .DATA_B (INT_SUM[313]) , .DATA_C (INT_CARRY[226]) , .SAVE (INT_SUM[314]) , .CARRY (INT_CARRY[245]) );
- FLIPFLOP LA_80 (.DIN (INT_CARRY[227]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[228]) );
- assign INT_SUM[315] = INT_CARRY[228];
- FULL_ADDER FA_210 (.DATA_A (INT_SUM[314]) , .DATA_B (INT_SUM[315]) , .DATA_C (INT_CARRY[229]) , .SAVE (SUM[31]) , .CARRY (CARRY[31]) );
- FULL_ADDER FA_211 (.DATA_A (SUMMAND[288]) , .DATA_B (SUMMAND[289]) , .DATA_C (SUMMAND[290]) , .SAVE (INT_SUM[316]) , .CARRY (INT_CARRY[246]) );
- FULL_ADDER FA_212 (.DATA_A (SUMMAND[291]) , .DATA_B (SUMMAND[292]) , .DATA_C (SUMMAND[293]) , .SAVE (INT_SUM[317]) , .CARRY (INT_CARRY[247]) );
- FULL_ADDER FA_213 (.DATA_A (SUMMAND[294]) , .DATA_B (SUMMAND[295]) , .DATA_C (SUMMAND[296]) , .SAVE (INT_SUM[318]) , .CARRY (INT_CARRY[248]) );
- FULL_ADDER FA_214 (.DATA_A (SUMMAND[297]) , .DATA_B (SUMMAND[298]) , .DATA_C (SUMMAND[299]) , .SAVE (INT_SUM[319]) , .CARRY (INT_CARRY[249]) );
- FULL_ADDER FA_215 (.DATA_A (SUMMAND[300]) , .DATA_B (SUMMAND[301]) , .DATA_C (SUMMAND[302]) , .SAVE (INT_SUM[320]) , .CARRY (INT_CARRY[250]) );
- assign INT_SUM[321] = SUMMAND[303];
- FULL_ADDER FA_216 (.DATA_A (INT_SUM[316]) , .DATA_B (INT_SUM[317]) , .DATA_C (INT_SUM[318]) , .SAVE (INT_SUM[322]) , .CARRY (INT_CARRY[251]) );
- FULL_ADDER FA_217 (.DATA_A (INT_SUM[319]) , .DATA_B (INT_SUM[320]) , .DATA_C (INT_SUM[321]) , .SAVE (INT_SUM[323]) , .CARRY (INT_CARRY[252]) );
- FULL_ADDER FA_218 (.DATA_A (INT_CARRY[230]) , .DATA_B (INT_CARRY[231]) , .DATA_C (INT_CARRY[232]) , .SAVE (INT_SUM[324]) , .CARRY (INT_CARRY[253]) );
- HALF_ADDER HA_30 (.DATA_A (INT_CARRY[233]) , .DATA_B (INT_CARRY[234]) , .SAVE (INT_SUM[325]) , .CARRY (INT_CARRY[254]) );
- FULL_ADDER FA_219 (.DATA_A (INT_SUM[322]) , .DATA_B (INT_SUM[323]) , .DATA_C (INT_SUM[324]) , .SAVE (INT_SUM[326]) , .CARRY (INT_CARRY[255]) );
- FULL_ADDER FA_220 (.DATA_A (INT_SUM[325]) , .DATA_B (INT_CARRY[235]) , .DATA_C (INT_CARRY[236]) , .SAVE (INT_SUM[327]) , .CARRY (INT_CARRY[256]) );
- assign INT_SUM[328] = INT_CARRY[237];
- FULL_ADDER FA_221 (.DATA_A (INT_SUM[326]) , .DATA_B (INT_SUM[327]) , .DATA_C (INT_SUM[328]) , .SAVE (INT_SUM[329]) , .CARRY (INT_CARRY[257]) );
- FULL_ADDER FA_222 (.DATA_A (INT_CARRY[238]) , .DATA_B (INT_CARRY[239]) , .DATA_C (INT_CARRY[240]) , .SAVE (INT_SUM[331]) , .CARRY (INT_CARRY[259]) );
- FLIPFLOP LA_81 (.DIN (INT_SUM[329]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[330]) );
- FLIPFLOP LA_82 (.DIN (INT_SUM[331]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[332]) );
- FLIPFLOP LA_83 (.DIN (INT_CARRY[241]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[242]) );
- FULL_ADDER FA_223 (.DATA_A (INT_SUM[330]) , .DATA_B (INT_SUM[332]) , .DATA_C (INT_CARRY[242]) , .SAVE (INT_SUM[333]) , .CARRY (INT_CARRY[261]) );
- FLIPFLOP LA_84 (.DIN (INT_CARRY[243]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[244]) );
- assign INT_SUM[334] = INT_CARRY[244];
- FULL_ADDER FA_224 (.DATA_A (INT_SUM[333]) , .DATA_B (INT_SUM[334]) , .DATA_C (INT_CARRY[245]) , .SAVE (SUM[32]) , .CARRY (CARRY[32]) );
- FULL_ADDER FA_225 (.DATA_A (SUMMAND[304]) , .DATA_B (SUMMAND[305]) , .DATA_C (SUMMAND[306]) , .SAVE (INT_SUM[335]) , .CARRY (INT_CARRY[262]) );
- FULL_ADDER FA_226 (.DATA_A (SUMMAND[307]) , .DATA_B (SUMMAND[308]) , .DATA_C (SUMMAND[309]) , .SAVE (INT_SUM[336]) , .CARRY (INT_CARRY[263]) );
- FULL_ADDER FA_227 (.DATA_A (SUMMAND[310]) , .DATA_B (SUMMAND[311]) , .DATA_C (SUMMAND[312]) , .SAVE (INT_SUM[337]) , .CARRY (INT_CARRY[264]) );
- FULL_ADDER FA_228 (.DATA_A (SUMMAND[313]) , .DATA_B (SUMMAND[314]) , .DATA_C (SUMMAND[315]) , .SAVE (INT_SUM[338]) , .CARRY (INT_CARRY[265]) );
- FULL_ADDER FA_229 (.DATA_A (SUMMAND[316]) , .DATA_B (SUMMAND[317]) , .DATA_C (SUMMAND[318]) , .SAVE (INT_SUM[339]) , .CARRY (INT_CARRY[266]) );
- assign INT_SUM[340] = SUMMAND[319];
- assign INT_SUM[341] = SUMMAND[320];
- FULL_ADDER FA_230 (.DATA_A (INT_SUM[335]) , .DATA_B (INT_SUM[336]) , .DATA_C (INT_SUM[337]) , .SAVE (INT_SUM[342]) , .CARRY (INT_CARRY[267]) );
- FULL_ADDER FA_231 (.DATA_A (INT_SUM[338]) , .DATA_B (INT_SUM[339]) , .DATA_C (INT_SUM[340]) , .SAVE (INT_SUM[343]) , .CARRY (INT_CARRY[268]) );
- FULL_ADDER FA_232 (.DATA_A (INT_SUM[341]) , .DATA_B (INT_CARRY[246]) , .DATA_C (INT_CARRY[247]) , .SAVE (INT_SUM[344]) , .CARRY (INT_CARRY[269]) );
- FULL_ADDER FA_233 (.DATA_A (INT_CARRY[248]) , .DATA_B (INT_CARRY[249]) , .DATA_C (INT_CARRY[250]) , .SAVE (INT_SUM[345]) , .CARRY (INT_CARRY[270]) );
- FULL_ADDER FA_234 (.DATA_A (INT_SUM[342]) , .DATA_B (INT_SUM[343]) , .DATA_C (INT_SUM[344]) , .SAVE (INT_SUM[346]) , .CARRY (INT_CARRY[271]) );
- FULL_ADDER FA_235 (.DATA_A (INT_SUM[345]) , .DATA_B (INT_CARRY[251]) , .DATA_C (INT_CARRY[252]) , .SAVE (INT_SUM[347]) , .CARRY (INT_CARRY[272]) );
- assign INT_SUM[348] = INT_CARRY[253];
- assign INT_SUM[349] = INT_CARRY[254];
- FULL_ADDER FA_236 (.DATA_A (INT_SUM[346]) , .DATA_B (INT_SUM[347]) , .DATA_C (INT_SUM[348]) , .SAVE (INT_SUM[350]) , .CARRY (INT_CARRY[273]) );
- FULL_ADDER FA_237 (.DATA_A (INT_SUM[349]) , .DATA_B (INT_CARRY[255]) , .DATA_C (INT_CARRY[256]) , .SAVE (INT_SUM[352]) , .CARRY (INT_CARRY[275]) );
- FLIPFLOP LA_85 (.DIN (INT_SUM[350]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[351]) );
- FLIPFLOP LA_86 (.DIN (INT_SUM[352]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[353]) );
- FLIPFLOP LA_87 (.DIN (INT_CARRY[257]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[258]) );
- FULL_ADDER FA_238 (.DATA_A (INT_SUM[351]) , .DATA_B (INT_SUM[353]) , .DATA_C (INT_CARRY[258]) , .SAVE (INT_SUM[354]) , .CARRY (INT_CARRY[277]) );
- FLIPFLOP LA_88 (.DIN (INT_CARRY[259]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[260]) );
- assign INT_SUM[355] = INT_CARRY[260];
- FULL_ADDER FA_239 (.DATA_A (INT_SUM[354]) , .DATA_B (INT_SUM[355]) , .DATA_C (INT_CARRY[261]) , .SAVE (SUM[33]) , .CARRY (CARRY[33]) );
- FULL_ADDER FA_240 (.DATA_A (SUMMAND[321]) , .DATA_B (SUMMAND[322]) , .DATA_C (SUMMAND[323]) , .SAVE (INT_SUM[356]) , .CARRY (INT_CARRY[278]) );
- FULL_ADDER FA_241 (.DATA_A (SUMMAND[324]) , .DATA_B (SUMMAND[325]) , .DATA_C (SUMMAND[326]) , .SAVE (INT_SUM[357]) , .CARRY (INT_CARRY[279]) );
- FULL_ADDER FA_242 (.DATA_A (SUMMAND[327]) , .DATA_B (SUMMAND[328]) , .DATA_C (SUMMAND[329]) , .SAVE (INT_SUM[358]) , .CARRY (INT_CARRY[280]) );
- FULL_ADDER FA_243 (.DATA_A (SUMMAND[330]) , .DATA_B (SUMMAND[331]) , .DATA_C (SUMMAND[332]) , .SAVE (INT_SUM[359]) , .CARRY (INT_CARRY[281]) );
- FULL_ADDER FA_244 (.DATA_A (SUMMAND[333]) , .DATA_B (SUMMAND[334]) , .DATA_C (SUMMAND[335]) , .SAVE (INT_SUM[360]) , .CARRY (INT_CARRY[282]) );
- assign INT_SUM[361] = SUMMAND[336];
- FULL_ADDER FA_245 (.DATA_A (INT_SUM[356]) , .DATA_B (INT_SUM[357]) , .DATA_C (INT_SUM[358]) , .SAVE (INT_SUM[362]) , .CARRY (INT_CARRY[283]) );
- FULL_ADDER FA_246 (.DATA_A (INT_SUM[359]) , .DATA_B (INT_SUM[360]) , .DATA_C (INT_SUM[361]) , .SAVE (INT_SUM[363]) , .CARRY (INT_CARRY[284]) );
- FULL_ADDER FA_247 (.DATA_A (INT_CARRY[262]) , .DATA_B (INT_CARRY[263]) , .DATA_C (INT_CARRY[264]) , .SAVE (INT_SUM[364]) , .CARRY (INT_CARRY[285]) );
- assign INT_SUM[365] = INT_CARRY[265];
- assign INT_SUM[366] = INT_CARRY[266];
- FULL_ADDER FA_248 (.DATA_A (INT_SUM[362]) , .DATA_B (INT_SUM[363]) , .DATA_C (INT_SUM[364]) , .SAVE (INT_SUM[367]) , .CARRY (INT_CARRY[286]) );
- FULL_ADDER FA_249 (.DATA_A (INT_SUM[365]) , .DATA_B (INT_SUM[366]) , .DATA_C (INT_CARRY[267]) , .SAVE (INT_SUM[368]) , .CARRY (INT_CARRY[287]) );
- FULL_ADDER FA_250 (.DATA_A (INT_CARRY[268]) , .DATA_B (INT_CARRY[269]) , .DATA_C (INT_CARRY[270]) , .SAVE (INT_SUM[369]) , .CARRY (INT_CARRY[288]) );
- FULL_ADDER FA_251 (.DATA_A (INT_SUM[367]) , .DATA_B (INT_SUM[368]) , .DATA_C (INT_SUM[369]) , .SAVE (INT_SUM[370]) , .CARRY (INT_CARRY[289]) );
- HALF_ADDER HA_31 (.DATA_A (INT_CARRY[271]) , .DATA_B (INT_CARRY[272]) , .SAVE (INT_SUM[372]) , .CARRY (INT_CARRY[291]) );
- FLIPFLOP LA_89 (.DIN (INT_SUM[370]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[371]) );
- FLIPFLOP LA_90 (.DIN (INT_SUM[372]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[373]) );
- FLIPFLOP LA_91 (.DIN (INT_CARRY[273]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[274]) );
- FULL_ADDER FA_252 (.DATA_A (INT_SUM[371]) , .DATA_B (INT_SUM[373]) , .DATA_C (INT_CARRY[274]) , .SAVE (INT_SUM[374]) , .CARRY (INT_CARRY[293]) );
- FLIPFLOP LA_92 (.DIN (INT_CARRY[275]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[276]) );
- assign INT_SUM[375] = INT_CARRY[276];
- FULL_ADDER FA_253 (.DATA_A (INT_SUM[374]) , .DATA_B (INT_SUM[375]) , .DATA_C (INT_CARRY[277]) , .SAVE (SUM[34]) , .CARRY (CARRY[34]) );
- FULL_ADDER FA_254 (.DATA_A (SUMMAND[337]) , .DATA_B (SUMMAND[338]) , .DATA_C (SUMMAND[339]) , .SAVE (INT_SUM[376]) , .CARRY (INT_CARRY[294]) );
- FULL_ADDER FA_255 (.DATA_A (SUMMAND[340]) , .DATA_B (SUMMAND[341]) , .DATA_C (SUMMAND[342]) , .SAVE (INT_SUM[377]) , .CARRY (INT_CARRY[295]) );
- FULL_ADDER FA_256 (.DATA_A (SUMMAND[343]) , .DATA_B (SUMMAND[344]) , .DATA_C (SUMMAND[345]) , .SAVE (INT_SUM[378]) , .CARRY (INT_CARRY[296]) );
- FULL_ADDER FA_257 (.DATA_A (SUMMAND[346]) , .DATA_B (SUMMAND[347]) , .DATA_C (SUMMAND[348]) , .SAVE (INT_SUM[379]) , .CARRY (INT_CARRY[297]) );
- FULL_ADDER FA_258 (.DATA_A (SUMMAND[349]) , .DATA_B (SUMMAND[350]) , .DATA_C (SUMMAND[351]) , .SAVE (INT_SUM[380]) , .CARRY (INT_CARRY[298]) );
- FULL_ADDER FA_259 (.DATA_A (INT_SUM[376]) , .DATA_B (INT_SUM[377]) , .DATA_C (INT_SUM[378]) , .SAVE (INT_SUM[381]) , .CARRY (INT_CARRY[299]) );
- FULL_ADDER FA_260 (.DATA_A (INT_SUM[379]) , .DATA_B (INT_SUM[380]) , .DATA_C (INT_CARRY[278]) , .SAVE (INT_SUM[382]) , .CARRY (INT_CARRY[300]) );
- FULL_ADDER FA_261 (.DATA_A (INT_CARRY[279]) , .DATA_B (INT_CARRY[280]) , .DATA_C (INT_CARRY[281]) , .SAVE (INT_SUM[383]) , .CARRY (INT_CARRY[301]) );
- assign INT_SUM[384] = INT_CARRY[282];
- FULL_ADDER FA_262 (.DATA_A (INT_SUM[381]) , .DATA_B (INT_SUM[382]) , .DATA_C (INT_SUM[383]) , .SAVE (INT_SUM[385]) , .CARRY (INT_CARRY[302]) );
- FULL_ADDER FA_263 (.DATA_A (INT_SUM[384]) , .DATA_B (INT_CARRY[283]) , .DATA_C (INT_CARRY[284]) , .SAVE (INT_SUM[386]) , .CARRY (INT_CARRY[303]) );
- assign INT_SUM[387] = INT_CARRY[285];
- FULL_ADDER FA_264 (.DATA_A (INT_SUM[385]) , .DATA_B (INT_SUM[386]) , .DATA_C (INT_SUM[387]) , .SAVE (INT_SUM[388]) , .CARRY (INT_CARRY[304]) );
- FULL_ADDER FA_265 (.DATA_A (INT_CARRY[286]) , .DATA_B (INT_CARRY[287]) , .DATA_C (INT_CARRY[288]) , .SAVE (INT_SUM[390]) , .CARRY (INT_CARRY[306]) );
- FLIPFLOP LA_93 (.DIN (INT_SUM[388]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[389]) );
- FLIPFLOP LA_94 (.DIN (INT_SUM[390]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[391]) );
- FLIPFLOP LA_95 (.DIN (INT_CARRY[289]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[290]) );
- FULL_ADDER FA_266 (.DATA_A (INT_SUM[389]) , .DATA_B (INT_SUM[391]) , .DATA_C (INT_CARRY[290]) , .SAVE (INT_SUM[392]) , .CARRY (INT_CARRY[308]) );
- FLIPFLOP LA_96 (.DIN (INT_CARRY[291]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[292]) );
- assign INT_SUM[393] = INT_CARRY[292];
- FULL_ADDER FA_267 (.DATA_A (INT_SUM[392]) , .DATA_B (INT_SUM[393]) , .DATA_C (INT_CARRY[293]) , .SAVE (SUM[35]) , .CARRY (CARRY[35]) );
- FULL_ADDER FA_268 (.DATA_A (SUMMAND[352]) , .DATA_B (SUMMAND[353]) , .DATA_C (SUMMAND[354]) , .SAVE (INT_SUM[394]) , .CARRY (INT_CARRY[309]) );
- FULL_ADDER FA_269 (.DATA_A (SUMMAND[355]) , .DATA_B (SUMMAND[356]) , .DATA_C (SUMMAND[357]) , .SAVE (INT_SUM[395]) , .CARRY (INT_CARRY[310]) );
- FULL_ADDER FA_270 (.DATA_A (SUMMAND[358]) , .DATA_B (SUMMAND[359]) , .DATA_C (SUMMAND[360]) , .SAVE (INT_SUM[396]) , .CARRY (INT_CARRY[311]) );
- FULL_ADDER FA_271 (.DATA_A (SUMMAND[361]) , .DATA_B (SUMMAND[362]) , .DATA_C (SUMMAND[363]) , .SAVE (INT_SUM[397]) , .CARRY (INT_CARRY[312]) );
- FULL_ADDER FA_272 (.DATA_A (SUMMAND[364]) , .DATA_B (SUMMAND[365]) , .DATA_C (SUMMAND[366]) , .SAVE (INT_SUM[398]) , .CARRY (INT_CARRY[313]) );
- FULL_ADDER FA_273 (.DATA_A (INT_SUM[394]) , .DATA_B (INT_SUM[395]) , .DATA_C (INT_SUM[396]) , .SAVE (INT_SUM[399]) , .CARRY (INT_CARRY[314]) );
- FULL_ADDER FA_274 (.DATA_A (INT_SUM[397]) , .DATA_B (INT_SUM[398]) , .DATA_C (INT_CARRY[294]) , .SAVE (INT_SUM[400]) , .CARRY (INT_CARRY[315]) );
- FULL_ADDER FA_275 (.DATA_A (INT_CARRY[295]) , .DATA_B (INT_CARRY[296]) , .DATA_C (INT_CARRY[297]) , .SAVE (INT_SUM[401]) , .CARRY (INT_CARRY[316]) );
- assign INT_SUM[402] = INT_CARRY[298];
- FULL_ADDER FA_276 (.DATA_A (INT_SUM[399]) , .DATA_B (INT_SUM[400]) , .DATA_C (INT_SUM[401]) , .SAVE (INT_SUM[403]) , .CARRY (INT_CARRY[317]) );
- FULL_ADDER FA_277 (.DATA_A (INT_SUM[402]) , .DATA_B (INT_CARRY[299]) , .DATA_C (INT_CARRY[300]) , .SAVE (INT_SUM[404]) , .CARRY (INT_CARRY[318]) );
- assign INT_SUM[405] = INT_CARRY[301];
- FULL_ADDER FA_278 (.DATA_A (INT_SUM[403]) , .DATA_B (INT_SUM[404]) , .DATA_C (INT_SUM[405]) , .SAVE (INT_SUM[406]) , .CARRY (INT_CARRY[319]) );
- HALF_ADDER HA_32 (.DATA_A (INT_CARRY[302]) , .DATA_B (INT_CARRY[303]) , .SAVE (INT_SUM[408]) , .CARRY (INT_CARRY[321]) );
- FLIPFLOP LA_97 (.DIN (INT_SUM[406]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[407]) );
- FLIPFLOP LA_98 (.DIN (INT_SUM[408]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[409]) );
- FLIPFLOP LA_99 (.DIN (INT_CARRY[304]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[305]) );
- FULL_ADDER FA_279 (.DATA_A (INT_SUM[407]) , .DATA_B (INT_SUM[409]) , .DATA_C (INT_CARRY[305]) , .SAVE (INT_SUM[410]) , .CARRY (INT_CARRY[323]) );
- FLIPFLOP LA_100 (.DIN (INT_CARRY[306]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[307]) );
- assign INT_SUM[411] = INT_CARRY[307];
- FULL_ADDER FA_280 (.DATA_A (INT_SUM[410]) , .DATA_B (INT_SUM[411]) , .DATA_C (INT_CARRY[308]) , .SAVE (SUM[36]) , .CARRY (CARRY[36]) );
- FULL_ADDER FA_281 (.DATA_A (SUMMAND[367]) , .DATA_B (SUMMAND[368]) , .DATA_C (SUMMAND[369]) , .SAVE (INT_SUM[412]) , .CARRY (INT_CARRY[324]) );
- FULL_ADDER FA_282 (.DATA_A (SUMMAND[370]) , .DATA_B (SUMMAND[371]) , .DATA_C (SUMMAND[372]) , .SAVE (INT_SUM[413]) , .CARRY (INT_CARRY[325]) );
- FULL_ADDER FA_283 (.DATA_A (SUMMAND[373]) , .DATA_B (SUMMAND[374]) , .DATA_C (SUMMAND[375]) , .SAVE (INT_SUM[414]) , .CARRY (INT_CARRY[326]) );
- FULL_ADDER FA_284 (.DATA_A (SUMMAND[376]) , .DATA_B (SUMMAND[377]) , .DATA_C (SUMMAND[378]) , .SAVE (INT_SUM[415]) , .CARRY (INT_CARRY[327]) );
- HALF_ADDER HA_33 (.DATA_A (SUMMAND[379]) , .DATA_B (SUMMAND[380]) , .SAVE (INT_SUM[416]) , .CARRY (INT_CARRY[328]) );
- FULL_ADDER FA_285 (.DATA_A (INT_SUM[412]) , .DATA_B (INT_SUM[413]) , .DATA_C (INT_SUM[414]) , .SAVE (INT_SUM[417]) , .CARRY (INT_CARRY[329]) );
- FULL_ADDER FA_286 (.DATA_A (INT_SUM[415]) , .DATA_B (INT_SUM[416]) , .DATA_C (INT_CARRY[309]) , .SAVE (INT_SUM[418]) , .CARRY (INT_CARRY[330]) );
- FULL_ADDER FA_287 (.DATA_A (INT_CARRY[310]) , .DATA_B (INT_CARRY[311]) , .DATA_C (INT_CARRY[312]) , .SAVE (INT_SUM[419]) , .CARRY (INT_CARRY[331]) );
- assign INT_SUM[420] = INT_CARRY[313];
- FULL_ADDER FA_288 (.DATA_A (INT_SUM[417]) , .DATA_B (INT_SUM[418]) , .DATA_C (INT_SUM[419]) , .SAVE (INT_SUM[421]) , .CARRY (INT_CARRY[332]) );
- FULL_ADDER FA_289 (.DATA_A (INT_SUM[420]) , .DATA_B (INT_CARRY[314]) , .DATA_C (INT_CARRY[315]) , .SAVE (INT_SUM[422]) , .CARRY (INT_CARRY[333]) );
- assign INT_SUM[423] = INT_CARRY[316];
- FULL_ADDER FA_290 (.DATA_A (INT_SUM[421]) , .DATA_B (INT_SUM[422]) , .DATA_C (INT_SUM[423]) , .SAVE (INT_SUM[424]) , .CARRY (INT_CARRY[334]) );
- HALF_ADDER HA_34 (.DATA_A (INT_CARRY[317]) , .DATA_B (INT_CARRY[318]) , .SAVE (INT_SUM[426]) , .CARRY (INT_CARRY[336]) );
- FLIPFLOP LA_101 (.DIN (INT_SUM[424]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[425]) );
- FLIPFLOP LA_102 (.DIN (INT_SUM[426]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[427]) );
- FLIPFLOP LA_103 (.DIN (INT_CARRY[319]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[320]) );
- FULL_ADDER FA_291 (.DATA_A (INT_SUM[425]) , .DATA_B (INT_SUM[427]) , .DATA_C (INT_CARRY[320]) , .SAVE (INT_SUM[428]) , .CARRY (INT_CARRY[338]) );
- FLIPFLOP LA_104 (.DIN (INT_CARRY[321]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[322]) );
- assign INT_SUM[429] = INT_CARRY[322];
- FULL_ADDER FA_292 (.DATA_A (INT_SUM[428]) , .DATA_B (INT_SUM[429]) , .DATA_C (INT_CARRY[323]) , .SAVE (SUM[37]) , .CARRY (CARRY[37]) );
- FULL_ADDER FA_293 (.DATA_A (SUMMAND[381]) , .DATA_B (SUMMAND[382]) , .DATA_C (SUMMAND[383]) , .SAVE (INT_SUM[430]) , .CARRY (INT_CARRY[339]) );
- FULL_ADDER FA_294 (.DATA_A (SUMMAND[384]) , .DATA_B (SUMMAND[385]) , .DATA_C (SUMMAND[386]) , .SAVE (INT_SUM[431]) , .CARRY (INT_CARRY[340]) );
- FULL_ADDER FA_295 (.DATA_A (SUMMAND[387]) , .DATA_B (SUMMAND[388]) , .DATA_C (SUMMAND[389]) , .SAVE (INT_SUM[432]) , .CARRY (INT_CARRY[341]) );
- FULL_ADDER FA_296 (.DATA_A (SUMMAND[390]) , .DATA_B (SUMMAND[391]) , .DATA_C (SUMMAND[392]) , .SAVE (INT_SUM[433]) , .CARRY (INT_CARRY[342]) );
- HALF_ADDER HA_35 (.DATA_A (SUMMAND[393]) , .DATA_B (SUMMAND[394]) , .SAVE (INT_SUM[434]) , .CARRY (INT_CARRY[343]) );
- FULL_ADDER FA_297 (.DATA_A (INT_SUM[430]) , .DATA_B (INT_SUM[431]) , .DATA_C (INT_SUM[432]) , .SAVE (INT_SUM[435]) , .CARRY (INT_CARRY[344]) );
- FULL_ADDER FA_298 (.DATA_A (INT_SUM[433]) , .DATA_B (INT_SUM[434]) , .DATA_C (INT_CARRY[324]) , .SAVE (INT_SUM[436]) , .CARRY (INT_CARRY[345]) );
- FULL_ADDER FA_299 (.DATA_A (INT_CARRY[325]) , .DATA_B (INT_CARRY[326]) , .DATA_C (INT_CARRY[327]) , .SAVE (INT_SUM[437]) , .CARRY (INT_CARRY[346]) );
- assign INT_SUM[438] = INT_CARRY[328];
- FULL_ADDER FA_300 (.DATA_A (INT_SUM[435]) , .DATA_B (INT_SUM[436]) , .DATA_C (INT_SUM[437]) , .SAVE (INT_SUM[439]) , .CARRY (INT_CARRY[347]) );
- FULL_ADDER FA_301 (.DATA_A (INT_SUM[438]) , .DATA_B (INT_CARRY[329]) , .DATA_C (INT_CARRY[330]) , .SAVE (INT_SUM[440]) , .CARRY (INT_CARRY[348]) );
- assign INT_SUM[441] = INT_CARRY[331];
- FULL_ADDER FA_302 (.DATA_A (INT_SUM[439]) , .DATA_B (INT_SUM[440]) , .DATA_C (INT_SUM[441]) , .SAVE (INT_SUM[442]) , .CARRY (INT_CARRY[349]) );
- HALF_ADDER HA_36 (.DATA_A (INT_CARRY[332]) , .DATA_B (INT_CARRY[333]) , .SAVE (INT_SUM[444]) , .CARRY (INT_CARRY[351]) );
- FLIPFLOP LA_105 (.DIN (INT_SUM[442]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[443]) );
- FLIPFLOP LA_106 (.DIN (INT_SUM[444]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[445]) );
- FLIPFLOP LA_107 (.DIN (INT_CARRY[334]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[335]) );
- FULL_ADDER FA_303 (.DATA_A (INT_SUM[443]) , .DATA_B (INT_SUM[445]) , .DATA_C (INT_CARRY[335]) , .SAVE (INT_SUM[446]) , .CARRY (INT_CARRY[353]) );
- FLIPFLOP LA_108 (.DIN (INT_CARRY[336]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[337]) );
- assign INT_SUM[447] = INT_CARRY[337];
- FULL_ADDER FA_304 (.DATA_A (INT_SUM[446]) , .DATA_B (INT_SUM[447]) , .DATA_C (INT_CARRY[338]) , .SAVE (SUM[38]) , .CARRY (CARRY[38]) );
- FULL_ADDER FA_305 (.DATA_A (SUMMAND[395]) , .DATA_B (SUMMAND[396]) , .DATA_C (SUMMAND[397]) , .SAVE (INT_SUM[448]) , .CARRY (INT_CARRY[354]) );
- FULL_ADDER FA_306 (.DATA_A (SUMMAND[398]) , .DATA_B (SUMMAND[399]) , .DATA_C (SUMMAND[400]) , .SAVE (INT_SUM[449]) , .CARRY (INT_CARRY[355]) );
- FULL_ADDER FA_307 (.DATA_A (SUMMAND[401]) , .DATA_B (SUMMAND[402]) , .DATA_C (SUMMAND[403]) , .SAVE (INT_SUM[450]) , .CARRY (INT_CARRY[356]) );
- FULL_ADDER FA_308 (.DATA_A (SUMMAND[404]) , .DATA_B (SUMMAND[405]) , .DATA_C (SUMMAND[406]) , .SAVE (INT_SUM[451]) , .CARRY (INT_CARRY[357]) );
- assign INT_SUM[452] = SUMMAND[407];
- FULL_ADDER FA_309 (.DATA_A (INT_SUM[448]) , .DATA_B (INT_SUM[449]) , .DATA_C (INT_SUM[450]) , .SAVE (INT_SUM[453]) , .CARRY (INT_CARRY[358]) );
- FULL_ADDER FA_310 (.DATA_A (INT_SUM[451]) , .DATA_B (INT_SUM[452]) , .DATA_C (INT_CARRY[339]) , .SAVE (INT_SUM[454]) , .CARRY (INT_CARRY[359]) );
- FULL_ADDER FA_311 (.DATA_A (INT_CARRY[340]) , .DATA_B (INT_CARRY[341]) , .DATA_C (INT_CARRY[342]) , .SAVE (INT_SUM[455]) , .CARRY (INT_CARRY[360]) );
- assign INT_SUM[456] = INT_CARRY[343];
- FULL_ADDER FA_312 (.DATA_A (INT_SUM[453]) , .DATA_B (INT_SUM[454]) , .DATA_C (INT_SUM[455]) , .SAVE (INT_SUM[457]) , .CARRY (INT_CARRY[361]) );
- FULL_ADDER FA_313 (.DATA_A (INT_SUM[456]) , .DATA_B (INT_CARRY[344]) , .DATA_C (INT_CARRY[345]) , .SAVE (INT_SUM[458]) , .CARRY (INT_CARRY[362]) );
- assign INT_SUM[459] = INT_CARRY[346];
- FULL_ADDER FA_314 (.DATA_A (INT_SUM[457]) , .DATA_B (INT_SUM[458]) , .DATA_C (INT_SUM[459]) , .SAVE (INT_SUM[460]) , .CARRY (INT_CARRY[363]) );
- HALF_ADDER HA_37 (.DATA_A (INT_CARRY[347]) , .DATA_B (INT_CARRY[348]) , .SAVE (INT_SUM[462]) , .CARRY (INT_CARRY[365]) );
- FLIPFLOP LA_109 (.DIN (INT_SUM[460]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[461]) );
- FLIPFLOP LA_110 (.DIN (INT_SUM[462]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[463]) );
- FLIPFLOP LA_111 (.DIN (INT_CARRY[349]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[350]) );
- FULL_ADDER FA_315 (.DATA_A (INT_SUM[461]) , .DATA_B (INT_SUM[463]) , .DATA_C (INT_CARRY[350]) , .SAVE (INT_SUM[464]) , .CARRY (INT_CARRY[367]) );
- FLIPFLOP LA_112 (.DIN (INT_CARRY[351]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[352]) );
- assign INT_SUM[465] = INT_CARRY[352];
- FULL_ADDER FA_316 (.DATA_A (INT_SUM[464]) , .DATA_B (INT_SUM[465]) , .DATA_C (INT_CARRY[353]) , .SAVE (SUM[39]) , .CARRY (CARRY[39]) );
- FULL_ADDER FA_317 (.DATA_A (SUMMAND[408]) , .DATA_B (SUMMAND[409]) , .DATA_C (SUMMAND[410]) , .SAVE (INT_SUM[466]) , .CARRY (INT_CARRY[368]) );
- FULL_ADDER FA_318 (.DATA_A (SUMMAND[411]) , .DATA_B (SUMMAND[412]) , .DATA_C (SUMMAND[413]) , .SAVE (INT_SUM[467]) , .CARRY (INT_CARRY[369]) );
- FULL_ADDER FA_319 (.DATA_A (SUMMAND[414]) , .DATA_B (SUMMAND[415]) , .DATA_C (SUMMAND[416]) , .SAVE (INT_SUM[468]) , .CARRY (INT_CARRY[370]) );
- FULL_ADDER FA_320 (.DATA_A (SUMMAND[417]) , .DATA_B (SUMMAND[418]) , .DATA_C (SUMMAND[419]) , .SAVE (INT_SUM[469]) , .CARRY (INT_CARRY[371]) );
- FULL_ADDER FA_321 (.DATA_A (SUMMAND[420]) , .DATA_B (INT_CARRY[354]) , .DATA_C (INT_CARRY[355]) , .SAVE (INT_SUM[470]) , .CARRY (INT_CARRY[372]) );
- assign INT_SUM[471] = INT_CARRY[356];
- assign INT_SUM[472] = INT_CARRY[357];
- FULL_ADDER FA_322 (.DATA_A (INT_SUM[466]) , .DATA_B (INT_SUM[467]) , .DATA_C (INT_SUM[468]) , .SAVE (INT_SUM[473]) , .CARRY (INT_CARRY[373]) );
- FULL_ADDER FA_323 (.DATA_A (INT_SUM[469]) , .DATA_B (INT_SUM[470]) , .DATA_C (INT_SUM[471]) , .SAVE (INT_SUM[474]) , .CARRY (INT_CARRY[374]) );
- FULL_ADDER FA_324 (.DATA_A (INT_SUM[472]) , .DATA_B (INT_CARRY[358]) , .DATA_C (INT_CARRY[359]) , .SAVE (INT_SUM[475]) , .CARRY (INT_CARRY[375]) );
- assign INT_SUM[476] = INT_CARRY[360];
- FULL_ADDER FA_325 (.DATA_A (INT_SUM[473]) , .DATA_B (INT_SUM[474]) , .DATA_C (INT_SUM[475]) , .SAVE (INT_SUM[477]) , .CARRY (INT_CARRY[376]) );
- FULL_ADDER FA_326 (.DATA_A (INT_SUM[476]) , .DATA_B (INT_CARRY[361]) , .DATA_C (INT_CARRY[362]) , .SAVE (INT_SUM[479]) , .CARRY (INT_CARRY[378]) );
- FLIPFLOP LA_113 (.DIN (INT_SUM[477]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[478]) );
- FLIPFLOP LA_114 (.DIN (INT_SUM[479]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[480]) );
- FLIPFLOP LA_115 (.DIN (INT_CARRY[363]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[364]) );
- FULL_ADDER FA_327 (.DATA_A (INT_SUM[478]) , .DATA_B (INT_SUM[480]) , .DATA_C (INT_CARRY[364]) , .SAVE (INT_SUM[481]) , .CARRY (INT_CARRY[380]) );
- FLIPFLOP LA_116 (.DIN (INT_CARRY[365]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[366]) );
- assign INT_SUM[482] = INT_CARRY[366];
- FULL_ADDER FA_328 (.DATA_A (INT_SUM[481]) , .DATA_B (INT_SUM[482]) , .DATA_C (INT_CARRY[367]) , .SAVE (SUM[40]) , .CARRY (CARRY[40]) );
- FULL_ADDER FA_329 (.DATA_A (SUMMAND[421]) , .DATA_B (SUMMAND[422]) , .DATA_C (SUMMAND[423]) , .SAVE (INT_SUM[483]) , .CARRY (INT_CARRY[381]) );
- FULL_ADDER FA_330 (.DATA_A (SUMMAND[424]) , .DATA_B (SUMMAND[425]) , .DATA_C (SUMMAND[426]) , .SAVE (INT_SUM[484]) , .CARRY (INT_CARRY[382]) );
- FULL_ADDER FA_331 (.DATA_A (SUMMAND[427]) , .DATA_B (SUMMAND[428]) , .DATA_C (SUMMAND[429]) , .SAVE (INT_SUM[485]) , .CARRY (INT_CARRY[383]) );
- FULL_ADDER FA_332 (.DATA_A (SUMMAND[430]) , .DATA_B (SUMMAND[431]) , .DATA_C (SUMMAND[432]) , .SAVE (INT_SUM[486]) , .CARRY (INT_CARRY[384]) );
- FULL_ADDER FA_333 (.DATA_A (INT_SUM[483]) , .DATA_B (INT_SUM[484]) , .DATA_C (INT_SUM[485]) , .SAVE (INT_SUM[487]) , .CARRY (INT_CARRY[385]) );
- FULL_ADDER FA_334 (.DATA_A (INT_SUM[486]) , .DATA_B (INT_CARRY[368]) , .DATA_C (INT_CARRY[369]) , .SAVE (INT_SUM[488]) , .CARRY (INT_CARRY[386]) );
- FULL_ADDER FA_335 (.DATA_A (INT_CARRY[370]) , .DATA_B (INT_CARRY[371]) , .DATA_C (INT_CARRY[372]) , .SAVE (INT_SUM[489]) , .CARRY (INT_CARRY[387]) );
- FULL_ADDER FA_336 (.DATA_A (INT_SUM[487]) , .DATA_B (INT_SUM[488]) , .DATA_C (INT_SUM[489]) , .SAVE (INT_SUM[490]) , .CARRY (INT_CARRY[388]) );
- FULL_ADDER FA_337 (.DATA_A (INT_CARRY[373]) , .DATA_B (INT_CARRY[374]) , .DATA_C (INT_CARRY[375]) , .SAVE (INT_SUM[492]) , .CARRY (INT_CARRY[390]) );
- FLIPFLOP LA_117 (.DIN (INT_SUM[490]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[491]) );
- FLIPFLOP LA_118 (.DIN (INT_SUM[492]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[493]) );
- FLIPFLOP LA_119 (.DIN (INT_CARRY[376]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[377]) );
- FULL_ADDER FA_338 (.DATA_A (INT_SUM[491]) , .DATA_B (INT_SUM[493]) , .DATA_C (INT_CARRY[377]) , .SAVE (INT_SUM[494]) , .CARRY (INT_CARRY[392]) );
- FLIPFLOP LA_120 (.DIN (INT_CARRY[378]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[379]) );
- assign INT_SUM[495] = INT_CARRY[379];
- FULL_ADDER FA_339 (.DATA_A (INT_SUM[494]) , .DATA_B (INT_SUM[495]) , .DATA_C (INT_CARRY[380]) , .SAVE (SUM[41]) , .CARRY (CARRY[41]) );
- FULL_ADDER FA_340 (.DATA_A (SUMMAND[433]) , .DATA_B (SUMMAND[434]) , .DATA_C (SUMMAND[435]) , .SAVE (INT_SUM[496]) , .CARRY (INT_CARRY[393]) );
- FULL_ADDER FA_341 (.DATA_A (SUMMAND[436]) , .DATA_B (SUMMAND[437]) , .DATA_C (SUMMAND[438]) , .SAVE (INT_SUM[497]) , .CARRY (INT_CARRY[394]) );
- FULL_ADDER FA_342 (.DATA_A (SUMMAND[439]) , .DATA_B (SUMMAND[440]) , .DATA_C (SUMMAND[441]) , .SAVE (INT_SUM[498]) , .CARRY (INT_CARRY[395]) );
- FULL_ADDER FA_343 (.DATA_A (SUMMAND[442]) , .DATA_B (SUMMAND[443]) , .DATA_C (SUMMAND[444]) , .SAVE (INT_SUM[499]) , .CARRY (INT_CARRY[396]) );
- FULL_ADDER FA_344 (.DATA_A (INT_SUM[496]) , .DATA_B (INT_SUM[497]) , .DATA_C (INT_SUM[498]) , .SAVE (INT_SUM[500]) , .CARRY (INT_CARRY[397]) );
- FULL_ADDER FA_345 (.DATA_A (INT_SUM[499]) , .DATA_B (INT_CARRY[381]) , .DATA_C (INT_CARRY[382]) , .SAVE (INT_SUM[501]) , .CARRY (INT_CARRY[398]) );
- HALF_ADDER HA_38 (.DATA_A (INT_CARRY[383]) , .DATA_B (INT_CARRY[384]) , .SAVE (INT_SUM[502]) , .CARRY (INT_CARRY[399]) );
- FULL_ADDER FA_346 (.DATA_A (INT_SUM[500]) , .DATA_B (INT_SUM[501]) , .DATA_C (INT_SUM[502]) , .SAVE (INT_SUM[503]) , .CARRY (INT_CARRY[400]) );
- FULL_ADDER FA_347 (.DATA_A (INT_CARRY[385]) , .DATA_B (INT_CARRY[386]) , .DATA_C (INT_CARRY[387]) , .SAVE (INT_SUM[505]) , .CARRY (INT_CARRY[402]) );
- FLIPFLOP LA_121 (.DIN (INT_SUM[503]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[504]) );
- FLIPFLOP LA_122 (.DIN (INT_SUM[505]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[506]) );
- FLIPFLOP LA_123 (.DIN (INT_CARRY[388]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[389]) );
- FULL_ADDER FA_348 (.DATA_A (INT_SUM[504]) , .DATA_B (INT_SUM[506]) , .DATA_C (INT_CARRY[389]) , .SAVE (INT_SUM[507]) , .CARRY (INT_CARRY[404]) );
- FLIPFLOP LA_124 (.DIN (INT_CARRY[390]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[391]) );
- assign INT_SUM[508] = INT_CARRY[391];
- FULL_ADDER FA_349 (.DATA_A (INT_SUM[507]) , .DATA_B (INT_SUM[508]) , .DATA_C (INT_CARRY[392]) , .SAVE (SUM[42]) , .CARRY (CARRY[42]) );
- FULL_ADDER FA_350 (.DATA_A (SUMMAND[445]) , .DATA_B (SUMMAND[446]) , .DATA_C (SUMMAND[447]) , .SAVE (INT_SUM[509]) , .CARRY (INT_CARRY[405]) );
- FULL_ADDER FA_351 (.DATA_A (SUMMAND[448]) , .DATA_B (SUMMAND[449]) , .DATA_C (SUMMAND[450]) , .SAVE (INT_SUM[510]) , .CARRY (INT_CARRY[406]) );
- FULL_ADDER FA_352 (.DATA_A (SUMMAND[451]) , .DATA_B (SUMMAND[452]) , .DATA_C (SUMMAND[453]) , .SAVE (INT_SUM[511]) , .CARRY (INT_CARRY[407]) );
- assign INT_SUM[512] = SUMMAND[454];
- assign INT_SUM[513] = SUMMAND[455];
- FULL_ADDER FA_353 (.DATA_A (INT_SUM[509]) , .DATA_B (INT_SUM[510]) , .DATA_C (INT_SUM[511]) , .SAVE (INT_SUM[514]) , .CARRY (INT_CARRY[408]) );
- FULL_ADDER FA_354 (.DATA_A (INT_SUM[512]) , .DATA_B (INT_SUM[513]) , .DATA_C (INT_CARRY[393]) , .SAVE (INT_SUM[515]) , .CARRY (INT_CARRY[409]) );
- FULL_ADDER FA_355 (.DATA_A (INT_CARRY[394]) , .DATA_B (INT_CARRY[395]) , .DATA_C (INT_CARRY[396]) , .SAVE (INT_SUM[516]) , .CARRY (INT_CARRY[410]) );
- FULL_ADDER FA_356 (.DATA_A (INT_SUM[514]) , .DATA_B (INT_SUM[515]) , .DATA_C (INT_SUM[516]) , .SAVE (INT_SUM[517]) , .CARRY (INT_CARRY[411]) );
- FULL_ADDER FA_357 (.DATA_A (INT_CARRY[397]) , .DATA_B (INT_CARRY[398]) , .DATA_C (INT_CARRY[399]) , .SAVE (INT_SUM[519]) , .CARRY (INT_CARRY[413]) );
- FLIPFLOP LA_125 (.DIN (INT_SUM[517]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[518]) );
- FLIPFLOP LA_126 (.DIN (INT_SUM[519]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[520]) );
- FLIPFLOP LA_127 (.DIN (INT_CARRY[400]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[401]) );
- FULL_ADDER FA_358 (.DATA_A (INT_SUM[518]) , .DATA_B (INT_SUM[520]) , .DATA_C (INT_CARRY[401]) , .SAVE (INT_SUM[521]) , .CARRY (INT_CARRY[415]) );
- FLIPFLOP LA_128 (.DIN (INT_CARRY[402]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[403]) );
- assign INT_SUM[522] = INT_CARRY[403];
- FULL_ADDER FA_359 (.DATA_A (INT_SUM[521]) , .DATA_B (INT_SUM[522]) , .DATA_C (INT_CARRY[404]) , .SAVE (SUM[43]) , .CARRY (CARRY[43]) );
- FULL_ADDER FA_360 (.DATA_A (SUMMAND[456]) , .DATA_B (SUMMAND[457]) , .DATA_C (SUMMAND[458]) , .SAVE (INT_SUM[523]) , .CARRY (INT_CARRY[416]) );
- FULL_ADDER FA_361 (.DATA_A (SUMMAND[459]) , .DATA_B (SUMMAND[460]) , .DATA_C (SUMMAND[461]) , .SAVE (INT_SUM[524]) , .CARRY (INT_CARRY[417]) );
- FULL_ADDER FA_362 (.DATA_A (SUMMAND[462]) , .DATA_B (SUMMAND[463]) , .DATA_C (SUMMAND[464]) , .SAVE (INT_SUM[525]) , .CARRY (INT_CARRY[418]) );
- HALF_ADDER HA_39 (.DATA_A (SUMMAND[465]) , .DATA_B (SUMMAND[466]) , .SAVE (INT_SUM[526]) , .CARRY (INT_CARRY[419]) );
- FULL_ADDER FA_363 (.DATA_A (INT_SUM[523]) , .DATA_B (INT_SUM[524]) , .DATA_C (INT_SUM[525]) , .SAVE (INT_SUM[527]) , .CARRY (INT_CARRY[420]) );
- FULL_ADDER FA_364 (.DATA_A (INT_SUM[526]) , .DATA_B (INT_CARRY[405]) , .DATA_C (INT_CARRY[406]) , .SAVE (INT_SUM[528]) , .CARRY (INT_CARRY[421]) );
- assign INT_SUM[529] = INT_CARRY[407];
- FULL_ADDER FA_365 (.DATA_A (INT_SUM[527]) , .DATA_B (INT_SUM[528]) , .DATA_C (INT_SUM[529]) , .SAVE (INT_SUM[530]) , .CARRY (INT_CARRY[422]) );
- FULL_ADDER FA_366 (.DATA_A (INT_CARRY[408]) , .DATA_B (INT_CARRY[409]) , .DATA_C (INT_CARRY[410]) , .SAVE (INT_SUM[532]) , .CARRY (INT_CARRY[424]) );
- FLIPFLOP LA_129 (.DIN (INT_SUM[530]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[531]) );
- FLIPFLOP LA_130 (.DIN (INT_SUM[532]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[533]) );
- FLIPFLOP LA_131 (.DIN (INT_CARRY[411]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[412]) );
- FULL_ADDER FA_367 (.DATA_A (INT_SUM[531]) , .DATA_B (INT_SUM[533]) , .DATA_C (INT_CARRY[412]) , .SAVE (INT_SUM[534]) , .CARRY (INT_CARRY[426]) );
- FLIPFLOP LA_132 (.DIN (INT_CARRY[413]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[414]) );
- assign INT_SUM[535] = INT_CARRY[414];
- FULL_ADDER FA_368 (.DATA_A (INT_SUM[534]) , .DATA_B (INT_SUM[535]) , .DATA_C (INT_CARRY[415]) , .SAVE (SUM[44]) , .CARRY (CARRY[44]) );
- FULL_ADDER FA_369 (.DATA_A (SUMMAND[467]) , .DATA_B (SUMMAND[468]) , .DATA_C (SUMMAND[469]) , .SAVE (INT_SUM[536]) , .CARRY (INT_CARRY[427]) );
- FULL_ADDER FA_370 (.DATA_A (SUMMAND[470]) , .DATA_B (SUMMAND[471]) , .DATA_C (SUMMAND[472]) , .SAVE (INT_SUM[537]) , .CARRY (INT_CARRY[428]) );
- FULL_ADDER FA_371 (.DATA_A (SUMMAND[473]) , .DATA_B (SUMMAND[474]) , .DATA_C (SUMMAND[475]) , .SAVE (INT_SUM[538]) , .CARRY (INT_CARRY[429]) );
- assign INT_SUM[539] = SUMMAND[476];
- FULL_ADDER FA_372 (.DATA_A (INT_SUM[536]) , .DATA_B (INT_SUM[537]) , .DATA_C (INT_SUM[538]) , .SAVE (INT_SUM[540]) , .CARRY (INT_CARRY[430]) );
- FULL_ADDER FA_373 (.DATA_A (INT_SUM[539]) , .DATA_B (INT_CARRY[416]) , .DATA_C (INT_CARRY[417]) , .SAVE (INT_SUM[541]) , .CARRY (INT_CARRY[431]) );
- assign INT_SUM[542] = INT_CARRY[418];
- assign INT_SUM[543] = INT_CARRY[419];
- FULL_ADDER FA_374 (.DATA_A (INT_SUM[540]) , .DATA_B (INT_SUM[541]) , .DATA_C (INT_SUM[542]) , .SAVE (INT_SUM[544]) , .CARRY (INT_CARRY[432]) );
- FULL_ADDER FA_375 (.DATA_A (INT_SUM[543]) , .DATA_B (INT_CARRY[420]) , .DATA_C (INT_CARRY[421]) , .SAVE (INT_SUM[546]) , .CARRY (INT_CARRY[434]) );
- FLIPFLOP LA_133 (.DIN (INT_SUM[544]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[545]) );
- FLIPFLOP LA_134 (.DIN (INT_SUM[546]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[547]) );
- FLIPFLOP LA_135 (.DIN (INT_CARRY[422]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[423]) );
- FULL_ADDER FA_376 (.DATA_A (INT_SUM[545]) , .DATA_B (INT_SUM[547]) , .DATA_C (INT_CARRY[423]) , .SAVE (INT_SUM[548]) , .CARRY (INT_CARRY[436]) );
- FLIPFLOP LA_136 (.DIN (INT_CARRY[424]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[425]) );
- assign INT_SUM[549] = INT_CARRY[425];
- FULL_ADDER FA_377 (.DATA_A (INT_SUM[548]) , .DATA_B (INT_SUM[549]) , .DATA_C (INT_CARRY[426]) , .SAVE (SUM[45]) , .CARRY (CARRY[45]) );
- FULL_ADDER FA_378 (.DATA_A (SUMMAND[477]) , .DATA_B (SUMMAND[478]) , .DATA_C (SUMMAND[479]) , .SAVE (INT_SUM[550]) , .CARRY (INT_CARRY[437]) );
- FULL_ADDER FA_379 (.DATA_A (SUMMAND[480]) , .DATA_B (SUMMAND[481]) , .DATA_C (SUMMAND[482]) , .SAVE (INT_SUM[551]) , .CARRY (INT_CARRY[438]) );
- FULL_ADDER FA_380 (.DATA_A (SUMMAND[483]) , .DATA_B (SUMMAND[484]) , .DATA_C (SUMMAND[485]) , .SAVE (INT_SUM[552]) , .CARRY (INT_CARRY[439]) );
- assign INT_SUM[553] = SUMMAND[486];
- FULL_ADDER FA_381 (.DATA_A (INT_SUM[550]) , .DATA_B (INT_SUM[551]) , .DATA_C (INT_SUM[552]) , .SAVE (INT_SUM[554]) , .CARRY (INT_CARRY[440]) );
- FULL_ADDER FA_382 (.DATA_A (INT_SUM[553]) , .DATA_B (INT_CARRY[427]) , .DATA_C (INT_CARRY[428]) , .SAVE (INT_SUM[555]) , .CARRY (INT_CARRY[441]) );
- assign INT_SUM[556] = INT_CARRY[429];
- FULL_ADDER FA_383 (.DATA_A (INT_SUM[554]) , .DATA_B (INT_SUM[555]) , .DATA_C (INT_SUM[556]) , .SAVE (INT_SUM[557]) , .CARRY (INT_CARRY[442]) );
- HALF_ADDER HA_40 (.DATA_A (INT_CARRY[430]) , .DATA_B (INT_CARRY[431]) , .SAVE (INT_SUM[559]) , .CARRY (INT_CARRY[444]) );
- FLIPFLOP LA_137 (.DIN (INT_SUM[557]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[558]) );
- FLIPFLOP LA_138 (.DIN (INT_SUM[559]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[560]) );
- FLIPFLOP LA_139 (.DIN (INT_CARRY[432]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[433]) );
- FULL_ADDER FA_384 (.DATA_A (INT_SUM[558]) , .DATA_B (INT_SUM[560]) , .DATA_C (INT_CARRY[433]) , .SAVE (INT_SUM[561]) , .CARRY (INT_CARRY[446]) );
- FLIPFLOP LA_140 (.DIN (INT_CARRY[434]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[435]) );
- assign INT_SUM[562] = INT_CARRY[435];
- FULL_ADDER FA_385 (.DATA_A (INT_SUM[561]) , .DATA_B (INT_SUM[562]) , .DATA_C (INT_CARRY[436]) , .SAVE (SUM[46]) , .CARRY (CARRY[46]) );
- FULL_ADDER FA_386 (.DATA_A (SUMMAND[487]) , .DATA_B (SUMMAND[488]) , .DATA_C (SUMMAND[489]) , .SAVE (INT_SUM[563]) , .CARRY (INT_CARRY[447]) );
- FULL_ADDER FA_387 (.DATA_A (SUMMAND[490]) , .DATA_B (SUMMAND[491]) , .DATA_C (SUMMAND[492]) , .SAVE (INT_SUM[564]) , .CARRY (INT_CARRY[448]) );
- FULL_ADDER FA_388 (.DATA_A (SUMMAND[493]) , .DATA_B (SUMMAND[494]) , .DATA_C (SUMMAND[495]) , .SAVE (INT_SUM[565]) , .CARRY (INT_CARRY[449]) );
- FULL_ADDER FA_389 (.DATA_A (INT_SUM[563]) , .DATA_B (INT_SUM[564]) , .DATA_C (INT_SUM[565]) , .SAVE (INT_SUM[566]) , .CARRY (INT_CARRY[450]) );
- FULL_ADDER FA_390 (.DATA_A (INT_CARRY[437]) , .DATA_B (INT_CARRY[438]) , .DATA_C (INT_CARRY[439]) , .SAVE (INT_SUM[567]) , .CARRY (INT_CARRY[451]) );
- FULL_ADDER FA_391 (.DATA_A (INT_SUM[566]) , .DATA_B (INT_SUM[567]) , .DATA_C (INT_CARRY[440]) , .SAVE (INT_SUM[568]) , .CARRY (INT_CARRY[452]) );
- assign INT_SUM[570] = INT_CARRY[441];
- FLIPFLOP LA_141 (.DIN (INT_SUM[568]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[569]) );
- FLIPFLOP LA_142 (.DIN (INT_SUM[570]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[571]) );
- FLIPFLOP LA_143 (.DIN (INT_CARRY[442]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[443]) );
- FULL_ADDER FA_392 (.DATA_A (INT_SUM[569]) , .DATA_B (INT_SUM[571]) , .DATA_C (INT_CARRY[443]) , .SAVE (INT_SUM[572]) , .CARRY (INT_CARRY[454]) );
- FLIPFLOP LA_144 (.DIN (INT_CARRY[444]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[445]) );
- assign INT_SUM[573] = INT_CARRY[445];
- FULL_ADDER FA_393 (.DATA_A (INT_SUM[572]) , .DATA_B (INT_SUM[573]) , .DATA_C (INT_CARRY[446]) , .SAVE (SUM[47]) , .CARRY (CARRY[47]) );
- FULL_ADDER FA_394 (.DATA_A (SUMMAND[496]) , .DATA_B (SUMMAND[497]) , .DATA_C (SUMMAND[498]) , .SAVE (INT_SUM[574]) , .CARRY (INT_CARRY[455]) );
- FULL_ADDER FA_395 (.DATA_A (SUMMAND[499]) , .DATA_B (SUMMAND[500]) , .DATA_C (SUMMAND[501]) , .SAVE (INT_SUM[575]) , .CARRY (INT_CARRY[456]) );
- FULL_ADDER FA_396 (.DATA_A (SUMMAND[502]) , .DATA_B (SUMMAND[503]) , .DATA_C (SUMMAND[504]) , .SAVE (INT_SUM[576]) , .CARRY (INT_CARRY[457]) );
- FULL_ADDER FA_397 (.DATA_A (INT_SUM[574]) , .DATA_B (INT_SUM[575]) , .DATA_C (INT_SUM[576]) , .SAVE (INT_SUM[577]) , .CARRY (INT_CARRY[458]) );
- FULL_ADDER FA_398 (.DATA_A (INT_CARRY[447]) , .DATA_B (INT_CARRY[448]) , .DATA_C (INT_CARRY[449]) , .SAVE (INT_SUM[578]) , .CARRY (INT_CARRY[459]) );
- FULL_ADDER FA_399 (.DATA_A (INT_SUM[577]) , .DATA_B (INT_SUM[578]) , .DATA_C (INT_CARRY[450]) , .SAVE (INT_SUM[579]) , .CARRY (INT_CARRY[460]) );
- assign INT_SUM[581] = INT_CARRY[451];
- FLIPFLOP LA_145 (.DIN (INT_SUM[579]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[580]) );
- FLIPFLOP LA_146 (.DIN (INT_SUM[581]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[582]) );
- FLIPFLOP LA_147 (.DIN (INT_CARRY[452]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[453]) );
- FULL_ADDER FA_400 (.DATA_A (INT_SUM[580]) , .DATA_B (INT_SUM[582]) , .DATA_C (INT_CARRY[453]) , .SAVE (INT_SUM[583]) , .CARRY (INT_CARRY[462]) );
- HALF_ADDER HA_41 (.DATA_A (INT_SUM[583]) , .DATA_B (INT_CARRY[454]) , .SAVE (SUM[48]) , .CARRY (CARRY[48]) );
- FULL_ADDER FA_401 (.DATA_A (SUMMAND[505]) , .DATA_B (SUMMAND[506]) , .DATA_C (SUMMAND[507]) , .SAVE (INT_SUM[584]) , .CARRY (INT_CARRY[463]) );
- FULL_ADDER FA_402 (.DATA_A (SUMMAND[508]) , .DATA_B (SUMMAND[509]) , .DATA_C (SUMMAND[510]) , .SAVE (INT_SUM[585]) , .CARRY (INT_CARRY[464]) );
- FULL_ADDER FA_403 (.DATA_A (SUMMAND[511]) , .DATA_B (SUMMAND[512]) , .DATA_C (INT_CARRY[455]) , .SAVE (INT_SUM[586]) , .CARRY (INT_CARRY[465]) );
- HALF_ADDER HA_42 (.DATA_A (INT_CARRY[456]) , .DATA_B (INT_CARRY[457]) , .SAVE (INT_SUM[587]) , .CARRY (INT_CARRY[466]) );
- FULL_ADDER FA_404 (.DATA_A (INT_SUM[584]) , .DATA_B (INT_SUM[585]) , .DATA_C (INT_SUM[586]) , .SAVE (INT_SUM[588]) , .CARRY (INT_CARRY[467]) );
- FULL_ADDER FA_405 (.DATA_A (INT_SUM[587]) , .DATA_B (INT_CARRY[458]) , .DATA_C (INT_CARRY[459]) , .SAVE (INT_SUM[590]) , .CARRY (INT_CARRY[469]) );
- FLIPFLOP LA_148 (.DIN (INT_SUM[588]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[589]) );
- FLIPFLOP LA_149 (.DIN (INT_SUM[590]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[591]) );
- FLIPFLOP LA_150 (.DIN (INT_CARRY[460]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[461]) );
- FULL_ADDER FA_406 (.DATA_A (INT_SUM[589]) , .DATA_B (INT_SUM[591]) , .DATA_C (INT_CARRY[461]) , .SAVE (INT_SUM[592]) , .CARRY (INT_CARRY[471]) );
- HALF_ADDER HA_43 (.DATA_A (INT_SUM[592]) , .DATA_B (INT_CARRY[462]) , .SAVE (SUM[49]) , .CARRY (CARRY[49]) );
- FULL_ADDER FA_407 (.DATA_A (SUMMAND[513]) , .DATA_B (SUMMAND[514]) , .DATA_C (SUMMAND[515]) , .SAVE (INT_SUM[593]) , .CARRY (INT_CARRY[472]) );
- FULL_ADDER FA_408 (.DATA_A (SUMMAND[516]) , .DATA_B (SUMMAND[517]) , .DATA_C (SUMMAND[518]) , .SAVE (INT_SUM[594]) , .CARRY (INT_CARRY[473]) );
- assign INT_SUM[595] = SUMMAND[519];
- assign INT_SUM[596] = SUMMAND[520];
- FULL_ADDER FA_409 (.DATA_A (INT_SUM[593]) , .DATA_B (INT_SUM[594]) , .DATA_C (INT_SUM[595]) , .SAVE (INT_SUM[597]) , .CARRY (INT_CARRY[474]) );
- assign INT_SUM[598] = INT_SUM[596];
- FULL_ADDER FA_410 (.DATA_A (INT_SUM[597]) , .DATA_B (INT_SUM[598]) , .DATA_C (INT_CARRY[463]) , .SAVE (INT_SUM[599]) , .CARRY (INT_CARRY[475]) );
- FULL_ADDER FA_411 (.DATA_A (INT_CARRY[464]) , .DATA_B (INT_CARRY[465]) , .DATA_C (INT_CARRY[466]) , .SAVE (INT_SUM[601]) , .CARRY (INT_CARRY[477]) );
- FLIPFLOP LA_151 (.DIN (INT_SUM[599]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[600]) );
- FLIPFLOP LA_152 (.DIN (INT_SUM[601]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[602]) );
- FLIPFLOP LA_153 (.DIN (INT_CARRY[467]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[468]) );
- FULL_ADDER FA_412 (.DATA_A (INT_SUM[600]) , .DATA_B (INT_SUM[602]) , .DATA_C (INT_CARRY[468]) , .SAVE (INT_SUM[603]) , .CARRY (INT_CARRY[479]) );
- FLIPFLOP LA_154 (.DIN (INT_CARRY[469]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[470]) );
- assign INT_SUM[604] = INT_CARRY[470];
- FULL_ADDER FA_413 (.DATA_A (INT_SUM[603]) , .DATA_B (INT_SUM[604]) , .DATA_C (INT_CARRY[471]) , .SAVE (SUM[50]) , .CARRY (CARRY[50]) );
- FULL_ADDER FA_414 (.DATA_A (SUMMAND[521]) , .DATA_B (SUMMAND[522]) , .DATA_C (SUMMAND[523]) , .SAVE (INT_SUM[605]) , .CARRY (INT_CARRY[480]) );
- FULL_ADDER FA_415 (.DATA_A (SUMMAND[524]) , .DATA_B (SUMMAND[525]) , .DATA_C (SUMMAND[526]) , .SAVE (INT_SUM[606]) , .CARRY (INT_CARRY[481]) );
- FULL_ADDER FA_416 (.DATA_A (SUMMAND[527]) , .DATA_B (INT_CARRY[472]) , .DATA_C (INT_CARRY[473]) , .SAVE (INT_SUM[607]) , .CARRY (INT_CARRY[482]) );
- FULL_ADDER FA_417 (.DATA_A (INT_SUM[605]) , .DATA_B (INT_SUM[606]) , .DATA_C (INT_SUM[607]) , .SAVE (INT_SUM[608]) , .CARRY (INT_CARRY[483]) );
- assign INT_SUM[610] = INT_CARRY[474];
- FLIPFLOP LA_155 (.DIN (INT_SUM[608]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[609]) );
- FLIPFLOP LA_156 (.DIN (INT_SUM[610]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[611]) );
- FLIPFLOP LA_157 (.DIN (INT_CARRY[475]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[476]) );
- FULL_ADDER FA_418 (.DATA_A (INT_SUM[609]) , .DATA_B (INT_SUM[611]) , .DATA_C (INT_CARRY[476]) , .SAVE (INT_SUM[612]) , .CARRY (INT_CARRY[485]) );
- FLIPFLOP LA_158 (.DIN (INT_CARRY[477]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[478]) );
- assign INT_SUM[613] = INT_CARRY[478];
- FULL_ADDER FA_419 (.DATA_A (INT_SUM[612]) , .DATA_B (INT_SUM[613]) , .DATA_C (INT_CARRY[479]) , .SAVE (SUM[51]) , .CARRY (CARRY[51]) );
- FULL_ADDER FA_420 (.DATA_A (SUMMAND[528]) , .DATA_B (SUMMAND[529]) , .DATA_C (SUMMAND[530]) , .SAVE (INT_SUM[614]) , .CARRY (INT_CARRY[486]) );
- FULL_ADDER FA_421 (.DATA_A (SUMMAND[531]) , .DATA_B (SUMMAND[532]) , .DATA_C (SUMMAND[533]) , .SAVE (INT_SUM[615]) , .CARRY (INT_CARRY[487]) );
- assign INT_SUM[616] = SUMMAND[534];
- FULL_ADDER FA_422 (.DATA_A (INT_SUM[614]) , .DATA_B (INT_SUM[615]) , .DATA_C (INT_SUM[616]) , .SAVE (INT_SUM[617]) , .CARRY (INT_CARRY[488]) );
- FULL_ADDER FA_423 (.DATA_A (INT_CARRY[480]) , .DATA_B (INT_CARRY[481]) , .DATA_C (INT_CARRY[482]) , .SAVE (INT_SUM[619]) , .CARRY (INT_CARRY[490]) );
- FLIPFLOP LA_159 (.DIN (INT_SUM[617]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[618]) );
- FLIPFLOP LA_160 (.DIN (INT_SUM[619]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[620]) );
- FLIPFLOP LA_161 (.DIN (INT_CARRY[483]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[484]) );
- FULL_ADDER FA_424 (.DATA_A (INT_SUM[618]) , .DATA_B (INT_SUM[620]) , .DATA_C (INT_CARRY[484]) , .SAVE (INT_SUM[621]) , .CARRY (INT_CARRY[492]) );
- HALF_ADDER HA_44 (.DATA_A (INT_SUM[621]) , .DATA_B (INT_CARRY[485]) , .SAVE (SUM[52]) , .CARRY (CARRY[52]) );
- FULL_ADDER FA_425 (.DATA_A (SUMMAND[535]) , .DATA_B (SUMMAND[536]) , .DATA_C (SUMMAND[537]) , .SAVE (INT_SUM[622]) , .CARRY (INT_CARRY[493]) );
- FULL_ADDER FA_426 (.DATA_A (SUMMAND[538]) , .DATA_B (SUMMAND[539]) , .DATA_C (SUMMAND[540]) , .SAVE (INT_SUM[623]) , .CARRY (INT_CARRY[494]) );
- FULL_ADDER FA_427 (.DATA_A (INT_SUM[622]) , .DATA_B (INT_SUM[623]) , .DATA_C (INT_CARRY[486]) , .SAVE (INT_SUM[624]) , .CARRY (INT_CARRY[495]) );
- assign INT_SUM[626] = INT_CARRY[487];
- FLIPFLOP LA_162 (.DIN (INT_SUM[624]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[625]) );
- FLIPFLOP LA_163 (.DIN (INT_SUM[626]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[627]) );
- FLIPFLOP LA_164 (.DIN (INT_CARRY[488]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[489]) );
- FULL_ADDER FA_428 (.DATA_A (INT_SUM[625]) , .DATA_B (INT_SUM[627]) , .DATA_C (INT_CARRY[489]) , .SAVE (INT_SUM[628]) , .CARRY (INT_CARRY[497]) );
- FLIPFLOP LA_165 (.DIN (INT_CARRY[490]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[491]) );
- assign INT_SUM[629] = INT_CARRY[491];
- FULL_ADDER FA_429 (.DATA_A (INT_SUM[628]) , .DATA_B (INT_SUM[629]) , .DATA_C (INT_CARRY[492]) , .SAVE (SUM[53]) , .CARRY (CARRY[53]) );
- FULL_ADDER FA_430 (.DATA_A (SUMMAND[541]) , .DATA_B (SUMMAND[542]) , .DATA_C (SUMMAND[543]) , .SAVE (INT_SUM[630]) , .CARRY (INT_CARRY[498]) );
- FULL_ADDER FA_431 (.DATA_A (SUMMAND[544]) , .DATA_B (SUMMAND[545]) , .DATA_C (SUMMAND[546]) , .SAVE (INT_SUM[631]) , .CARRY (INT_CARRY[499]) );
- FULL_ADDER FA_432 (.DATA_A (INT_SUM[630]) , .DATA_B (INT_SUM[631]) , .DATA_C (INT_CARRY[493]) , .SAVE (INT_SUM[632]) , .CARRY (INT_CARRY[500]) );
- assign INT_SUM[634] = INT_CARRY[494];
- FLIPFLOP LA_166 (.DIN (INT_SUM[632]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[633]) );
- FLIPFLOP LA_167 (.DIN (INT_SUM[634]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[635]) );
- FLIPFLOP LA_168 (.DIN (INT_CARRY[495]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[496]) );
- FULL_ADDER FA_433 (.DATA_A (INT_SUM[633]) , .DATA_B (INT_SUM[635]) , .DATA_C (INT_CARRY[496]) , .SAVE (INT_SUM[636]) , .CARRY (INT_CARRY[502]) );
- HALF_ADDER HA_45 (.DATA_A (INT_SUM[636]) , .DATA_B (INT_CARRY[497]) , .SAVE (SUM[54]) , .CARRY (CARRY[54]) );
- FULL_ADDER FA_434 (.DATA_A (SUMMAND[547]) , .DATA_B (SUMMAND[548]) , .DATA_C (SUMMAND[549]) , .SAVE (INT_SUM[637]) , .CARRY (INT_CARRY[503]) );
- HALF_ADDER HA_46 (.DATA_A (SUMMAND[550]) , .DATA_B (SUMMAND[551]) , .SAVE (INT_SUM[638]) , .CARRY (INT_CARRY[504]) );
- FULL_ADDER FA_435 (.DATA_A (INT_SUM[637]) , .DATA_B (INT_SUM[638]) , .DATA_C (INT_CARRY[498]) , .SAVE (INT_SUM[639]) , .CARRY (INT_CARRY[505]) );
- assign INT_SUM[641] = INT_CARRY[499];
- FLIPFLOP LA_169 (.DIN (INT_SUM[639]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[640]) );
- FLIPFLOP LA_170 (.DIN (INT_SUM[641]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[642]) );
- FLIPFLOP LA_171 (.DIN (INT_CARRY[500]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[501]) );
- FULL_ADDER FA_436 (.DATA_A (INT_SUM[640]) , .DATA_B (INT_SUM[642]) , .DATA_C (INT_CARRY[501]) , .SAVE (INT_SUM[643]) , .CARRY (INT_CARRY[507]) );
- HALF_ADDER HA_47 (.DATA_A (INT_SUM[643]) , .DATA_B (INT_CARRY[502]) , .SAVE (SUM[55]) , .CARRY (CARRY[55]) );
- FULL_ADDER FA_437 (.DATA_A (SUMMAND[552]) , .DATA_B (SUMMAND[553]) , .DATA_C (SUMMAND[554]) , .SAVE (INT_SUM[644]) , .CARRY (INT_CARRY[508]) );
- HALF_ADDER HA_48 (.DATA_A (SUMMAND[555]) , .DATA_B (SUMMAND[556]) , .SAVE (INT_SUM[645]) , .CARRY (INT_CARRY[509]) );
- FULL_ADDER FA_438 (.DATA_A (INT_SUM[644]) , .DATA_B (INT_SUM[645]) , .DATA_C (INT_CARRY[503]) , .SAVE (INT_SUM[646]) , .CARRY (INT_CARRY[510]) );
- assign INT_SUM[648] = INT_CARRY[504];
- FLIPFLOP LA_172 (.DIN (INT_SUM[646]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[647]) );
- FLIPFLOP LA_173 (.DIN (INT_SUM[648]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[649]) );
- FLIPFLOP LA_174 (.DIN (INT_CARRY[505]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[506]) );
- FULL_ADDER FA_439 (.DATA_A (INT_SUM[647]) , .DATA_B (INT_SUM[649]) , .DATA_C (INT_CARRY[506]) , .SAVE (INT_SUM[650]) , .CARRY (INT_CARRY[512]) );
- HALF_ADDER HA_49 (.DATA_A (INT_SUM[650]) , .DATA_B (INT_CARRY[507]) , .SAVE (SUM[56]) , .CARRY (CARRY[56]) );
- FULL_ADDER FA_440 (.DATA_A (SUMMAND[557]) , .DATA_B (SUMMAND[558]) , .DATA_C (SUMMAND[559]) , .SAVE (INT_SUM[651]) , .CARRY (INT_CARRY[513]) );
- FULL_ADDER FA_441 (.DATA_A (SUMMAND[560]) , .DATA_B (INT_CARRY[508]) , .DATA_C (INT_CARRY[509]) , .SAVE (INT_SUM[653]) , .CARRY (INT_CARRY[515]) );
- FLIPFLOP LA_175 (.DIN (INT_SUM[651]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[652]) );
- FLIPFLOP LA_176 (.DIN (INT_SUM[653]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[654]) );
- FLIPFLOP LA_177 (.DIN (INT_CARRY[510]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[511]) );
- FULL_ADDER FA_442 (.DATA_A (INT_SUM[652]) , .DATA_B (INT_SUM[654]) , .DATA_C (INT_CARRY[511]) , .SAVE (INT_SUM[655]) , .CARRY (INT_CARRY[517]) );
- HALF_ADDER HA_50 (.DATA_A (INT_SUM[655]) , .DATA_B (INT_CARRY[512]) , .SAVE (SUM[57]) , .CARRY (CARRY[57]) );
- FULL_ADDER FA_443 (.DATA_A (SUMMAND[561]) , .DATA_B (SUMMAND[562]) , .DATA_C (SUMMAND[563]) , .SAVE (INT_SUM[656]) , .CARRY (INT_CARRY[518]) );
- assign INT_SUM[658] = SUMMAND[564];
- FLIPFLOP LA_178 (.DIN (INT_SUM[656]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[657]) );
- FLIPFLOP LA_179 (.DIN (INT_SUM[658]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[659]) );
- FLIPFLOP LA_180 (.DIN (INT_CARRY[513]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[514]) );
- FULL_ADDER FA_444 (.DATA_A (INT_SUM[657]) , .DATA_B (INT_SUM[659]) , .DATA_C (INT_CARRY[514]) , .SAVE (INT_SUM[660]) , .CARRY (INT_CARRY[520]) );
- FLIPFLOP LA_181 (.DIN (INT_CARRY[515]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[516]) );
- assign INT_SUM[661] = INT_CARRY[516];
- FULL_ADDER FA_445 (.DATA_A (INT_SUM[660]) , .DATA_B (INT_SUM[661]) , .DATA_C (INT_CARRY[517]) , .SAVE (SUM[58]) , .CARRY (CARRY[58]) );
- FULL_ADDER FA_446 (.DATA_A (SUMMAND[565]) , .DATA_B (SUMMAND[566]) , .DATA_C (SUMMAND[567]) , .SAVE (INT_SUM[662]) , .CARRY (INT_CARRY[521]) );
- FLIPFLOP LA_182 (.DIN (INT_SUM[662]) , .RST(RST), .CLK (CLK) , .DOUT (INT_SUM[663]) );
- assign INT_SUM[664] = INT_SUM[663];
- FLIPFLOP LA_183 (.DIN (INT_CARRY[518]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[519]) );
- assign INT_SUM[665] = INT_CARRY[519];
- FULL_ADDER FA_447 (.DATA_A (INT_SUM[664]) , .DATA_B (INT_SUM[665]) , .DATA_C (INT_CARRY[520]) , .SAVE (SUM[59]) , .CARRY (CARRY[59]) );
- FLIPFLOP LA_184 (.DIN (SUMMAND[568]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[0]) );
- FLIPFLOP LA_185 (.DIN (SUMMAND[569]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[1]) );
- FLIPFLOP LA_186 (.DIN (SUMMAND[570]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[2]) );
- FULL_ADDER FA_448 (.DATA_A (LATCHED_PP[0]) , .DATA_B (LATCHED_PP[1]) , .DATA_C (LATCHED_PP[2]) , .SAVE (INT_SUM[666]) , .CARRY (INT_CARRY[523]) );
- FLIPFLOP LA_187 (.DIN (INT_CARRY[521]) , .RST(RST), .CLK (CLK) , .DOUT (INT_CARRY[522]) );
- assign INT_SUM[667] = INT_CARRY[522];
- HALF_ADDER HA_51 (.DATA_A (INT_SUM[666]) , .DATA_B (INT_SUM[667]) , .SAVE (SUM[60]) , .CARRY (CARRY[60]) );
- FLIPFLOP LA_188 (.DIN (SUMMAND[571]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[3]) );
- assign INT_SUM[668] = LATCHED_PP[3];
- FLIPFLOP LA_189 (.DIN (SUMMAND[572]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[4]) );
- assign INT_SUM[669] = LATCHED_PP[4];
- FULL_ADDER FA_449 (.DATA_A (INT_SUM[668]) , .DATA_B (INT_SUM[669]) , .DATA_C (INT_CARRY[523]) , .SAVE (SUM[61]) , .CARRY (CARRY[61]) );
- FLIPFLOP LA_190 (.DIN (SUMMAND[573]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[5]) );
- FLIPFLOP LA_191 (.DIN (SUMMAND[574]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[6]) );
- HALF_ADDER HA_52 (.DATA_A (LATCHED_PP[5]) , .DATA_B (LATCHED_PP[6]) , .SAVE (SUM[62]) , .CARRY (CARRY[62]) );
- FLIPFLOP LA_192 (.DIN (SUMMAND[575]) , .RST(RST), .CLK (CLK) , .DOUT (LATCHED_PP[7]) );
- assign SUM[63] = LATCHED_PP[7];
-endmodule
-
-
-module INVBLOCK ( GIN, PHI, GOUT );
-input GIN;
-input PHI;
-output GOUT;
- assign GOUT = ~ GIN;
-endmodule
-
-
-module XXOR1 ( A, B, GIN, PHI, SUM );
-input A;
-input B;
-input GIN;
-input PHI;
-output SUM;
- assign SUM = ( ~ (A ^ B)) ^ GIN;
-endmodule
-
-
-module BLOCK0 ( A, B, PHI, POUT, GOUT );
-input A;
-input B;
-input PHI;
-output POUT;
-output GOUT;
- assign POUT = ~ (A | B);
- assign GOUT = ~ (A & B);
-endmodule
-
-
-module BLOCK1 ( PIN1, PIN2, GIN1, GIN2, PHI, POUT, GOUT );
-input PIN1;
-input PIN2;
-input GIN1;
-input GIN2;
-input PHI;
-output POUT;
-output GOUT;
- assign POUT = ~ (PIN1 | PIN2);
- assign GOUT = ~ (GIN2 & (PIN2 | GIN1));
-endmodule
-
-
-module BLOCK2 ( PIN1, PIN2, GIN1, GIN2, PHI, POUT, GOUT );
-input PIN1;
-input PIN2;
-input GIN1;
-input GIN2;
-input PHI;
-output POUT;
-output GOUT;
- assign POUT = ~ (PIN1 & PIN2);
- assign GOUT = ~ (GIN2 | (PIN2 & GIN1));
-endmodule
-
-
-module BLOCK1A ( PIN2, GIN1, GIN2, PHI, GOUT );
-input PIN2;
-input GIN1;
-input GIN2;
-input PHI;
-output GOUT;
- assign GOUT = ~ (GIN2 & (PIN2 | GIN1));
-endmodule
-
-
-module BLOCK2A ( PIN2, GIN1, GIN2, PHI, GOUT );
-input PIN2;
-input GIN1;
-input GIN2;
-input PHI;
-output GOUT;
- assign GOUT = ~ (GIN2 | (PIN2 & GIN1));
-endmodule
-
-
-module PRESTAGE_64 ( A, B, CIN, PHI, POUT, GOUT );
-input [0:63] A;
-input [0:63] B;
-input CIN;
-input PHI;
-output [0:63] POUT;
-output [0:64] GOUT;
- BLOCK0 U10 (A[0] , B[0] , PHI , POUT[0] , GOUT[1] );
- BLOCK0 U11 (A[1] , B[1] , PHI , POUT[1] , GOUT[2] );
- BLOCK0 U12 (A[2] , B[2] , PHI , POUT[2] , GOUT[3] );
- BLOCK0 U13 (A[3] , B[3] , PHI , POUT[3] , GOUT[4] );
- BLOCK0 U14 (A[4] , B[4] , PHI , POUT[4] , GOUT[5] );
- BLOCK0 U15 (A[5] , B[5] , PHI , POUT[5] , GOUT[6] );
- BLOCK0 U16 (A[6] , B[6] , PHI , POUT[6] , GOUT[7] );
- BLOCK0 U17 (A[7] , B[7] , PHI , POUT[7] , GOUT[8] );
- BLOCK0 U18 (A[8] , B[8] , PHI , POUT[8] , GOUT[9] );
- BLOCK0 U19 (A[9] , B[9] , PHI , POUT[9] , GOUT[10] );
- BLOCK0 U110 (A[10] , B[10] , PHI , POUT[10] , GOUT[11] );
- BLOCK0 U111 (A[11] , B[11] , PHI , POUT[11] , GOUT[12] );
- BLOCK0 U112 (A[12] , B[12] , PHI , POUT[12] , GOUT[13] );
- BLOCK0 U113 (A[13] , B[13] , PHI , POUT[13] , GOUT[14] );
- BLOCK0 U114 (A[14] , B[14] , PHI , POUT[14] , GOUT[15] );
- BLOCK0 U115 (A[15] , B[15] , PHI , POUT[15] , GOUT[16] );
- BLOCK0 U116 (A[16] , B[16] , PHI , POUT[16] , GOUT[17] );
- BLOCK0 U117 (A[17] , B[17] , PHI , POUT[17] , GOUT[18] );
- BLOCK0 U118 (A[18] , B[18] , PHI , POUT[18] , GOUT[19] );
- BLOCK0 U119 (A[19] , B[19] , PHI , POUT[19] , GOUT[20] );
- BLOCK0 U120 (A[20] , B[20] , PHI , POUT[20] , GOUT[21] );
- BLOCK0 U121 (A[21] , B[21] , PHI , POUT[21] , GOUT[22] );
- BLOCK0 U122 (A[22] , B[22] , PHI , POUT[22] , GOUT[23] );
- BLOCK0 U123 (A[23] , B[23] , PHI , POUT[23] , GOUT[24] );
- BLOCK0 U124 (A[24] , B[24] , PHI , POUT[24] , GOUT[25] );
- BLOCK0 U125 (A[25] , B[25] , PHI , POUT[25] , GOUT[26] );
- BLOCK0 U126 (A[26] , B[26] , PHI , POUT[26] , GOUT[27] );
- BLOCK0 U127 (A[27] , B[27] , PHI , POUT[27] , GOUT[28] );
- BLOCK0 U128 (A[28] , B[28] , PHI , POUT[28] , GOUT[29] );
- BLOCK0 U129 (A[29] , B[29] , PHI , POUT[29] , GOUT[30] );
- BLOCK0 U130 (A[30] , B[30] , PHI , POUT[30] , GOUT[31] );
- BLOCK0 U131 (A[31] , B[31] , PHI , POUT[31] , GOUT[32] );
- BLOCK0 U132 (A[32] , B[32] , PHI , POUT[32] , GOUT[33] );
- BLOCK0 U133 (A[33] , B[33] , PHI , POUT[33] , GOUT[34] );
- BLOCK0 U134 (A[34] , B[34] , PHI , POUT[34] , GOUT[35] );
- BLOCK0 U135 (A[35] , B[35] , PHI , POUT[35] , GOUT[36] );
- BLOCK0 U136 (A[36] , B[36] , PHI , POUT[36] , GOUT[37] );
- BLOCK0 U137 (A[37] , B[37] , PHI , POUT[37] , GOUT[38] );
- BLOCK0 U138 (A[38] , B[38] , PHI , POUT[38] , GOUT[39] );
- BLOCK0 U139 (A[39] , B[39] , PHI , POUT[39] , GOUT[40] );
- BLOCK0 U140 (A[40] , B[40] , PHI , POUT[40] , GOUT[41] );
- BLOCK0 U141 (A[41] , B[41] , PHI , POUT[41] , GOUT[42] );
- BLOCK0 U142 (A[42] , B[42] , PHI , POUT[42] , GOUT[43] );
- BLOCK0 U143 (A[43] , B[43] , PHI , POUT[43] , GOUT[44] );
- BLOCK0 U144 (A[44] , B[44] , PHI , POUT[44] , GOUT[45] );
- BLOCK0 U145 (A[45] , B[45] , PHI , POUT[45] , GOUT[46] );
- BLOCK0 U146 (A[46] , B[46] , PHI , POUT[46] , GOUT[47] );
- BLOCK0 U147 (A[47] , B[47] , PHI , POUT[47] , GOUT[48] );
- BLOCK0 U148 (A[48] , B[48] , PHI , POUT[48] , GOUT[49] );
- BLOCK0 U149 (A[49] , B[49] , PHI , POUT[49] , GOUT[50] );
- BLOCK0 U150 (A[50] , B[50] , PHI , POUT[50] , GOUT[51] );
- BLOCK0 U151 (A[51] , B[51] , PHI , POUT[51] , GOUT[52] );
- BLOCK0 U152 (A[52] , B[52] , PHI , POUT[52] , GOUT[53] );
- BLOCK0 U153 (A[53] , B[53] , PHI , POUT[53] , GOUT[54] );
- BLOCK0 U154 (A[54] , B[54] , PHI , POUT[54] , GOUT[55] );
- BLOCK0 U155 (A[55] , B[55] , PHI , POUT[55] , GOUT[56] );
- BLOCK0 U156 (A[56] , B[56] , PHI , POUT[56] , GOUT[57] );
- BLOCK0 U157 (A[57] , B[57] , PHI , POUT[57] , GOUT[58] );
- BLOCK0 U158 (A[58] , B[58] , PHI , POUT[58] , GOUT[59] );
- BLOCK0 U159 (A[59] , B[59] , PHI , POUT[59] , GOUT[60] );
- BLOCK0 U160 (A[60] , B[60] , PHI , POUT[60] , GOUT[61] );
- BLOCK0 U161 (A[61] , B[61] , PHI , POUT[61] , GOUT[62] );
- BLOCK0 U162 (A[62] , B[62] , PHI , POUT[62] , GOUT[63] );
- BLOCK0 U163 (A[63] , B[63] , PHI , POUT[63] , GOUT[64] );
- INVBLOCK U2 (CIN , PHI , GOUT[0] );
-endmodule
-
-
-module DBLC_0_64 ( PIN, GIN, PHI, POUT, GOUT );
-input [0:63] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:62] POUT;
-output [0:64] GOUT;
- INVBLOCK U10 (GIN[0] , PHI , GOUT[0] );
- BLOCK1A U21 (PIN[0] , GIN[0] , GIN[1] , PHI , GOUT[1] );
- BLOCK1 U32 (PIN[0] , PIN[1] , GIN[1] , GIN[2] , PHI , POUT[0] , GOUT[2] );
- BLOCK1 U33 (PIN[1] , PIN[2] , GIN[2] , GIN[3] , PHI , POUT[1] , GOUT[3] );
- BLOCK1 U34 (PIN[2] , PIN[3] , GIN[3] , GIN[4] , PHI , POUT[2] , GOUT[4] );
- BLOCK1 U35 (PIN[3] , PIN[4] , GIN[4] , GIN[5] , PHI , POUT[3] , GOUT[5] );
- BLOCK1 U36 (PIN[4] , PIN[5] , GIN[5] , GIN[6] , PHI , POUT[4] , GOUT[6] );
- BLOCK1 U37 (PIN[5] , PIN[6] , GIN[6] , GIN[7] , PHI , POUT[5] , GOUT[7] );
- BLOCK1 U38 (PIN[6] , PIN[7] , GIN[7] , GIN[8] , PHI , POUT[6] , GOUT[8] );
- BLOCK1 U39 (PIN[7] , PIN[8] , GIN[8] , GIN[9] , PHI , POUT[7] , GOUT[9] );
- BLOCK1 U310 (PIN[8] , PIN[9] , GIN[9] , GIN[10] , PHI , POUT[8] , GOUT[10] );
- BLOCK1 U311 (PIN[9] , PIN[10] , GIN[10] , GIN[11] , PHI , POUT[9] , GOUT[11] );
- BLOCK1 U312 (PIN[10] , PIN[11] , GIN[11] , GIN[12] , PHI , POUT[10] , GOUT[12] );
- BLOCK1 U313 (PIN[11] , PIN[12] , GIN[12] , GIN[13] , PHI , POUT[11] , GOUT[13] );
- BLOCK1 U314 (PIN[12] , PIN[13] , GIN[13] , GIN[14] , PHI , POUT[12] , GOUT[14] );
- BLOCK1 U315 (PIN[13] , PIN[14] , GIN[14] , GIN[15] , PHI , POUT[13] , GOUT[15] );
- BLOCK1 U316 (PIN[14] , PIN[15] , GIN[15] , GIN[16] , PHI , POUT[14] , GOUT[16] );
- BLOCK1 U317 (PIN[15] , PIN[16] , GIN[16] , GIN[17] , PHI , POUT[15] , GOUT[17] );
- BLOCK1 U318 (PIN[16] , PIN[17] , GIN[17] , GIN[18] , PHI , POUT[16] , GOUT[18] );
- BLOCK1 U319 (PIN[17] , PIN[18] , GIN[18] , GIN[19] , PHI , POUT[17] , GOUT[19] );
- BLOCK1 U320 (PIN[18] , PIN[19] , GIN[19] , GIN[20] , PHI , POUT[18] , GOUT[20] );
- BLOCK1 U321 (PIN[19] , PIN[20] , GIN[20] , GIN[21] , PHI , POUT[19] , GOUT[21] );
- BLOCK1 U322 (PIN[20] , PIN[21] , GIN[21] , GIN[22] , PHI , POUT[20] , GOUT[22] );
- BLOCK1 U323 (PIN[21] , PIN[22] , GIN[22] , GIN[23] , PHI , POUT[21] , GOUT[23] );
- BLOCK1 U324 (PIN[22] , PIN[23] , GIN[23] , GIN[24] , PHI , POUT[22] , GOUT[24] );
- BLOCK1 U325 (PIN[23] , PIN[24] , GIN[24] , GIN[25] , PHI , POUT[23] , GOUT[25] );
- BLOCK1 U326 (PIN[24] , PIN[25] , GIN[25] , GIN[26] , PHI , POUT[24] , GOUT[26] );
- BLOCK1 U327 (PIN[25] , PIN[26] , GIN[26] , GIN[27] , PHI , POUT[25] , GOUT[27] );
- BLOCK1 U328 (PIN[26] , PIN[27] , GIN[27] , GIN[28] , PHI , POUT[26] , GOUT[28] );
- BLOCK1 U329 (PIN[27] , PIN[28] , GIN[28] , GIN[29] , PHI , POUT[27] , GOUT[29] );
- BLOCK1 U330 (PIN[28] , PIN[29] , GIN[29] , GIN[30] , PHI , POUT[28] , GOUT[30] );
- BLOCK1 U331 (PIN[29] , PIN[30] , GIN[30] , GIN[31] , PHI , POUT[29] , GOUT[31] );
- BLOCK1 U332 (PIN[30] , PIN[31] , GIN[31] , GIN[32] , PHI , POUT[30] , GOUT[32] );
- BLOCK1 U333 (PIN[31] , PIN[32] , GIN[32] , GIN[33] , PHI , POUT[31] , GOUT[33] );
- BLOCK1 U334 (PIN[32] , PIN[33] , GIN[33] , GIN[34] , PHI , POUT[32] , GOUT[34] );
- BLOCK1 U335 (PIN[33] , PIN[34] , GIN[34] , GIN[35] , PHI , POUT[33] , GOUT[35] );
- BLOCK1 U336 (PIN[34] , PIN[35] , GIN[35] , GIN[36] , PHI , POUT[34] , GOUT[36] );
- BLOCK1 U337 (PIN[35] , PIN[36] , GIN[36] , GIN[37] , PHI , POUT[35] , GOUT[37] );
- BLOCK1 U338 (PIN[36] , PIN[37] , GIN[37] , GIN[38] , PHI , POUT[36] , GOUT[38] );
- BLOCK1 U339 (PIN[37] , PIN[38] , GIN[38] , GIN[39] , PHI , POUT[37] , GOUT[39] );
- BLOCK1 U340 (PIN[38] , PIN[39] , GIN[39] , GIN[40] , PHI , POUT[38] , GOUT[40] );
- BLOCK1 U341 (PIN[39] , PIN[40] , GIN[40] , GIN[41] , PHI , POUT[39] , GOUT[41] );
- BLOCK1 U342 (PIN[40] , PIN[41] , GIN[41] , GIN[42] , PHI , POUT[40] , GOUT[42] );
- BLOCK1 U343 (PIN[41] , PIN[42] , GIN[42] , GIN[43] , PHI , POUT[41] , GOUT[43] );
- BLOCK1 U344 (PIN[42] , PIN[43] , GIN[43] , GIN[44] , PHI , POUT[42] , GOUT[44] );
- BLOCK1 U345 (PIN[43] , PIN[44] , GIN[44] , GIN[45] , PHI , POUT[43] , GOUT[45] );
- BLOCK1 U346 (PIN[44] , PIN[45] , GIN[45] , GIN[46] , PHI , POUT[44] , GOUT[46] );
- BLOCK1 U347 (PIN[45] , PIN[46] , GIN[46] , GIN[47] , PHI , POUT[45] , GOUT[47] );
- BLOCK1 U348 (PIN[46] , PIN[47] , GIN[47] , GIN[48] , PHI , POUT[46] , GOUT[48] );
- BLOCK1 U349 (PIN[47] , PIN[48] , GIN[48] , GIN[49] , PHI , POUT[47] , GOUT[49] );
- BLOCK1 U350 (PIN[48] , PIN[49] , GIN[49] , GIN[50] , PHI , POUT[48] , GOUT[50] );
- BLOCK1 U351 (PIN[49] , PIN[50] , GIN[50] , GIN[51] , PHI , POUT[49] , GOUT[51] );
- BLOCK1 U352 (PIN[50] , PIN[51] , GIN[51] , GIN[52] , PHI , POUT[50] , GOUT[52] );
- BLOCK1 U353 (PIN[51] , PIN[52] , GIN[52] , GIN[53] , PHI , POUT[51] , GOUT[53] );
- BLOCK1 U354 (PIN[52] , PIN[53] , GIN[53] , GIN[54] , PHI , POUT[52] , GOUT[54] );
- BLOCK1 U355 (PIN[53] , PIN[54] , GIN[54] , GIN[55] , PHI , POUT[53] , GOUT[55] );
- BLOCK1 U356 (PIN[54] , PIN[55] , GIN[55] , GIN[56] , PHI , POUT[54] , GOUT[56] );
- BLOCK1 U357 (PIN[55] , PIN[56] , GIN[56] , GIN[57] , PHI , POUT[55] , GOUT[57] );
- BLOCK1 U358 (PIN[56] , PIN[57] , GIN[57] , GIN[58] , PHI , POUT[56] , GOUT[58] );
- BLOCK1 U359 (PIN[57] , PIN[58] , GIN[58] , GIN[59] , PHI , POUT[57] , GOUT[59] );
- BLOCK1 U360 (PIN[58] , PIN[59] , GIN[59] , GIN[60] , PHI , POUT[58] , GOUT[60] );
- BLOCK1 U361 (PIN[59] , PIN[60] , GIN[60] , GIN[61] , PHI , POUT[59] , GOUT[61] );
- BLOCK1 U362 (PIN[60] , PIN[61] , GIN[61] , GIN[62] , PHI , POUT[60] , GOUT[62] );
- BLOCK1 U363 (PIN[61] , PIN[62] , GIN[62] , GIN[63] , PHI , POUT[61] , GOUT[63] );
- BLOCK1 U364 (PIN[62] , PIN[63] , GIN[63] , GIN[64] , PHI , POUT[62] , GOUT[64] );
-endmodule
-
-
-module DBLC_1_64 ( PIN, GIN, PHI, POUT, GOUT );
-input [0:62] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:60] POUT;
-output [0:64] GOUT;
- INVBLOCK U10 (GIN[0] , PHI , GOUT[0] );
- INVBLOCK U11 (GIN[1] , PHI , GOUT[1] );
- BLOCK2A U22 (PIN[0] , GIN[0] , GIN[2] , PHI , GOUT[2] );
- BLOCK2A U23 (PIN[1] , GIN[1] , GIN[3] , PHI , GOUT[3] );
- BLOCK2 U34 (PIN[0] , PIN[2] , GIN[2] , GIN[4] , PHI , POUT[0] , GOUT[4] );
- BLOCK2 U35 (PIN[1] , PIN[3] , GIN[3] , GIN[5] , PHI , POUT[1] , GOUT[5] );
- BLOCK2 U36 (PIN[2] , PIN[4] , GIN[4] , GIN[6] , PHI , POUT[2] , GOUT[6] );
- BLOCK2 U37 (PIN[3] , PIN[5] , GIN[5] , GIN[7] , PHI , POUT[3] , GOUT[7] );
- BLOCK2 U38 (PIN[4] , PIN[6] , GIN[6] , GIN[8] , PHI , POUT[4] , GOUT[8] );
- BLOCK2 U39 (PIN[5] , PIN[7] , GIN[7] , GIN[9] , PHI , POUT[5] , GOUT[9] );
- BLOCK2 U310 (PIN[6] , PIN[8] , GIN[8] , GIN[10] , PHI , POUT[6] , GOUT[10] );
- BLOCK2 U311 (PIN[7] , PIN[9] , GIN[9] , GIN[11] , PHI , POUT[7] , GOUT[11] );
- BLOCK2 U312 (PIN[8] , PIN[10] , GIN[10] , GIN[12] , PHI , POUT[8] , GOUT[12] );
- BLOCK2 U313 (PIN[9] , PIN[11] , GIN[11] , GIN[13] , PHI , POUT[9] , GOUT[13] );
- BLOCK2 U314 (PIN[10] , PIN[12] , GIN[12] , GIN[14] , PHI , POUT[10] , GOUT[14] );
- BLOCK2 U315 (PIN[11] , PIN[13] , GIN[13] , GIN[15] , PHI , POUT[11] , GOUT[15] );
- BLOCK2 U316 (PIN[12] , PIN[14] , GIN[14] , GIN[16] , PHI , POUT[12] , GOUT[16] );
- BLOCK2 U317 (PIN[13] , PIN[15] , GIN[15] , GIN[17] , PHI , POUT[13] , GOUT[17] );
- BLOCK2 U318 (PIN[14] , PIN[16] , GIN[16] , GIN[18] , PHI , POUT[14] , GOUT[18] );
- BLOCK2 U319 (PIN[15] , PIN[17] , GIN[17] , GIN[19] , PHI , POUT[15] , GOUT[19] );
- BLOCK2 U320 (PIN[16] , PIN[18] , GIN[18] , GIN[20] , PHI , POUT[16] , GOUT[20] );
- BLOCK2 U321 (PIN[17] , PIN[19] , GIN[19] , GIN[21] , PHI , POUT[17] , GOUT[21] );
- BLOCK2 U322 (PIN[18] , PIN[20] , GIN[20] , GIN[22] , PHI , POUT[18] , GOUT[22] );
- BLOCK2 U323 (PIN[19] , PIN[21] , GIN[21] , GIN[23] , PHI , POUT[19] , GOUT[23] );
- BLOCK2 U324 (PIN[20] , PIN[22] , GIN[22] , GIN[24] , PHI , POUT[20] , GOUT[24] );
- BLOCK2 U325 (PIN[21] , PIN[23] , GIN[23] , GIN[25] , PHI , POUT[21] , GOUT[25] );
- BLOCK2 U326 (PIN[22] , PIN[24] , GIN[24] , GIN[26] , PHI , POUT[22] , GOUT[26] );
- BLOCK2 U327 (PIN[23] , PIN[25] , GIN[25] , GIN[27] , PHI , POUT[23] , GOUT[27] );
- BLOCK2 U328 (PIN[24] , PIN[26] , GIN[26] , GIN[28] , PHI , POUT[24] , GOUT[28] );
- BLOCK2 U329 (PIN[25] , PIN[27] , GIN[27] , GIN[29] , PHI , POUT[25] , GOUT[29] );
- BLOCK2 U330 (PIN[26] , PIN[28] , GIN[28] , GIN[30] , PHI , POUT[26] , GOUT[30] );
- BLOCK2 U331 (PIN[27] , PIN[29] , GIN[29] , GIN[31] , PHI , POUT[27] , GOUT[31] );
- BLOCK2 U332 (PIN[28] , PIN[30] , GIN[30] , GIN[32] , PHI , POUT[28] , GOUT[32] );
- BLOCK2 U333 (PIN[29] , PIN[31] , GIN[31] , GIN[33] , PHI , POUT[29] , GOUT[33] );
- BLOCK2 U334 (PIN[30] , PIN[32] , GIN[32] , GIN[34] , PHI , POUT[30] , GOUT[34] );
- BLOCK2 U335 (PIN[31] , PIN[33] , GIN[33] , GIN[35] , PHI , POUT[31] , GOUT[35] );
- BLOCK2 U336 (PIN[32] , PIN[34] , GIN[34] , GIN[36] , PHI , POUT[32] , GOUT[36] );
- BLOCK2 U337 (PIN[33] , PIN[35] , GIN[35] , GIN[37] , PHI , POUT[33] , GOUT[37] );
- BLOCK2 U338 (PIN[34] , PIN[36] , GIN[36] , GIN[38] , PHI , POUT[34] , GOUT[38] );
- BLOCK2 U339 (PIN[35] , PIN[37] , GIN[37] , GIN[39] , PHI , POUT[35] , GOUT[39] );
- BLOCK2 U340 (PIN[36] , PIN[38] , GIN[38] , GIN[40] , PHI , POUT[36] , GOUT[40] );
- BLOCK2 U341 (PIN[37] , PIN[39] , GIN[39] , GIN[41] , PHI , POUT[37] , GOUT[41] );
- BLOCK2 U342 (PIN[38] , PIN[40] , GIN[40] , GIN[42] , PHI , POUT[38] , GOUT[42] );
- BLOCK2 U343 (PIN[39] , PIN[41] , GIN[41] , GIN[43] , PHI , POUT[39] , GOUT[43] );
- BLOCK2 U344 (PIN[40] , PIN[42] , GIN[42] , GIN[44] , PHI , POUT[40] , GOUT[44] );
- BLOCK2 U345 (PIN[41] , PIN[43] , GIN[43] , GIN[45] , PHI , POUT[41] , GOUT[45] );
- BLOCK2 U346 (PIN[42] , PIN[44] , GIN[44] , GIN[46] , PHI , POUT[42] , GOUT[46] );
- BLOCK2 U347 (PIN[43] , PIN[45] , GIN[45] , GIN[47] , PHI , POUT[43] , GOUT[47] );
- BLOCK2 U348 (PIN[44] , PIN[46] , GIN[46] , GIN[48] , PHI , POUT[44] , GOUT[48] );
- BLOCK2 U349 (PIN[45] , PIN[47] , GIN[47] , GIN[49] , PHI , POUT[45] , GOUT[49] );
- BLOCK2 U350 (PIN[46] , PIN[48] , GIN[48] , GIN[50] , PHI , POUT[46] , GOUT[50] );
- BLOCK2 U351 (PIN[47] , PIN[49] , GIN[49] , GIN[51] , PHI , POUT[47] , GOUT[51] );
- BLOCK2 U352 (PIN[48] , PIN[50] , GIN[50] , GIN[52] , PHI , POUT[48] , GOUT[52] );
- BLOCK2 U353 (PIN[49] , PIN[51] , GIN[51] , GIN[53] , PHI , POUT[49] , GOUT[53] );
- BLOCK2 U354 (PIN[50] , PIN[52] , GIN[52] , GIN[54] , PHI , POUT[50] , GOUT[54] );
- BLOCK2 U355 (PIN[51] , PIN[53] , GIN[53] , GIN[55] , PHI , POUT[51] , GOUT[55] );
- BLOCK2 U356 (PIN[52] , PIN[54] , GIN[54] , GIN[56] , PHI , POUT[52] , GOUT[56] );
- BLOCK2 U357 (PIN[53] , PIN[55] , GIN[55] , GIN[57] , PHI , POUT[53] , GOUT[57] );
- BLOCK2 U358 (PIN[54] , PIN[56] , GIN[56] , GIN[58] , PHI , POUT[54] , GOUT[58] );
- BLOCK2 U359 (PIN[55] , PIN[57] , GIN[57] , GIN[59] , PHI , POUT[55] , GOUT[59] );
- BLOCK2 U360 (PIN[56] , PIN[58] , GIN[58] , GIN[60] , PHI , POUT[56] , GOUT[60] );
- BLOCK2 U361 (PIN[57] , PIN[59] , GIN[59] , GIN[61] , PHI , POUT[57] , GOUT[61] );
- BLOCK2 U362 (PIN[58] , PIN[60] , GIN[60] , GIN[62] , PHI , POUT[58] , GOUT[62] );
- BLOCK2 U363 (PIN[59] , PIN[61] , GIN[61] , GIN[63] , PHI , POUT[59] , GOUT[63] );
- BLOCK2 U364 (PIN[60] , PIN[62] , GIN[62] , GIN[64] , PHI , POUT[60] , GOUT[64] );
-endmodule
-
-
-module DBLC_2_64 ( PIN, GIN, PHI, POUT, GOUT );
-input [0:60] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:56] POUT;
-output [0:64] GOUT;
- INVBLOCK U10 (GIN[0] , PHI , GOUT[0] );
- INVBLOCK U11 (GIN[1] , PHI , GOUT[1] );
- INVBLOCK U12 (GIN[2] , PHI , GOUT[2] );
- INVBLOCK U13 (GIN[3] , PHI , GOUT[3] );
- BLOCK1A U24 (PIN[0] , GIN[0] , GIN[4] , PHI , GOUT[4] );
- BLOCK1A U25 (PIN[1] , GIN[1] , GIN[5] , PHI , GOUT[5] );
- BLOCK1A U26 (PIN[2] , GIN[2] , GIN[6] , PHI , GOUT[6] );
- BLOCK1A U27 (PIN[3] , GIN[3] , GIN[7] , PHI , GOUT[7] );
- BLOCK1 U38 (PIN[0] , PIN[4] , GIN[4] , GIN[8] , PHI , POUT[0] , GOUT[8] );
- BLOCK1 U39 (PIN[1] , PIN[5] , GIN[5] , GIN[9] , PHI , POUT[1] , GOUT[9] );
- BLOCK1 U310 (PIN[2] , PIN[6] , GIN[6] , GIN[10] , PHI , POUT[2] , GOUT[10] );
- BLOCK1 U311 (PIN[3] , PIN[7] , GIN[7] , GIN[11] , PHI , POUT[3] , GOUT[11] );
- BLOCK1 U312 (PIN[4] , PIN[8] , GIN[8] , GIN[12] , PHI , POUT[4] , GOUT[12] );
- BLOCK1 U313 (PIN[5] , PIN[9] , GIN[9] , GIN[13] , PHI , POUT[5] , GOUT[13] );
- BLOCK1 U314 (PIN[6] , PIN[10] , GIN[10] , GIN[14] , PHI , POUT[6] , GOUT[14] );
- BLOCK1 U315 (PIN[7] , PIN[11] , GIN[11] , GIN[15] , PHI , POUT[7] , GOUT[15] );
- BLOCK1 U316 (PIN[8] , PIN[12] , GIN[12] , GIN[16] , PHI , POUT[8] , GOUT[16] );
- BLOCK1 U317 (PIN[9] , PIN[13] , GIN[13] , GIN[17] , PHI , POUT[9] , GOUT[17] );
- BLOCK1 U318 (PIN[10] , PIN[14] , GIN[14] , GIN[18] , PHI , POUT[10] , GOUT[18] );
- BLOCK1 U319 (PIN[11] , PIN[15] , GIN[15] , GIN[19] , PHI , POUT[11] , GOUT[19] );
- BLOCK1 U320 (PIN[12] , PIN[16] , GIN[16] , GIN[20] , PHI , POUT[12] , GOUT[20] );
- BLOCK1 U321 (PIN[13] , PIN[17] , GIN[17] , GIN[21] , PHI , POUT[13] , GOUT[21] );
- BLOCK1 U322 (PIN[14] , PIN[18] , GIN[18] , GIN[22] , PHI , POUT[14] , GOUT[22] );
- BLOCK1 U323 (PIN[15] , PIN[19] , GIN[19] , GIN[23] , PHI , POUT[15] , GOUT[23] );
- BLOCK1 U324 (PIN[16] , PIN[20] , GIN[20] , GIN[24] , PHI , POUT[16] , GOUT[24] );
- BLOCK1 U325 (PIN[17] , PIN[21] , GIN[21] , GIN[25] , PHI , POUT[17] , GOUT[25] );
- BLOCK1 U326 (PIN[18] , PIN[22] , GIN[22] , GIN[26] , PHI , POUT[18] , GOUT[26] );
- BLOCK1 U327 (PIN[19] , PIN[23] , GIN[23] , GIN[27] , PHI , POUT[19] , GOUT[27] );
- BLOCK1 U328 (PIN[20] , PIN[24] , GIN[24] , GIN[28] , PHI , POUT[20] , GOUT[28] );
- BLOCK1 U329 (PIN[21] , PIN[25] , GIN[25] , GIN[29] , PHI , POUT[21] , GOUT[29] );
- BLOCK1 U330 (PIN[22] , PIN[26] , GIN[26] , GIN[30] , PHI , POUT[22] , GOUT[30] );
- BLOCK1 U331 (PIN[23] , PIN[27] , GIN[27] , GIN[31] , PHI , POUT[23] , GOUT[31] );
- BLOCK1 U332 (PIN[24] , PIN[28] , GIN[28] , GIN[32] , PHI , POUT[24] , GOUT[32] );
- BLOCK1 U333 (PIN[25] , PIN[29] , GIN[29] , GIN[33] , PHI , POUT[25] , GOUT[33] );
- BLOCK1 U334 (PIN[26] , PIN[30] , GIN[30] , GIN[34] , PHI , POUT[26] , GOUT[34] );
- BLOCK1 U335 (PIN[27] , PIN[31] , GIN[31] , GIN[35] , PHI , POUT[27] , GOUT[35] );
- BLOCK1 U336 (PIN[28] , PIN[32] , GIN[32] , GIN[36] , PHI , POUT[28] , GOUT[36] );
- BLOCK1 U337 (PIN[29] , PIN[33] , GIN[33] , GIN[37] , PHI , POUT[29] , GOUT[37] );
- BLOCK1 U338 (PIN[30] , PIN[34] , GIN[34] , GIN[38] , PHI , POUT[30] , GOUT[38] );
- BLOCK1 U339 (PIN[31] , PIN[35] , GIN[35] , GIN[39] , PHI , POUT[31] , GOUT[39] );
- BLOCK1 U340 (PIN[32] , PIN[36] , GIN[36] , GIN[40] , PHI , POUT[32] , GOUT[40] );
- BLOCK1 U341 (PIN[33] , PIN[37] , GIN[37] , GIN[41] , PHI , POUT[33] , GOUT[41] );
- BLOCK1 U342 (PIN[34] , PIN[38] , GIN[38] , GIN[42] , PHI , POUT[34] , GOUT[42] );
- BLOCK1 U343 (PIN[35] , PIN[39] , GIN[39] , GIN[43] , PHI , POUT[35] , GOUT[43] );
- BLOCK1 U344 (PIN[36] , PIN[40] , GIN[40] , GIN[44] , PHI , POUT[36] , GOUT[44] );
- BLOCK1 U345 (PIN[37] , PIN[41] , GIN[41] , GIN[45] , PHI , POUT[37] , GOUT[45] );
- BLOCK1 U346 (PIN[38] , PIN[42] , GIN[42] , GIN[46] , PHI , POUT[38] , GOUT[46] );
- BLOCK1 U347 (PIN[39] , PIN[43] , GIN[43] , GIN[47] , PHI , POUT[39] , GOUT[47] );
- BLOCK1 U348 (PIN[40] , PIN[44] , GIN[44] , GIN[48] , PHI , POUT[40] , GOUT[48] );
- BLOCK1 U349 (PIN[41] , PIN[45] , GIN[45] , GIN[49] , PHI , POUT[41] , GOUT[49] );
- BLOCK1 U350 (PIN[42] , PIN[46] , GIN[46] , GIN[50] , PHI , POUT[42] , GOUT[50] );
- BLOCK1 U351 (PIN[43] , PIN[47] , GIN[47] , GIN[51] , PHI , POUT[43] , GOUT[51] );
- BLOCK1 U352 (PIN[44] , PIN[48] , GIN[48] , GIN[52] , PHI , POUT[44] , GOUT[52] );
- BLOCK1 U353 (PIN[45] , PIN[49] , GIN[49] , GIN[53] , PHI , POUT[45] , GOUT[53] );
- BLOCK1 U354 (PIN[46] , PIN[50] , GIN[50] , GIN[54] , PHI , POUT[46] , GOUT[54] );
- BLOCK1 U355 (PIN[47] , PIN[51] , GIN[51] , GIN[55] , PHI , POUT[47] , GOUT[55] );
- BLOCK1 U356 (PIN[48] , PIN[52] , GIN[52] , GIN[56] , PHI , POUT[48] , GOUT[56] );
- BLOCK1 U357 (PIN[49] , PIN[53] , GIN[53] , GIN[57] , PHI , POUT[49] , GOUT[57] );
- BLOCK1 U358 (PIN[50] , PIN[54] , GIN[54] , GIN[58] , PHI , POUT[50] , GOUT[58] );
- BLOCK1 U359 (PIN[51] , PIN[55] , GIN[55] , GIN[59] , PHI , POUT[51] , GOUT[59] );
- BLOCK1 U360 (PIN[52] , PIN[56] , GIN[56] , GIN[60] , PHI , POUT[52] , GOUT[60] );
- BLOCK1 U361 (PIN[53] , PIN[57] , GIN[57] , GIN[61] , PHI , POUT[53] , GOUT[61] );
- BLOCK1 U362 (PIN[54] , PIN[58] , GIN[58] , GIN[62] , PHI , POUT[54] , GOUT[62] );
- BLOCK1 U363 (PIN[55] , PIN[59] , GIN[59] , GIN[63] , PHI , POUT[55] , GOUT[63] );
- BLOCK1 U364 (PIN[56] , PIN[60] , GIN[60] , GIN[64] , PHI , POUT[56] , GOUT[64] );
-endmodule
-
-
-module DBLC_3_64 ( PIN, GIN, PHI, POUT, GOUT );
-input [0:56] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:48] POUT;
-output [0:64] GOUT;
- INVBLOCK U10 (GIN[0] , PHI , GOUT[0] );
- INVBLOCK U11 (GIN[1] , PHI , GOUT[1] );
- INVBLOCK U12 (GIN[2] , PHI , GOUT[2] );
- INVBLOCK U13 (GIN[3] , PHI , GOUT[3] );
- INVBLOCK U14 (GIN[4] , PHI , GOUT[4] );
- INVBLOCK U15 (GIN[5] , PHI , GOUT[5] );
- INVBLOCK U16 (GIN[6] , PHI , GOUT[6] );
- INVBLOCK U17 (GIN[7] , PHI , GOUT[7] );
- BLOCK2A U28 (PIN[0] , GIN[0] , GIN[8] , PHI , GOUT[8] );
- BLOCK2A U29 (PIN[1] , GIN[1] , GIN[9] , PHI , GOUT[9] );
- BLOCK2A U210 (PIN[2] , GIN[2] , GIN[10] , PHI , GOUT[10] );
- BLOCK2A U211 (PIN[3] , GIN[3] , GIN[11] , PHI , GOUT[11] );
- BLOCK2A U212 (PIN[4] , GIN[4] , GIN[12] , PHI , GOUT[12] );
- BLOCK2A U213 (PIN[5] , GIN[5] , GIN[13] , PHI , GOUT[13] );
- BLOCK2A U214 (PIN[6] , GIN[6] , GIN[14] , PHI , GOUT[14] );
- BLOCK2A U215 (PIN[7] , GIN[7] , GIN[15] , PHI , GOUT[15] );
- BLOCK2 U316 (PIN[0] , PIN[8] , GIN[8] , GIN[16] , PHI , POUT[0] , GOUT[16] );
- BLOCK2 U317 (PIN[1] , PIN[9] , GIN[9] , GIN[17] , PHI , POUT[1] , GOUT[17] );
- BLOCK2 U318 (PIN[2] , PIN[10] , GIN[10] , GIN[18] , PHI , POUT[2] , GOUT[18] );
- BLOCK2 U319 (PIN[3] , PIN[11] , GIN[11] , GIN[19] , PHI , POUT[3] , GOUT[19] );
- BLOCK2 U320 (PIN[4] , PIN[12] , GIN[12] , GIN[20] , PHI , POUT[4] , GOUT[20] );
- BLOCK2 U321 (PIN[5] , PIN[13] , GIN[13] , GIN[21] , PHI , POUT[5] , GOUT[21] );
- BLOCK2 U322 (PIN[6] , PIN[14] , GIN[14] , GIN[22] , PHI , POUT[6] , GOUT[22] );
- BLOCK2 U323 (PIN[7] , PIN[15] , GIN[15] , GIN[23] , PHI , POUT[7] , GOUT[23] );
- BLOCK2 U324 (PIN[8] , PIN[16] , GIN[16] , GIN[24] , PHI , POUT[8] , GOUT[24] );
- BLOCK2 U325 (PIN[9] , PIN[17] , GIN[17] , GIN[25] , PHI , POUT[9] , GOUT[25] );
- BLOCK2 U326 (PIN[10] , PIN[18] , GIN[18] , GIN[26] , PHI , POUT[10] , GOUT[26] );
- BLOCK2 U327 (PIN[11] , PIN[19] , GIN[19] , GIN[27] , PHI , POUT[11] , GOUT[27] );
- BLOCK2 U328 (PIN[12] , PIN[20] , GIN[20] , GIN[28] , PHI , POUT[12] , GOUT[28] );
- BLOCK2 U329 (PIN[13] , PIN[21] , GIN[21] , GIN[29] , PHI , POUT[13] , GOUT[29] );
- BLOCK2 U330 (PIN[14] , PIN[22] , GIN[22] , GIN[30] , PHI , POUT[14] , GOUT[30] );
- BLOCK2 U331 (PIN[15] , PIN[23] , GIN[23] , GIN[31] , PHI , POUT[15] , GOUT[31] );
- BLOCK2 U332 (PIN[16] , PIN[24] , GIN[24] , GIN[32] , PHI , POUT[16] , GOUT[32] );
- BLOCK2 U333 (PIN[17] , PIN[25] , GIN[25] , GIN[33] , PHI , POUT[17] , GOUT[33] );
- BLOCK2 U334 (PIN[18] , PIN[26] , GIN[26] , GIN[34] , PHI , POUT[18] , GOUT[34] );
- BLOCK2 U335 (PIN[19] , PIN[27] , GIN[27] , GIN[35] , PHI , POUT[19] , GOUT[35] );
- BLOCK2 U336 (PIN[20] , PIN[28] , GIN[28] , GIN[36] , PHI , POUT[20] , GOUT[36] );
- BLOCK2 U337 (PIN[21] , PIN[29] , GIN[29] , GIN[37] , PHI , POUT[21] , GOUT[37] );
- BLOCK2 U338 (PIN[22] , PIN[30] , GIN[30] , GIN[38] , PHI , POUT[22] , GOUT[38] );
- BLOCK2 U339 (PIN[23] , PIN[31] , GIN[31] , GIN[39] , PHI , POUT[23] , GOUT[39] );
- BLOCK2 U340 (PIN[24] , PIN[32] , GIN[32] , GIN[40] , PHI , POUT[24] , GOUT[40] );
- BLOCK2 U341 (PIN[25] , PIN[33] , GIN[33] , GIN[41] , PHI , POUT[25] , GOUT[41] );
- BLOCK2 U342 (PIN[26] , PIN[34] , GIN[34] , GIN[42] , PHI , POUT[26] , GOUT[42] );
- BLOCK2 U343 (PIN[27] , PIN[35] , GIN[35] , GIN[43] , PHI , POUT[27] , GOUT[43] );
- BLOCK2 U344 (PIN[28] , PIN[36] , GIN[36] , GIN[44] , PHI , POUT[28] , GOUT[44] );
- BLOCK2 U345 (PIN[29] , PIN[37] , GIN[37] , GIN[45] , PHI , POUT[29] , GOUT[45] );
- BLOCK2 U346 (PIN[30] , PIN[38] , GIN[38] , GIN[46] , PHI , POUT[30] , GOUT[46] );
- BLOCK2 U347 (PIN[31] , PIN[39] , GIN[39] , GIN[47] , PHI , POUT[31] , GOUT[47] );
- BLOCK2 U348 (PIN[32] , PIN[40] , GIN[40] , GIN[48] , PHI , POUT[32] , GOUT[48] );
- BLOCK2 U349 (PIN[33] , PIN[41] , GIN[41] , GIN[49] , PHI , POUT[33] , GOUT[49] );
- BLOCK2 U350 (PIN[34] , PIN[42] , GIN[42] , GIN[50] , PHI , POUT[34] , GOUT[50] );
- BLOCK2 U351 (PIN[35] , PIN[43] , GIN[43] , GIN[51] , PHI , POUT[35] , GOUT[51] );
- BLOCK2 U352 (PIN[36] , PIN[44] , GIN[44] , GIN[52] , PHI , POUT[36] , GOUT[52] );
- BLOCK2 U353 (PIN[37] , PIN[45] , GIN[45] , GIN[53] , PHI , POUT[37] , GOUT[53] );
- BLOCK2 U354 (PIN[38] , PIN[46] , GIN[46] , GIN[54] , PHI , POUT[38] , GOUT[54] );
- BLOCK2 U355 (PIN[39] , PIN[47] , GIN[47] , GIN[55] , PHI , POUT[39] , GOUT[55] );
- BLOCK2 U356 (PIN[40] , PIN[48] , GIN[48] , GIN[56] , PHI , POUT[40] , GOUT[56] );
- BLOCK2 U357 (PIN[41] , PIN[49] , GIN[49] , GIN[57] , PHI , POUT[41] , GOUT[57] );
- BLOCK2 U358 (PIN[42] , PIN[50] , GIN[50] , GIN[58] , PHI , POUT[42] , GOUT[58] );
- BLOCK2 U359 (PIN[43] , PIN[51] , GIN[51] , GIN[59] , PHI , POUT[43] , GOUT[59] );
- BLOCK2 U360 (PIN[44] , PIN[52] , GIN[52] , GIN[60] , PHI , POUT[44] , GOUT[60] );
- BLOCK2 U361 (PIN[45] , PIN[53] , GIN[53] , GIN[61] , PHI , POUT[45] , GOUT[61] );
- BLOCK2 U362 (PIN[46] , PIN[54] , GIN[54] , GIN[62] , PHI , POUT[46] , GOUT[62] );
- BLOCK2 U363 (PIN[47] , PIN[55] , GIN[55] , GIN[63] , PHI , POUT[47] , GOUT[63] );
- BLOCK2 U364 (PIN[48] , PIN[56] , GIN[56] , GIN[64] , PHI , POUT[48] , GOUT[64] );
-endmodule
-
-
-module DBLC_4_64 ( PIN, GIN, PHI, POUT, GOUT );
-input [0:48] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:32] POUT;
-output [0:64] GOUT;
- INVBLOCK U10 (GIN[0] , PHI , GOUT[0] );
- INVBLOCK U11 (GIN[1] , PHI , GOUT[1] );
- INVBLOCK U12 (GIN[2] , PHI , GOUT[2] );
- INVBLOCK U13 (GIN[3] , PHI , GOUT[3] );
- INVBLOCK U14 (GIN[4] , PHI , GOUT[4] );
- INVBLOCK U15 (GIN[5] , PHI , GOUT[5] );
- INVBLOCK U16 (GIN[6] , PHI , GOUT[6] );
- INVBLOCK U17 (GIN[7] , PHI , GOUT[7] );
- INVBLOCK U18 (GIN[8] , PHI , GOUT[8] );
- INVBLOCK U19 (GIN[9] , PHI , GOUT[9] );
- INVBLOCK U110 (GIN[10] , PHI , GOUT[10] );
- INVBLOCK U111 (GIN[11] , PHI , GOUT[11] );
- INVBLOCK U112 (GIN[12] , PHI , GOUT[12] );
- INVBLOCK U113 (GIN[13] , PHI , GOUT[13] );
- INVBLOCK U114 (GIN[14] , PHI , GOUT[14] );
- INVBLOCK U115 (GIN[15] , PHI , GOUT[15] );
- BLOCK1A U216 (PIN[0] , GIN[0] , GIN[16] , PHI , GOUT[16] );
- BLOCK1A U217 (PIN[1] , GIN[1] , GIN[17] , PHI , GOUT[17] );
- BLOCK1A U218 (PIN[2] , GIN[2] , GIN[18] , PHI , GOUT[18] );
- BLOCK1A U219 (PIN[3] , GIN[3] , GIN[19] , PHI , GOUT[19] );
- BLOCK1A U220 (PIN[4] , GIN[4] , GIN[20] , PHI , GOUT[20] );
- BLOCK1A U221 (PIN[5] , GIN[5] , GIN[21] , PHI , GOUT[21] );
- BLOCK1A U222 (PIN[6] , GIN[6] , GIN[22] , PHI , GOUT[22] );
- BLOCK1A U223 (PIN[7] , GIN[7] , GIN[23] , PHI , GOUT[23] );
- BLOCK1A U224 (PIN[8] , GIN[8] , GIN[24] , PHI , GOUT[24] );
- BLOCK1A U225 (PIN[9] , GIN[9] , GIN[25] , PHI , GOUT[25] );
- BLOCK1A U226 (PIN[10] , GIN[10] , GIN[26] , PHI , GOUT[26] );
- BLOCK1A U227 (PIN[11] , GIN[11] , GIN[27] , PHI , GOUT[27] );
- BLOCK1A U228 (PIN[12] , GIN[12] , GIN[28] , PHI , GOUT[28] );
- BLOCK1A U229 (PIN[13] , GIN[13] , GIN[29] , PHI , GOUT[29] );
- BLOCK1A U230 (PIN[14] , GIN[14] , GIN[30] , PHI , GOUT[30] );
- BLOCK1A U231 (PIN[15] , GIN[15] , GIN[31] , PHI , GOUT[31] );
- BLOCK1 U332 (PIN[0] , PIN[16] , GIN[16] , GIN[32] , PHI , POUT[0] , GOUT[32] );
- BLOCK1 U333 (PIN[1] , PIN[17] , GIN[17] , GIN[33] , PHI , POUT[1] , GOUT[33] );
- BLOCK1 U334 (PIN[2] , PIN[18] , GIN[18] , GIN[34] , PHI , POUT[2] , GOUT[34] );
- BLOCK1 U335 (PIN[3] , PIN[19] , GIN[19] , GIN[35] , PHI , POUT[3] , GOUT[35] );
- BLOCK1 U336 (PIN[4] , PIN[20] , GIN[20] , GIN[36] , PHI , POUT[4] , GOUT[36] );
- BLOCK1 U337 (PIN[5] , PIN[21] , GIN[21] , GIN[37] , PHI , POUT[5] , GOUT[37] );
- BLOCK1 U338 (PIN[6] , PIN[22] , GIN[22] , GIN[38] , PHI , POUT[6] , GOUT[38] );
- BLOCK1 U339 (PIN[7] , PIN[23] , GIN[23] , GIN[39] , PHI , POUT[7] , GOUT[39] );
- BLOCK1 U340 (PIN[8] , PIN[24] , GIN[24] , GIN[40] , PHI , POUT[8] , GOUT[40] );
- BLOCK1 U341 (PIN[9] , PIN[25] , GIN[25] , GIN[41] , PHI , POUT[9] , GOUT[41] );
- BLOCK1 U342 (PIN[10] , PIN[26] , GIN[26] , GIN[42] , PHI , POUT[10] , GOUT[42] );
- BLOCK1 U343 (PIN[11] , PIN[27] , GIN[27] , GIN[43] , PHI , POUT[11] , GOUT[43] );
- BLOCK1 U344 (PIN[12] , PIN[28] , GIN[28] , GIN[44] , PHI , POUT[12] , GOUT[44] );
- BLOCK1 U345 (PIN[13] , PIN[29] , GIN[29] , GIN[45] , PHI , POUT[13] , GOUT[45] );
- BLOCK1 U346 (PIN[14] , PIN[30] , GIN[30] , GIN[46] , PHI , POUT[14] , GOUT[46] );
- BLOCK1 U347 (PIN[15] , PIN[31] , GIN[31] , GIN[47] , PHI , POUT[15] , GOUT[47] );
- BLOCK1 U348 (PIN[16] , PIN[32] , GIN[32] , GIN[48] , PHI , POUT[16] , GOUT[48] );
- BLOCK1 U349 (PIN[17] , PIN[33] , GIN[33] , GIN[49] , PHI , POUT[17] , GOUT[49] );
- BLOCK1 U350 (PIN[18] , PIN[34] , GIN[34] , GIN[50] , PHI , POUT[18] , GOUT[50] );
- BLOCK1 U351 (PIN[19] , PIN[35] , GIN[35] , GIN[51] , PHI , POUT[19] , GOUT[51] );
- BLOCK1 U352 (PIN[20] , PIN[36] , GIN[36] , GIN[52] , PHI , POUT[20] , GOUT[52] );
- BLOCK1 U353 (PIN[21] , PIN[37] , GIN[37] , GIN[53] , PHI , POUT[21] , GOUT[53] );
- BLOCK1 U354 (PIN[22] , PIN[38] , GIN[38] , GIN[54] , PHI , POUT[22] , GOUT[54] );
- BLOCK1 U355 (PIN[23] , PIN[39] , GIN[39] , GIN[55] , PHI , POUT[23] , GOUT[55] );
- BLOCK1 U356 (PIN[24] , PIN[40] , GIN[40] , GIN[56] , PHI , POUT[24] , GOUT[56] );
- BLOCK1 U357 (PIN[25] , PIN[41] , GIN[41] , GIN[57] , PHI , POUT[25] , GOUT[57] );
- BLOCK1 U358 (PIN[26] , PIN[42] , GIN[42] , GIN[58] , PHI , POUT[26] , GOUT[58] );
- BLOCK1 U359 (PIN[27] , PIN[43] , GIN[43] , GIN[59] , PHI , POUT[27] , GOUT[59] );
- BLOCK1 U360 (PIN[28] , PIN[44] , GIN[44] , GIN[60] , PHI , POUT[28] , GOUT[60] );
- BLOCK1 U361 (PIN[29] , PIN[45] , GIN[45] , GIN[61] , PHI , POUT[29] , GOUT[61] );
- BLOCK1 U362 (PIN[30] , PIN[46] , GIN[46] , GIN[62] , PHI , POUT[30] , GOUT[62] );
- BLOCK1 U363 (PIN[31] , PIN[47] , GIN[47] , GIN[63] , PHI , POUT[31] , GOUT[63] );
- BLOCK1 U364 (PIN[32] , PIN[48] , GIN[48] , GIN[64] , PHI , POUT[32] , GOUT[64] );
-endmodule
-
-
-module DBLC_5_64 ( PIN, GIN, PHI, POUT, GOUT );
-input [0:32] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:0] POUT;
-output [0:64] GOUT;
- INVBLOCK U10 (GIN[0] , PHI , GOUT[0] );
- INVBLOCK U11 (GIN[1] , PHI , GOUT[1] );
- INVBLOCK U12 (GIN[2] , PHI , GOUT[2] );
- INVBLOCK U13 (GIN[3] , PHI , GOUT[3] );
- INVBLOCK U14 (GIN[4] , PHI , GOUT[4] );
- INVBLOCK U15 (GIN[5] , PHI , GOUT[5] );
- INVBLOCK U16 (GIN[6] , PHI , GOUT[6] );
- INVBLOCK U17 (GIN[7] , PHI , GOUT[7] );
- INVBLOCK U18 (GIN[8] , PHI , GOUT[8] );
- INVBLOCK U19 (GIN[9] , PHI , GOUT[9] );
- INVBLOCK U110 (GIN[10] , PHI , GOUT[10] );
- INVBLOCK U111 (GIN[11] , PHI , GOUT[11] );
- INVBLOCK U112 (GIN[12] , PHI , GOUT[12] );
- INVBLOCK U113 (GIN[13] , PHI , GOUT[13] );
- INVBLOCK U114 (GIN[14] , PHI , GOUT[14] );
- INVBLOCK U115 (GIN[15] , PHI , GOUT[15] );
- INVBLOCK U116 (GIN[16] , PHI , GOUT[16] );
- INVBLOCK U117 (GIN[17] , PHI , GOUT[17] );
- INVBLOCK U118 (GIN[18] , PHI , GOUT[18] );
- INVBLOCK U119 (GIN[19] , PHI , GOUT[19] );
- INVBLOCK U120 (GIN[20] , PHI , GOUT[20] );
- INVBLOCK U121 (GIN[21] , PHI , GOUT[21] );
- INVBLOCK U122 (GIN[22] , PHI , GOUT[22] );
- INVBLOCK U123 (GIN[23] , PHI , GOUT[23] );
- INVBLOCK U124 (GIN[24] , PHI , GOUT[24] );
- INVBLOCK U125 (GIN[25] , PHI , GOUT[25] );
- INVBLOCK U126 (GIN[26] , PHI , GOUT[26] );
- INVBLOCK U127 (GIN[27] , PHI , GOUT[27] );
- INVBLOCK U128 (GIN[28] , PHI , GOUT[28] );
- INVBLOCK U129 (GIN[29] , PHI , GOUT[29] );
- INVBLOCK U130 (GIN[30] , PHI , GOUT[30] );
- INVBLOCK U131 (GIN[31] , PHI , GOUT[31] );
- BLOCK2A U232 (PIN[0] , GIN[0] , GIN[32] , PHI , GOUT[32] );
- BLOCK2A U233 (PIN[1] , GIN[1] , GIN[33] , PHI , GOUT[33] );
- BLOCK2A U234 (PIN[2] , GIN[2] , GIN[34] , PHI , GOUT[34] );
- BLOCK2A U235 (PIN[3] , GIN[3] , GIN[35] , PHI , GOUT[35] );
- BLOCK2A U236 (PIN[4] , GIN[4] , GIN[36] , PHI , GOUT[36] );
- BLOCK2A U237 (PIN[5] , GIN[5] , GIN[37] , PHI , GOUT[37] );
- BLOCK2A U238 (PIN[6] , GIN[6] , GIN[38] , PHI , GOUT[38] );
- BLOCK2A U239 (PIN[7] , GIN[7] , GIN[39] , PHI , GOUT[39] );
- BLOCK2A U240 (PIN[8] , GIN[8] , GIN[40] , PHI , GOUT[40] );
- BLOCK2A U241 (PIN[9] , GIN[9] , GIN[41] , PHI , GOUT[41] );
- BLOCK2A U242 (PIN[10] , GIN[10] , GIN[42] , PHI , GOUT[42] );
- BLOCK2A U243 (PIN[11] , GIN[11] , GIN[43] , PHI , GOUT[43] );
- BLOCK2A U244 (PIN[12] , GIN[12] , GIN[44] , PHI , GOUT[44] );
- BLOCK2A U245 (PIN[13] , GIN[13] , GIN[45] , PHI , GOUT[45] );
- BLOCK2A U246 (PIN[14] , GIN[14] , GIN[46] , PHI , GOUT[46] );
- BLOCK2A U247 (PIN[15] , GIN[15] , GIN[47] , PHI , GOUT[47] );
- BLOCK2A U248 (PIN[16] , GIN[16] , GIN[48] , PHI , GOUT[48] );
- BLOCK2A U249 (PIN[17] , GIN[17] , GIN[49] , PHI , GOUT[49] );
- BLOCK2A U250 (PIN[18] , GIN[18] , GIN[50] , PHI , GOUT[50] );
- BLOCK2A U251 (PIN[19] , GIN[19] , GIN[51] , PHI , GOUT[51] );
- BLOCK2A U252 (PIN[20] , GIN[20] , GIN[52] , PHI , GOUT[52] );
- BLOCK2A U253 (PIN[21] , GIN[21] , GIN[53] , PHI , GOUT[53] );
- BLOCK2A U254 (PIN[22] , GIN[22] , GIN[54] , PHI , GOUT[54] );
- BLOCK2A U255 (PIN[23] , GIN[23] , GIN[55] , PHI , GOUT[55] );
- BLOCK2A U256 (PIN[24] , GIN[24] , GIN[56] , PHI , GOUT[56] );
- BLOCK2A U257 (PIN[25] , GIN[25] , GIN[57] , PHI , GOUT[57] );
- BLOCK2A U258 (PIN[26] , GIN[26] , GIN[58] , PHI , GOUT[58] );
- BLOCK2A U259 (PIN[27] , GIN[27] , GIN[59] , PHI , GOUT[59] );
- BLOCK2A U260 (PIN[28] , GIN[28] , GIN[60] , PHI , GOUT[60] );
- BLOCK2A U261 (PIN[29] , GIN[29] , GIN[61] , PHI , GOUT[61] );
- BLOCK2A U262 (PIN[30] , GIN[30] , GIN[62] , PHI , GOUT[62] );
- BLOCK2A U263 (PIN[31] , GIN[31] , GIN[63] , PHI , GOUT[63] );
- BLOCK2 U364 (PIN[0] , PIN[32] , GIN[32] , GIN[64] , PHI , POUT[0] , GOUT[64] );
-endmodule
-
-
-module XORSTAGE_64 ( A, B, PBIT, PHI, CARRY, SUM, COUT );
-input [0:63] A;
-input [0:63] B;
-input PBIT;
-input PHI;
-input [0:64] CARRY;
-output [0:63] SUM;
-output COUT;
- XXOR1 U20 (A[0] , B[0] , CARRY[0] , PHI , SUM[0] );
- XXOR1 U21 (A[1] , B[1] , CARRY[1] , PHI , SUM[1] );
- XXOR1 U22 (A[2] , B[2] , CARRY[2] , PHI , SUM[2] );
- XXOR1 U23 (A[3] , B[3] , CARRY[3] , PHI , SUM[3] );
- XXOR1 U24 (A[4] , B[4] , CARRY[4] , PHI , SUM[4] );
- XXOR1 U25 (A[5] , B[5] , CARRY[5] , PHI , SUM[5] );
- XXOR1 U26 (A[6] , B[6] , CARRY[6] , PHI , SUM[6] );
- XXOR1 U27 (A[7] , B[7] , CARRY[7] , PHI , SUM[7] );
- XXOR1 U28 (A[8] , B[8] , CARRY[8] , PHI , SUM[8] );
- XXOR1 U29 (A[9] , B[9] , CARRY[9] , PHI , SUM[9] );
- XXOR1 U210 (A[10] , B[10] , CARRY[10] , PHI , SUM[10] );
- XXOR1 U211 (A[11] , B[11] , CARRY[11] , PHI , SUM[11] );
- XXOR1 U212 (A[12] , B[12] , CARRY[12] , PHI , SUM[12] );
- XXOR1 U213 (A[13] , B[13] , CARRY[13] , PHI , SUM[13] );
- XXOR1 U214 (A[14] , B[14] , CARRY[14] , PHI , SUM[14] );
- XXOR1 U215 (A[15] , B[15] , CARRY[15] , PHI , SUM[15] );
- XXOR1 U216 (A[16] , B[16] , CARRY[16] , PHI , SUM[16] );
- XXOR1 U217 (A[17] , B[17] , CARRY[17] , PHI , SUM[17] );
- XXOR1 U218 (A[18] , B[18] , CARRY[18] , PHI , SUM[18] );
- XXOR1 U219 (A[19] , B[19] , CARRY[19] , PHI , SUM[19] );
- XXOR1 U220 (A[20] , B[20] , CARRY[20] , PHI , SUM[20] );
- XXOR1 U221 (A[21] , B[21] , CARRY[21] , PHI , SUM[21] );
- XXOR1 U222 (A[22] , B[22] , CARRY[22] , PHI , SUM[22] );
- XXOR1 U223 (A[23] , B[23] , CARRY[23] , PHI , SUM[23] );
- XXOR1 U224 (A[24] , B[24] , CARRY[24] , PHI , SUM[24] );
- XXOR1 U225 (A[25] , B[25] , CARRY[25] , PHI , SUM[25] );
- XXOR1 U226 (A[26] , B[26] , CARRY[26] , PHI , SUM[26] );
- XXOR1 U227 (A[27] , B[27] , CARRY[27] , PHI , SUM[27] );
- XXOR1 U228 (A[28] , B[28] , CARRY[28] , PHI , SUM[28] );
- XXOR1 U229 (A[29] , B[29] , CARRY[29] , PHI , SUM[29] );
- XXOR1 U230 (A[30] , B[30] , CARRY[30] , PHI , SUM[30] );
- XXOR1 U231 (A[31] , B[31] , CARRY[31] , PHI , SUM[31] );
- XXOR1 U232 (A[32] , B[32] , CARRY[32] , PHI , SUM[32] );
- XXOR1 U233 (A[33] , B[33] , CARRY[33] , PHI , SUM[33] );
- XXOR1 U234 (A[34] , B[34] , CARRY[34] , PHI , SUM[34] );
- XXOR1 U235 (A[35] , B[35] , CARRY[35] , PHI , SUM[35] );
- XXOR1 U236 (A[36] , B[36] , CARRY[36] , PHI , SUM[36] );
- XXOR1 U237 (A[37] , B[37] , CARRY[37] , PHI , SUM[37] );
- XXOR1 U238 (A[38] , B[38] , CARRY[38] , PHI , SUM[38] );
- XXOR1 U239 (A[39] , B[39] , CARRY[39] , PHI , SUM[39] );
- XXOR1 U240 (A[40] , B[40] , CARRY[40] , PHI , SUM[40] );
- XXOR1 U241 (A[41] , B[41] , CARRY[41] , PHI , SUM[41] );
- XXOR1 U242 (A[42] , B[42] , CARRY[42] , PHI , SUM[42] );
- XXOR1 U243 (A[43] , B[43] , CARRY[43] , PHI , SUM[43] );
- XXOR1 U244 (A[44] , B[44] , CARRY[44] , PHI , SUM[44] );
- XXOR1 U245 (A[45] , B[45] , CARRY[45] , PHI , SUM[45] );
- XXOR1 U246 (A[46] , B[46] , CARRY[46] , PHI , SUM[46] );
- XXOR1 U247 (A[47] , B[47] , CARRY[47] , PHI , SUM[47] );
- XXOR1 U248 (A[48] , B[48] , CARRY[48] , PHI , SUM[48] );
- XXOR1 U249 (A[49] , B[49] , CARRY[49] , PHI , SUM[49] );
- XXOR1 U250 (A[50] , B[50] , CARRY[50] , PHI , SUM[50] );
- XXOR1 U251 (A[51] , B[51] , CARRY[51] , PHI , SUM[51] );
- XXOR1 U252 (A[52] , B[52] , CARRY[52] , PHI , SUM[52] );
- XXOR1 U253 (A[53] , B[53] , CARRY[53] , PHI , SUM[53] );
- XXOR1 U254 (A[54] , B[54] , CARRY[54] , PHI , SUM[54] );
- XXOR1 U255 (A[55] , B[55] , CARRY[55] , PHI , SUM[55] );
- XXOR1 U256 (A[56] , B[56] , CARRY[56] , PHI , SUM[56] );
- XXOR1 U257 (A[57] , B[57] , CARRY[57] , PHI , SUM[57] );
- XXOR1 U258 (A[58] , B[58] , CARRY[58] , PHI , SUM[58] );
- XXOR1 U259 (A[59] , B[59] , CARRY[59] , PHI , SUM[59] );
- XXOR1 U260 (A[60] , B[60] , CARRY[60] , PHI , SUM[60] );
- XXOR1 U261 (A[61] , B[61] , CARRY[61] , PHI , SUM[61] );
- XXOR1 U262 (A[62] , B[62] , CARRY[62] , PHI , SUM[62] );
- XXOR1 U263 (A[63] , B[63] , CARRY[63] , PHI , SUM[63] );
- BLOCK1A U1 (PBIT , CARRY[0] , CARRY[64] , PHI , COUT );
-endmodule
-
-
-module DBLCTREE_64 ( PIN, GIN, PHI, GOUT, POUT );
-input [0:63] PIN;
-input [0:64] GIN;
-input PHI;
-output [0:64] GOUT;
-output [0:0] POUT;
- wire [0:62] INTPROP_0;
- wire [0:64] INTGEN_0;
- wire [0:60] INTPROP_1;
- wire [0:64] INTGEN_1;
- wire [0:56] INTPROP_2;
- wire [0:64] INTGEN_2;
- wire [0:48] INTPROP_3;
- wire [0:64] INTGEN_3;
- wire [0:32] INTPROP_4;
- wire [0:64] INTGEN_4;
- DBLC_0_64 U_0 (.PIN(PIN) , .GIN(GIN) , .PHI(PHI) , .POUT(INTPROP_0) , .GOUT(INTGEN_0) );
- DBLC_1_64 U_1 (.PIN(INTPROP_0) , .GIN(INTGEN_0) , .PHI(PHI) , .POUT(INTPROP_1) , .GOUT(INTGEN_1) );
- DBLC_2_64 U_2 (.PIN(INTPROP_1) , .GIN(INTGEN_1) , .PHI(PHI) , .POUT(INTPROP_2) , .GOUT(INTGEN_2) );
- DBLC_3_64 U_3 (.PIN(INTPROP_2) , .GIN(INTGEN_2) , .PHI(PHI) , .POUT(INTPROP_3) , .GOUT(INTGEN_3) );
- DBLC_4_64 U_4 (.PIN(INTPROP_3) , .GIN(INTGEN_3) , .PHI(PHI) , .POUT(INTPROP_4) , .GOUT(INTGEN_4) );
- DBLC_5_64 U_5 (.PIN(INTPROP_4) , .GIN(INTGEN_4) , .PHI(PHI) , .POUT(POUT) , .GOUT(GOUT) );
-endmodule
-
-
-module DBLCADDER_64_64 ( OPA, OPB, CIN, PHI, SUM, COUT );
-input [0:63] OPA;
-input [0:63] OPB;
-input CIN;
-input PHI;
-output [0:63] SUM;
-output COUT;
- wire [0:63] INTPROP;
- wire [0:64] INTGEN;
- wire [0:0] PBIT;
- wire [0:64] CARRY;
- PRESTAGE_64 U1 (OPA , OPB , CIN , PHI , INTPROP , INTGEN );
- DBLCTREE_64 U2 (INTPROP , INTGEN , PHI , CARRY , PBIT );
- XORSTAGE_64 U3 (OPA[0:63] , OPB[0:63] , PBIT[0] , PHI , CARRY[0:64] , SUM , COUT );
-endmodule
-
-
-module MULTIPLIER_33_32 ( MULTIPLICAND, MULTIPLIER, RST, CLK, PHI, RESULT );
-input [0:32] MULTIPLICAND;
-input [0:31] MULTIPLIER;
-input RST;
-input CLK;
-input PHI;
-output [0:63] RESULT;
- wire [0:575] PPBIT;
- wire [0:64] INT_CARRY;
- wire [0:63] INT_SUM;
- wire LOGIC_ZERO;
- wire [0:63] ARESULT;
- reg [0:63] RESULT;
- assign LOGIC_ZERO = 0;
- BOOTHCODER_33_32 B (.OPA(MULTIPLICAND[0:32]) , .OPB(MULTIPLIER[0:31]) , .SUMMAND(PPBIT[0:575]) );
- WALLACE_33_32 W (.SUMMAND(PPBIT[0:575]) , .RST(RST), .CLK (CLK) , .CARRY(INT_CARRY[1:63]) , .SUM(INT_SUM[0:63]) );
- assign INT_CARRY[0] = LOGIC_ZERO;
- DBLCADDER_64_64 D (.OPA(INT_SUM[0:63]) , .OPB(INT_CARRY[0:63]) , .CIN (LOGIC_ZERO) , .PHI (PHI) , .SUM(ARESULT[0:63]), .COUT() );
- always @(posedge CLK or posedge RST)
- if (RST)
- RESULT <= #1 64'h0000_0000_0000_0000;
- else
- RESULT <= ARESULT;
-endmodule
-
-
-// 32x32 multiplier, no input/output registers
-// Registers inside Wallace trees every 8 full adder levels,
-// with first pipeline after level 4
-
-module or1200_amultp2_32x32 ( X, Y, RST, CLK, P );
-input [31:0] X;
-input [31:0] Y;
-input RST;
-input CLK;
-output [63:0] P;
- wire [0:32] A;
- wire [0:31] B;
- wire [0:63] Q;
- assign A[0] = X[0];
- assign A[1] = X[1];
- assign A[2] = X[2];
- assign A[3] = X[3];
- assign A[4] = X[4];
- assign A[5] = X[5];
- assign A[6] = X[6];
- assign A[7] = X[7];
- assign A[8] = X[8];
- assign A[9] = X[9];
- assign A[10] = X[10];
- assign A[11] = X[11];
- assign A[12] = X[12];
- assign A[13] = X[13];
- assign A[14] = X[14];
- assign A[15] = X[15];
- assign A[16] = X[16];
- assign A[17] = X[17];
- assign A[18] = X[18];
- assign A[19] = X[19];
- assign A[20] = X[20];
- assign A[21] = X[21];
- assign A[22] = X[22];
- assign A[23] = X[23];
- assign A[24] = X[24];
- assign A[25] = X[25];
- assign A[26] = X[26];
- assign A[27] = X[27];
- assign A[28] = X[28];
- assign A[29] = X[29];
- assign A[30] = X[30];
- assign A[31] = X[31];
- assign A[32] = X[31];
- assign B[0] = Y[0];
- assign B[1] = Y[1];
- assign B[2] = Y[2];
- assign B[3] = Y[3];
- assign B[4] = Y[4];
- assign B[5] = Y[5];
- assign B[6] = Y[6];
- assign B[7] = Y[7];
- assign B[8] = Y[8];
- assign B[9] = Y[9];
- assign B[10] = Y[10];
- assign B[11] = Y[11];
- assign B[12] = Y[12];
- assign B[13] = Y[13];
- assign B[14] = Y[14];
- assign B[15] = Y[15];
- assign B[16] = Y[16];
- assign B[17] = Y[17];
- assign B[18] = Y[18];
- assign B[19] = Y[19];
- assign B[20] = Y[20];
- assign B[21] = Y[21];
- assign B[22] = Y[22];
- assign B[23] = Y[23];
- assign B[24] = Y[24];
- assign B[25] = Y[25];
- assign B[26] = Y[26];
- assign B[27] = Y[27];
- assign B[28] = Y[28];
- assign B[29] = Y[29];
- assign B[30] = Y[30];
- assign B[31] = Y[31];
- assign P[0] = Q[0];
- assign P[1] = Q[1];
- assign P[2] = Q[2];
- assign P[3] = Q[3];
- assign P[4] = Q[4];
- assign P[5] = Q[5];
- assign P[6] = Q[6];
- assign P[7] = Q[7];
- assign P[8] = Q[8];
- assign P[9] = Q[9];
- assign P[10] = Q[10];
- assign P[11] = Q[11];
- assign P[12] = Q[12];
- assign P[13] = Q[13];
- assign P[14] = Q[14];
- assign P[15] = Q[15];
- assign P[16] = Q[16];
- assign P[17] = Q[17];
- assign P[18] = Q[18];
- assign P[19] = Q[19];
- assign P[20] = Q[20];
- assign P[21] = Q[21];
- assign P[22] = Q[22];
- assign P[23] = Q[23];
- assign P[24] = Q[24];
- assign P[25] = Q[25];
- assign P[26] = Q[26];
- assign P[27] = Q[27];
- assign P[28] = Q[28];
- assign P[29] = Q[29];
- assign P[30] = Q[30];
- assign P[31] = Q[31];
- assign P[32] = Q[32];
- assign P[33] = Q[33];
- assign P[34] = Q[34];
- assign P[35] = Q[35];
- assign P[36] = Q[36];
- assign P[37] = Q[37];
- assign P[38] = Q[38];
- assign P[39] = Q[39];
- assign P[40] = Q[40];
- assign P[41] = Q[41];
- assign P[42] = Q[42];
- assign P[43] = Q[43];
- assign P[44] = Q[44];
- assign P[45] = Q[45];
- assign P[46] = Q[46];
- assign P[47] = Q[47];
- assign P[48] = Q[48];
- assign P[49] = Q[49];
- assign P[50] = Q[50];
- assign P[51] = Q[51];
- assign P[52] = Q[52];
- assign P[53] = Q[53];
- assign P[54] = Q[54];
- assign P[55] = Q[55];
- assign P[56] = Q[56];
- assign P[57] = Q[57];
- assign P[58] = Q[58];
- assign P[59] = Q[59];
- assign P[60] = Q[60];
- assign P[61] = Q[61];
- assign P[62] = Q[62];
- assign P[63] = Q[63];
- MULTIPLIER_33_32 U1 (.MULTIPLICAND(A) , .MULTIPLIER(B) , .RST(RST), .CLK(CLK) , .PHI(1'b0) , .RESULT(Q) );
-endmodule
-
-`endif
verilog/components/or1200r2/or1200_amultp2_32x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_1024x32.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_1024x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_1024x32.v (nonexistent)
@@ -1,531 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_1024x32.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_1024x32(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 10;
-parameter dw = 32;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-//input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_1024x32 #(dw, 1<
verilog/components/or1200r2/or1200_spram_1024x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_ic_tag.v
===================================================================
--- verilog/components/or1200r2/or1200_ic_tag.v (revision 185)
+++ verilog/components/or1200r2/or1200_ic_tag.v (nonexistent)
@@ -1,193 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's IC TAGs ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instatiation of instruction cache tag rams ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_ic_tag.v,v $
-// Revision 1.7 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.6 2004/04/08 11:00:46 simont
-// Add support for 512B instruction cache.
-//
-// Revision 1.5 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2002/10/24 22:19:04 mohor
-// Signal scanb_eni renamed to scanb_en
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_ic_tag(
- // Clock and reset
- clk, rst,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // Internal i/f
- addr, en, we, datain, tag_v, tag
-);
-
-parameter dw = `OR1200_ICTAG_W;
-parameter aw = `OR1200_ICTAG;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Internal i/f
-//
-input [aw-1:0] addr;
-input en;
-input we;
-input [dw-1:0] datain;
-output tag_v;
-output [dw-2:0] tag;
-
-`ifdef OR1200_NO_IC
-
-//
-// Insn cache not implemented
-//
-assign tag = {dw-1{1'b0}};
-assign tag_v = 1'b0;
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-
-`else
-
-//
-// Instantiation of TAG RAM block
-//
-`ifdef OR1200_IC_1W_512B
-//or1200_spram_32x24 ic_tag0(
- or1200_spram #
- (
- .aw(5),
- .dw(24)
- )
-`endif
-`ifdef OR1200_IC_1W_4KB
-//or1200_spram_256x21 ic_tag0(
- or1200_spram #
- (
- .aw(8),
- .dw(21)
- )
-`endif
-`ifdef OR1200_IC_1W_8KB
-//or1200_spram_512x20 ic_tag0(
- or1200_spram #
- (
- .aw(9),
- .dw(20)
- )
-`endif
- ic_tag0
- (
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .clk(clk),
- .ce(en),
- .we(we),
- //.oe(1'b1),
- .addr(addr),
- .di(datain),
- .doq({tag, tag_v})
- );
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_ic_tag.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_64x22.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_64x22.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_64x22.v (nonexistent)
@@ -1,411 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_64x22.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:41 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.7 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_64x22(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 6;
-parameter dw = 22;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-`ifdef OR1200_XILINX_RAMB4
-wire [9:0] unconnected;
-`else
-`ifdef OR1200_XILINX_RAMB16
-wire [9:0] unconnected;
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_64x22 #(dw, 1<
verilog/components/or1200r2/or1200_spram_64x22.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_cpu.v
===================================================================
--- verilog/components/or1200r2/or1200_cpu.v (revision 185)
+++ verilog/components/or1200r2/or1200_cpu.v (nonexistent)
@@ -1,888 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's CPU ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of internal CPU blocks. IFETCH, SPRS, FRZ, ////
-//// ALU, EXCEPT, ID, WBMUX, OPERANDMUX, RF etc. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_cpu.v,v $
-// Revision 1.16 2005/01/07 09:28:37 andreje
-// flag for l.cmov instruction added
-//
-// Revision 1.15 2004/05/09 19:49:04 lampret
-// Added some l.cust5 custom instructions as example
-//
-// Revision 1.14 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.12.4.2 2004/02/11 01:40:11 lampret
-// preliminary HW breakpoints support in debug unit (by default disabled). To enable define OR1200_DU_HWBKPTS.
-//
-// Revision 1.12.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.12 2002/09/07 05:42:02 lampret
-// Added optional SR[CY]. Added define to enable additional (compare) flag modifiers. Defines are OR1200_IMPL_ADDC and OR1200_ADDITIONAL_FLAG_MODIFIERS.
-//
-// Revision 1.11 2002/08/28 01:44:25 lampret
-// Removed some commented RTL. Fixed SR/ESR flag bug.
-//
-// Revision 1.10 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.9 2002/03/29 16:29:37 lampret
-// Fixed some ports in instnatiations that were removed from the modules
-//
-// Revision 1.8 2002/03/29 15:16:54 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.7 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.6 2002/02/01 19:56:54 lampret
-// Fixed combinational loops.
-//
-// Revision 1.5 2002/01/28 01:15:59 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.4 2002/01/18 14:21:43 lampret
-// Fixed 'the NPC single-step fix'.
-//
-// Revision 1.3 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.19 2001/11/30 18:59:47 simons
-// *** empty log message ***
-//
-// Revision 1.18 2001/11/23 21:42:31 simons
-// Program counter divided to PPC and NPC.
-//
-// Revision 1.17 2001/11/23 08:38:51 lampret
-// Changed DSR/DRR behavior and exception detection.
-//
-// Revision 1.16 2001/11/20 00:57:22 lampret
-// Fixed width of du_except.
-//
-// Revision 1.15 2001/11/18 09:58:28 lampret
-// Fixed some l.trap typos.
-//
-// Revision 1.14 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.13 2001/11/13 10:02:21 lampret
-// Added 'setpc'. Renamed some signals (except_flushpipe into flushpipe etc)
-//
-// Revision 1.12 2001/11/12 01:45:40 lampret
-// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports.
-//
-// Revision 1.11 2001/11/10 03:43:57 lampret
-// Fixed exceptions.
-//
-// Revision 1.10 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.9 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.4 2001/08/17 08:01:19 lampret
-// IC enable/disable.
-//
-// Revision 1.3 2001/08/13 03:36:20 lampret
-// Added cfg regs. Moved all defines into one defines.v file. More cleanup.
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_cpu(
- // Clk & Rst
- clk, rst,
-
- // Insn interface
- ic_en,
- icpu_adr_o, icpu_cycstb_o, icpu_sel_o, icpu_tag_o,
- icpu_dat_i, icpu_ack_i, icpu_rty_i, icpu_err_i, icpu_adr_i, icpu_tag_i,
- immu_en,
-
- // Debug unit
- ex_insn, ex_freeze, id_pc, branch_op,
- spr_dat_npc, rf_dataw,
- du_stall, du_addr, du_dat_du, du_read, du_write, du_dsr, du_hwbkpt,
- du_except, du_dat_cpu,
-
- // Data interface
- dc_en,
- dcpu_adr_o, dcpu_cycstb_o, dcpu_we_o, dcpu_sel_o, dcpu_tag_o, dcpu_dat_o,
- dcpu_dat_i, dcpu_ack_i, dcpu_rty_i, dcpu_err_i, dcpu_tag_i,
- dmmu_en,
-
- // SR Interface
- boot_adr_sel_i,
-
- // Interrupt & tick exceptions
- sig_int, sig_tick,
-
- // SPR interface
- supv, spr_addr, spr_dat_cpu, spr_dat_pic, spr_dat_tt, spr_dat_pm,
- spr_dat_dmmu, spr_dat_immu, spr_dat_du, spr_cs, spr_we
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_REGFILE_ADDR_WIDTH;
-
-//
-// I/O ports
-//
-
-//
-// Clk & Rst
-//
-input clk;
-input rst;
-
-//
-// Insn (IC) interface
-//
-output ic_en;
-output [31:0] icpu_adr_o;
-output icpu_cycstb_o;
-output [3:0] icpu_sel_o;
-output [3:0] icpu_tag_o;
-input [31:0] icpu_dat_i;
-input icpu_ack_i;
-input icpu_rty_i;
-input icpu_err_i;
-input [31:0] icpu_adr_i;
-input [3:0] icpu_tag_i;
-
-//
-// Insn (IMMU) interface
-//
-output immu_en;
-
-//
-// Debug interface
-//
-output [31:0] ex_insn;
-output ex_freeze;
-output [31:0] id_pc;
-output [`OR1200_BRANCHOP_WIDTH-1:0] branch_op;
-
-input du_stall;
-input [dw-1:0] du_addr;
-input [dw-1:0] du_dat_du;
-input du_read;
-input du_write;
-input [`OR1200_DU_DSR_WIDTH-1:0] du_dsr;
-input du_hwbkpt;
-output [13:0] du_except;
-output [dw-1:0] du_dat_cpu;
-output [dw-1:0] rf_dataw;
-
-//
-// Data (DC) interface
-//
-output [31:0] dcpu_adr_o;
-output dcpu_cycstb_o;
-output dcpu_we_o;
-output [3:0] dcpu_sel_o;
-output [3:0] dcpu_tag_o;
-output [31:0] dcpu_dat_o;
-input [31:0] dcpu_dat_i;
-input dcpu_ack_i;
-input dcpu_rty_i;
-input dcpu_err_i;
-input [3:0] dcpu_tag_i;
-output dc_en;
-
-//
-// Data (DMMU) interface
-//
-output dmmu_en;
-
-//
-// SR Interface
-//
-input boot_adr_sel_i;
-
-//
-// SPR interface
-//
-output supv;
-input [dw-1:0] spr_dat_pic;
-input [dw-1:0] spr_dat_tt;
-input [dw-1:0] spr_dat_pm;
-input [dw-1:0] spr_dat_dmmu;
-input [dw-1:0] spr_dat_immu;
-input [dw-1:0] spr_dat_du;
-output [dw-1:0] spr_addr;
-output [dw-1:0] spr_dat_cpu;
-output [dw-1:0] spr_dat_npc;
-output [31:0] spr_cs;
-output spr_we;
-
-//
-// Interrupt exceptions
-//
-input sig_int;
-input sig_tick;
-
-//
-// Internal wires
-//
-wire [31:0] if_insn;
-wire [31:0] if_pc;
-wire [31:2] lr_sav;
-wire [aw-1:0] rf_addrw;
-wire [aw-1:0] rf_addra;
-wire [aw-1:0] rf_addrb;
-wire rf_rda;
-wire rf_rdb;
-wire [dw-1:0] simm;
-wire [dw-1:2] branch_addrofs;
-wire [`OR1200_ALUOP_WIDTH-1:0] alu_op;
-wire [`OR1200_SHROTOP_WIDTH-1:0] shrot_op;
-wire [`OR1200_COMPOP_WIDTH-1:0] comp_op;
-wire [`OR1200_BRANCHOP_WIDTH-1:0] pre_branch_op;
-wire [`OR1200_BRANCHOP_WIDTH-1:0] branch_op;
-wire [`OR1200_LSUOP_WIDTH-1:0] lsu_op;
-wire genpc_freeze;
-wire if_freeze;
-wire id_freeze;
-wire ex_freeze;
-wire wb_freeze;
-wire [`OR1200_SEL_WIDTH-1:0] sel_a;
-wire [`OR1200_SEL_WIDTH-1:0] sel_b;
-wire [`OR1200_RFWBOP_WIDTH-1:0] rfwb_op;
-`ifdef OR1200_FPU_IMPLEMENTED
-wire [`OR1200_FPUOP_WIDTH-1:0] fpu_op;
-`endif
-wire [dw-1:0] rf_dataw;
-wire [dw-1:0] rf_dataa;
-wire [dw-1:0] rf_datab;
-wire [dw-1:0] muxed_b;
-wire [dw-1:0] wb_forw;
-wire wbforw_valid;
-wire [dw-1:0] operand_a;
-wire [dw-1:0] operand_b;
-wire [dw-1:0] alu_dataout;
-wire [dw-1:0] lsu_dataout;
-wire [dw-1:0] sprs_dataout;
-`ifdef OR1200_FPU_IMPLEMENTED
-wire [dw-1:0] fpu_dataout;
-`endif
-wire [31:0] lsu_addrofs;
-wire [`OR1200_MULTICYCLE_WIDTH-1:0] multicycle;
-wire [`OR1200_EXCEPT_WIDTH-1:0] except_type;
-wire [4:0] cust5_op;
-wire [5:0] cust5_limm;
-wire flushpipe;
-wire extend_flush;
-wire branch_taken;
-wire flag;
-wire flagforw;
-wire flag_we;
-wire flagforw_alu;
-wire flag_we_alu;
-`ifdef OR1200_FPU_IMPLEMENTED
-wire flagforw_fpu;
-wire flag_we_fpu;
-`endif
-wire carry;
-wire cyforw;
-wire cy_we_alu;
-wire cy_we_rf;
-wire lsu_stall;
-wire epcr_we;
-wire eear_we;
-wire esr_we;
-wire pc_we;
-wire [31:0] epcr;
-wire [31:0] eear;
-wire [`OR1200_SR_WIDTH-1:0] esr;
-wire [`OR1200_FPCSR_WIDTH-1:0] fpcsr;
-wire fpcsr_we;
-wire sr_we;
-wire [`OR1200_SR_WIDTH-1:0] to_sr;
-wire [`OR1200_SR_WIDTH-1:0] sr;
-wire except_start;
-wire except_started;
-wire fpu_except_started;
-wire [31:0] wb_insn;
-wire [15:0] spr_addrimm;
-wire sig_syscall;
-wire sig_trap;
-wire sig_fp;
-wire [31:0] spr_dat_cfgr;
-wire [31:0] spr_dat_rf;
-wire [31:0] spr_dat_npc;
-wire [31:0] spr_dat_ppc;
-wire [31:0] spr_dat_mac;
-`ifdef OR1200_FPU_IMPLEMENTED
-wire [31:0] spr_dat_fpu;
-`endif
-wire force_dslot_fetch;
-
-wire no_more_dslot;
-wire ex_void;
-wire if_stall;
-wire id_macrc_op;
-wire ex_macrc_op;
-wire [`OR1200_MACOP_WIDTH-1:0] mac_op;
-wire [31:0] mult_mac_result;
-wire mac_stall;
-wire [13:0] except_stop;
-wire genpc_refetch;
-wire rfe;
-wire lsu_unstall;
-wire except_align;
-wire except_dtlbmiss;
-wire except_dmmufault;
-wire except_illegal;
-wire except_itlbmiss;
-wire except_immufault;
-wire except_ibuserr;
-wire except_dbuserr;
-wire abort_ex;
-
-//
-// Send exceptions to Debug Unit
-//
-assign du_except = except_stop;
-
-//
-// Data cache enable
-//
-assign dc_en = sr[`OR1200_SR_DCE];
-
-//
-// Instruction cache enable
-//
-assign ic_en = sr[`OR1200_SR_ICE];
-
-//
-// DMMU enable
-//
-assign dmmu_en = sr[`OR1200_SR_DME];
-
-//
-// IMMU enable
-//
-assign immu_en = sr[`OR1200_SR_IME];
-
-//
-// SUPV bit
-//
-assign supv = sr[`OR1200_SR_SM];
-
-//
-// Flag WE
-//
-`ifdef OR1200_FPU_IMPLEMENTED
-assign flagforw = (flag_we_alu & flagforw_alu) | (flagforw_fpu & flag_we_fpu);
-assign flag_we = flag_we_alu | flag_we_fpu;
-`else
-assign flagforw = flagforw_alu;
-assign flag_we = flag_we_alu;
-`endif
-
-//
-// Instantiation of instruction fetch block
-//
-or1200_genpc or1200_genpc(
- .clk(clk),
- .rst(rst),
- .icpu_adr_o(icpu_adr_o),
- .icpu_cycstb_o(icpu_cycstb_o),
- .icpu_sel_o(icpu_sel_o),
- .icpu_tag_o(icpu_tag_o),
- .icpu_rty_i(icpu_rty_i),
- .icpu_adr_i(icpu_adr_i),
-
- .pre_branch_op(pre_branch_op),
- .branch_op(branch_op),
- .except_type(except_type),
- .except_start(except_start),
- .except_prefix(sr[`OR1200_SR_EPH]),
- .branch_addrofs(branch_addrofs),
- .lr_restor(operand_b),
- .flag(flag),
- .taken(branch_taken),
- .binsn_addr(lr_sav),
- .epcr(epcr),
- .spr_dat_i(spr_dat_cpu),
- .spr_pc_we(pc_we),
- .genpc_refetch(genpc_refetch),
- .genpc_freeze(genpc_freeze),
- .genpc_stop_prefetch(1'b0),
- .no_more_dslot(no_more_dslot)
-);
-
-//
-// Instantiation of instruction fetch block
-//
-or1200_if or1200_if(
- .clk(clk),
- .rst(rst),
- .icpu_dat_i(icpu_dat_i),
- .icpu_ack_i(icpu_ack_i),
- .icpu_err_i(icpu_err_i),
- .icpu_adr_i(icpu_adr_i),
- .icpu_tag_i(icpu_tag_i),
-
- .if_freeze(if_freeze),
- .if_insn(if_insn),
- .if_pc(if_pc),
- .flushpipe(flushpipe),
- .if_stall(if_stall),
- .no_more_dslot(no_more_dslot),
- .genpc_refetch(genpc_refetch),
- .rfe(rfe),
- .except_itlbmiss(except_itlbmiss),
- .except_immufault(except_immufault),
- .except_ibuserr(except_ibuserr)
-);
-
-//
-// Instantiation of instruction decode/control logic
-//
-or1200_ctrl or1200_ctrl(
- .clk(clk),
- .rst(rst),
- .id_freeze(id_freeze),
- .ex_freeze(ex_freeze),
- .wb_freeze(wb_freeze),
- .flushpipe(flushpipe),
- .if_insn(if_insn),
- .ex_insn(ex_insn),
- .pre_branch_op(pre_branch_op),
- .branch_op(branch_op),
- .branch_taken(branch_taken),
- .rf_addra(rf_addra),
- .rf_addrb(rf_addrb),
- .rf_rda(rf_rda),
- .rf_rdb(rf_rdb),
- .alu_op(alu_op),
- .mac_op(mac_op),
- .shrot_op(shrot_op),
- .comp_op(comp_op),
- .rf_addrw(rf_addrw),
- .rfwb_op(rfwb_op),
-`ifdef OR1200_FPU_IMPLEMENTED
- .fpu_op(fpu_op),
-`endif
- .wb_insn(wb_insn),
- .simm(simm),
- .branch_addrofs(branch_addrofs),
- .lsu_addrofs(lsu_addrofs),
- .sel_a(sel_a),
- .sel_b(sel_b),
- .lsu_op(lsu_op),
- .cust5_op(cust5_op),
- .cust5_limm(cust5_limm),
- .multicycle(multicycle),
- .spr_addrimm(spr_addrimm),
- .wbforw_valid(wbforw_valid),
- .sig_syscall(sig_syscall),
- .sig_trap(sig_trap),
- .force_dslot_fetch(force_dslot_fetch),
- .no_more_dslot(no_more_dslot),
- .ex_void(ex_void),
- .id_macrc_op(id_macrc_op),
- .ex_macrc_op(ex_macrc_op),
- .rfe(rfe),
- .du_hwbkpt(du_hwbkpt),
- .except_illegal(except_illegal)
-);
-
-//
-// Instantiation of register file
-//
-or1200_rf or1200_rf(
- .clk(clk),
- .rst(rst),
- .cy_we_i(cy_we_alu),
- .cy_we_o(cy_we_rf),
- .supv(sr[`OR1200_SR_SM]),
- .wb_freeze(wb_freeze),
- .addrw(rf_addrw),
- .dataw(rf_dataw),
- .id_freeze(id_freeze),
- .we(rfwb_op[0]),
- .flushpipe(flushpipe),
- .addra(rf_addra),
- .rda(rf_rda),
- .dataa(rf_dataa),
- .addrb(rf_addrb),
- .rdb(rf_rdb),
- .datab(rf_datab),
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_SYS]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_rf)
-);
-
-//
-// Instantiation of operand muxes
-//
-or1200_operandmuxes or1200_operandmuxes(
- .clk(clk),
- .rst(rst),
- .id_freeze(id_freeze),
- .ex_freeze(ex_freeze),
- .rf_dataa(rf_dataa),
- .rf_datab(rf_datab),
- .ex_forw(rf_dataw),
- .wb_forw(wb_forw),
- .simm(simm),
- .sel_a(sel_a),
- .sel_b(sel_b),
- .operand_a(operand_a),
- .operand_b(operand_b),
- .muxed_b(muxed_b)
-);
-
-//
-// Instantiation of CPU's ALU
-//
-or1200_alu or1200_alu(
- .a(operand_a),
- .b(operand_b),
- .mult_mac_result(mult_mac_result),
- .macrc_op(ex_macrc_op),
- .alu_op(alu_op),
- .shrot_op(shrot_op),
- .comp_op(comp_op),
- .cust5_op(cust5_op),
- .cust5_limm(cust5_limm),
- .result(alu_dataout),
- .flagforw(flagforw_alu),
- .flag_we(flag_we_alu),
- .cyforw(cyforw),
- .cy_we(cy_we_alu),
- .flag(flag),
- .carry(carry)
-);
-
-//
-// Instantiation of CPU's ALU
-//
-or1200_mult_mac or1200_mult_mac(
- .clk(clk),
- .rst(rst),
- .ex_freeze(ex_freeze),
- .id_macrc_op(id_macrc_op),
- .macrc_op(ex_macrc_op),
- .a(operand_a),
- .b(operand_b),
- .mac_op(mac_op),
- .alu_op(alu_op),
- .result(mult_mac_result),
- .mac_stall_r(mac_stall),
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_MAC]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_mac)
-);
-
-`ifdef OR1200_FPU_IMPLEMENTED
-
-//
-// FPU's exception is being dealt with
-//
-assign fpu_except_started = except_started && (except_type == `OR1200_EXCEPT_FLOAT);
-
-//
-// Instantiation of FPU
-//
-or1200_fpu or1200_fpu(
- .clk(clk),
- .rst(rst),
- .ex_freeze(ex_freeze),
- .a(operand_a),
- .b(operand_b),
- .fpu_op(fpu_op),
- .result(fpu_dataout),
- .flagforw(flagforw_fpu),
- .flag_we(flag_we_fpu),
- .sig_fp(sig_fp),
- .except_started(fpu_except_started),
- .fpcsr_we(fpcsr_we),
- .fpcsr(fpcsr),
- .spr_cs(spr_cs[`OR1200_SPR_GROUP_FPU]),
- .spr_write(spr_we),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_cpu),
- .spr_dat_o(spr_dat_fpu)
-);
-`else
- assign sig_fp = 0;
- assign fpcsr = 0;
-`endif
-
-//
-// Instantiation of CPU's SPRS block
-//
-or1200_sprs or1200_sprs(
- .clk(clk),
- .rst(rst),
- .addrbase(operand_a),
- .addrofs(spr_addrimm),
- .dat_i(operand_b),
- .alu_op(alu_op),
- .flagforw(flagforw),
- .flag_we(flag_we),
- .flag(flag),
- .cyforw(cyforw),
- .cy_we(cy_we_rf),
- .carry(carry),
- .to_wbmux(sprs_dataout),
-
- .du_addr(du_addr),
- .du_dat_du(du_dat_du),
- .du_read(du_read),
- .du_write(du_write),
- .du_dat_cpu(du_dat_cpu),
-
- .boot_adr_sel_i(boot_adr_sel_i),
- .spr_addr(spr_addr),
- .spr_dat_pic(spr_dat_pic),
- .spr_dat_tt(spr_dat_tt),
- .spr_dat_pm(spr_dat_pm),
- .spr_dat_cfgr(spr_dat_cfgr),
- .spr_dat_rf(spr_dat_rf),
- .spr_dat_npc(spr_dat_npc),
- .spr_dat_ppc(spr_dat_ppc),
- .spr_dat_mac(spr_dat_mac),
- .spr_dat_dmmu(spr_dat_dmmu),
- .spr_dat_immu(spr_dat_immu),
- .spr_dat_du(spr_dat_du),
- .spr_dat_o(spr_dat_cpu),
- .spr_cs(spr_cs),
- .spr_we(spr_we),
-
- .epcr_we(epcr_we),
- .eear_we(eear_we),
- .esr_we(esr_we),
- .pc_we(pc_we),
- .epcr(epcr),
- .eear(eear),
- .esr(esr),
- .except_started(except_started),
-
-`ifdef OR1200_FPU_IMPLEMENTED
- .fpcsr(fpcsr),
- .fpcsr_we(fpcsr_we),
- .spr_dat_fpu(spr_dat_fpu),
-`endif
-
- .sr_we(sr_we),
- .to_sr(to_sr),
- .sr(sr),
- .branch_op(branch_op)
-);
-
-//
-// Instantiation of load/store unit
-//
-or1200_lsu or1200_lsu(
- .addrbase(operand_a),
- .addrofs(lsu_addrofs),
- .lsu_op(lsu_op),
- .lsu_datain(operand_b),
- .lsu_dataout(lsu_dataout),
- .lsu_stall(lsu_stall),
- .lsu_unstall(lsu_unstall),
- .du_stall(du_stall),
- .except_align(except_align),
- .except_dtlbmiss(except_dtlbmiss),
- .except_dmmufault(except_dmmufault),
- .except_dbuserr(except_dbuserr),
-
- .dcpu_adr_o(dcpu_adr_o),
- .dcpu_cycstb_o(dcpu_cycstb_o),
- .dcpu_we_o(dcpu_we_o),
- .dcpu_sel_o(dcpu_sel_o),
- .dcpu_tag_o(dcpu_tag_o),
- .dcpu_dat_o(dcpu_dat_o),
- .dcpu_dat_i(dcpu_dat_i),
- .dcpu_ack_i(dcpu_ack_i),
- .dcpu_rty_i(dcpu_rty_i),
- .dcpu_err_i(dcpu_err_i),
- .dcpu_tag_i(dcpu_tag_i)
-);
-
-//
-// Instantiation of write-back muxes
-//
-or1200_wbmux or1200_wbmux(
- .clk(clk),
- .rst(rst),
- .wb_freeze(wb_freeze),
- .rfwb_op(rfwb_op),
- .muxin_a(alu_dataout),
- .muxin_b(lsu_dataout),
- .muxin_c(sprs_dataout),
- .muxin_d({lr_sav, 2'b0}),
-`ifdef OR1200_FPU_IMPLEMENTED
- .muxin_e(fpu_dataout),
-`endif
- .muxout(rf_dataw),
- .muxreg(wb_forw),
- .muxreg_valid(wbforw_valid)
-);
-
-//
-// Instantiation of freeze logic
-//
-or1200_freeze or1200_freeze(
- .clk(clk),
- .rst(rst),
- .multicycle(multicycle),
- .flushpipe(flushpipe),
- .extend_flush(extend_flush),
- .lsu_stall(lsu_stall),
- .if_stall(if_stall),
- .lsu_unstall(lsu_unstall),
- .force_dslot_fetch(force_dslot_fetch),
- .abort_ex(abort_ex),
- .du_stall(du_stall),
- .mac_stall(mac_stall),
- .genpc_freeze(genpc_freeze),
- .if_freeze(if_freeze),
- .id_freeze(id_freeze),
- .ex_freeze(ex_freeze),
- .wb_freeze(wb_freeze),
- .icpu_ack_i(icpu_ack_i),
- .icpu_err_i(icpu_err_i)
-);
-
-//
-// Instantiation of exception block
-//
-or1200_except or1200_except(
- .clk(clk),
- .rst(rst),
- .sig_ibuserr(except_ibuserr),
- .sig_dbuserr(except_dbuserr),
- .sig_illegal(except_illegal),
- .sig_align(except_align),
- .sig_range(1'b0),
- .sig_dtlbmiss(except_dtlbmiss),
- .sig_dmmufault(except_dmmufault),
- .sig_int(sig_int),
- .sig_syscall(sig_syscall),
- .sig_trap(sig_trap),
- .sig_itlbmiss(except_itlbmiss),
- .sig_immufault(except_immufault),
- .sig_tick(sig_tick),
- .sig_fp(sig_fp),
- .fpcsr_fpee(fpcsr[`OR1200_FPCSR_FPEE]),
- .branch_taken(branch_taken),
- .icpu_ack_i(icpu_ack_i),
- .icpu_err_i(icpu_err_i),
- .dcpu_ack_i(dcpu_ack_i),
- .dcpu_err_i(dcpu_err_i),
- .genpc_freeze(genpc_freeze),
- .id_freeze(id_freeze),
- .ex_freeze(ex_freeze),
- .wb_freeze(wb_freeze),
- .if_stall(if_stall),
- .if_pc(if_pc),
- .id_pc(id_pc),
- .lr_sav(lr_sav),
- .flushpipe(flushpipe),
- .extend_flush(extend_flush),
- .except_type(except_type),
- .except_start(except_start),
- .except_started(except_started),
- .except_stop(except_stop),
- .ex_void(ex_void),
- .spr_dat_ppc(spr_dat_ppc),
- .spr_dat_npc(spr_dat_npc),
-
- .datain(operand_b),
- .du_dsr(du_dsr),
- .epcr_we(epcr_we),
- .eear_we(eear_we),
- .esr_we(esr_we),
- .pc_we(pc_we),
- .epcr(epcr),
- .eear(eear),
- .esr(esr),
-
- .lsu_addr(dcpu_adr_o),
- .sr_we(sr_we),
- .to_sr(to_sr),
- .sr(sr),
- .abort_ex(abort_ex)
-);
-
-//
-// Instantiation of configuration registers
-//
-or1200_cfgr or1200_cfgr(
- .spr_addr(spr_addr),
- .spr_dat_o(spr_dat_cfgr)
-);
-
-endmodule
verilog/components/or1200r2/or1200_cpu.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_xcv_ram32x8d.v
===================================================================
--- verilog/components/or1200r2/or1200_xcv_ram32x8d.v (revision 185)
+++ verilog/components/or1200r2/or1200_xcv_ram32x8d.v (nonexistent)
@@ -1,591 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Xilinx Virtex RAM 32x8D ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Virtex dual-port memory ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_xcv_ram32x8d.v,v $
-// Revision 1.2 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-`ifdef OR1200_XILINX_RAM32X1D
-`ifdef OR1200_USE_RAM16X1D_FOR_RAM32X1D
-module or1200_xcv_ram32x8d
-(
- DPO,
- SPO,
- A,
- D,
- DPRA,
- WCLK,
- WE
-);
-output [7:0] DPO;
-output [7:0] SPO;
-input [4:0] A;
-input [4:0] DPRA;
-input [7:0] D;
-input WCLK;
-input WE;
-
-wire [7:0] DPO_0;
-wire [7:0] SPO_0;
-
-wire [7:0] DPO_1;
-wire [7:0] SPO_1;
-
-wire WE_0 ;
-wire WE_1 ;
-
-assign DPO = DPRA[4] ? DPO_1 : DPO_0 ;
-assign SPO = A[4] ? SPO_1 : SPO_0 ;
-
-assign WE_0 = !A[4] && WE ;
-assign WE_1 = A[4] && WE ;
-
-RAM16X1D ram32x1d_0_0(
- .DPO(DPO_0[0]),
- .SPO(SPO_0[0]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[0]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 1
-//
-RAM16X1D ram32x1d_0_1(
- .DPO(DPO_0[1]),
- .SPO(SPO_0[1]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[1]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 2
-//
-RAM16X1D ram32x1d_0_2(
- .DPO(DPO_0[2]),
- .SPO(SPO_0[2]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[2]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 3
-//
-RAM16X1D ram32x1d_0_3(
- .DPO(DPO_0[3]),
- .SPO(SPO_0[3]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[3]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 4
-//
-RAM16X1D ram32x1d_0_4(
- .DPO(DPO_0[4]),
- .SPO(SPO_0[4]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[4]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 5
-//
-RAM16X1D ram32x1d_0_5(
- .DPO(DPO_0[5]),
- .SPO(SPO_0[5]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[5]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 6
-//
-RAM16X1D ram32x1d_0_6(
- .DPO(DPO_0[6]),
- .SPO(SPO_0[6]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[6]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-//
-// Instantiation of block 7
-//
-RAM16X1D ram32x1d_0_7(
- .DPO(DPO_0[7]),
- .SPO(SPO_0[7]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[7]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_0)
-);
-
-RAM16X1D ram32x1d_1_0(
- .DPO(DPO_1[0]),
- .SPO(SPO_1[0]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[0]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 1
-//
-RAM16X1D ram32x1d_1_1(
- .DPO(DPO_1[1]),
- .SPO(SPO_1[1]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[1]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 2
-//
-RAM16X1D ram32x1d_1_2(
- .DPO(DPO_1[2]),
- .SPO(SPO_1[2]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[2]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 3
-//
-RAM16X1D ram32x1d_1_3(
- .DPO(DPO_1[3]),
- .SPO(SPO_1[3]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[3]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 4
-//
-RAM16X1D ram32x1d_1_4(
- .DPO(DPO_1[4]),
- .SPO(SPO_1[4]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[4]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 5
-//
-RAM16X1D ram32x1d_1_5(
- .DPO(DPO_1[5]),
- .SPO(SPO_1[5]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[5]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 6
-//
-RAM16X1D ram32x1d_1_6(
- .DPO(DPO_1[6]),
- .SPO(SPO_1[6]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[6]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-
-//
-// Instantiation of block 7
-//
-RAM16X1D ram32x1d_1_7(
- .DPO(DPO_1[7]),
- .SPO(SPO_1[7]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .D(D[7]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .WCLK(WCLK),
- .WE(WE_1)
-);
-endmodule
-
-`else
-
-module or1200_xcv_ram32x8d (DPO, SPO, A, D, DPRA, WCLK, WE);
-
-//
-// I/O
-//
-output [7:0] DPO;
-output [7:0] SPO;
-input [4:0] A;
-input [4:0] DPRA;
-input [7:0] D;
-input WCLK;
-input WE;
-
-//
-// Instantiation of block 0
-//
-RAM32X1D ram32x1d_0(
- .DPO(DPO[0]),
- .SPO(SPO[0]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[0]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 1
-//
-RAM32X1D ram32x1d_1(
- .DPO(DPO[1]),
- .SPO(SPO[1]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[1]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 2
-//
-RAM32X1D ram32x1d_2(
- .DPO(DPO[2]),
- .SPO(SPO[2]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[2]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 3
-//
-RAM32X1D ram32x1d_3(
- .DPO(DPO[3]),
- .SPO(SPO[3]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[3]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 4
-//
-RAM32X1D ram32x1d_4(
- .DPO(DPO[4]),
- .SPO(SPO[4]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[4]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 5
-//
-RAM32X1D ram32x1d_5(
- .DPO(DPO[5]),
- .SPO(SPO[5]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[5]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 6
-//
-RAM32X1D ram32x1d_6(
- .DPO(DPO[6]),
- .SPO(SPO[6]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[6]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-//
-// Instantiation of block 7
-//
-RAM32X1D ram32x1d_7(
- .DPO(DPO[7]),
- .SPO(SPO[7]),
- .A0(A[0]),
- .A1(A[1]),
- .A2(A[2]),
- .A3(A[3]),
- .A4(A[4]),
- .D(D[7]),
- .DPRA0(DPRA[0]),
- .DPRA1(DPRA[1]),
- .DPRA2(DPRA[2]),
- .DPRA3(DPRA[3]),
- .DPRA4(DPRA[4]),
- .WCLK(WCLK),
- .WE(WE)
-);
-
-endmodule
-`endif
-`endif
verilog/components/or1200r2/or1200_xcv_ram32x8d.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_except.v
===================================================================
--- verilog/components/or1200r2/or1200_except.v (revision 185)
+++ verilog/components/or1200r2/or1200_except.v (nonexistent)
@@ -1,630 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Exception logic ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Handles all OR1K exceptions inside CPU block. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_except.v,v $
-// Revision 1.17 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.16 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.15.4.1 2004/02/11 01:40:11 lampret
-// preliminary HW breakpoints support in debug unit (by default disabled). To enable define OR1200_DU_HWBKPTS.
-//
-// Revision 1.15 2003/04/20 22:23:57 lampret
-// No functional change. Only added customization for exception vectors.
-//
-// Revision 1.14 2002/09/03 22:28:21 lampret
-// As per Taylor Su suggestion all case blocks are full case by default and optionally (OR1200_CASE_DEFAULT) can be disabled to increase clock frequncy.
-//
-// Revision 1.13 2002/08/28 01:44:25 lampret
-// Removed some commented RTL. Fixed SR/ESR flag bug.
-//
-// Revision 1.12 2002/08/22 02:16:45 lampret
-// Fixed IMMU bug.
-//
-// Revision 1.11 2002/08/18 19:54:28 lampret
-// Added store buffer.
-//
-// Revision 1.10 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.9 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.8 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.7 2002/01/23 07:52:36 lampret
-// Changed default reset values for SR and ESR to match or1ksim's. Fixed flop model in or1200_dpram_32x32 when OR1200_XILINX_RAM32X1D is defined.
-//
-// Revision 1.6 2002/01/18 14:21:43 lampret
-// Fixed 'the NPC single-step fix'.
-//
-// Revision 1.5 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.4 2002/01/14 21:11:50 lampret
-// Changed alignment exception EPCR. Not tested yet.
-//
-// Revision 1.3 2002/01/14 19:09:57 lampret
-// Fixed order of syscall and range exceptions.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.15 2001/11/27 23:13:11 lampret
-// Fixed except_stop width and fixed EX PC for 1400444f no-ops.
-//
-// Revision 1.14 2001/11/23 08:38:51 lampret
-// Changed DSR/DRR behavior and exception detection.
-//
-// Revision 1.13 2001/11/20 18:46:15 simons
-// Break point bug fixed
-//
-// Revision 1.12 2001/11/18 09:58:28 lampret
-// Fixed some l.trap typos.
-//
-// Revision 1.11 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.10 2001/11/13 10:02:21 lampret
-// Added 'setpc'. Renamed some signals (except_flushpipe into flushpipe etc)
-//
-// Revision 1.9 2001/11/10 03:43:57 lampret
-// Fixed exceptions.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-`define OR1200_EXCEPTFSM_WIDTH 3
-`define OR1200_EXCEPTFSM_IDLE `OR1200_EXCEPTFSM_WIDTH'd0
-`define OR1200_EXCEPTFSM_FLU1 `OR1200_EXCEPTFSM_WIDTH'd1
-`define OR1200_EXCEPTFSM_FLU2 `OR1200_EXCEPTFSM_WIDTH'd2
-`define OR1200_EXCEPTFSM_FLU3 `OR1200_EXCEPTFSM_WIDTH'd3
-`define OR1200_EXCEPTFSM_FLU4 `OR1200_EXCEPTFSM_WIDTH'd4
-`define OR1200_EXCEPTFSM_FLU5 `OR1200_EXCEPTFSM_WIDTH'd5
-
-//
-// Exception recognition and sequencing
-//
-
-module or1200_except(
- // Clock and reset
- clk, rst,
-
- // Internal i/f
- sig_ibuserr, sig_dbuserr, sig_illegal, sig_align, sig_range, sig_dtlbmiss, sig_dmmufault,
- sig_int, sig_syscall, sig_trap, sig_itlbmiss, sig_immufault, sig_tick, sig_fp, fpcsr_fpee,
- branch_taken, genpc_freeze, id_freeze, ex_freeze, wb_freeze, if_stall,
- if_pc, id_pc, lr_sav, flushpipe, extend_flush, except_type, except_start,
- except_started, except_stop, ex_void,
- spr_dat_ppc, spr_dat_npc, datain, du_dsr, epcr_we, eear_we, esr_we, pc_we, epcr, eear,
- esr, sr_we, to_sr, sr, lsu_addr, abort_ex, icpu_ack_i, icpu_err_i, dcpu_ack_i, dcpu_err_i
-);
-
-//
-// I/O
-//
-input clk;
-input rst;
-input sig_ibuserr;
-input sig_dbuserr;
-input sig_illegal;
-input sig_align;
-input sig_range;
-input sig_dtlbmiss;
-input sig_dmmufault;
-input sig_int;
-input sig_syscall;
-input sig_trap;
-input sig_itlbmiss;
-input sig_immufault;
-input sig_tick;
-input sig_fp;
-input fpcsr_fpee;
-input branch_taken;
-input genpc_freeze;
-input id_freeze;
-input ex_freeze;
-input wb_freeze;
-input if_stall;
-input [31:0] if_pc;
-output [31:0] id_pc;
-output [31:2] lr_sav;
-input [31:0] datain;
-input [`OR1200_DU_DSR_WIDTH-1:0] du_dsr;
-input epcr_we;
-input eear_we;
-input esr_we;
-input pc_we;
-output [31:0] epcr;
-output [31:0] eear;
-output [`OR1200_SR_WIDTH-1:0] esr;
-input [`OR1200_SR_WIDTH-1:0] to_sr;
-input sr_we;
-input [`OR1200_SR_WIDTH-1:0] sr;
-input [31:0] lsu_addr;
-output flushpipe;
-output extend_flush;
-output [`OR1200_EXCEPT_WIDTH-1:0] except_type;
-output except_start;
-output except_started;
-output [13:0] except_stop;
-input ex_void;
-output [31:0] spr_dat_ppc;
-output [31:0] spr_dat_npc;
-output abort_ex;
-input icpu_ack_i;
-input icpu_err_i;
-input dcpu_ack_i;
-input dcpu_err_i;
-
-//
-// Internal regs and wires
-//
-reg [`OR1200_EXCEPT_WIDTH-1:0] except_type /* verilator public */;
-reg [31:0] id_pc /* verilator public */;
-reg [31:0] ex_pc /* verilator public */;
-reg [31:0] wb_pc /* verilator public */;
-reg [31:0] epcr;
-reg [31:0] eear;
-reg [`OR1200_SR_WIDTH-1:0] esr;
-reg [2:0] id_exceptflags;
-reg [2:0] ex_exceptflags;
-reg [`OR1200_EXCEPTFSM_WIDTH-1:0] state;
-reg extend_flush;
-reg extend_flush_last;
-reg ex_dslot /* verilator public */;
-reg delayed1_ex_dslot;
-reg delayed2_ex_dslot;
-wire except_started;
-wire [13:0] except_trig;
-wire except_flushpipe /* verilator public */;
-reg [2:0] delayed_iee;
-reg [2:0] delayed_tee;
-wire int_pending;
-wire tick_pending;
-wire fp_pending;
-
-
-//
-// Simple combinatorial logic
-//
-assign except_started = extend_flush & except_start;
-assign lr_sav = ex_pc[31:2];
-assign spr_dat_ppc = wb_pc;
-assign spr_dat_npc = ex_void ? id_pc : ex_pc;
-assign except_start = (except_type != `OR1200_EXCEPT_NONE) & extend_flush;
-assign int_pending = sig_int & sr[`OR1200_SR_IEE] & delayed_iee[2] & ~ex_freeze & ~branch_taken & ~ex_dslot;
-assign tick_pending = sig_tick & sr[`OR1200_SR_TEE] & ~ex_freeze & ~branch_taken & ~ex_dslot;
-assign fp_pending = sig_fp & fpcsr_fpee & ~ex_freeze & ~branch_taken & ~ex_dslot;
-assign abort_ex = sig_dbuserr | sig_dmmufault | sig_dtlbmiss | sig_align | sig_illegal; // Abort write into RF by load & other instructions
-
-//
-// Order defines exception detection priority
-//
-assign except_trig = {
- tick_pending & ~du_dsr[`OR1200_DU_DSR_TTE],
- int_pending & ~du_dsr[`OR1200_DU_DSR_IE],
- ex_exceptflags[1] & ~du_dsr[`OR1200_DU_DSR_IME],
- ex_exceptflags[0] & ~du_dsr[`OR1200_DU_DSR_IPFE],
- ex_exceptflags[2] & ~du_dsr[`OR1200_DU_DSR_BUSEE],
- sig_illegal & ~du_dsr[`OR1200_DU_DSR_IIE],
- sig_align & ~du_dsr[`OR1200_DU_DSR_AE],
- sig_dtlbmiss & ~du_dsr[`OR1200_DU_DSR_DME],
- sig_dmmufault & ~du_dsr[`OR1200_DU_DSR_DPFE],
- sig_dbuserr & ~du_dsr[`OR1200_DU_DSR_BUSEE],
- sig_range & ~du_dsr[`OR1200_DU_DSR_RE],
- sig_trap & ~du_dsr[`OR1200_DU_DSR_TE] & ~ex_freeze,
- fp_pending & ~du_dsr[`OR1200_DU_DSR_FPE],
- sig_syscall & ~du_dsr[`OR1200_DU_DSR_SCE] & ~ex_freeze
- };
-assign except_stop = {
- tick_pending & du_dsr[`OR1200_DU_DSR_TTE],
- int_pending & du_dsr[`OR1200_DU_DSR_IE],
- ex_exceptflags[1] & du_dsr[`OR1200_DU_DSR_IME],
- ex_exceptflags[0] & du_dsr[`OR1200_DU_DSR_IPFE],
- ex_exceptflags[2] & du_dsr[`OR1200_DU_DSR_BUSEE],
- sig_illegal & du_dsr[`OR1200_DU_DSR_IIE],
- sig_align & du_dsr[`OR1200_DU_DSR_AE],
- sig_dtlbmiss & du_dsr[`OR1200_DU_DSR_DME],
- sig_dmmufault & du_dsr[`OR1200_DU_DSR_DPFE],
- sig_dbuserr & du_dsr[`OR1200_DU_DSR_BUSEE],
- sig_range & du_dsr[`OR1200_DU_DSR_RE],
- sig_trap & du_dsr[`OR1200_DU_DSR_TE] & ~ex_freeze,
- fp_pending & du_dsr[`OR1200_DU_DSR_FPE],
- sig_syscall & du_dsr[`OR1200_DU_DSR_SCE] & ~ex_freeze
- };
-
-`ifdef verilator
- // Function to access wb_pc (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [31:0] get_wb_pc;
- // verilator public
- get_wb_pc = wb_pc;
- endfunction // get_wb_pc
-
- // Function to access id_pc (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [31:0] get_id_pc;
- // verilator public
- get_id_pc = id_pc;
- endfunction // get_id_pc
-
- // Function to access ex_pc (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [31:0] get_ex_pc;
- // verilator public
- get_ex_pc = ex_pc;
- endfunction // get_ex_pc
- // Function to access except_type[3:0] (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [3:0] get_except_type;
- // verilator public
- get_except_type = except_type;
- endfunction // get_except_type
-
-`endif
-
-//
-// PC and Exception flags pipelines
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- id_pc <= #1 32'd0;
- id_exceptflags <= #1 3'b000;
- end
- else if (flushpipe) begin
- id_pc <= #1 32'h0000_0000;
- id_exceptflags <= #1 3'b000;
- end
- else if (!id_freeze) begin
- id_pc <= #1 if_pc;
- id_exceptflags <= #1 { sig_ibuserr, sig_itlbmiss, sig_immufault };
- end
-end
-
-//
-// delayed_iee
-//
-// SR[IEE] should not enable interrupts right away
-// when it is restored with l.rfe. Instead delayed_iee
-// together with SR[IEE] enables interrupts once
-// pipeline is again ready.
-//
-always @(posedge rst or posedge clk)
- if (rst)
- delayed_iee <= #1 3'b000;
- else if (!sr[`OR1200_SR_IEE])
- delayed_iee <= #1 3'b000;
- else
- delayed_iee <= #1 {delayed_iee[1:0], 1'b1};
-
-//
-// delayed_tee
-//
-// SR[TEE] should not enable tick exceptions right away
-// when it is restored with l.rfe. Instead delayed_tee
-// together with SR[TEE] enables tick exceptions once
-// pipeline is again ready.
-//
-always @(posedge rst or posedge clk)
- if (rst)
- delayed_tee <= #1 3'b000;
- else if (!sr[`OR1200_SR_TEE])
- delayed_tee <= #1 3'b000;
- else
- delayed_tee <= #1 {delayed_tee[1:0], 1'b1};
-
-//
-// PC and Exception flags pipelines
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- ex_dslot <= #1 1'b0;
- ex_pc <= #1 32'd0;
- ex_exceptflags <= #1 3'b000;
- delayed1_ex_dslot <= #1 1'b0;
- delayed2_ex_dslot <= #1 1'b0;
- end
- else if (flushpipe) begin
- ex_dslot <= #1 1'b0;
- ex_pc <= #1 32'h0000_0000;
- ex_exceptflags <= #1 3'b000;
- delayed1_ex_dslot <= #1 1'b0;
- delayed2_ex_dslot <= #1 1'b0;
- end
- else if (!ex_freeze & id_freeze) begin
- ex_dslot <= #1 1'b0;
- ex_pc <= #1 id_pc;
- ex_exceptflags <= #1 3'b000;
- delayed1_ex_dslot <= #1 ex_dslot;
- delayed2_ex_dslot <= #1 delayed1_ex_dslot;
- end
- else if (!ex_freeze) begin
- ex_dslot <= #1 branch_taken;
- ex_pc <= #1 id_pc;
- ex_exceptflags <= #1 id_exceptflags;
- delayed1_ex_dslot <= #1 ex_dslot;
- delayed2_ex_dslot <= #1 delayed1_ex_dslot;
- end
-end
-
-//
-// PC and Exception flags pipelines
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- wb_pc <= #1 32'd0;
- end
- else if (!wb_freeze) begin
- wb_pc <= #1 ex_pc;
- end
-end
-
-//
-// Flush pipeline
-//
-assign flushpipe = except_flushpipe | pc_we | extend_flush;
-
-//
-// We have started execution of exception handler:
-// 1. Asserted for 3 clock cycles
-// 2. Don't execute any instruction that is still in pipeline and is not part of exception handler
-//
-assign except_flushpipe = |except_trig & ~|state;
-
-//
-// Exception FSM that sequences execution of exception handler
-//
-// except_type signals which exception handler we start fetching in:
-// 1. Asserted in next clock cycle after exception is recognized
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- state <= #1 `OR1200_EXCEPTFSM_IDLE;
- except_type <= #1 `OR1200_EXCEPT_NONE;
- extend_flush <= #1 1'b0;
- epcr <= #1 32'b0;
- eear <= #1 32'b0;
- esr <= #1 {1'b1, {`OR1200_SR_WIDTH-2{1'b0}}, 1'b1};
- extend_flush_last <= #1 1'b0;
- end
- else begin
-`ifdef OR1200_CASE_DEFAULT
- case (state) // synopsys parallel_case
-`else
- case (state) // synopsys full_case parallel_case
-`endif
- `OR1200_EXCEPTFSM_IDLE:
- if (except_flushpipe) begin
- state <= #1 `OR1200_EXCEPTFSM_FLU1;
- extend_flush <= #1 1'b1;
- esr <= #1 sr_we ? to_sr : sr;
- casex (except_trig)
-`ifdef OR1200_EXCEPT_TICK
- 14'b1x_xxxx_xxxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_TICK;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_INT
- 14'b01_xxxx_xxxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_INT;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_ITLBMISS
- 14'b00_1xxx_xxxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_ITLBMISS;
-//
-// itlb miss exception and active ex_dslot caused wb_pc to put into eear instead of +4 address of ex_pc (or id_pc since it was equal to ex_pc?)
-// eear <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
-// mmu-icdc-O2 ex_pc only OK when no ex_dslot eear <= #1 ex_dslot ? ex_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
-// mmu-icdc-O2 ex_pc only OK when no ex_dslot epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- eear <= #1 ex_dslot ? ex_pc : ex_pc;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
-// eear <= #1 ex_dslot ? ex_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
-// epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_IPF
- 14'b00_01xx_xxxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_IPF;
-//
-// ipf exception and active ex_dslot caused wb_pc to put into eear instead of +4 address of ex_pc (or id_pc since it was equal to ex_pc?)
-// eear <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- eear <= #1 ex_dslot ? ex_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_BUSERR
- 14'b00_001x_xxxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_BUSERR;
- eear <= #1 ex_dslot ? wb_pc : ex_pc;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_ILLEGAL
- 14'b00_0001_xxxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_ILLEGAL;
- eear <= #1 ex_pc;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_ALIGN
- 14'b00_0000_1xxx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_ALIGN;
- eear <= #1 lsu_addr;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_DTLBMISS
- 14'b00_0000_01xx_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_DTLBMISS;
- eear <= #1 lsu_addr;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_DPF
- 14'b00_0000_001x_xxxx: begin
- except_type <= #1 `OR1200_EXCEPT_DPF;
- eear <= #1 lsu_addr;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_BUSERR
- 14'b00_0000_0001_xxxx: begin // Data Bus Error
- except_type <= #1 `OR1200_EXCEPT_BUSERR;
- eear <= #1 lsu_addr;
- epcr <= #1 ex_dslot ? wb_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_RANGE
- 14'b00_0000_0000_1xxx: begin
- except_type <= #1 `OR1200_EXCEPT_RANGE;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_TRAP 14'b00_0000_0000_01xx: begin
- except_type <= #1 `OR1200_EXCEPT_TRAP;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : ex_pc;
- end
-`endif
-`ifdef OR1200_EXCEPT_FLOAT
- 14'b00_0000_0000_001x: begin
- except_type <= #1 `OR1200_EXCEPT_FLOAT;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
-
-`ifdef OR1200_EXCEPT_SYSCALL
- 14'b00_0000_0000_0001: begin
- except_type <= #1 `OR1200_EXCEPT_SYSCALL;
- epcr <= #1 ex_dslot ? wb_pc : delayed1_ex_dslot ? id_pc : delayed2_ex_dslot ? id_pc : id_pc;
- end
-`endif
- default:
- except_type <= #1 `OR1200_EXCEPT_NONE;
- endcase
- end
- else if (pc_we) begin
- state <= #1 `OR1200_EXCEPTFSM_FLU1;
- extend_flush <= #1 1'b1;
- end
- else begin
- if (epcr_we)
- epcr <= #1 datain;
- if (eear_we)
- eear <= #1 datain;
- if (esr_we)
- esr <= #1 {1'b1, datain[`OR1200_SR_WIDTH-2:0]};
- end
- `OR1200_EXCEPTFSM_FLU1:
- if (icpu_ack_i | icpu_err_i | genpc_freeze)
- state <= #1 `OR1200_EXCEPTFSM_FLU2;
- `OR1200_EXCEPTFSM_FLU2:
-`ifdef OR1200_EXCEPT_TRAP
- if (except_type == `OR1200_EXCEPT_TRAP) begin
- state <= #1 `OR1200_EXCEPTFSM_IDLE;
- extend_flush <= #1 1'b0;
- extend_flush_last <= #1 1'b0;
- except_type <= #1 `OR1200_EXCEPT_NONE;
- end
- else
-`endif
- state <= #1 `OR1200_EXCEPTFSM_FLU3;
- `OR1200_EXCEPTFSM_FLU3:
- begin
- state <= #1 `OR1200_EXCEPTFSM_FLU4;
- end
- `OR1200_EXCEPTFSM_FLU4: begin
- state <= #1 `OR1200_EXCEPTFSM_FLU5;
- extend_flush <= #1 1'b0;
- extend_flush_last <= #1 1'b0; // damjan
- end
-`ifdef OR1200_CASE_DEFAULT
- default: begin
-`else
- `OR1200_EXCEPTFSM_FLU5: begin
-`endif
- if (!if_stall && !id_freeze) begin
- state <= #1 `OR1200_EXCEPTFSM_IDLE;
- except_type <= #1 `OR1200_EXCEPT_NONE;
- extend_flush_last <= #1 1'b0;
- end
- end
- endcase
- end
-end
-
-endmodule
verilog/components/or1200r2/or1200_except.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_64x24.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_64x24.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_64x24.v (nonexistent)
@@ -1,413 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_64x24.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:41 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.7 2001/10/22 19:39:56 lampret
-// Fixed parameters in generic sprams.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_64x24(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 6;
-parameter dw = 24;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-`ifdef OR1200_XILINX_RAMB4
-wire [7:0] unconnected;
-`else
-`ifdef OR1200_XILINX_RAMB16
-wire [7:0] unconnected;
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_64x24 #(dw, 1<
verilog/components/or1200r2/or1200_spram_64x24.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_ic_ram.v
===================================================================
--- verilog/components/or1200r2/or1200_ic_ram.v (revision 185)
+++ verilog/components/or1200r2/or1200_ic_ram.v (nonexistent)
@@ -1,181 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's IC RAMs ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of Instruction cache data rams ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_ic_ram.v,v $
-// Revision 1.6 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.5 2004/04/08 11:00:46 simont
-// Add support for 512B instruction cache.
-//
-// Revision 1.4 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.2.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:54 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_ic_ram(
- // Clock and reset
- clk, rst,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // Internal i/f
- addr, en, we, datain, dataout
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_ICINDX;
-
-//
-// I/O
-//
-input clk;
-input rst;
-input [aw-1:0] addr;
-input en;
-input [3:0] we;
-input [dw-1:0] datain;
-output [dw-1:0] dataout;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-`ifdef OR1200_NO_IC
-
-//
-// Insn cache not implemented
-//
-assign dataout = {dw{1'b0}};
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-
-`else
-
-//
-// Instantiation of IC RAM block
-//
-`ifdef OR1200_IC_1W_512B
- or1200_spram #
- (
- .aw(7),
- .dw(32)
- )
-`endif
-`ifdef OR1200_IC_1W_4KB
- or1200_spram #
- (
- .aw(10),
- .dw(32)
- )
-`endif
-`ifdef OR1200_IC_1W_8KB
- or1200_spram #
- (
- .aw(11),
- .dw(32)
- )
-`endif
- ic_ram0
- (
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .clk(clk),
- .ce(en),
- .we(we[0]),
- //.oe(1'b1),
- .addr(addr),
- .di(datain),
- .doq(dataout)
- );
-`endif
-
-endmodule
-
verilog/components/or1200r2/or1200_ic_ram.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_fpu.v
===================================================================
--- verilog/components/or1200r2/or1200_fpu.v (revision 185)
+++ verilog/components/or1200r2/or1200_fpu.v (nonexistent)
@@ -1,273 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's FPU Wrapper ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://opencores.org/project,or1k ////
-//// ////
-//// Description ////
-//// Wrapper for floating point unit. ////
-//// Interface based on MULT/MAC unit. ////
-//// ////
-//// To Do: ////
-//// - remainder instruction implementation ////
-//// - registering in/around compare unit ////
-//// ////
-//// Author(s): ////
-//// - Julius Baxter, julius@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_fpu(
- // Clock and reset
- clk, rst,
-
- // FPU interface
- ex_freeze, a, b, fpu_op, result,
-
- // Flag controls
- flagforw, flag_we,
-
- // Exception signal
- sig_fp, except_started,
-
- // SPR interface
- fpcsr_we, fpcsr,
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o
-);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// FPU interface
-//
-input ex_freeze;
-input [width-1:0] a;
-input [width-1:0] b;
-input [`OR1200_FPUOP_WIDTH-1:0] fpu_op;
-output [width-1:0] result;
-
-//
-// Flag signals
-//
-output flagforw;
-output flag_we;
-
-
-//
-// FPCSR interface
-//
-input fpcsr_we;
-output [`OR1200_FPCSR_WIDTH-1:0] fpcsr;
-
-//
-// Exception signal
-//
-output sig_fp;
-input except_started;
-
-
-//
-// SPR interface
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
- //
- // Internals
- //
- reg [2:0] fpu_op_count;
- reg [`OR1200_FPUOP_WIDTH:0] fpu_op_r;
- reg [`OR1200_FPCSR_WIDTH-1:0] fpcsr_r;
- reg fpu_latch_operand;
- wire fpu_check_op;
- wire fpu_latch_op;
- wire inf, snan, qnan, ine, overflow, underflow, zero, div_by_zero;
- wire fpu_op_is_comp, fpu_op_r_is_comp;
- wire altb, blta, aeqb, cmp_inf, cmp_zero, unordered ;
- reg flag;
-
- assign fpcsr = fpcsr_r;
-
- assign sig_fp = fpcsr_r[`OR1200_FPCSR_FPEE] & (|fpcsr_r[`OR1200_FPCSR_WIDTH-1:`OR1200_FPCSR_OVF]);
-
- /* Generate signals to latch fpu_op from decode
- instruction, then latch operands when they appear
- during execute stage */
-
- assign fpu_check_op = (!ex_freeze & fpu_op[`OR1200_FPUOP_WIDTH-1]);
-
- assign fpu_op_is_comp = fpu_op[3];
-
- assign fpu_op_r_is_comp = fpu_op_r[3];
-
- assign fpu_latch_op = fpu_check_op & !fpu_op_is_comp;
-
- always @(posedge clk)
- fpu_latch_operand <= fpu_check_op & !fpu_op_is_comp;
-
- /* Register fpu_op on comparisons, clear otherwise, remove top bit */
- always @(posedge clk)
- fpu_op_r <= (fpu_check_op & fpu_op_is_comp) ? {1'b0,fpu_op[`OR1200_FPUOP_WIDTH-2:0]} : !ex_freeze ? 0 : fpu_op_r;
-
-//
-// Counter for each FPU operation
-// Loaded at start, counts down
-//
- always @(posedge clk or posedge rst) begin
- if (rst)
- fpu_op_count <= 0;
- else
- if (|fpu_op_count)
- fpu_op_count <= fpu_op_count - 1;
- else if(fpu_check_op)
- fpu_op_count <= 5;
- end
-
-//
-// FPCSR register
-//
- always @(posedge clk or posedge rst) begin
- if (rst)
- fpcsr_r <= 0;
- else
- begin
- if (fpcsr_we)
- fpcsr_r <= b[`OR1200_FPCSR_WIDTH-1:0];
- else if (fpu_op_count == 1)
- begin
- fpcsr_r[`OR1200_FPCSR_OVF] <= overflow;
- fpcsr_r[`OR1200_FPCSR_UNF] <= underflow;
- fpcsr_r[`OR1200_FPCSR_SNF] <= snan;
- fpcsr_r[`OR1200_FPCSR_QNF] <= qnan;
- fpcsr_r[`OR1200_FPCSR_ZF] <= zero | (cmp_zero & fpu_op_r_is_comp);
- fpcsr_r[`OR1200_FPCSR_IXF] <= ine;
- fpcsr_r[`OR1200_FPCSR_IVF] <= 0; // Not used by this FPU
- fpcsr_r[`OR1200_FPCSR_INF] <= inf | (cmp_inf & fpu_op_r_is_comp);
- fpcsr_r[`OR1200_FPCSR_DZF] <= div_by_zero;
- end // if (fpu_op_count == 1)
- if (except_started)
- fpcsr_r[`OR1200_FPCSR_FPEE] <= 0;
- end // else: !if(rst)
- end // always @ (posedge clk or posedge rst)
-
-//
-// Comparison flag generation
-//
- always@(posedge clk)
- begin
- if (fpu_op_r_is_comp)
- begin
- case(fpu_op_r)
- `OR1200_FPCOP_SFEQ: begin
- flag <= aeqb;
- end
- `OR1200_FPCOP_SFNE: begin
- flag <= !aeqb;
- end
- `OR1200_FPCOP_SFGT: begin
- flag <= blta & !aeqb;
- end
- `OR1200_FPCOP_SFGE: begin
- flag <= blta | aeqb;
- end
- `OR1200_FPCOP_SFLT: begin
- flag <= altb & !aeqb;
- end
- `OR1200_FPCOP_SFLE: begin
- flag <= altb | aeqb;
- end
- default: begin
- flag <= 0;
- end
- endcase // case (fpu_op_r)
- end // if (fpu_op_r_is_comp)
- else
- flag <= 0;
- end // always@ (posedge clk)
-
- assign flagforw = flag;
- /* Determine here where we do the write, ie how much we
- * pipeline the comparison
- */
- assign flag_we = fpu_op_r_is_comp & (fpu_op_count == 2);
-
- /* FP arithmetic module */
- fpu fpu0(
- .clk(clk),
- .rmode(fpcsr_r[`OR1200_FPCSR_RM]),
- .fpu_op(fpu_op[2:0]),
- .opa(a),
- .opb(b),
- .out(result),
- .latch_operand(fpu_latch_operand),
- .latch_op(fpu_latch_op),
- .inf(inf),
- .snan(snan),
- .qnan(qnan),
- .ine(ine),
- .overflow(overflow),
- .underflow(underflow),
- .zero(zero),
- .div_by_zero(div_by_zero)
- );
-
- /* FP comparator */
- fcmp fcmp0(
- .opa(a),
- .opb(b),
- .unordered(unordered),
- /* I am convinced the comparison logic is wrong way
- around in this module, simplest to swap them on output
- -- julius */
- .altb(blta),
- .blta(altb),
- .aeqb(aeqb),
- .inf(cmp_inf),
- .zero(cmp_zero));
-
-
-endmodule // or1200_fpu
Index: verilog/components/or1200r2/or1200_gmultp2_32x32.v
===================================================================
--- verilog/components/or1200r2/or1200_gmultp2_32x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_gmultp2_32x32.v (nonexistent)
@@ -1,135 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic 32x32 multiplier ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Generic 32x32 multiplier with pipeline stages. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_gmultp2_32x32.v,v $
-// Revision 1.2 2002/07/31 02:04:35 lampret
-// MAC now follows software convention (signed multiply instead of unsigned).
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.4 2001/12/04 05:02:35 lampret
-// Added OR1200_GENERIC_MULTP2_32X32 and OR1200_ASIC_MULTP2_32X32
-//
-// Revision 1.3 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.2 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-// 32x32 multiplier, no input/output registers
-// Registers inside Wallace trees every 8 full adder levels,
-// with first pipeline after level 4
-
-`ifdef OR1200_GENERIC_MULTP2_32X32
-
-`define OR1200_W 32
-`define OR1200_WW 64
-
-module or1200_gmultp2_32x32 ( X, Y, CLK, RST, P );
-
-input [`OR1200_W-1:0] X;
-input [`OR1200_W-1:0] Y;
-input CLK;
-input RST;
-output [`OR1200_WW-1:0] P;
-
-reg [`OR1200_WW-1:0] p0;
-reg [`OR1200_WW-1:0] p1;
-integer xi;
-integer yi;
-
-//
-// Conversion unsigned to signed
-//
- /* verilator lint_off COMBDLY */
-always @(X)
- xi <= X;
-
-//
-// Conversion unsigned to signed
-//
-always @(Y)
- yi <= Y;
- /* verilator lint_on COMBDLY */
-//
-// First multiply stage
-//
-always @(posedge CLK or posedge RST)
- if (RST)
- p0 <= `OR1200_WW'b0;
- else
- p0 <= #1 xi * yi;
-
-//
-// Second multiply stage
-//
-always @(posedge CLK or posedge RST)
- if (RST)
- p1 <= `OR1200_WW'b0;
- else
- p1 <= #1 p0;
-
-assign P = p1;
-
-endmodule
-
-`endif
verilog/components/or1200r2/or1200_gmultp2_32x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_2048x32.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_2048x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_2048x32.v (nonexistent)
@@ -1,636 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_2048x32.v,v $
-// Revision 1.10 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.9 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.8 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.4.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.4 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.3 2002/10/28 15:03:50 mohor
-// Signal scanb_sen renamed to scanb_en.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_2048x32(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 11;
-parameter dw = 32;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hdsp_2048x32 #(dw, 1<
verilog/components/or1200r2/or1200_spram_2048x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_ic_fsm.v
===================================================================
--- verilog/components/or1200r2/or1200_ic_fsm.v (revision 185)
+++ verilog/components/or1200r2/or1200_ic_fsm.v (nonexistent)
@@ -1,267 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's IC FSM ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Insn cache state machine ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_ic_fsm.v,v $
-// Revision 1.10 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.9 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.8.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.8 2003/06/06 02:54:47 lampret
-// When OR1200_NO_IMMU and OR1200_NO_IC are not both defined or undefined at the same time, results in a IC bug. Fixed.
-//
-// Revision 1.7 2002/03/29 15:16:55 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.6 2002/03/28 19:10:40 lampret
-// Optimized cache controller FSM.
-//
-// Revision 1.1.1.1 2002/03/21 16:55:45 lampret
-// First import of the "new" XESS XSV environment.
-//
-//
-// Revision 1.5 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.4 2002/02/01 19:56:54 lampret
-// Fixed combinational loops.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from ic.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/19 23:28:46 lampret
-// Fixed some synthesis warnings. Configured with caches and MMUs.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-`define OR1200_ICFSM_IDLE 2'd0
-`define OR1200_ICFSM_CFETCH 2'd1
-`define OR1200_ICFSM_LREFILL3 2'd2
-`define OR1200_ICFSM_IFETCH 2'd3
-
-//
-// Data cache FSM for cache line of 16 bytes (4x singleword)
-//
-
-module or1200_ic_fsm(
- // Clock and reset
- clk, rst,
-
- // Internal i/f to top level IC
- ic_en, icqmem_cycstb_i, icqmem_ci_i,
- tagcomp_miss, biudata_valid, biudata_error, start_addr, saved_addr,
- icram_we, biu_read, first_hit_ack, first_miss_ack, first_miss_err,
- burst, tag_we
-);
-
-//
-// I/O
-//
-input clk;
-input rst;
-input ic_en;
-input icqmem_cycstb_i;
-input icqmem_ci_i;
-input tagcomp_miss;
-input biudata_valid;
-input biudata_error;
-input [31:0] start_addr;
-output [31:0] saved_addr;
-output [3:0] icram_we;
-output biu_read;
-output first_hit_ack;
-output first_miss_ack;
-output first_miss_err;
-output burst;
-output tag_we;
-
-//
-// Internal wires and regs
-//
-reg [31:0] saved_addr_r;
-reg [1:0] state;
-reg [2:0] cnt;
-reg hitmiss_eval;
-reg load;
-reg cache_inhibit;
-
-//
-// Generate of ICRAM write enables
-//
-assign icram_we = {4{biu_read & biudata_valid & !cache_inhibit}};
-assign tag_we = biu_read & biudata_valid & !cache_inhibit;
-
-//
-// BIU read and write
-//
-assign biu_read = (hitmiss_eval & tagcomp_miss) | (!hitmiss_eval & load);
-
-//assign saved_addr = hitmiss_eval ? start_addr : saved_addr_r;
-assign saved_addr = saved_addr_r;
-
-//
-// Assert for cache hit first word ready
-// Assert for cache miss first word stored/loaded OK
-// Assert for cache miss first word stored/loaded with an error
-//
-assign first_hit_ack = (state == `OR1200_ICFSM_CFETCH) & hitmiss_eval & !tagcomp_miss & !cache_inhibit;
-assign first_miss_ack = (state == `OR1200_ICFSM_CFETCH) & biudata_valid;
-assign first_miss_err = (state == `OR1200_ICFSM_CFETCH) & biudata_error;
-
-//
-// Assert burst when doing reload of complete cache line
-//
-assign burst = (state == `OR1200_ICFSM_CFETCH) & tagcomp_miss & !cache_inhibit
- | (state == `OR1200_ICFSM_LREFILL3);
-
-//
-// Main IC FSM
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- state <= #1 `OR1200_ICFSM_IDLE;
- saved_addr_r <= #1 32'b0;
- hitmiss_eval <= #1 1'b0;
- load <= #1 1'b0;
- cnt <= #1 3'b000;
- cache_inhibit <= #1 1'b0;
- end
- else
- case (state) // synopsys parallel_case
- `OR1200_ICFSM_IDLE :
- if (ic_en & icqmem_cycstb_i) begin // fetch
- state <= #1 `OR1200_ICFSM_CFETCH;
- saved_addr_r <= #1 start_addr;
- hitmiss_eval <= #1 1'b1;
- load <= #1 1'b1;
- cache_inhibit <= #1 icqmem_ci_i;
- end
- else begin // idle
- hitmiss_eval <= #1 1'b0;
- load <= #1 1'b0;
- cache_inhibit <= #1 1'b0;
- end
- `OR1200_ICFSM_CFETCH: begin // fetch
- if (icqmem_cycstb_i & icqmem_ci_i)
- cache_inhibit <= #1 1'b1;
- if (hitmiss_eval)
- saved_addr_r[31:13] <= #1 start_addr[31:13];
- if ((!ic_en) ||
- (hitmiss_eval & !icqmem_cycstb_i) || // fetch aborted (usually caused by IMMU)
- (biudata_error) || // fetch terminated with an error
- (cache_inhibit & biudata_valid)) begin // fetch from cache-inhibited page
- state <= #1 `OR1200_ICFSM_IDLE;
- hitmiss_eval <= #1 1'b0;
- load <= #1 1'b0;
- cache_inhibit <= #1 1'b0;
- end
- else if (tagcomp_miss & biudata_valid) begin // fetch missed, finish current external fetch and refill
- state <= #1 `OR1200_ICFSM_LREFILL3;
- saved_addr_r[3:2] <= #1 saved_addr_r[3:2] + 1'd1;
- hitmiss_eval <= #1 1'b0;
- cnt <= #1 `OR1200_ICLS-2;
- cache_inhibit <= #1 1'b0;
- end
- else if (!tagcomp_miss & !icqmem_ci_i) begin // fetch hit, finish immediately
- saved_addr_r <= #1 start_addr;
- cache_inhibit <= #1 1'b0;
- end
- else if (!icqmem_cycstb_i) begin // fetch aborted (usually caused by exception)
- state <= #1 `OR1200_ICFSM_IDLE;
- hitmiss_eval <= #1 1'b0;
- load <= #1 1'b0;
- cache_inhibit <= #1 1'b0;
- end
- else // fetch in-progress
- hitmiss_eval <= #1 1'b0;
- end
- `OR1200_ICFSM_LREFILL3 : begin
- if (biudata_valid && (|cnt)) begin // refill ack, more fetchs to come
- cnt <= #1 cnt - 3'd1;
- saved_addr_r[3:2] <= #1 saved_addr_r[3:2] + 1'd1;
- end
- else if (biudata_valid) begin // last fetch of line refill
- state <= #1 `OR1200_ICFSM_IDLE;
- saved_addr_r <= #1 start_addr;
- hitmiss_eval <= #1 1'b0;
- load <= #1 1'b0;
- end
- end
- default:
- state <= #1 `OR1200_ICFSM_IDLE;
- endcase
-end
-
-endmodule
verilog/components/or1200r2/or1200_ic_fsm.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_wbmux.v
===================================================================
--- verilog/components/or1200r2/or1200_wbmux.v (revision 185)
+++ verilog/components/or1200r2/or1200_wbmux.v (nonexistent)
@@ -1,191 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Write-back Mux ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// CPU's write-back stage of the pipeline ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_wbmux.v,v $
-// Revision 1.3 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.2 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:23 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_wbmux(
- // Clock and reset
- clk, rst,
-
- // Internal i/f
- wb_freeze, rfwb_op,
- muxin_a, muxin_b, muxin_c, muxin_d,
-`ifdef OR1200_FPU_IMPLEMENTED
- muxin_e,
-`endif
- muxout, muxreg, muxreg_valid
-);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// Internal i/f
-//
-input wb_freeze;
-input [`OR1200_RFWBOP_WIDTH-1:0] rfwb_op;
-input [width-1:0] muxin_a;
-input [width-1:0] muxin_b;
-input [width-1:0] muxin_c;
-input [width-1:0] muxin_d;
-`ifdef OR1200_FPU_IMPLEMENTED
-input [width-1:0] muxin_e;
-`endif
-output [width-1:0] muxout;
-output [width-1:0] muxreg;
-output muxreg_valid;
-
-//
-// Internal wires and regs
-//
-reg [width-1:0] muxout;
-reg [width-1:0] muxreg;
-reg muxreg_valid;
-
-//
-// Registered output from the write-back multiplexer
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- muxreg <= #1 32'd0;
- muxreg_valid <= #1 1'b0;
- end
- else if (!wb_freeze) begin
- muxreg <= #1 muxout;
- muxreg_valid <= #1 rfwb_op[0];
- end
-end
-
-//
-// Write-back multiplexer
-//
-always @(muxin_a or muxin_b or muxin_c or muxin_d or
-`ifdef OR1200_FPU_IMPLEMENTED
- muxin_e or
-`endif
- rfwb_op) begin
-`ifdef OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
- case(rfwb_op[`OR1200_RFWBOP_WIDTH-1:1]) // synopsys parallel_case infer_mux
-`else
- case(rfwb_op[`OR1200_RFWBOP_WIDTH-1:1]) // synopsys parallel_case
-`endif
- `OR1200_RFWBOP_ALU : muxout = muxin_a;
- `OR1200_RFWBOP_LSU : begin
- muxout = muxin_b;
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display(" WBMUX: muxin_b %h", muxin_b);
-// synopsys translate_on
-`endif
- end
- `OR1200_RFWBOP_SPRS : begin
- muxout = muxin_c;
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display(" WBMUX: muxin_c %h", muxin_c);
-// synopsys translate_on
-`endif
- end
- `OR1200_RFWBOP_LR : begin
- muxout = muxin_d + 32'h8;
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display(" WBMUX: muxin_d %h", muxin_d + 4'h8);
-// synopsys translate_on
-`endif
- end
-`ifdef OR1200_FPU_IMPLEMENTED
- `OR1200_RFWBOP_FPU : begin
- muxout = muxin_e;
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display(" WBMUX: muxin_e %h", muxin_e);
-// synopsys translate_on
-`endif
- end
-`endif
- endcase
-end
-
-endmodule
verilog/components/or1200r2/or1200_wbmux.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_512x20.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_512x20.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_512x20.v (nonexistent)
@@ -1,429 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_512x20.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/27 21:24:04 lampret
-// Changed instantiation name of VS RAMs.
-//
-// Revision 1.9 2001/11/27 19:45:04 lampret
-// Fixed VS RAM instantiation - again.
-//
-// Revision 1.8 2001/11/23 21:42:31 simons
-// Program counter divided to PPC and NPC.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_512x20(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 9;
-parameter dw = 20;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-`ifdef OR1200_XILINX_RAMB4
-wire [3:0] unconnected;
-`else
-`ifdef OR1200_XILINX_RAMB16
-wire [11:0] unconnected;
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_512x20 #(dw, 1<
verilog/components/or1200r2/or1200_spram_512x20.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dmmu_tlb.v
===================================================================
--- verilog/components/or1200r2/or1200_dmmu_tlb.v (revision 185)
+++ verilog/components/or1200r2/or1200_dmmu_tlb.v (nonexistent)
@@ -1,301 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Data TLB ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of DTLB. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_dmmu_tlb.v,v $
-// Revision 1.7 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.6 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.4.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.4 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.3 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.2 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Data TLB
-//
-
-module or1200_dmmu_tlb(
- // Rst and clk
- clk, rst,
-
- // I/F for translation
- tlb_en, vaddr, hit, ppn, uwe, ure, swe, sre, ci,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // SPR access
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// I/F for translation
-//
-input tlb_en;
-input [aw-1:0] vaddr;
-output hit;
-output [31:`OR1200_DMMU_PS] ppn;
-output uwe;
-output ure;
-output swe;
-output sre;
-output ci;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// SPR access
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
-//
-// Internal wires and regs
-//
-wire [`OR1200_DTLB_TAG] vpn;
-wire v;
-wire [`OR1200_DTLB_INDXW-1:0] tlb_index;
-wire tlb_mr_en;
-wire tlb_mr_we;
-wire [`OR1200_DTLBMRW-1:0] tlb_mr_ram_in;
-wire [`OR1200_DTLBMRW-1:0] tlb_mr_ram_out;
-wire tlb_tr_en;
-wire tlb_tr_we;
-wire [`OR1200_DTLBTRW-1:0] tlb_tr_ram_in;
-wire [`OR1200_DTLBTRW-1:0] tlb_tr_ram_out;
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-wire mbist_mr_so;
-wire mbist_tr_so;
-wire mbist_mr_si = mbist_si_i;
-wire mbist_tr_si = mbist_mr_so;
-assign mbist_so_o = mbist_tr_so;
-`endif
-
-//
-// Implemented bits inside match and translate registers
-//
-// dtlbwYmrX: vpn 31-19 v 0
-// dtlbwYtrX: ppn 31-13 swe 9 sre 8 uwe 7 ure 6
-//
-// dtlb memory width:
-// 19 bits for ppn
-// 13 bits for vpn
-// 1 bit for valid
-// 4 bits for protection
-// 1 bit for cache inhibit
-
-//
-// Enable for Match registers
-//
-assign tlb_mr_en = tlb_en | (spr_cs & !spr_addr[`OR1200_DTLB_TM_ADDR]);
-
-//
-// Write enable for Match registers
-//
-assign tlb_mr_we = spr_cs & spr_write & !spr_addr[`OR1200_DTLB_TM_ADDR];
-
-//
-// Enable for Translate registers
-//
-assign tlb_tr_en = tlb_en | (spr_cs & spr_addr[`OR1200_DTLB_TM_ADDR]);
-
-//
-// Write enable for Translate registers
-//
-assign tlb_tr_we = spr_cs & spr_write & spr_addr[`OR1200_DTLB_TM_ADDR];
-
-//
-// Output to SPRS unit
-//
-assign spr_dat_o = (spr_cs & !spr_write & !spr_addr[`OR1200_DTLB_TM_ADDR]) ?
- {vpn, tlb_index, {`OR1200_DTLB_TAGW-7{1'b0}}, 1'b0, 5'b00000, v} :
- (spr_cs & !spr_write & spr_addr[`OR1200_DTLB_TM_ADDR]) ?
- {ppn, {`OR1200_DMMU_PS-10{1'b0}}, swe, sre, uwe, ure, {4{1'b0}}, ci, 1'b0} :
- 32'h00000000;
-
-//
-// Assign outputs from Match registers
-//
-assign {vpn, v} = tlb_mr_ram_out;
-
-//
-// Assign to Match registers inputs
-//
-assign tlb_mr_ram_in = {spr_dat_i[`OR1200_DTLB_TAG], spr_dat_i[`OR1200_DTLBMR_V_BITS]};
-
-//
-// Assign outputs from Translate registers
-//
-assign {ppn, swe, sre, uwe, ure, ci} = tlb_tr_ram_out;
-
-//
-// Assign to Translate registers inputs
-//
-assign tlb_tr_ram_in = {spr_dat_i[31:`OR1200_DMMU_PS],
- spr_dat_i[`OR1200_DTLBTR_SWE_BITS],
- spr_dat_i[`OR1200_DTLBTR_SRE_BITS],
- spr_dat_i[`OR1200_DTLBTR_UWE_BITS],
- spr_dat_i[`OR1200_DTLBTR_URE_BITS],
- spr_dat_i[`OR1200_DTLBTR_CI_BITS]};
-
-//
-// Generate hit
-//
-assign hit = (vpn == vaddr[`OR1200_DTLB_TAG]) & v;
-
-//
-// TLB index is normally vaddr[18:13]. If it is SPR access then index is
-// spr_addr[5:0].
-//
-assign tlb_index = spr_cs ? spr_addr[`OR1200_DTLB_INDXW-1:0] : vaddr[`OR1200_DTLB_INDX];
-
-//
-// Instantiation of DTLB Match Registers
-//
-//or1200_spram_64x14 dtlb_mr_ram(
- or1200_spram #
- (
- .aw(6),
- .dw(14)
- )
- dtlb_ram
- (
- .clk(clk),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_mr_si),
- .mbist_so_o(mbist_mr_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .ce(tlb_mr_en),
- .we(tlb_mr_we),
- .addr(tlb_index),
- .di(tlb_mr_ram_in),
- .doq(tlb_mr_ram_out)
- );
-
- //
- // Instantiation of DTLB Translate Registers
- //
- //or1200_spram_64x24 dtlb_tr_ram(
- or1200_spram #
- (
- .aw(6),
- .dw(24)
- )
- dtlb_tr_ram
- (
- .clk(clk),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_tr_si),
- .mbist_so_o(mbist_tr_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .ce(tlb_tr_en),
- .we(tlb_tr_we),
- .addr(tlb_index),
- .di(tlb_tr_ram_in),
- .doq(tlb_tr_ram_out)
- );
-
-endmodule // or1200_dmmu_tlb
verilog/components/or1200r2/or1200_dmmu_tlb.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_ctrl.v
===================================================================
--- verilog/components/or1200r2/or1200_ctrl.v (revision 185)
+++ verilog/components/or1200r2/or1200_ctrl.v (nonexistent)
@@ -1,1126 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Instruction decode ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Majority of instruction decoding is performed here. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_ctrl.v,v $
-// Revision 1.13 2005/01/13 11:03:43 phoenix
-// revert to the old l.sfxxi behavior
-//
-// Revision 1.12 2005/01/07 09:31:07 andreje
-// sign/zero extension for l.sfxxi instructions corrected
-//
-// Revision 1.11 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.10 2004/05/09 19:49:04 lampret
-// Added some l.cust5 custom instructions as example
-//
-// Revision 1.9 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.8.4.1 2004/02/11 01:40:11 lampret
-// preliminary HW breakpoints support in debug unit (by default disabled). To enable define OR1200_DU_HWBKPTS.
-//
-// Revision 1.8 2003/04/24 00:16:07 lampret
-// No functional changes. Added defines to disable implementation of multiplier/MAC
-//
-// Revision 1.7 2002/09/07 05:42:02 lampret
-// Added optional SR[CY]. Added define to enable additional (compare) flag modifiers. Defines are OR1200_IMPL_ADDC and OR1200_ADDITIONAL_FLAG_MODIFIERS.
-//
-// Revision 1.6 2002/03/29 15:16:54 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.5 2002/02/01 19:56:54 lampret
-// Fixed combinational loops.
-//
-// Revision 1.4 2002/01/28 01:15:59 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.3 2002/01/18 14:21:43 lampret
-// Fixed 'the NPC single-step fix'.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.14 2001/11/30 18:59:17 simons
-// force_dslot_fetch does not work - allways zero.
-//
-// Revision 1.13 2001/11/20 18:46:15 simons
-// Break point bug fixed
-//
-// Revision 1.12 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.11 2001/11/13 10:02:21 lampret
-// Added 'setpc'. Renamed some signals (except_flushpipe into flushpipe etc)
-//
-// Revision 1.10 2001/11/12 01:45:40 lampret
-// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports.
-//
-// Revision 1.9 2001/11/10 03:43:57 lampret
-// Fixed exceptions.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/13 03:36:20 lampret
-// Added cfg regs. Moved all defines into one defines.v file. More cleanup.
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_ctrl(
- // Clock and reset
- clk, rst,
-
- // Internal i/f
- id_freeze, ex_freeze, wb_freeze, flushpipe, if_insn, ex_insn, pre_branch_op, branch_op, branch_taken,
- rf_addra, rf_addrb, rf_rda, rf_rdb, alu_op, mac_op, shrot_op, comp_op, rf_addrw, rfwb_op,
-`ifdef OR1200_FPU_IMPLEMENTED
- fpu_op,
-`endif
- wb_insn, simm, branch_addrofs, lsu_addrofs, sel_a, sel_b, lsu_op,
- cust5_op, cust5_limm,
- multicycle, spr_addrimm, wbforw_valid, du_hwbkpt, sig_syscall, sig_trap,
- force_dslot_fetch, no_more_dslot, ex_void, id_macrc_op, ex_macrc_op, rfe, except_illegal
-
-);
-
-//
-// I/O
-//
-input clk;
-input rst;
-input id_freeze;
-input ex_freeze /* verilator public */;
-input wb_freeze /* verilator public */;
-input flushpipe;
-input [31:0] if_insn;
-output [31:0] ex_insn/* verilator public */;
-output [`OR1200_BRANCHOP_WIDTH-1:0] pre_branch_op;
-output [`OR1200_BRANCHOP_WIDTH-1:0] branch_op;
-input branch_taken;
-output [`OR1200_REGFILE_ADDR_WIDTH-1:0] rf_addrw;
-output [`OR1200_REGFILE_ADDR_WIDTH-1:0] rf_addra;
-output [`OR1200_REGFILE_ADDR_WIDTH-1:0] rf_addrb;
-output rf_rda;
-output rf_rdb;
-output [`OR1200_ALUOP_WIDTH-1:0] alu_op;
-output [`OR1200_MACOP_WIDTH-1:0] mac_op;
-output [`OR1200_SHROTOP_WIDTH-1:0] shrot_op;
-output [`OR1200_RFWBOP_WIDTH-1:0] rfwb_op;
-`ifdef OR1200_FPU_IMPLEMENTED
- output [`OR1200_FPUOP_WIDTH-1:0] fpu_op;
-`endif
-output [31:0] wb_insn;
-output [31:0] simm;
-output [31:2] branch_addrofs;
-output [31:0] lsu_addrofs;
-output [`OR1200_SEL_WIDTH-1:0] sel_a;
-output [`OR1200_SEL_WIDTH-1:0] sel_b;
-output [`OR1200_LSUOP_WIDTH-1:0] lsu_op;
-output [`OR1200_COMPOP_WIDTH-1:0] comp_op;
-output [`OR1200_MULTICYCLE_WIDTH-1:0] multicycle;
-output [4:0] cust5_op;
-output [5:0] cust5_limm;
-output [15:0] spr_addrimm;
-input wbforw_valid;
-input du_hwbkpt;
-output sig_syscall;
-output sig_trap;
-output force_dslot_fetch;
-output no_more_dslot;
-output ex_void;
-output id_macrc_op;
-output ex_macrc_op;
-output rfe;
-output except_illegal;
-
-//
-// Internal wires and regs
-//
-reg [`OR1200_BRANCHOP_WIDTH-1:0] pre_branch_op;
-reg [`OR1200_BRANCHOP_WIDTH-1:0] branch_op;
-reg [`OR1200_ALUOP_WIDTH-1:0] alu_op;
-`ifdef OR1200_MAC_IMPLEMENTED
-reg [`OR1200_MACOP_WIDTH-1:0] mac_op;
-reg ex_macrc_op;
-`else
-wire [`OR1200_MACOP_WIDTH-1:0] mac_op;
-wire ex_macrc_op;
-`endif
-reg [`OR1200_SHROTOP_WIDTH-1:0] shrot_op;
-reg [31:0] id_insn /* verilator public */;
-reg [31:0] ex_insn;
-reg [31:0] wb_insn /* verilator public */;
-reg [`OR1200_REGFILE_ADDR_WIDTH-1:0] rf_addrw;
-reg [`OR1200_REGFILE_ADDR_WIDTH-1:0] wb_rfaddrw;
-reg [`OR1200_RFWBOP_WIDTH-1:0] rfwb_op;
-reg [31:0] lsu_addrofs;
-reg [`OR1200_SEL_WIDTH-1:0] sel_a;
-reg [`OR1200_SEL_WIDTH-1:0] sel_b;
-reg sel_imm;
-reg [`OR1200_LSUOP_WIDTH-1:0] lsu_op;
-reg [`OR1200_COMPOP_WIDTH-1:0] comp_op;
-reg [`OR1200_MULTICYCLE_WIDTH-1:0] multicycle;
-reg imm_signextend;
-reg [15:0] spr_addrimm;
-reg sig_syscall;
-reg sig_trap;
-reg except_illegal;
-wire id_void;
-
-//
-// Register file read addresses
-//
-assign rf_addra = if_insn[20:16];
-assign rf_addrb = if_insn[15:11];
-assign rf_rda = if_insn[31];
-assign rf_rdb = if_insn[30];
-
-//
-// Force fetch of delay slot instruction when jump/branch is preceeded by load/store
-// instructions
-//
-// SIMON
-// assign force_dslot_fetch = ((|pre_branch_op) & (|lsu_op));
-assign force_dslot_fetch = 1'b0;
-assign no_more_dslot = |branch_op & !id_void & branch_taken | (branch_op == `OR1200_BRANCHOP_RFE);
-assign id_void = (id_insn[31:26] == `OR1200_OR32_NOP) & id_insn[16];
-assign ex_void = (ex_insn[31:26] == `OR1200_OR32_NOP) & ex_insn[16];
-
-//
-// Sign/Zero extension of immediates
-//
-assign simm = (imm_signextend == 1'b1) ? {{16{id_insn[15]}}, id_insn[15:0]} : {{16'b0}, id_insn[15:0]};
-
-//
-// Sign extension of branch offset
-//
-assign branch_addrofs = {{4{ex_insn[25]}}, ex_insn[25:0]};
-
-//
-// l.macrc in ID stage
-//
-`ifdef OR1200_MAC_IMPLEMENTED
-assign id_macrc_op = (id_insn[31:26] == `OR1200_OR32_MOVHI) & id_insn[16];
-`else
-assign id_macrc_op = 1'b0;
-`endif
-
-//
-// cust5_op, cust5_limm (L immediate)
-//
-assign cust5_op = ex_insn[4:0];
-assign cust5_limm = ex_insn[10:5];
-
-//
-//
-//
-assign rfe = (pre_branch_op == `OR1200_BRANCHOP_RFE) | (branch_op == `OR1200_BRANCHOP_RFE);
-
-`ifdef verilator
- // Function to access wb_insn (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [31:0] get_wb_insn;
- // verilator public
- get_wb_insn = wb_insn;
- endfunction // get_wb_insn
-
- // Function to access id_insn (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [31:0] get_id_insn;
- // verilator public
- get_id_insn = id_insn;
- endfunction // get_id_insn
-
- // Function to access ex_insn (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
- function [31:0] get_ex_insn;
- // verilator public
- get_ex_insn = ex_insn;
- endfunction // get_ex_insn
-
-`endif
-
-
-
-//
-// Generation of sel_a
-//
-always @(rf_addrw or id_insn or rfwb_op or wbforw_valid or wb_rfaddrw)
- if ((id_insn[20:16] == rf_addrw) && rfwb_op[0])
- sel_a = `OR1200_SEL_EX_FORW;
- else if ((id_insn[20:16] == wb_rfaddrw) && wbforw_valid)
- sel_a = `OR1200_SEL_WB_FORW;
- else
- sel_a = `OR1200_SEL_RF;
-
-//
-// Generation of sel_b
-//
-always @(rf_addrw or sel_imm or id_insn or rfwb_op or wbforw_valid or wb_rfaddrw)
- if (sel_imm)
- sel_b = `OR1200_SEL_IMM;
- else if ((id_insn[15:11] == rf_addrw) && rfwb_op[0])
- sel_b = `OR1200_SEL_EX_FORW;
- else if ((id_insn[15:11] == wb_rfaddrw) && wbforw_valid)
- sel_b = `OR1200_SEL_WB_FORW;
- else
- sel_b = `OR1200_SEL_RF;
-
-//
-// l.macrc in EX stage
-//
-`ifdef OR1200_MAC_IMPLEMENTED
-always @(posedge clk or posedge rst) begin
- if (rst)
- ex_macrc_op <= #1 1'b0;
- else if (!ex_freeze & id_freeze | flushpipe)
- ex_macrc_op <= #1 1'b0;
- else if (!ex_freeze)
- ex_macrc_op <= #1 id_macrc_op;
-end
-`else
-assign ex_macrc_op = 1'b0;
-`endif
-
-//
-// Decode of spr_addrimm
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- spr_addrimm <= #1 16'h0000;
- else if (!ex_freeze & id_freeze | flushpipe)
- spr_addrimm <= #1 16'h0000;
- else if (!ex_freeze) begin
- case (id_insn[31:26]) // synopsys parallel_case
- // l.mfspr
- `OR1200_OR32_MFSPR:
- spr_addrimm <= #1 id_insn[15:0];
- // l.mtspr
- default:
- spr_addrimm <= #1 {id_insn[25:21], id_insn[10:0]};
- endcase
- end
-end
-
-//
-// Decode of multicycle
-//
-always @(id_insn) begin
- case (id_insn[31:26]) // synopsys parallel_case
-`ifdef UNUSED
- // l.lwz
- `OR1200_OR32_LWZ:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.lbz
- `OR1200_OR32_LBZ:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.lbs
- `OR1200_OR32_LBS:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.lhz
- `OR1200_OR32_LHZ:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.lhs
- `OR1200_OR32_LHS:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.sw
- `OR1200_OR32_SW:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.sb
- `OR1200_OR32_SB:
- multicycle = `OR1200_TWO_CYCLES;
-
- // l.sh
- `OR1200_OR32_SH:
- multicycle = `OR1200_TWO_CYCLES;
-`endif
- // ALU instructions except the one with immediate
- `OR1200_OR32_ALU:
- multicycle = id_insn[`OR1200_ALUMCYC_POS];
-
- `OR1200_OR32_MULI:
- multicycle = 2'h3;
-
-`ifdef OR1200_FPU_IMPLEMENTED
- `OR1200_OR32_FLOAT:
- multicycle = `OR1200_FPUOP_CYCLES;
-`endif
-
-
- // Single cycle instructions
- default: begin
- multicycle = `OR1200_ONE_CYCLE;
- end
-
- endcase
-
-end
-
-//
-// Decode of imm_signextend
-//
-always @(id_insn) begin
- case (id_insn[31:26]) // synopsys parallel_case
-
- // l.addi
- `OR1200_OR32_ADDI:
- imm_signextend = 1'b1;
-
- // l.addic
- `OR1200_OR32_ADDIC:
- imm_signextend = 1'b1;
-
- // l.xori
- `OR1200_OR32_XORI:
- imm_signextend = 1'b1;
-
- // l.muli
-`ifdef OR1200_MULT_IMPLEMENTED
- `OR1200_OR32_MULI:
- imm_signextend = 1'b1;
-`endif
-
- // l.maci
-`ifdef OR1200_MAC_IMPLEMENTED
- `OR1200_OR32_MACI:
- imm_signextend = 1'b1;
-`endif
-
- // SFXX insns with immediate
- `OR1200_OR32_SFXXI:
- imm_signextend = 1'b1;
-
- // Instructions with no or zero extended immediate
- default: begin
- imm_signextend = 1'b0;
- end
-
-endcase
-
-end
-
-//
-// LSU addr offset
-//
-always @(lsu_op or ex_insn) begin
- lsu_addrofs[10:0] = ex_insn[10:0];
- case(lsu_op) // synopsys parallel_case
- `OR1200_LSUOP_SW, `OR1200_LSUOP_SH, `OR1200_LSUOP_SB :
- lsu_addrofs[31:11] = {{16{ex_insn[25]}}, ex_insn[25:21]};
- default :
- lsu_addrofs[31:11] = {{16{ex_insn[15]}}, ex_insn[15:11]};
- endcase
-end
-
-//
-// Register file write address
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- rf_addrw <= #1 5'd0;
- else if (!ex_freeze & id_freeze)
- rf_addrw <= #1 5'd00;
- else if (!ex_freeze)
- case (pre_branch_op) // synopsys parallel_case
- `OR1200_BRANCHOP_JR, `OR1200_BRANCHOP_BAL:
- rf_addrw <= #1 5'd09; // link register r9
- default:
- rf_addrw <= #1 id_insn[25:21];
- endcase
-end
-
-//
-// rf_addrw in wb stage (used in forwarding logic)
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- wb_rfaddrw <= #1 5'd0;
- else if (!wb_freeze)
- wb_rfaddrw <= #1 rf_addrw;
-end
-
-//
-// Instruction latch in id_insn
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- id_insn <= #1 {`OR1200_OR32_NOP, 26'h041_0000};
- else if (flushpipe)
- id_insn <= #1 {`OR1200_OR32_NOP, 26'h041_0000}; // id_insn[16] must be 1
- else if (!id_freeze) begin
- id_insn <= #1 if_insn;
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: id_insn <= %h", $time, if_insn);
-// synopsys translate_on
-`endif
- end
-end
-
-//
-// Instruction latch in ex_insn
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- ex_insn <= #1 {`OR1200_OR32_NOP, 26'h041_0000};
- else if (!ex_freeze & id_freeze | flushpipe)
- ex_insn <= #1 {`OR1200_OR32_NOP, 26'h041_0000}; // ex_insn[16] must be 1
- else if (!ex_freeze) begin
- ex_insn <= #1 id_insn;
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- $display("%t: ex_insn <= %h", $time, id_insn);
-// synopsys translate_on
-`endif
- end
-end
-
-//
-// Instruction latch in wb_insn
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- wb_insn <= #1 {`OR1200_OR32_NOP, 26'h041_0000};
- else if (flushpipe)
- wb_insn <= #1 {`OR1200_OR32_NOP, 26'h041_0000}; // wb_insn[16] must be 1
- else if (!wb_freeze) begin
- wb_insn <= #1 ex_insn;
- end
-end
-
-//
-// Decode of sel_imm
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- sel_imm <= #1 1'b0;
- else if (!id_freeze) begin
- case (if_insn[31:26]) // synopsys parallel_case
-
- // j.jalr
- `OR1200_OR32_JALR:
- sel_imm <= #1 1'b0;
-
- // l.jr
- `OR1200_OR32_JR:
- sel_imm <= #1 1'b0;
-
- // l.rfe
- `OR1200_OR32_RFE:
- sel_imm <= #1 1'b0;
-
- // l.mfspr
- `OR1200_OR32_MFSPR:
- sel_imm <= #1 1'b0;
-
- // l.mtspr
- `OR1200_OR32_MTSPR:
- sel_imm <= #1 1'b0;
-
- // l.sys, l.brk and all three sync insns
- `OR1200_OR32_XSYNC:
- sel_imm <= #1 1'b0;
-
- // l.mac/l.msb
-`ifdef OR1200_MAC_IMPLEMENTED
- `OR1200_OR32_MACMSB:
- sel_imm <= #1 1'b0;
-`endif
-
- // l.sw
- `OR1200_OR32_SW:
- sel_imm <= #1 1'b0;
-
- // l.sb
- `OR1200_OR32_SB:
- sel_imm <= #1 1'b0;
-
- // l.sh
- `OR1200_OR32_SH:
- sel_imm <= #1 1'b0;
-
- // ALU instructions except the one with immediate
- `OR1200_OR32_ALU:
- sel_imm <= #1 1'b0;
-
- // SFXX instructions
- `OR1200_OR32_SFXX:
- sel_imm <= #1 1'b0;
-
-`ifdef OR1200_OR32_CUST5
- // l.cust5 instructions
- `OR1200_OR32_CUST5:
- sel_imm <= #1 1'b0;
-`endif
-`ifdef OR1200_FPU_IMPLEMENTED
- // FPU instructions
- `OR1200_OR32_FLOAT:
- sel_imm <= #1 1'b0;
-`endif
-
- // l.nop
- `OR1200_OR32_NOP:
- sel_imm <= #1 1'b0;
-
- // All instructions with immediates
- default: begin
- sel_imm <= #1 1'b1;
- end
-
- endcase
-
- end
-end
-
-//
-// Decode of except_illegal
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- except_illegal <= #1 1'b0;
- else if (!ex_freeze & id_freeze | flushpipe)
- except_illegal <= #1 1'b0;
- else if (!ex_freeze) begin
- case (id_insn[31:26]) // synopsys parallel_case
-
- `OR1200_OR32_J,
- `OR1200_OR32_JAL,
- `OR1200_OR32_JALR,
- `OR1200_OR32_JR,
- `OR1200_OR32_BNF,
- `OR1200_OR32_BF,
- `OR1200_OR32_RFE,
- `OR1200_OR32_MOVHI,
- `OR1200_OR32_MFSPR,
- `OR1200_OR32_XSYNC,
-`ifdef OR1200_MAC_IMPLEMENTED
- `OR1200_OR32_MACI,
-`endif
- `OR1200_OR32_LWZ,
- `OR1200_OR32_LBZ,
- `OR1200_OR32_LBS,
- `OR1200_OR32_LHZ,
- `OR1200_OR32_LHS,
- `OR1200_OR32_ADDI,
- `OR1200_OR32_ADDIC,
- `OR1200_OR32_ANDI,
- `OR1200_OR32_ORI,
- `OR1200_OR32_XORI,
-`ifdef OR1200_MULT_IMPLEMENTED
- `OR1200_OR32_MULI,
-`endif
- `OR1200_OR32_SH_ROTI,
- `OR1200_OR32_SFXXI,
- `OR1200_OR32_MTSPR,
-`ifdef OR1200_MAC_IMPLEMENTED
- `OR1200_OR32_MACMSB,
-`endif
- `OR1200_OR32_SW,
- `OR1200_OR32_SB,
- `OR1200_OR32_SH,
- `OR1200_OR32_ALU,
- `OR1200_OR32_SFXX,
-`ifdef OR1200_OR32_CUST5
- `OR1200_OR32_CUST5,
-`endif
- `OR1200_OR32_NOP:
- except_illegal <= #1 1'b0;
-`ifdef OR1200_FPU_IMPLEMENTED
- `OR1200_OR32_FLOAT:
- /* Check it's not a double instruction */
- except_illegal <= #1 id_insn[`OR1200_FPUOP_DOUBLE_BIT];
-`endif
-
-
- // Illegal and OR1200 unsupported instructions
- default:
- except_illegal <= #1 1'b1;
-
- endcase
-
- end
-end
-
-//
-// Decode of alu_op
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- alu_op <= #1 `OR1200_ALUOP_NOP;
- else if (!ex_freeze & id_freeze | flushpipe)
- alu_op <= #1 `OR1200_ALUOP_NOP;
- else if (!ex_freeze) begin
- case (id_insn[31:26]) // synopsys parallel_case
-
- // l.j
- `OR1200_OR32_J:
- alu_op <= #1 `OR1200_ALUOP_IMM;
-
- // j.jal
- `OR1200_OR32_JAL:
- alu_op <= #1 `OR1200_ALUOP_IMM;
-
- // l.bnf
- `OR1200_OR32_BNF:
- alu_op <= #1 `OR1200_ALUOP_NOP;
-
- // l.bf
- `OR1200_OR32_BF:
- alu_op <= #1 `OR1200_ALUOP_NOP;
-
- // l.movhi
- `OR1200_OR32_MOVHI:
- alu_op <= #1 `OR1200_ALUOP_MOVHI;
-
- // l.mfspr
- `OR1200_OR32_MFSPR:
- alu_op <= #1 `OR1200_ALUOP_MFSR;
-
- // l.mtspr
- `OR1200_OR32_MTSPR:
- alu_op <= #1 `OR1200_ALUOP_MTSR;
-
- // l.addi
- `OR1200_OR32_ADDI:
- alu_op <= #1 `OR1200_ALUOP_ADD;
-
- // l.addic
- `OR1200_OR32_ADDIC:
- alu_op <= #1 `OR1200_ALUOP_ADDC;
-
- // l.andi
- `OR1200_OR32_ANDI:
- alu_op <= #1 `OR1200_ALUOP_AND;
-
- // l.ori
- `OR1200_OR32_ORI:
- alu_op <= #1 `OR1200_ALUOP_OR;
-
- // l.xori
- `OR1200_OR32_XORI:
- alu_op <= #1 `OR1200_ALUOP_XOR;
-
- // l.muli
-`ifdef OR1200_MULT_IMPLEMENTED
- `OR1200_OR32_MULI:
- alu_op <= #1 `OR1200_ALUOP_MUL;
-`endif
-
- // Shift and rotate insns with immediate
- `OR1200_OR32_SH_ROTI:
- alu_op <= #1 `OR1200_ALUOP_SHROT;
-
- // SFXX insns with immediate
- `OR1200_OR32_SFXXI:
- alu_op <= #1 `OR1200_ALUOP_COMP;
-
- // ALU instructions except the one with immediate
- `OR1200_OR32_ALU:
- alu_op <= #1 id_insn[3:0];
-
- // SFXX instructions
- `OR1200_OR32_SFXX:
- alu_op <= #1 `OR1200_ALUOP_COMP;
-
-`ifdef OR1200_OR32_CUST5
- // l.cust5 instructions
- `OR1200_OR32_CUST5:
- alu_op <= #1 `OR1200_ALUOP_CUST5;
-`endif
-
- // Default
- default: begin
- alu_op <= #1 `OR1200_ALUOP_NOP;
- end
-
- endcase
-
- end
-end
-
-//
-// Decode of mac_op
-//
-`ifdef OR1200_MAC_IMPLEMENTED
-always @(posedge clk or posedge rst) begin
- if (rst)
- mac_op <= #1 `OR1200_MACOP_NOP;
- else if (!ex_freeze & id_freeze | flushpipe)
- mac_op <= #1 `OR1200_MACOP_NOP;
- else if (!ex_freeze)
- case (id_insn[31:26]) // synopsys parallel_case
-
- // l.maci
- `OR1200_OR32_MACI:
- mac_op <= #1 `OR1200_MACOP_MAC;
-
- // l.nop
- `OR1200_OR32_MACMSB:
- mac_op <= #1 id_insn[1:0];
-
- // Illegal and OR1200 unsupported instructions
- default: begin
- mac_op <= #1 `OR1200_MACOP_NOP;
- end
-
- endcase
- else
- mac_op <= #1 `OR1200_MACOP_NOP;
-end
-`else
-assign mac_op = `OR1200_MACOP_NOP;
-`endif
-
-//
-// Decode of shrot_op
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- shrot_op <= #1 `OR1200_SHROTOP_NOP;
- else if (!ex_freeze & id_freeze | flushpipe)
- shrot_op <= #1 `OR1200_SHROTOP_NOP;
- else if (!ex_freeze) begin
- shrot_op <= #1 id_insn[`OR1200_SHROTOP_POS];
- end
-end
-
-//
-// Decode of rfwb_op
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- rfwb_op <= #1 `OR1200_RFWBOP_NOP;
- else if (!ex_freeze & id_freeze | flushpipe)
- rfwb_op <= #1 `OR1200_RFWBOP_NOP;
- else if (!ex_freeze) begin
- case (id_insn[31:26]) // synopsys parallel_case
-
- // j.jal
- `OR1200_OR32_JAL:
- rfwb_op <= #1 {`OR1200_RFWBOP_LR,1'b1};
-
- // j.jalr
- `OR1200_OR32_JALR:
- rfwb_op <= #1 {`OR1200_RFWBOP_LR,1'b1};
-
- // l.movhi
- `OR1200_OR32_MOVHI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // l.mfspr
- `OR1200_OR32_MFSPR:
- rfwb_op <= #1 {`OR1200_RFWBOP_SPRS,1'b1};
-
- // l.lwz
- `OR1200_OR32_LWZ:
- rfwb_op <= #1 {`OR1200_RFWBOP_LSU,1'b1};
-
- // l.lbz
- `OR1200_OR32_LBZ:
- rfwb_op <= #1 {`OR1200_RFWBOP_LSU,1'b1};
-
- // l.lbs
- `OR1200_OR32_LBS:
- rfwb_op <= #1 {`OR1200_RFWBOP_LSU,1'b1};
-
- // l.lhz
- `OR1200_OR32_LHZ:
- rfwb_op <= #1 {`OR1200_RFWBOP_LSU,1'b1};
-
- // l.lhs
- `OR1200_OR32_LHS:
- rfwb_op <= #1 {`OR1200_RFWBOP_LSU,1'b1};
-
- // l.addi
- `OR1200_OR32_ADDI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // l.addic
- `OR1200_OR32_ADDIC:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // l.andi
- `OR1200_OR32_ANDI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // l.ori
- `OR1200_OR32_ORI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // l.xori
- `OR1200_OR32_XORI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // l.muli
-`ifdef OR1200_MULT_IMPLEMENTED
- `OR1200_OR32_MULI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-`endif
-
- // Shift and rotate insns with immediate
- `OR1200_OR32_SH_ROTI:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
- // ALU instructions except the one with immediate
- `OR1200_OR32_ALU:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-
-`ifdef OR1200_OR32_CUST5
- // l.cust5 instructions
- `OR1200_OR32_CUST5:
- rfwb_op <= #1 {`OR1200_RFWBOP_ALU,1'b1};
-`endif
-`ifdef OR1200_FPU_IMPLEMENTED
- // FPU instructions, lf.XXX.s, except sfxx
- `OR1200_OR32_FLOAT:
- rfwb_op <= #1 {`OR1200_RFWBOP_FPU,!id_insn[3]};
-`endif
- // Instructions w/o register-file write-back
- default: begin
- rfwb_op <= #1 `OR1200_RFWBOP_NOP;
- end
-
- endcase
- end
-end
-
-//
-// Decode of pre_branch_op
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- pre_branch_op <= #1 `OR1200_BRANCHOP_NOP;
- else if (flushpipe)
- pre_branch_op <= #1 `OR1200_BRANCHOP_NOP;
- else if (!id_freeze) begin
- case (if_insn[31:26]) // synopsys parallel_case
-
- // l.j
- `OR1200_OR32_J:
- pre_branch_op <= #1 `OR1200_BRANCHOP_BAL;
-
- // j.jal
- `OR1200_OR32_JAL:
- pre_branch_op <= #1 `OR1200_BRANCHOP_BAL;
-
- // j.jalr
- `OR1200_OR32_JALR:
- pre_branch_op <= #1 `OR1200_BRANCHOP_JR;
-
- // l.jr
- `OR1200_OR32_JR:
- pre_branch_op <= #1 `OR1200_BRANCHOP_JR;
-
- // l.bnf
- `OR1200_OR32_BNF:
- pre_branch_op <= #1 `OR1200_BRANCHOP_BNF;
-
- // l.bf
- `OR1200_OR32_BF:
- pre_branch_op <= #1 `OR1200_BRANCHOP_BF;
-
- // l.rfe
- `OR1200_OR32_RFE:
- pre_branch_op <= #1 `OR1200_BRANCHOP_RFE;
-
- // Non branch instructions
- default: begin
- pre_branch_op <= #1 `OR1200_BRANCHOP_NOP;
- end
- endcase
- end
-end
-
-//
-// Generation of branch_op
-//
-always @(posedge clk or posedge rst)
- if (rst)
- branch_op <= #1 `OR1200_BRANCHOP_NOP;
- else if (!ex_freeze & id_freeze | flushpipe)
- branch_op <= #1 `OR1200_BRANCHOP_NOP;
- else if (!ex_freeze)
- branch_op <= #1 pre_branch_op;
-
-//
-// Decode of lsu_op
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- lsu_op <= #1 `OR1200_LSUOP_NOP;
- else if (!ex_freeze & id_freeze | flushpipe)
- lsu_op <= #1 `OR1200_LSUOP_NOP;
- else if (!ex_freeze) begin
- case (id_insn[31:26]) // synopsys parallel_case
-
- // l.lwz
- `OR1200_OR32_LWZ:
- lsu_op <= #1 `OR1200_LSUOP_LWZ;
-
- // l.lbz
- `OR1200_OR32_LBZ:
- lsu_op <= #1 `OR1200_LSUOP_LBZ;
-
- // l.lbs
- `OR1200_OR32_LBS:
- lsu_op <= #1 `OR1200_LSUOP_LBS;
-
- // l.lhz
- `OR1200_OR32_LHZ:
- lsu_op <= #1 `OR1200_LSUOP_LHZ;
-
- // l.lhs
- `OR1200_OR32_LHS:
- lsu_op <= #1 `OR1200_LSUOP_LHS;
-
- // l.sw
- `OR1200_OR32_SW:
- lsu_op <= #1 `OR1200_LSUOP_SW;
-
- // l.sb
- `OR1200_OR32_SB:
- lsu_op <= #1 `OR1200_LSUOP_SB;
-
- // l.sh
- `OR1200_OR32_SH:
- lsu_op <= #1 `OR1200_LSUOP_SH;
-
- // Non load/store instructions
- default: begin
- lsu_op <= #1 `OR1200_LSUOP_NOP;
- end
- endcase
- end
-end
-
-//
-// Decode of comp_op
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- comp_op <= #1 4'd0;
- end else if (!ex_freeze & id_freeze | flushpipe)
- comp_op <= #1 4'd0;
- else if (!ex_freeze)
- comp_op <= #1 id_insn[24:21];
-end
-
-`ifdef OR1200_FPU_IMPLEMENTED
-//
-// Decode of FPU ops
-//
- assign fpu_op = {(id_insn[31:26] == `OR1200_OR32_FLOAT), id_insn[`OR1200_FPUOP_WIDTH-2:0]};
-`endif
-
-//
-// Decode of l.sys
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- sig_syscall <= #1 1'b0;
- else if (!ex_freeze & id_freeze | flushpipe)
- sig_syscall <= #1 1'b0;
- else if (!ex_freeze) begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- if (id_insn[31:23] == {`OR1200_OR32_XSYNC, 3'b000})
- $display("Generating sig_syscall");
-// synopsys translate_on
-`endif
- sig_syscall <= #1 (id_insn[31:23] == {`OR1200_OR32_XSYNC, 3'b000});
- end
-end
-
-//
-// Decode of l.trap
-//
-always @(posedge clk or posedge rst) begin
- if (rst)
- sig_trap <= #1 1'b0;
- else if (!ex_freeze & id_freeze | flushpipe)
- sig_trap <= #1 1'b0;
- else if (!ex_freeze) begin
-`ifdef OR1200_VERBOSE
-// synopsys translate_off
- if (id_insn[31:23] == {`OR1200_OR32_XSYNC, 3'b010})
- $display("Generating sig_trap");
-// synopsys translate_on
-`endif
- sig_trap <= #1 (id_insn[31:23] == {`OR1200_OR32_XSYNC, 3'b010})
- | du_hwbkpt;
- end
- else if (!sig_trap)
- sig_trap <= #1 du_hwbkpt; // Added jb 091220 - because hw data load/store EA bkpts weren't getting triggered
-
-end
-
-endmodule
verilog/components/or1200r2/or1200_ctrl.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dpram_32x32.v
===================================================================
--- verilog/components/or1200r2/or1200_dpram_32x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_dpram_32x32.v (nonexistent)
@@ -1,113 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Double-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common double-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// double-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Author(s): ////
-//// - Michael Unneback, unneback@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_dpram
- (
- // Generic synchronous double-port RAM interface
- clk_a, ce_a, addr_a, do_a,
- clk_b, ce_b, we_b, addr_b, di_b
- );
-
- //
- // Default address and data buses width
- //
- parameter aw = 5;
- parameter dw = 32;
-
- //
- // Generic synchronous double-port RAM interface
- //
- input clk_a; // Clock
- input ce_a; // Chip enable input
- input [aw-1:0] addr_a; // address bus inputs
- output [dw-1:0] do_a; // output data bus
- input clk_b; // Clock
- input ce_b; // Chip enable input
- input we_b; // Write enable input
- input [aw-1:0] addr_b; // address bus inputs
- input [dw-1:0] di_b; // input data bus
-
- //
- // Internal wires and registers
- //
-
- //
- // Generic double-port synchronous RAM model
- //
-
- //
- // Generic RAM's registers and wires
- //
- reg [dw-1:0] mem [(1<
verilog/components/or1200r2/or1200_dpram_32x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_rf.v
===================================================================
--- verilog/components/or1200r2/or1200_rf.v (revision 185)
+++ verilog/components/or1200r2/or1200_rf.v (nonexistent)
@@ -1,405 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's register file inside CPU ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of register file memories ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_rf.v,v $
-// Revision 1.3 2003/04/07 01:21:56 lampret
-// RFRAM type always need to be defined.
-//
-// Revision 1.2 2002/06/08 16:19:09 lampret
-// Added generic flip-flop based memory macro instantiation.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.13 2001/11/20 18:46:15 simons
-// Break point bug fixed
-//
-// Revision 1.12 2001/11/13 10:02:21 lampret
-// Added 'setpc'. Renamed some signals (except_flushpipe into flushpipe etc)
-//
-// Revision 1.11 2001/11/12 01:45:40 lampret
-// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports.
-//
-// Revision 1.10 2001/11/10 03:43:57 lampret
-// Fixed exceptions.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:54 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_rf(
- // Clock and reset
- clk, rst,
-
- // Write i/f
- cy_we_i, cy_we_o, supv, wb_freeze, addrw, dataw, we, flushpipe,
-
- // Read i/f
- id_freeze, addra, addrb, dataa, datab, rda, rdb,
-
- // Debug
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_REGFILE_ADDR_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// Write i/f
-//
-input cy_we_i;
-output cy_we_o;
-input supv;
-input wb_freeze;
-input [aw-1:0] addrw;
-input [dw-1:0] dataw;
-input we;
-input flushpipe;
-
-//
-// Read i/f
-//
-input id_freeze;
-input [aw-1:0] addra;
-input [aw-1:0] addrb;
-output [dw-1:0] dataa;
-output [dw-1:0] datab;
-input rda;
-input rdb;
-
-//
-// SPR access for debugging purposes
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
-//
-// Internal wires and regs
-//
-wire [dw-1:0] from_rfa;
-wire [dw-1:0] from_rfb;
-reg [dw:0] dataa_saved;
-reg [dw:0] datab_saved;
-wire [aw-1:0] rf_addra;
-wire [aw-1:0] rf_addrw;
-wire [dw-1:0] rf_dataw;
-wire rf_we;
-wire spr_valid;
-wire rf_ena;
-wire rf_enb;
-reg rf_we_allow;
-
-//
-// SPR access is valid when spr_cs is asserted and
-// SPR address matches GPR addresses
-//
-assign spr_valid = spr_cs & (spr_addr[10:5] == `OR1200_SPR_RF);
-
-//
-// SPR data output is always from RF A
-//
-assign spr_dat_o = from_rfa;
-
-//
-// Operand A comes from RF or from saved A register
-//
-assign dataa = (dataa_saved[32]) ? dataa_saved[31:0] : from_rfa;
-
-//
-// Operand B comes from RF or from saved B register
-//
-assign datab = (datab_saved[32]) ? datab_saved[31:0] : from_rfb;
-
-//
-// RF A read address is either from SPRS or normal from CPU control
-//
-assign rf_addra = (spr_valid & !spr_write) ? spr_addr[4:0] : addra;
-
-//
-// RF write address is either from SPRS or normal from CPU control
-//
-assign rf_addrw = (spr_valid & spr_write) ? spr_addr[4:0] : addrw;
-
-//
-// RF write data is either from SPRS or normal from CPU datapath
-//
-assign rf_dataw = (spr_valid & spr_write) ? spr_dat_i : dataw;
-
-//
-// RF write enable is either from SPRS or normal from CPU control
-//
-always @(posedge rst or posedge clk)
- if (rst)
- rf_we_allow <= #1 1'b1;
- else if (~wb_freeze)
- rf_we_allow <= #1 ~flushpipe;
-
-assign rf_we = ((spr_valid & spr_write) | (we & ~wb_freeze)) & rf_we_allow & (supv | (|rf_addrw));
-assign cy_we_o = cy_we_i && rf_we ;
-
-//
-// CS RF A asserted when instruction reads operand A and ID stage
-// is not stalled
-//
-assign rf_ena = rda & ~id_freeze | spr_valid; // probably works with fixed binutils
-// assign rf_ena = 1'b1; // does not work with single-stepping
-//assign rf_ena = ~id_freeze | spr_valid; // works with broken binutils
-
-//
-// CS RF B asserted when instruction reads operand B and ID stage
-// is not stalled
-//
-assign rf_enb = rdb & ~id_freeze | spr_valid;
-// assign rf_enb = 1'b1;
-//assign rf_enb = ~id_freeze | spr_valid; // works with broken binutils
-
-//
-// Stores operand from RF_A into temp reg when pipeline is frozen
-//
-always @(posedge clk or posedge rst)
- if (rst) begin
- dataa_saved <= #1 33'b0;
- end
- else if (id_freeze & !dataa_saved[32]) begin
- dataa_saved <= #1 {1'b1, from_rfa};
- end
- else if (!id_freeze)
- dataa_saved <= #1 33'b0;
-
-//
-// Stores operand from RF_B into temp reg when pipeline is frozen
-//
-always @(posedge clk or posedge rst)
- if (rst) begin
- datab_saved <= #1 33'b0;
- end
- else if (id_freeze & !datab_saved[32]) begin
- datab_saved <= #1 {1'b1, from_rfb};
- end
- else if (!id_freeze)
- datab_saved <= #1 33'b0;
-
-`ifdef OR1200_RFRAM_TWOPORT
-
-//
-// Instantiation of register file two-port RAM A
-//
-or1200_tpram_32x32 rf_a(
- // Port A
- .clk_a(clk),
- .rst_a(rst),
- .ce_a(rf_ena),
- .we_a(1'b0),
- .oe_a(1'b1),
- .addr_a(rf_addra),
- .di_a(32'h0000_0000),
- .do_a(from_rfa),
-
- // Port B
- .clk_b(clk),
- .rst_b(rst),
- .ce_b(rf_we),
- .we_b(rf_we),
- .oe_b(1'b0),
- .addr_b(rf_addrw),
- .di_b(rf_dataw),
- .do_b()
-);
-
-//
-// Instantiation of register file two-port RAM B
-//
-or1200_tpram_32x32 rf_b(
- // Port A
- .clk_a(clk),
- .rst_a(rst),
- .ce_a(rf_enb),
- .we_a(1'b0),
- .oe_a(1'b1),
- .addr_a(addrb),
- .di_a(32'h0000_0000),
- .do_a(from_rfb),
-
- // Port B
- .clk_b(clk),
- .rst_b(rst),
- .ce_b(rf_we),
- .we_b(rf_we),
- .oe_b(1'b0),
- .addr_b(rf_addrw),
- .di_b(rf_dataw),
- .do_b()
-);
-
-`else
-
-`ifdef OR1200_RFRAM_DUALPORT
-
-//
-// Instantiation of register file two-port RAM A
-//
- or1200_dpram #
- (
- .aw(5),
- .dw(32)
- )
- rf_a
- (
- // Port A
- .clk_a(clk),
- .ce_a(rf_ena),
- .addr_a(rf_addra),
- .do_a(from_rfa),
-
- // Port B
- .clk_b(clk),
- .ce_b(rf_we),
- .we_b(rf_we),
- .addr_b(rf_addrw),
- .di_b(rf_dataw)
- );
-
- //
- // Instantiation of register file two-port RAM B
- //
- or1200_dpram #
- (
- .aw(5),
- .dw(32)
- )
- rf_b
- (
- // Port A
- .clk_a(clk),
- .ce_a(rf_enb),
- .addr_a(addrb),
- .do_a(from_rfb),
-
- // Port B
- .clk_b(clk),
- .ce_b(rf_we),
- .we_b(rf_we),
- .addr_b(rf_addrw),
- .di_b(rf_dataw)
- );
-
-`else
-
-`ifdef OR1200_RFRAM_GENERIC
-
-//
-// Instantiation of generic (flip-flop based) register file
-//
-or1200_rfram_generic rf_a(
- // Clock and reset
- .clk(clk),
- .rst(rst),
-
- // Port A
- .ce_a(rf_ena),
- .addr_a(rf_addra),
- .do_a(from_rfa),
-
- // Port B
- .ce_b(rf_enb),
- .addr_b(addrb),
- .do_b(from_rfb),
-
- // Port W
- .ce_w(rf_we),
- .we_w(rf_we),
- .addr_w(rf_addrw),
- .di_w(rf_dataw)
-);
-
-`else
-
-//
-// RFRAM type not specified
-//
-initial begin
- $display("Define RFRAM type.");
- $finish;
-end
-
-`endif
-`endif
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_rf.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_wb_biu.v
===================================================================
--- verilog/components/or1200r2/or1200_wb_biu.v (revision 185)
+++ verilog/components/or1200r2/or1200_wb_biu.v (nonexistent)
@@ -1,481 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's WISHBONE BIU ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Implements WISHBONE interface ////
-//// ////
-//// To Do: ////
-//// - if biu_cyc/stb are deasserted and wb_ack_i is asserted ////
-//// and this happens even before aborted_r is asssrted, ////
-//// wb_ack_i will be delivered even though transfer is ////
-//// internally considered already aborted. However most ////
-//// wb_ack_i are externally registered and delayed. Normally ////
-//// this shouldn't cause any problems. ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_wb_biu.v,v $
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.6.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.6 2003/04/07 20:57:46 lampret
-// Fixed OR1200_CLKDIV_x_SUPPORTED defines. Fixed order of ifdefs.
-//
-// Revision 1.5 2002/12/08 08:57:56 lampret
-// Added optional support for WB B3 specification (xwb_cti_o, xwb_bte_o). Made xwb_cab_o optional.
-//
-// Revision 1.4 2002/09/16 03:09:16 lampret
-// Fixed a combinational loop.
-//
-// Revision 1.3 2002/08/12 05:31:37 lampret
-// Added optional retry counter for wb_rty_i. Added graceful termination for aborted transfers.
-//
-// Revision 1.2 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.12 2001/11/22 13:42:51 lampret
-// Added wb_cyc_o assignment after it was removed by accident.
-//
-// Revision 1.11 2001/11/20 21:28:10 lampret
-// Added optional sampling of inputs.
-//
-// Revision 1.10 2001/11/18 11:32:00 lampret
-// OR1200_REGISTERED_OUTPUTS can now be enabled.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:54 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:23 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_wb_biu(
- // RISC clock, reset and clock control
- clk, rst, clmode,
-
- // WISHBONE interface
- wb_clk_i, wb_rst_i, wb_ack_i, wb_err_i, wb_rty_i, wb_dat_i,
- wb_cyc_o, wb_adr_o, wb_stb_o, wb_we_o, wb_sel_o, wb_dat_o,
-`ifdef OR1200_WB_CAB
- wb_cab_o,
-`endif
-`ifdef OR1200_WB_B3
- wb_cti_o, wb_bte_o,
-`endif
-
- // Internal RISC bus
- biu_dat_i, biu_adr_i, biu_cyc_i, biu_stb_i, biu_we_i, biu_sel_i, biu_cab_i,
- biu_dat_o, biu_ack_o, biu_err_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// RISC clock, reset and clock control
-//
-input clk; // RISC clock
-input rst; // RISC reset
-input [1:0] clmode; // 00 WB=RISC, 01 WB=RISC/2, 10 N/A, 11 WB=RISC/4
-
-//
-// WISHBONE interface
-//
-input wb_clk_i; // clock input
-input wb_rst_i; // reset input
-input wb_ack_i; // normal termination
-input wb_err_i; // termination w/ error
-input wb_rty_i; // termination w/ retry
-input [dw-1:0] wb_dat_i; // input data bus
-output wb_cyc_o; // cycle valid output
-output [aw-1:0] wb_adr_o; // address bus outputs
-output wb_stb_o; // strobe output
-output wb_we_o; // indicates write transfer
-output [3:0] wb_sel_o; // byte select outputs
-output [dw-1:0] wb_dat_o; // output data bus
-`ifdef OR1200_WB_CAB
-output wb_cab_o; // consecutive address burst
-`endif
-`ifdef OR1200_WB_B3
-output [2:0] wb_cti_o; // cycle type identifier
-output [1:0] wb_bte_o; // burst type extension
-`endif
-
-//
-// Internal RISC interface
-//
-input [dw-1:0] biu_dat_i; // input data bus
-input [aw-1:0] biu_adr_i; // address bus
-input biu_cyc_i; // WB cycle
-input biu_stb_i; // WB strobe
-input biu_we_i; // WB write enable
-input biu_cab_i; // CAB input
-input [3:0] biu_sel_i; // byte selects
-output [31:0] biu_dat_o; // output data bus
-output biu_ack_o; // ack output
-output biu_err_o; // err output
-
-//
-// Registers
-//
-reg [1:0] valid_div; // Used for synchronization
-`ifdef OR1200_REGISTERED_OUTPUTS
-reg [aw-1:0] wb_adr_o; // address bus outputs
-reg wb_cyc_o; // cycle output
-reg wb_stb_o; // strobe output
-reg wb_we_o; // indicates write transfer
-reg [3:0] wb_sel_o; // byte select outputs
-`ifdef OR1200_WB_CAB
-reg wb_cab_o; // CAB output
-`endif
-`ifdef OR1200_WB_B3
-reg [1:0] burst_len; // burst counter
-reg [2:0] wb_cti_o; // cycle type identifier
-`endif
-reg [dw-1:0] wb_dat_o; // output data bus
-`endif
-`ifdef OR1200_REGISTERED_INPUTS
-reg long_ack_o; // normal termination
-reg long_err_o; // error termination
-reg [dw-1:0] biu_dat_o; // output data bus
-`else
-wire long_ack_o; // normal termination
-wire long_err_o; // error termination
-`endif
-wire aborted; // Graceful abort
-reg aborted_r; // Graceful abort
-wire retry; // Retry
-`ifdef OR1200_WB_RETRY
-reg [`OR1200_WB_RETRY-1:0] retry_cntr; // Retry counter
-`endif
-
-//
-// WISHBONE I/F <-> Internal RISC I/F conversion
-//
-
-//
-// Address bus
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_adr_o <= #1 {aw{1'b0}};
- else if ((biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~aborted & ~(wb_stb_o & ~wb_ack_i))
- wb_adr_o <= #1 biu_adr_i;
-`else
-assign wb_adr_o = biu_adr_i;
-`endif
-
-//
-// Input data bus
-//
-`ifdef OR1200_REGISTERED_INPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- biu_dat_o <= #1 32'h0000_0000;
- else if (wb_ack_i)
- biu_dat_o <= #1 wb_dat_i;
-`else
-assign biu_dat_o = wb_dat_i;
-`endif
-
-//
-// Output data bus
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_dat_o <= #1 {dw{1'b0}};
- else if ((biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~aborted)
- wb_dat_o <= #1 biu_dat_i;
-`else
-assign wb_dat_o = biu_dat_i;
-`endif
-
-//
-// Valid_div counts RISC clock cycles by modulo 4
-// and is used to synchronize external WB i/f to
-// RISC clock
-//
-always @(posedge clk or posedge rst)
- if (rst)
- valid_div <= #1 2'b0;
- else
- valid_div <= #1 valid_div + 1'd1;
-
-//
-// biu_ack_o is one RISC clock cycle long long_ack_o.
-// long_ack_o is one, two or four RISC clock cycles long because
-// WISHBONE can work at 1, 1/2 or 1/4 RISC clock.
-//
-assign biu_ack_o = long_ack_o
-`ifdef OR1200_CLKDIV_2_SUPPORTED
- & (valid_div[0] | ~clmode[0])
-`ifdef OR1200_CLKDIV_4_SUPPORTED
- & (valid_div[1] | ~clmode[1])
-`endif
-`endif
- ;
-
-//
-// Acknowledgment of the data to the RISC
-//
-// long_ack_o
-//
-`ifdef OR1200_REGISTERED_INPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- long_ack_o <= #1 1'b0;
- else
- long_ack_o <= #1 wb_ack_i & ~aborted;
-`else
-assign long_ack_o = wb_ack_i & ~aborted_r;
-`endif
-
-//
-// biu_err_o is one RISC clock cycle long long_err_o.
-// long_err_o is one, two or four RISC clock cycles long because
-// WISHBONE can work at 1, 1/2 or 1/4 RISC clock.
-//
-assign biu_err_o = long_err_o
-`ifdef OR1200_CLKDIV_2_SUPPORTED
- & (valid_div[0] | ~clmode[0])
-`ifdef OR1200_CLKDIV_4_SUPPORTED
- & (valid_div[1] | ~clmode[1])
-`endif
-`endif
- ;
-
-//
-// Error termination
-//
-// long_err_o
-//
-`ifdef OR1200_REGISTERED_INPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- long_err_o <= #1 1'b0;
- else
- long_err_o <= #1 wb_err_i & ~aborted;
-`else
-assign long_err_o = wb_err_i & ~aborted_r;
-`endif
-
-//
-// Retry counter
-//
-// Assert 'retry' when 'wb_rty_i' is sampled high and keep it high
-// until retry counter doesn't expire
-//
-`ifdef OR1200_WB_RETRY
-assign retry = wb_rty_i | (|retry_cntr);
-`else
-assign retry = 1'b0;
-`endif
-`ifdef OR1200_WB_RETRY
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- retry_cntr <= #1 1'b0;
- else if (wb_rty_i)
- retry_cntr <= #1 {`OR1200_WB_RETRY{1'b1}};
- else if (retry_cntr)
- retry_cntr <= #1 retry_cntr - 7'd1;
-`endif
-
-//
-// Graceful completion of aborted transfers
-//
-// Assert 'aborted' when 1) current transfer is in progress (wb_stb_o; which
-// we know is only asserted together with wb_cyc_o) 2) and in next WB clock cycle
-// wb_stb_o would be deasserted (biu_cyc_i and biu_stb_i are low) 3) and
-// there is no termination of current transfer in this WB clock cycle (wb_ack_i
-// and wb_err_i are low).
-// 'aborted_r' is registered 'aborted' and extended until this "aborted" transfer
-// is properly terminated with wb_ack_i/wb_err_i.
-//
-assign aborted = wb_stb_o & ~(biu_cyc_i & biu_stb_i) & ~(wb_ack_i | wb_err_i);
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- aborted_r <= #1 1'b0;
- else if (wb_ack_i | wb_err_i)
- aborted_r <= #1 1'b0;
- else if (aborted)
- aborted_r <= #1 1'b1;
-
-//
-// WB cyc_o
-//
-// Either 1) normal transfer initiated by biu_cyc_i (and biu_cab_i if
-// bursts are enabled) and possibly suspended by 'retry'
-// or 2) extended "aborted" transfer
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_cyc_o <= #1 1'b0;
- else
-`ifdef OR1200_NO_BURSTS
- wb_cyc_o <= #1 biu_cyc_i & ~wb_ack_i & ~retry | aborted & ~wb_ack_i;
-`else
- wb_cyc_o <= #1 biu_cyc_i & ~wb_ack_i & ~retry | biu_cab_i | aborted & ~wb_ack_i;
-`endif
-`else
-`ifdef OR1200_NO_BURSTS
-assign wb_cyc_o = biu_cyc_i & ~retry;
-`else
-assign wb_cyc_o = biu_cyc_i | biu_cab_i & ~retry;
-`endif
-`endif
-
-//
-// WB stb_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_stb_o <= #1 1'b0;
- else
- wb_stb_o <= #1 (biu_cyc_i & biu_stb_i) & ~wb_ack_i & ~retry | aborted & ~wb_ack_i;
-`else
-assign wb_stb_o = biu_cyc_i & biu_stb_i;
-`endif
-
-//
-// WB we_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_we_o <= #1 1'b0;
- else
- wb_we_o <= #1 biu_cyc_i & biu_stb_i & biu_we_i | aborted & wb_we_o;
-`else
-assign wb_we_o = biu_cyc_i & biu_stb_i & biu_we_i;
-`endif
-
-//
-// WB sel_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_sel_o <= #1 4'b0000;
- else
- wb_sel_o <= #1 biu_sel_i;
-`else
-assign wb_sel_o = biu_sel_i;
-`endif
-
-`ifdef OR1200_WB_CAB
-//
-// WB cab_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_cab_o <= #1 1'b0;
- else
- wb_cab_o <= #1 biu_cab_i;
-`else
-assign wb_cab_o = biu_cab_i;
-`endif
-`endif
-
-`ifdef OR1200_WB_B3
-//
-// Count burst beats
-//
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- burst_len <= #1 2'b00;
- else if (biu_cab_i && burst_len && wb_ack_i)
- burst_len <= #1 burst_len - 1'b1;
- else if (~biu_cab_i)
- burst_len <= #1 2'b11;
-
-//
-// WB cti_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge wb_clk_i or posedge wb_rst_i)
- if (wb_rst_i)
- wb_cti_o <= #1 3'b000; // classic cycle
-`ifdef OR1200_NO_BURSTS
- else
- wb_cti_o <= #1 3'b111; // end-of-burst
-`else
- else if (biu_cab_i && burst_len[1])
- wb_cti_o <= #1 3'b010; // incrementing burst cycle
- else if (biu_cab_i && wb_ack_i)
- wb_cti_o <= #1 3'b111; // end-of-burst
-`endif // OR1200_NO_BURSTS
-`else
-Unsupported !!!;
-`endif
-
-//
-// WB bte_o
-//
-assign wb_bte_o = 2'b01; // 4-beat wrap burst
-
-`endif // OR1200_WB_B3
-
-endmodule
verilog/components/or1200r2/or1200_wb_biu.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_sb_fifo.v
===================================================================
--- verilog/components/or1200r2/or1200_sb_fifo.v (revision 185)
+++ verilog/components/or1200r2/or1200_sb_fifo.v (nonexistent)
@@ -1,147 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Store Buffer FIFO ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Implementation of store buffer FIFO. ////
-//// ////
-//// To Do: ////
-//// - N/A ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2002 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_sb_fifo.v,v $
-// Revision 1.3 2002/11/06 13:53:41 simons
-// SB mem width fixed.
-//
-// Revision 1.2 2002/08/22 02:18:55 lampret
-// Store buffer has been tested and it works. BY default it is still disabled until uClinux confirms correct operation on FPGA board.
-//
-// Revision 1.1 2002/08/18 19:53:08 lampret
-// Added store buffer.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_sb_fifo(
- clk_i, rst_i, dat_i, wr_i, rd_i, dat_o, full_o, empty_o
-);
-
-parameter dw = 68;
-parameter fw = `OR1200_SB_LOG;
-parameter fl = `OR1200_SB_ENTRIES;
-
-//
-// FIFO signals
-//
-input clk_i; // Clock
-input rst_i; // Reset
-input [dw-1:0] dat_i; // Input data bus
-input wr_i; // Write request
-input rd_i; // Read request
-output [dw-1:0] dat_o; // Output data bus
-output full_o; // FIFO full
-output empty_o;// FIFO empty
-
-//
-// Internal regs
-//
-reg [dw-1:0] mem [fl-1:0];
-reg [dw-1:0] dat_o;
-reg [fw+1:0] cntr;
-reg [fw-1:0] wr_pntr;
-reg [fw-1:0] rd_pntr;
-reg empty_o;
-reg full_o;
-
-always @(posedge clk_i or posedge rst_i)
- if (rst_i) begin
- full_o <= #1 1'b0;
- empty_o <= #1 1'b1;
- wr_pntr <= #1 {fw{1'b0}};
- rd_pntr <= #1 {fw{1'b0}};
- cntr <= #1 {fw+2{1'b0}};
- dat_o <= #1 {dw{1'b0}};
- end
- else if (wr_i && rd_i) begin // FIFO Read and Write
- mem[wr_pntr] <= #1 dat_i;
- if (wr_pntr >= fl-1)
- wr_pntr <= #1 {fw{1'b0}};
- else
- wr_pntr <= #1 wr_pntr + 1'b1;
- if (empty_o) begin
- dat_o <= #1 dat_i;
- end
- else begin
- dat_o <= #1 mem[rd_pntr];
- end
- if (rd_pntr >= fl-1)
- rd_pntr <= #1 {fw{1'b0}};
- else
- rd_pntr <= #1 rd_pntr + 1'b1;
- end
- else if (wr_i && !full_o) begin // FIFO Write
- mem[wr_pntr] <= #1 dat_i;
- cntr <= #1 cntr + 1'b1;
- empty_o <= #1 1'b0;
- if (cntr >= (fl-1)) begin
- full_o <= #1 1'b1;
- cntr <= #1 fl;
- end
- if (wr_pntr >= fl-1)
- wr_pntr <= #1 {fw{1'b0}};
- else
- wr_pntr <= #1 wr_pntr + 1'b1;
- end
- else if (rd_i && !empty_o) begin // FIFO Read
- dat_o <= #1 mem[rd_pntr];
- cntr <= #1 cntr - 1'b1;
- full_o <= #1 1'b0;
- if (cntr <= 1) begin
- empty_o <= #1 1'b1;
- cntr <= #1 {fw+2{1'b0}};
- end
- if (rd_pntr >= fl-1)
- rd_pntr <= #1 {fw{1'b0}};
- else
- rd_pntr <= #1 rd_pntr + 1'b1;
- end
-
-endmodule
verilog/components/or1200r2/or1200_sb_fifo.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_1024x8.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_1024x8.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_1024x8.v (nonexistent)
@@ -1,403 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_1024x8.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_1024x8(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 10;
-parameter dw = 8;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_1024x8 #(dw, 1<
verilog/components/or1200r2/or1200_spram_1024x8.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_du.v
===================================================================
--- verilog/components/or1200r2/or1200_du.v (revision 185)
+++ verilog/components/or1200r2/or1200_du.v (nonexistent)
@@ -1,1892 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Debug Unit ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Basic OR1200 debug unit. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_du.v,v $
-// Revision 1.12 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.11 2005/01/07 09:35:08 andreje
-// du_hwbkpt disabled when debug unit not implemented
-//
-// Revision 1.10 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.9.4.4 2004/02/11 01:40:11 lampret
-// preliminary HW breakpoints support in debug unit (by default disabled). To enable define OR1200_DU_HWBKPTS.
-//
-// Revision 1.9.4.3 2004/01/18 10:08:00 simons
-// Error fixed.
-//
-// Revision 1.9.4.2 2004/01/17 21:14:14 simons
-// Errors fixed.
-//
-// Revision 1.9.4.1 2004/01/15 06:46:38 markom
-// interface to debug changed; no more opselect; stb-ack protocol
-//
-// Revision 1.9 2003/01/22 03:23:47 lampret
-// Updated sensitivity list for trace buffer [only relevant for Xilinx FPGAs]
-//
-// Revision 1.8 2002/09/08 19:31:52 lampret
-// Fixed a typo, reported by Taylor Su.
-//
-// Revision 1.7 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.6 2002/03/14 00:30:24 lampret
-// Added alternative for critical path in DU.
-//
-// Revision 1.5 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.4 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.3 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.12 2001/11/30 18:58:00 simons
-// Trap insn couses break after exits ex_insn.
-//
-// Revision 1.11 2001/11/23 08:38:51 lampret
-// Changed DSR/DRR behavior and exception detection.
-//
-// Revision 1.10 2001/11/20 21:25:44 lampret
-// Fixed dbg_is_o assignment width.
-//
-// Revision 1.9 2001/11/20 18:46:14 simons
-// Break point bug fixed
-//
-// Revision 1.8 2001/11/18 08:36:28 lampret
-// For GDB changed single stepping and disabled trap exception.
-//
-// Revision 1.7 2001/10/21 18:09:53 lampret
-// Fixed sensitivity list.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Debug unit
-//
-
-module or1200_du(
- // RISC Internal Interface
- clk, rst,
- dcpu_cycstb_i, dcpu_we_i, dcpu_adr_i, dcpu_dat_lsu,
- dcpu_dat_dc, icpu_cycstb_i,
- ex_freeze, branch_op, ex_insn, id_pc,
- spr_dat_npc, rf_dataw,
- du_dsr, du_stall, du_addr, du_dat_i, du_dat_o,
- du_read, du_write, du_except, du_hwbkpt,
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o,
-
- // External Debug Interface
- dbg_stall_i, dbg_ewt_i, dbg_lss_o, dbg_is_o, dbg_wp_o, dbg_bp_o,
- dbg_stb_i, dbg_we_i, dbg_adr_i, dbg_dat_i, dbg_dat_o, dbg_ack_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// RISC Internal Interface
-//
-input clk; // Clock
-input rst; // Reset
-input dcpu_cycstb_i; // LSU status
-input dcpu_we_i; // LSU status
-input [31:0] dcpu_adr_i; // LSU addr
-input [31:0] dcpu_dat_lsu; // LSU store data
-input [31:0] dcpu_dat_dc; // LSU load data
-input [`OR1200_FETCHOP_WIDTH-1:0] icpu_cycstb_i; // IFETCH unit status
-input ex_freeze; // EX stage freeze
-input [`OR1200_BRANCHOP_WIDTH-1:0] branch_op; // Branch op
-input [dw-1:0] ex_insn; // EX insn
-input [31:0] id_pc; // insn fetch EA
-input [31:0] spr_dat_npc; // Next PC (for trace)
-input [31:0] rf_dataw; // ALU result (for trace)
-output [`OR1200_DU_DSR_WIDTH-1:0] du_dsr; // DSR
-output du_stall; // Debug Unit Stall
-output [aw-1:0] du_addr; // Debug Unit Address
-input [dw-1:0] du_dat_i; // Debug Unit Data In
-output [dw-1:0] du_dat_o; // Debug Unit Data Out
-output du_read; // Debug Unit Read Enable
-output du_write; // Debug Unit Write Enable
-input [13:0] du_except; // Exception masked by DSR
-output du_hwbkpt; // Cause trap exception (HW Breakpoints)
-input spr_cs; // SPR Chip Select
-input spr_write; // SPR Read/Write
-input [aw-1:0] spr_addr; // SPR Address
-input [dw-1:0] spr_dat_i; // SPR Data Input
-output [dw-1:0] spr_dat_o; // SPR Data Output
-
-//
-// External Debug Interface
-//
-input dbg_stall_i; // External Stall Input
-input dbg_ewt_i; // External Watchpoint Trigger Input
-output [3:0] dbg_lss_o; // External Load/Store Unit Status
-output [1:0] dbg_is_o; // External Insn Fetch Status
-output [10:0] dbg_wp_o; // Watchpoints Outputs
-output dbg_bp_o; // Breakpoint Output
-input dbg_stb_i; // External Address/Data Strobe
-input dbg_we_i; // External Write Enable
-input [aw-1:0] dbg_adr_i; // External Address Input
-input [dw-1:0] dbg_dat_i; // External Data Input
-output [dw-1:0] dbg_dat_o; // External Data Output
-output dbg_ack_o; // External Data Acknowledge (not WB compatible)
-reg [dw-1:0] dbg_dat_o; // External Data Output
-reg dbg_ack_o; // External Data Acknowledge (not WB compatible)
-
-
-//
-// Some connections go directly from the CPU through DU to Debug I/F
-//
-`ifdef OR1200_DU_STATUS_UNIMPLEMENTED
-assign dbg_lss_o = 4'b0000;
-
-reg [1:0] dbg_is_o;
-//
-// Show insn activity (temp, must be removed)
-//
-always @(posedge clk or posedge rst)
- if (rst)
- dbg_is_o <= #1 2'b00;
- else if (!ex_freeze &
- ~((ex_insn[31:26] == `OR1200_OR32_NOP) & ex_insn[16]))
- dbg_is_o <= #1 ~dbg_is_o;
-`ifdef UNUSED
-assign dbg_is_o = 2'b00;
-`endif
-`else
-assign dbg_lss_o = dcpu_cycstb_i ? {dcpu_we_i, 3'b000} : 4'b0000;
-assign dbg_is_o = {1'b0, icpu_cycstb_i};
-`endif
-assign dbg_wp_o = 11'b000_0000_0000;
-
-//
-// Some connections go directly from Debug I/F through DU to the CPU
-//
-assign du_stall = dbg_stall_i;
-assign du_addr = dbg_adr_i;
-assign du_dat_o = dbg_dat_i;
-assign du_read = dbg_stb_i && !dbg_we_i;
-assign du_write = dbg_stb_i && dbg_we_i;
-
-reg dbg_ack;
-//
-// Generate acknowledge -- just delay stb signal
-//
-always @(posedge clk or posedge rst) begin
- if (rst) begin
- dbg_ack <= #1 1'b0;
- dbg_ack_o <= #1 1'b0;
- end
- else begin
- dbg_ack <= #1 dbg_stb_i;
- dbg_ack_o <= #1 dbg_ack;
- end
-end
-
-//
-// Register data output
-//
-always @(posedge clk)
- dbg_dat_o <= #1 du_dat_i;
-
-`ifdef OR1200_DU_IMPLEMENTED
-
-//
-// Debug Mode Register 1
-//
-`ifdef OR1200_DU_DMR1
-reg [24:0] dmr1; // DMR1 implemented
-`else
-wire [24:0] dmr1; // DMR1 not implemented
-`endif
-
-//
-// Debug Mode Register 2
-//
-`ifdef OR1200_DU_DMR2
-reg [23:0] dmr2; // DMR2 implemented
-`else
-wire [23:0] dmr2; // DMR2 not implemented
-`endif
-
-//
-// Debug Stop Register
-//
-`ifdef OR1200_DU_DSR
-reg [`OR1200_DU_DSR_WIDTH-1:0] dsr; // DSR implemented
-`else
-wire [`OR1200_DU_DSR_WIDTH-1:0] dsr; // DSR not implemented
-`endif
-
-//
-// Debug Reason Register
-//
-`ifdef OR1200_DU_DRR
-reg [13:0] drr; // DRR implemented
-`else
-wire [13:0] drr; // DRR not implemented
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR0
-reg [31:0] dvr0;
-`else
-wire [31:0] dvr0;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR1
-reg [31:0] dvr1;
-`else
-wire [31:0] dvr1;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR2
-reg [31:0] dvr2;
-`else
-wire [31:0] dvr2;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR3
-reg [31:0] dvr3;
-`else
-wire [31:0] dvr3;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR4
-reg [31:0] dvr4;
-`else
-wire [31:0] dvr4;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR5
-reg [31:0] dvr5;
-`else
-wire [31:0] dvr5;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR6
-reg [31:0] dvr6;
-`else
-wire [31:0] dvr6;
-`endif
-
-//
-// Debug Value Register N
-//
-`ifdef OR1200_DU_DVR7
-reg [31:0] dvr7;
-`else
-wire [31:0] dvr7;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR0
-reg [7:0] dcr0;
-`else
-wire [7:0] dcr0;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR1
-reg [7:0] dcr1;
-`else
-wire [7:0] dcr1;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR2
-reg [7:0] dcr2;
-`else
-wire [7:0] dcr2;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR3
-reg [7:0] dcr3;
-`else
-wire [7:0] dcr3;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR4
-reg [7:0] dcr4;
-`else
-wire [7:0] dcr4;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR5
-reg [7:0] dcr5;
-`else
-wire [7:0] dcr5;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR6
-reg [7:0] dcr6;
-`else
-wire [7:0] dcr6;
-`endif
-
-//
-// Debug Control Register N
-//
-`ifdef OR1200_DU_DCR7
-reg [7:0] dcr7;
-`else
-wire [7:0] dcr7;
-`endif
-
-//
-// Debug Watchpoint Counter Register 0
-//
-`ifdef OR1200_DU_DWCR0
-reg [31:0] dwcr0;
-`else
-wire [31:0] dwcr0;
-`endif
-
-//
-// Debug Watchpoint Counter Register 1
-//
-`ifdef OR1200_DU_DWCR1
-reg [31:0] dwcr1;
-`else
-wire [31:0] dwcr1;
-`endif
-
-//
-// Internal wires
-//
-wire dmr1_sel; // DMR1 select
-wire dmr2_sel; // DMR2 select
-wire dsr_sel; // DSR select
-wire drr_sel; // DRR select
-wire dvr0_sel,
- dvr1_sel,
- dvr2_sel,
- dvr3_sel,
- dvr4_sel,
- dvr5_sel,
- dvr6_sel,
- dvr7_sel; // DVR selects
-wire dcr0_sel,
- dcr1_sel,
- dcr2_sel,
- dcr3_sel,
- dcr4_sel,
- dcr5_sel,
- dcr6_sel,
- dcr7_sel; // DCR selects
-wire dwcr0_sel,
- dwcr1_sel; // DWCR selects
-reg dbg_bp_r;
-`ifdef OR1200_DU_HWBKPTS
-reg [31:0] match_cond0_ct;
-reg [31:0] match_cond1_ct;
-reg [31:0] match_cond2_ct;
-reg [31:0] match_cond3_ct;
-reg [31:0] match_cond4_ct;
-reg [31:0] match_cond5_ct;
-reg [31:0] match_cond6_ct;
-reg [31:0] match_cond7_ct;
-reg match_cond0_stb;
-reg match_cond1_stb;
-reg match_cond2_stb;
-reg match_cond3_stb;
-reg match_cond4_stb;
-reg match_cond5_stb;
-reg match_cond6_stb;
-reg match_cond7_stb;
-reg match0;
-reg match1;
-reg match2;
-reg match3;
-reg match4;
-reg match5;
-reg match6;
-reg match7;
-reg wpcntr0_match;
-reg wpcntr1_match;
-reg incr_wpcntr0;
-reg incr_wpcntr1;
-reg [10:0] wp;
-`endif
-wire du_hwbkpt;
-`ifdef OR1200_DU_READREGS
-reg [31:0] spr_dat_o;
-`endif
-reg [13:0] except_stop; // Exceptions that stop because of DSR
-`ifdef OR1200_DU_TB_IMPLEMENTED
-wire tb_enw;
-reg [7:0] tb_wadr;
-reg [31:0] tb_timstmp;
-`endif
-wire [31:0] tbia_dat_o;
-wire [31:0] tbim_dat_o;
-wire [31:0] tbar_dat_o;
-wire [31:0] tbts_dat_o;
-
-//
-// DU registers address decoder
-//
-`ifdef OR1200_DU_DMR1
-assign dmr1_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DMR1));
-`endif
-`ifdef OR1200_DU_DMR2
-assign dmr2_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DMR2));
-`endif
-`ifdef OR1200_DU_DSR
-assign dsr_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DSR));
-`endif
-`ifdef OR1200_DU_DRR
-assign drr_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DRR));
-`endif
-`ifdef OR1200_DU_DVR0
-assign dvr0_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR0));
-`endif
-`ifdef OR1200_DU_DVR1
-assign dvr1_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR1));
-`endif
-`ifdef OR1200_DU_DVR2
-assign dvr2_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR2));
-`endif
-`ifdef OR1200_DU_DVR3
-assign dvr3_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR3));
-`endif
-`ifdef OR1200_DU_DVR4
-assign dvr4_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR4));
-`endif
-`ifdef OR1200_DU_DVR5
-assign dvr5_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR5));
-`endif
-`ifdef OR1200_DU_DVR6
-assign dvr6_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR6));
-`endif
-`ifdef OR1200_DU_DVR7
-assign dvr7_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DVR7));
-`endif
-`ifdef OR1200_DU_DCR0
-assign dcr0_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR0));
-`endif
-`ifdef OR1200_DU_DCR1
-assign dcr1_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR1));
-`endif
-`ifdef OR1200_DU_DCR2
-assign dcr2_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR2));
-`endif
-`ifdef OR1200_DU_DCR3
-assign dcr3_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR3));
-`endif
-`ifdef OR1200_DU_DCR4
-assign dcr4_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR4));
-`endif
-`ifdef OR1200_DU_DCR5
-assign dcr5_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR5));
-`endif
-`ifdef OR1200_DU_DCR6
-assign dcr6_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR6));
-`endif
-`ifdef OR1200_DU_DCR7
-assign dcr7_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DCR7));
-`endif
-`ifdef OR1200_DU_DWCR0
-assign dwcr0_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DWCR0));
-`endif
-`ifdef OR1200_DU_DWCR1
-assign dwcr1_sel = (spr_cs && (spr_addr[`OR1200_DUOFS_BITS] == `OR1200_DU_DWCR1));
-`endif
-
-//
-// Decode started exception
-//
-always @(du_except) begin
- except_stop = 0;
- casex (du_except)
- 14'b1x_xxxx_xxxx_xxxx:
- except_stop[`OR1200_DU_DRR_TTE] = 1'b1;
- 14'b01_xxxx_xxxx_xxxx: begin
- except_stop[`OR1200_DU_DRR_IE] = 1'b1;
- end
- 14'b00_1xxx_xxxx_xxxx: begin
- except_stop[`OR1200_DU_DRR_IME] = 1'b1;
- end
- 14'b00_01xx_xxxx_xxxx:
- except_stop[`OR1200_DU_DRR_IPFE] = 1'b1;
- 14'b00_001x_xxxx_xxxx: begin
- except_stop[`OR1200_DU_DRR_BUSEE] = 1'b1;
- end
- 14'b00_0001_xxxx_xxxx:
- except_stop[`OR1200_DU_DRR_IIE] = 1'b1;
- 14'b00_0000_1xxx_xxxx: begin
- except_stop[`OR1200_DU_DRR_AE] = 1'b1;
- end
- 14'b00_0000_01xx_xxxx: begin
- except_stop[`OR1200_DU_DRR_DME] = 1'b1;
- end
- 14'b00_0000_001x_xxxx:
- except_stop[`OR1200_DU_DRR_DPFE] = 1'b1;
- 14'b00_0000_0001_xxxx:
- except_stop[`OR1200_DU_DRR_BUSEE] = 1'b1;
- 14'b00_0000_0000_1xxx: begin
- except_stop[`OR1200_DU_DRR_RE] = 1'b1;
- end
- 14'b00_0000_0000_01xx: begin
- except_stop[`OR1200_DU_DRR_TE] = 1'b1;
- end
- 14'b00_0000_0000_001x: begin
- except_stop[`OR1200_DU_DRR_FPE] = 1'b1;
- end
- 14'b00_0000_0000_0001:
- except_stop[`OR1200_DU_DRR_SCE] = 1'b1;
- default:
- except_stop = 14'b0000_0000_0000;
- endcase
-end
-
-//
-// dbg_bp_o is registered
-//
-assign dbg_bp_o = dbg_bp_r;
-
-//
-// Breakpoint activation register
-//
-always @(posedge clk or posedge rst)
- if (rst)
- dbg_bp_r <= #1 1'b0;
- else if (!ex_freeze)
- dbg_bp_r <= #1 |except_stop
-`ifdef OR1200_DU_DMR1_ST
- | ~((ex_insn[31:26] == `OR1200_OR32_NOP) & ex_insn[16]) & dmr1[`OR1200_DU_DMR1_ST]
-`endif
-`ifdef OR1200_DU_DMR1_BT
- | (branch_op != `OR1200_BRANCHOP_NOP) & (branch_op != `OR1200_BRANCHOP_RFE) & dmr1[`OR1200_DU_DMR1_BT]
-`endif
- ;
- else
- dbg_bp_r <= #1 |except_stop;
-
-//
-// Write to DMR1
-//
-`ifdef OR1200_DU_DMR1
-always @(posedge clk or posedge rst)
- if (rst)
- dmr1 <= 25'h000_0000;
- else if (dmr1_sel && spr_write)
-`ifdef OR1200_DU_HWBKPTS
- dmr1 <= #1 spr_dat_i[24:0];
-`else
- dmr1 <= #1 {1'b0, spr_dat_i[23:22], 22'h00_0000};
-`endif
-`else
-assign dmr1 = 25'h000_0000;
-`endif
-
-//
-// Write to DMR2
-//
-`ifdef OR1200_DU_DMR2
-always @(posedge clk or posedge rst)
- if (rst)
- dmr2 <= 24'h00_0000;
- else if (dmr2_sel && spr_write)
- dmr2 <= #1 spr_dat_i[23:0];
-`else
-assign dmr2 = 24'h00_0000;
-`endif
-
-//
-// Write to DSR
-//
-`ifdef OR1200_DU_DSR
-always @(posedge clk or posedge rst)
- if (rst)
- dsr <= {`OR1200_DU_DSR_WIDTH{1'b0}};
- else if (dsr_sel && spr_write)
- dsr <= #1 spr_dat_i[`OR1200_DU_DSR_WIDTH-1:0];
-`else
-assign dsr = {`OR1200_DU_DSR_WIDTH{1'b0}};
-`endif
-
-//
-// Write to DRR
-//
-`ifdef OR1200_DU_DRR
-always @(posedge clk or posedge rst)
- if (rst)
- drr <= 14'b0;
- else if (drr_sel && spr_write)
- drr <= #1 spr_dat_i[13:0];
- else
- drr <= #1 drr | except_stop;
-`else
-assign drr = 14'b0;
-`endif
-
-//
-// Write to DVR0
-//
-`ifdef OR1200_DU_DVR0
-always @(posedge clk or posedge rst)
- if (rst)
- dvr0 <= 32'h0000_0000;
- else if (dvr0_sel && spr_write)
- dvr0 <= #1 spr_dat_i[31:0];
-`else
-assign dvr0 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR1
-//
-`ifdef OR1200_DU_DVR1
-always @(posedge clk or posedge rst)
- if (rst)
- dvr1 <= 32'h0000_0000;
- else if (dvr1_sel && spr_write)
- dvr1 <= #1 spr_dat_i[31:0];
-`else
-assign dvr1 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR2
-//
-`ifdef OR1200_DU_DVR2
-always @(posedge clk or posedge rst)
- if (rst)
- dvr2 <= 32'h0000_0000;
- else if (dvr2_sel && spr_write)
- dvr2 <= #1 spr_dat_i[31:0];
-`else
-assign dvr2 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR3
-//
-`ifdef OR1200_DU_DVR3
-always @(posedge clk or posedge rst)
- if (rst)
- dvr3 <= 32'h0000_0000;
- else if (dvr3_sel && spr_write)
- dvr3 <= #1 spr_dat_i[31:0];
-`else
-assign dvr3 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR4
-//
-`ifdef OR1200_DU_DVR4
-always @(posedge clk or posedge rst)
- if (rst)
- dvr4 <= 32'h0000_0000;
- else if (dvr4_sel && spr_write)
- dvr4 <= #1 spr_dat_i[31:0];
-`else
-assign dvr4 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR5
-//
-`ifdef OR1200_DU_DVR5
-always @(posedge clk or posedge rst)
- if (rst)
- dvr5 <= 32'h0000_0000;
- else if (dvr5_sel && spr_write)
- dvr5 <= #1 spr_dat_i[31:0];
-`else
-assign dvr5 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR6
-//
-`ifdef OR1200_DU_DVR6
-always @(posedge clk or posedge rst)
- if (rst)
- dvr6 <= 32'h0000_0000;
- else if (dvr6_sel && spr_write)
- dvr6 <= #1 spr_dat_i[31:0];
-`else
-assign dvr6 = 32'h0000_0000;
-`endif
-
-//
-// Write to DVR7
-//
-`ifdef OR1200_DU_DVR7
-always @(posedge clk or posedge rst)
- if (rst)
- dvr7 <= 32'h0000_0000;
- else if (dvr7_sel && spr_write)
- dvr7 <= #1 spr_dat_i[31:0];
-`else
-assign dvr7 = 32'h0000_0000;
-`endif
-
-//
-// Write to DCR0
-//
-`ifdef OR1200_DU_DCR0
-always @(posedge clk or posedge rst)
- if (rst)
- dcr0 <= 8'h01;
- else if (dcr0_sel && spr_write)
- dcr0[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr0 = 8'h00;
-`endif
-
-//
-// Write to DCR1
-//
-`ifdef OR1200_DU_DCR1
-always @(posedge clk or posedge rst)
- if (rst)
- dcr1 <= 8'h01;
- else if (dcr1_sel && spr_write)
- dcr1[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr1 = 8'h00;
-`endif
-
-//
-// Write to DCR2
-//
-`ifdef OR1200_DU_DCR2
-always @(posedge clk or posedge rst)
- if (rst)
- dcr2 <= 8'h01;
- else if (dcr2_sel && spr_write)
- dcr2[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr2 = 8'h00;
-`endif
-
-//
-// Write to DCR3
-//
-`ifdef OR1200_DU_DCR3
-always @(posedge clk or posedge rst)
- if (rst)
- dcr3 <= 8'h01;
- else if (dcr3_sel && spr_write)
- dcr3[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr3 = 8'h00;
-`endif
-
-//
-// Write to DCR4
-//
-`ifdef OR1200_DU_DCR4
-always @(posedge clk or posedge rst)
- if (rst)
- dcr4 <= 8'h01;
- else if (dcr4_sel && spr_write)
- dcr4[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr4 = 8'h00;
-`endif
-
-//
-// Write to DCR5
-//
-`ifdef OR1200_DU_DCR5
-always @(posedge clk or posedge rst)
- if (rst)
- dcr5 <= 8'h01;
- else if (dcr5_sel && spr_write)
- dcr5[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr5 = 8'h00;
-`endif
-
-//
-// Write to DCR6
-//
-`ifdef OR1200_DU_DCR6
-always @(posedge clk or posedge rst)
- if (rst)
- dcr6 <= 8'h01;
- else if (dcr6_sel && spr_write)
- dcr6[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr6 = 8'h00;
-`endif
-
-//
-// Write to DCR7
-//
-`ifdef OR1200_DU_DCR7
-always @(posedge clk or posedge rst)
- if (rst)
- dcr7 <= 8'h01;
- else if (dcr7_sel && spr_write)
- dcr7[7:1] <= #1 spr_dat_i[7:1];
-`else
-assign dcr7 = 8'h00;
-`endif
-
-//
-// Write to DWCR0
-//
-`ifdef OR1200_DU_DWCR0
-always @(posedge clk or posedge rst)
- if (rst)
- dwcr0 <= 32'h0000_0000;
- else if (dwcr0_sel && spr_write)
- dwcr0 <= #1 spr_dat_i[31:0];
- else if (incr_wpcntr0)
- dwcr0[`OR1200_DU_DWCR_COUNT] <= #1 dwcr0[`OR1200_DU_DWCR_COUNT] + 16'h0001;
-`else
-assign dwcr0 = 32'h0000_0000;
-`endif
-
-//
-// Write to DWCR1
-//
-`ifdef OR1200_DU_DWCR1
-always @(posedge clk or posedge rst)
- if (rst)
- dwcr1 <= 32'h0000_0000;
- else if (dwcr1_sel && spr_write)
- dwcr1 <= #1 spr_dat_i[31:0];
- else if (incr_wpcntr1)
- dwcr1[`OR1200_DU_DWCR_COUNT] <= #1 dwcr1[`OR1200_DU_DWCR_COUNT] + 16'h0001;
-`else
-assign dwcr1 = 32'h0000_0000;
-`endif
-
-//
-// Read DU registers
-//
-`ifdef OR1200_DU_READREGS
-always @(spr_addr or dsr or drr or dmr1 or dmr2
- or dvr0 or dvr1 or dvr2 or dvr3 or dvr4
- or dvr5 or dvr6 or dvr7
- or dcr0 or dcr1 or dcr2 or dcr3 or dcr4
- or dcr5 or dcr6 or dcr7
- or dwcr0 or dwcr1
-`ifdef OR1200_DU_TB_IMPLEMENTED
- or tb_wadr or tbia_dat_o or tbim_dat_o
- or tbar_dat_o or tbts_dat_o
-`endif
- )
- casex (spr_addr[`OR1200_DUOFS_BITS]) // synopsys parallel_case
-`ifdef OR1200_DU_DVR0
- `OR1200_DU_DVR0:
- spr_dat_o = dvr0;
-`endif
-`ifdef OR1200_DU_DVR1
- `OR1200_DU_DVR1:
- spr_dat_o = dvr1;
-`endif
-`ifdef OR1200_DU_DVR2
- `OR1200_DU_DVR2:
- spr_dat_o = dvr2;
-`endif
-`ifdef OR1200_DU_DVR3
- `OR1200_DU_DVR3:
- spr_dat_o = dvr3;
-`endif
-`ifdef OR1200_DU_DVR4
- `OR1200_DU_DVR4:
- spr_dat_o = dvr4;
-`endif
-`ifdef OR1200_DU_DVR5
- `OR1200_DU_DVR5:
- spr_dat_o = dvr5;
-`endif
-`ifdef OR1200_DU_DVR6
- `OR1200_DU_DVR6:
- spr_dat_o = dvr6;
-`endif
-`ifdef OR1200_DU_DVR7
- `OR1200_DU_DVR7:
- spr_dat_o = dvr7;
-`endif
-`ifdef OR1200_DU_DCR0
- `OR1200_DU_DCR0:
- spr_dat_o = {24'h00_0000, dcr0};
-`endif
-`ifdef OR1200_DU_DCR1
- `OR1200_DU_DCR1:
- spr_dat_o = {24'h00_0000, dcr1};
-`endif
-`ifdef OR1200_DU_DCR2
- `OR1200_DU_DCR2:
- spr_dat_o = {24'h00_0000, dcr2};
-`endif
-`ifdef OR1200_DU_DCR3
- `OR1200_DU_DCR3:
- spr_dat_o = {24'h00_0000, dcr3};
-`endif
-`ifdef OR1200_DU_DCR4
- `OR1200_DU_DCR4:
- spr_dat_o = {24'h00_0000, dcr4};
-`endif
-`ifdef OR1200_DU_DCR5
- `OR1200_DU_DCR5:
- spr_dat_o = {24'h00_0000, dcr5};
-`endif
-`ifdef OR1200_DU_DCR6
- `OR1200_DU_DCR6:
- spr_dat_o = {24'h00_0000, dcr6};
-`endif
-`ifdef OR1200_DU_DCR7
- `OR1200_DU_DCR7:
- spr_dat_o = {24'h00_0000, dcr7};
-`endif
-`ifdef OR1200_DU_DMR1
- `OR1200_DU_DMR1:
- spr_dat_o = {7'h00, dmr1};
-`endif
-`ifdef OR1200_DU_DMR2
- `OR1200_DU_DMR2:
- spr_dat_o = {8'h00, dmr2};
-`endif
-`ifdef OR1200_DU_DWCR0
- `OR1200_DU_DWCR0:
- spr_dat_o = dwcr0;
-`endif
-`ifdef OR1200_DU_DWCR1
- `OR1200_DU_DWCR1:
- spr_dat_o = dwcr1;
-`endif
-`ifdef OR1200_DU_DSR
- `OR1200_DU_DSR:
- spr_dat_o = {18'b0, dsr};
-`endif
-`ifdef OR1200_DU_DRR
- `OR1200_DU_DRR:
- spr_dat_o = {18'b0, drr};
-`endif
-`ifdef OR1200_DU_TB_IMPLEMENTED
- `OR1200_DU_TBADR:
- spr_dat_o = {24'h000000, tb_wadr};
- `OR1200_DU_TBIA:
- spr_dat_o = tbia_dat_o;
- `OR1200_DU_TBIM:
- spr_dat_o = tbim_dat_o;
- `OR1200_DU_TBAR:
- spr_dat_o = tbar_dat_o;
- `OR1200_DU_TBTS:
- spr_dat_o = tbts_dat_o;
-`endif
- default:
- spr_dat_o = 32'h0000_0000;
- endcase
-`endif
-
-//
-// DSR alias
-//
-assign du_dsr = dsr;
-
-`ifdef OR1200_DU_HWBKPTS
-
-//
-// Compare To What (Match Condition 0)
-//
-always @(dcr0 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr0[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond0_ct = id_pc; // insn fetch EA
- 3'b010: match_cond0_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond0_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond0_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond0_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond0_ct = dcpu_adr_i; // load/store EA
- default:match_cond0_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 0)
-//
-always @(dcr0 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr0[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond0_stb = 1'b0; //comparison disabled
- 3'b001: match_cond0_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond0_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond0_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond0_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond0_stb = dcpu_cycstb_i & dcpu_we_i;// store
- default:match_cond0_stb = dcpu_cycstb_i; // any load/store
- endcase
-
-// Debugging hwbkpoint match conditions
- wire match0_dbg1;
- assign match0_dbg1 = (match_cond0_ct[31] ^ dcr0[`OR1200_DU_DCR_SC]);
- wire match0_dbg2;
- assign match0_dbg2 = (dvr0[31] ^ dcr0[`OR1200_DU_DCR_SC]);
-
-
- //
- // Match Condition 0
- //
- always @(match_cond0_stb or dcr0 or dvr0 or match_cond0_ct)
- casex ({match_cond0_stb, dcr0[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match0 = 1'b0;
- 4'b1_001: match0 = ( match_cond0_ct[30:0] == dvr0[30:0] );
- 4'b1_010: match0 =
- ((match_cond0_ct[31] ^ dcr0[`OR1200_DU_DCR_SC]) <
- (dvr0[31] ^ dcr0[`OR1200_DU_DCR_SC]))&&
- ( match_cond0_ct[30:0] < dvr0[30:0]);
- 4'b1_011: match0 =
- ((match_cond0_ct[31] ^ dcr0[`OR1200_DU_DCR_SC]) <=
- (dvr0[31] ^ dcr0[`OR1200_DU_DCR_SC]))&&
- ( match_cond0_ct[30:0] <= dvr0[30:0]);
- 4'b1_100: match0 =
- ((match_cond0_ct[31] ^ dcr0[`OR1200_DU_DCR_SC]) >
- (dvr0[31] ^ dcr0[`OR1200_DU_DCR_SC]))&&
- ( match_cond0_ct[30:0] > dvr0[30:0]);
- 4'b1_101: match0 =
- ((match_cond0_ct[31] ^ dcr0[`OR1200_DU_DCR_SC]) >=
- (dvr0[31] ^ dcr0[`OR1200_DU_DCR_SC]))&&
- ( match_cond0_ct[30:0] >= dvr0[30:0]);
- 4'b1_110: match0 =
- ((match_cond0_ct[31] ^ dcr0[`OR1200_DU_DCR_SC]) !=
- (dvr0[31] ^ dcr0[`OR1200_DU_DCR_SC]))&&
- ( match_cond0_ct[30:0] != dvr0[30:0]);
- endcase
-
-//
-// Watchpoint 0
-//
-always @(dmr1 or match0)
- case (dmr1[`OR1200_DU_DMR1_CW0])
- 2'b00: wp[0] = match0;
- 2'b01: wp[0] = match0;
- 2'b10: wp[0] = match0;
- 2'b11: wp[0] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 1)
-//
-always @(dcr1 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr1[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond1_ct = id_pc; // insn fetch EA
- 3'b010: match_cond1_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond1_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond1_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond1_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond1_ct = dcpu_adr_i; // load/store EA
- default:match_cond1_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 1)
-//
-always @(dcr1 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr1[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond1_stb = 1'b0; //comparison disabled
- 3'b001: match_cond1_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond1_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond1_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond1_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond1_stb = dcpu_cycstb_i & dcpu_we_i;// store
- default:match_cond1_stb = dcpu_cycstb_i; // any load/store
- endcase
-
- //
- // Match Condition 1
- //
- always @(match_cond1_stb or dcr1 or dvr1 or match_cond1_ct)
- casex ({match_cond1_stb, dcr1[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match1 = 1'b0;
- 4'b1_001: match1 = ( match_cond1_ct[30:0] == dvr1[30:0] );
- 4'b1_010: match1 =
- ((match_cond1_ct[31] ^ dcr1[`OR1200_DU_DCR_SC]) <
- (dvr1[31] ^ dcr1[`OR1200_DU_DCR_SC]))&&
- ( match_cond1_ct[30:0] < dvr1[30:0]);
- 4'b1_011: match1 =
- ((match_cond1_ct[31] ^ dcr1[`OR1200_DU_DCR_SC]) <=
- (dvr1[31] ^ dcr1[`OR1200_DU_DCR_SC]))&&
- ( match_cond1_ct[30:0] <= dvr1[30:0]);
- 4'b1_100: match1 =
- ((match_cond1_ct[31] ^ dcr1[`OR1200_DU_DCR_SC]) >
- (dvr1[31] ^ dcr1[`OR1200_DU_DCR_SC]))&&
- ( match_cond1_ct[30:0] > dvr1[30:0]);
- 4'b1_101: match1 =
- ((match_cond1_ct[31] ^ dcr1[`OR1200_DU_DCR_SC]) >=
- (dvr1[31] ^ dcr1[`OR1200_DU_DCR_SC]))&&
- ( match_cond1_ct[30:0] >= dvr1[30:0]);
- 4'b1_110: match1 =
- ((match_cond1_ct[31] ^ dcr1[`OR1200_DU_DCR_SC]) !=
- (dvr1[31] ^ dcr1[`OR1200_DU_DCR_SC]))&&
- ( match_cond1_ct[30:0] != dvr1[30:0]);
- endcase
-
-//
-// Watchpoint 1
-//
-always @(dmr1 or match1 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW1])
- 2'b00: wp[1] = match1;
- 2'b01: wp[1] = match1 & wp[0];
- 2'b10: wp[1] = match1 | wp[0];
- 2'b11: wp[1] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 2)
-//
-always @(dcr2 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr2[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond2_ct = id_pc; // insn fetch EA
- 3'b010: match_cond2_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond2_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond2_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond2_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond2_ct = dcpu_adr_i; // load/store EA
- default:match_cond2_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 2)
-//
-always @(dcr2 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr2[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond2_stb = 1'b0; //comparison disabled
- 3'b001: match_cond2_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond2_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond2_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond2_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond2_stb = dcpu_cycstb_i & dcpu_we_i;// store
-
- default:match_cond2_stb = dcpu_cycstb_i; // any load/store
- endcase
-
-
- //
- // Match Condition 2
- //
- always @(match_cond2_stb or dcr2 or dvr2 or match_cond2_ct)
- casex ({match_cond2_stb, dcr2[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match2 = 1'b0;
- 4'b1_001: match2 = ( match_cond2_ct[30:0] == dvr2[30:0] );
- 4'b1_010: match2 =
- ((match_cond2_ct[31] ^ dcr2[`OR1200_DU_DCR_SC]) <
- (dvr2[31] ^ dcr2[`OR1200_DU_DCR_SC]))&&
- ( match_cond2_ct[30:0] < dvr2[30:0]);
- 4'b1_011: match2 =
- ((match_cond2_ct[31] ^ dcr2[`OR1200_DU_DCR_SC]) <=
- (dvr2[31] ^ dcr2[`OR1200_DU_DCR_SC]))&&
- ( match_cond2_ct[30:0] <= dvr2[30:0]);
- 4'b1_100: match2 =
- ((match_cond2_ct[31] ^ dcr2[`OR1200_DU_DCR_SC]) >
- (dvr2[31] ^ dcr2[`OR1200_DU_DCR_SC]))&&
- ( match_cond2_ct[30:0] > dvr2[30:0]);
- 4'b1_101: match2 =
- ((match_cond2_ct[31] ^ dcr2[`OR1200_DU_DCR_SC]) >=
- (dvr2[31] ^ dcr2[`OR1200_DU_DCR_SC]))&&
- ( match_cond2_ct[30:0] >= dvr2[30:0]);
- 4'b1_110: match2 =
- ((match_cond2_ct[31] ^ dcr2[`OR1200_DU_DCR_SC]) !=
- (dvr2[31] ^ dcr2[`OR1200_DU_DCR_SC]))&&
- ( match_cond2_ct[30:0] != dvr2[30:0]);
- endcase
-
-//
-// Watchpoint 2
-//
-always @(dmr1 or match2 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW2])
- 2'b00: wp[2] = match2;
- 2'b01: wp[2] = match2 & wp[1];
- 2'b10: wp[2] = match2 | wp[1];
- 2'b11: wp[2] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 3)
-//
-always @(dcr3 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr3[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond3_ct = id_pc; // insn fetch EA
- 3'b010: match_cond3_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond3_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond3_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond3_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond3_ct = dcpu_adr_i; // load/store EA
- default:match_cond3_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 3)
-//
-always @(dcr3 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr3[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond3_stb = 1'b0; //comparison disabled
- 3'b001: match_cond3_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond3_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond3_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond3_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond3_stb = dcpu_cycstb_i & dcpu_we_i;// store
-
- default:match_cond3_stb = dcpu_cycstb_i; // any load/store
- endcase
-
-
- //
- // Match Condition 3
- //
- always @(match_cond3_stb or dcr3 or dvr3 or match_cond3_ct)
- casex ({match_cond3_stb, dcr3[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match3 = 1'b0;
- 4'b1_001: match3 = ( match_cond3_ct[30:0] == dvr3[30:0] );
- 4'b1_010: match3 =
- ((match_cond3_ct[31] ^ dcr3[`OR1200_DU_DCR_SC]) <
- (dvr3[31] ^ dcr3[`OR1200_DU_DCR_SC]))&&
- ( match_cond3_ct[30:0] < dvr3[30:0]);
- 4'b1_011: match3 =
- ((match_cond3_ct[31] ^ dcr3[`OR1200_DU_DCR_SC]) <=
- (dvr3[31] ^ dcr3[`OR1200_DU_DCR_SC]))&&
- ( match_cond3_ct[30:0] <= dvr3[30:0]);
- 4'b1_100: match3 =
- ((match_cond3_ct[31] ^ dcr3[`OR1200_DU_DCR_SC]) >
- (dvr3[31] ^ dcr3[`OR1200_DU_DCR_SC]))&&
- ( match_cond3_ct[30:0] > dvr3[30:0]);
- 4'b1_101: match3 =
- ((match_cond3_ct[31] ^ dcr3[`OR1200_DU_DCR_SC]) >=
- (dvr3[31] ^ dcr3[`OR1200_DU_DCR_SC]))&&
- ( match_cond3_ct[30:0] >= dvr3[30:0]);
- 4'b1_110: match3 =
- ((match_cond3_ct[31] ^ dcr3[`OR1200_DU_DCR_SC]) !=
- (dvr3[31] ^ dcr3[`OR1200_DU_DCR_SC]))&&
- ( match_cond3_ct[30:0] != dvr3[30:0]);
- endcase
-
-//
-// Watchpoint 3
-//
-always @(dmr1 or match3 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW3])
- 2'b00: wp[3] = match3;
- 2'b01: wp[3] = match3 & wp[2];
- 2'b10: wp[3] = match3 | wp[2];
- 2'b11: wp[3] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 4)
-//
-always @(dcr4 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr4[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond4_ct = id_pc; // insn fetch EA
- 3'b010: match_cond4_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond4_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond4_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond4_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond4_ct = dcpu_adr_i; // load/store EA
- default:match_cond4_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 4)
-//
-always @(dcr4 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr4[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond4_stb = 1'b0; //comparison disabled
- 3'b001: match_cond4_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond4_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond4_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond4_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond4_stb = dcpu_cycstb_i & dcpu_we_i;// store
-
- default:match_cond4_stb = dcpu_cycstb_i; // any load/store
- endcase
-
-
- //
- // Match Condition 4
- //
- always @(match_cond4_stb or dcr4 or dvr4 or match_cond4_ct)
- casex ({match_cond4_stb, dcr4[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match4 = 1'b0;
- 4'b1_001: match4 = ( match_cond4_ct[30:0] == dvr4[30:0] );
- 4'b1_010: match4 =
- ((match_cond4_ct[31] ^ dcr4[`OR1200_DU_DCR_SC]) <
- (dvr4[31] ^ dcr4[`OR1200_DU_DCR_SC]))&&
- ( match_cond4_ct[30:0] < dvr4[30:0]);
- 4'b1_011: match4 =
- ((match_cond4_ct[31] ^ dcr4[`OR1200_DU_DCR_SC]) <=
- (dvr4[31] ^ dcr4[`OR1200_DU_DCR_SC]))&&
- ( match_cond4_ct[30:0] <= dvr4[30:0]);
- 4'b1_100: match4 =
- ((match_cond4_ct[31] ^ dcr4[`OR1200_DU_DCR_SC]) >
- (dvr4[31] ^ dcr4[`OR1200_DU_DCR_SC]))&&
- ( match_cond4_ct[30:0] > dvr4[30:0]);
- 4'b1_101: match4 =
- ((match_cond4_ct[31] ^ dcr4[`OR1200_DU_DCR_SC]) >=
- (dvr4[31] ^ dcr4[`OR1200_DU_DCR_SC]))&&
- ( match_cond4_ct[30:0] >= dvr4[30:0]);
- 4'b1_110: match4 =
- ((match_cond4_ct[31] ^ dcr4[`OR1200_DU_DCR_SC]) !=
- (dvr4[31] ^ dcr4[`OR1200_DU_DCR_SC]))&&
- ( match_cond4_ct[30:0] != dvr4[30:0]);
- endcase
-
-
-//
-// Watchpoint 4
-//
-always @(dmr1 or match4 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW4])
- 2'b00: wp[4] = match4;
- 2'b01: wp[4] = match4 & wp[3];
- 2'b10: wp[4] = match4 | wp[3];
- 2'b11: wp[4] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 5)
-//
-always @(dcr5 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr5[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond5_ct = id_pc; // insn fetch EA
- 3'b010: match_cond5_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond5_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond5_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond5_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond5_ct = dcpu_adr_i; // load/store EA
- default:match_cond5_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 5)
-//
-always @(dcr5 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr5[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond5_stb = 1'b0; //comparison disabled
- 3'b001: match_cond5_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond5_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond5_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond5_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond5_stb = dcpu_cycstb_i & dcpu_we_i;// store
-
- default:match_cond5_stb = dcpu_cycstb_i; // any load/store
- endcase
-
-
- //
- // Match Condition 5
- //
- always @(match_cond5_stb or dcr5 or dvr5 or match_cond5_ct)
- casex ({match_cond5_stb, dcr5[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match5 = 1'b0;
- 4'b1_001: match5 = ( match_cond5_ct[30:0] == dvr5[30:0] );
- 4'b1_010: match5 =
- ((match_cond5_ct[31] ^ dcr5[`OR1200_DU_DCR_SC]) <
- (dvr5[31] ^ dcr5[`OR1200_DU_DCR_SC]))&&
- ( match_cond5_ct[30:0] < dvr5[30:0]);
- 4'b1_011: match5 =
- ((match_cond5_ct[31] ^ dcr5[`OR1200_DU_DCR_SC]) <=
- (dvr5[31] ^ dcr5[`OR1200_DU_DCR_SC]))&&
- ( match_cond5_ct[30:0] <= dvr5[30:0]);
- 4'b1_100: match5 =
- ((match_cond5_ct[31] ^ dcr5[`OR1200_DU_DCR_SC]) >
- (dvr5[31] ^ dcr5[`OR1200_DU_DCR_SC]))&&
- ( match_cond5_ct[30:0] > dvr5[30:0]);
- 4'b1_101: match5 =
- ((match_cond5_ct[31] ^ dcr5[`OR1200_DU_DCR_SC]) >=
- (dvr5[31] ^ dcr5[`OR1200_DU_DCR_SC]))&&
- ( match_cond5_ct[30:0] >= dvr5[30:0]);
- 4'b1_110: match5 =
- ((match_cond5_ct[31] ^ dcr5[`OR1200_DU_DCR_SC]) !=
- (dvr5[31] ^ dcr5[`OR1200_DU_DCR_SC]))&&
- ( match_cond5_ct[30:0] != dvr5[30:0]);
- endcase
-
-//
-// Watchpoint 5
-//
-always @(dmr1 or match5 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW5])
- 2'b00: wp[5] = match5;
- 2'b01: wp[5] = match5 & wp[4];
- 2'b10: wp[5] = match5 | wp[4];
- 2'b11: wp[5] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 6)
-//
-always @(dcr6 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr6[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond6_ct = id_pc; // insn fetch EA
- 3'b010: match_cond6_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond6_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond6_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond6_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond6_ct = dcpu_adr_i; // load/store EA
- default:match_cond6_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 6)
-//
-always @(dcr6 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr6[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond6_stb = 1'b0; //comparison disabled
- 3'b001: match_cond6_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond6_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond6_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond6_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond6_stb = dcpu_cycstb_i & dcpu_we_i;// store
-
- default:match_cond6_stb = dcpu_cycstb_i; // any load/store
- endcase
-
-
- //
- // Match Condition 6
- //
- always @(match_cond6_stb or dcr6 or dvr6 or match_cond6_ct)
- casex ({match_cond6_stb, dcr6[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match6 = 1'b0;
- 4'b1_001: match6 = ( match_cond6_ct[30:0] == dvr6[30:0] );
- 4'b1_010: match6 =
- ((match_cond6_ct[31] ^ dcr6[`OR1200_DU_DCR_SC]) <
- (dvr6[31] ^ dcr6[`OR1200_DU_DCR_SC]))&&
- ( match_cond6_ct[30:0] < dvr6[30:0]);
- 4'b1_011: match6 =
- ((match_cond6_ct[31] ^ dcr6[`OR1200_DU_DCR_SC]) <=
- (dvr6[31] ^ dcr6[`OR1200_DU_DCR_SC]))&&
- ( match_cond6_ct[30:0] <= dvr6[30:0]);
- 4'b1_100: match6 =
- ((match_cond6_ct[31] ^ dcr6[`OR1200_DU_DCR_SC]) >
- (dvr6[31] ^ dcr6[`OR1200_DU_DCR_SC]))&&
- ( match_cond6_ct[30:0] > dvr6[30:0]);
- 4'b1_101: match6 =
- ((match_cond6_ct[31] ^ dcr6[`OR1200_DU_DCR_SC]) >=
- (dvr6[31] ^ dcr6[`OR1200_DU_DCR_SC]))&&
- ( match_cond6_ct[30:0] >= dvr6[30:0]);
- 4'b1_110: match6 =
- ((match_cond6_ct[31] ^ dcr6[`OR1200_DU_DCR_SC]) !=
- (dvr6[31] ^ dcr6[`OR1200_DU_DCR_SC]))&&
- ( match_cond6_ct[30:0] != dvr6[30:0]);
- endcase
-
-
-//
-// Watchpoint 6
-//
-always @(dmr1 or match6 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW6])
- 2'b00: wp[6] = match6;
- 2'b01: wp[6] = match6 & wp[5];
- 2'b10: wp[6] = match6 | wp[5];
- 2'b11: wp[6] = 1'b0;
- endcase
-
-//
-// Compare To What (Match Condition 7)
-//
-always @(dcr7 or id_pc or dcpu_adr_i or dcpu_dat_dc
- or dcpu_dat_lsu or dcpu_we_i)
- case (dcr7[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b001: match_cond7_ct = id_pc; // insn fetch EA
- 3'b010: match_cond7_ct = dcpu_adr_i; // load EA
- 3'b011: match_cond7_ct = dcpu_adr_i; // store EA
- 3'b100: match_cond7_ct = dcpu_dat_dc; // load data
- 3'b101: match_cond7_ct = dcpu_dat_lsu; // store data
- 3'b110: match_cond7_ct = dcpu_adr_i; // load/store EA
- default:match_cond7_ct = dcpu_we_i ? dcpu_dat_lsu : dcpu_dat_dc;
- endcase
-
-//
-// When To Compare (Match Condition 7)
-//
-always @(dcr7 or dcpu_cycstb_i or dcpu_we_i)
- case (dcr7[`OR1200_DU_DCR_CT]) // synopsys parallel_case
- 3'b000: match_cond7_stb = 1'b0; //comparison disabled
- 3'b001: match_cond7_stb = 1'b1; // insn fetch EA
- 3'b010: match_cond7_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b011: match_cond7_stb = dcpu_cycstb_i & dcpu_we_i;// store
- 3'b100: match_cond7_stb = dcpu_cycstb_i & ~dcpu_we_i;// load
- 3'b101: match_cond7_stb = dcpu_cycstb_i & dcpu_we_i;// store
-
- default:match_cond7_stb = dcpu_cycstb_i; // any load/store
- endcase
-
- //
- // Match Condition 7
- //
- always @(match_cond7_stb or dcr7 or dvr7 or match_cond7_ct)
- casex ({match_cond7_stb, dcr7[`OR1200_DU_DCR_CC]})
- 4'b0_xxx,
- 4'b1_000,
- 4'b1_111: match7 = 1'b0;
- 4'b1_001: match7 = ( match_cond7_ct[30:0] == dvr7[30:0] );
- 4'b1_010: match7 =
- ((match_cond7_ct[31] ^ dcr7[`OR1200_DU_DCR_SC]) <
- (dvr7[31] ^ dcr7[`OR1200_DU_DCR_SC]))&&
- ( match_cond7_ct[30:0] < dvr7[30:0]);
- 4'b1_011: match7 =
- ((match_cond7_ct[31] ^ dcr7[`OR1200_DU_DCR_SC]) <=
- (dvr7[31] ^ dcr7[`OR1200_DU_DCR_SC]))&&
- ( match_cond7_ct[30:0] <= dvr7[30:0]);
- 4'b1_100: match7 =
- ((match_cond7_ct[31] ^ dcr7[`OR1200_DU_DCR_SC]) >
- (dvr7[31] ^ dcr7[`OR1200_DU_DCR_SC]))&&
- ( match_cond7_ct[30:0] > dvr7[30:0]);
- 4'b1_101: match7 =
- ((match_cond7_ct[31] ^ dcr7[`OR1200_DU_DCR_SC]) >=
- (dvr7[31] ^ dcr7[`OR1200_DU_DCR_SC]))&&
- ( match_cond7_ct[30:0] >= dvr7[30:0]);
- 4'b1_110: match7 =
- ((match_cond7_ct[31] ^ dcr7[`OR1200_DU_DCR_SC]) !=
- (dvr7[31] ^ dcr7[`OR1200_DU_DCR_SC]))&&
- ( match_cond7_ct[30:0] != dvr7[30:0]);
- endcase
-
-//
-// Watchpoint 7
-//
-always @(dmr1 or match7 or wp)
- case (dmr1[`OR1200_DU_DMR1_CW7])
- 2'b00: wp[7] = match7;
- 2'b01: wp[7] = match7 & wp[6];
- 2'b10: wp[7] = match7 | wp[6];
- 2'b11: wp[7] = 1'b0;
- endcase
-
-//
-// Increment Watchpoint Counter 0
-//
-always @(wp or dmr2)
- if (dmr2[`OR1200_DU_DMR2_WCE0])
- incr_wpcntr0 = |(wp & ~dmr2[`OR1200_DU_DMR2_AWTC]);
- else
- incr_wpcntr0 = 1'b0;
-
-//
-// Match Condition Watchpoint Counter 0
-//
-always @(dwcr0)
- if (dwcr0[`OR1200_DU_DWCR_MATCH] == dwcr0[`OR1200_DU_DWCR_COUNT])
- wpcntr0_match = 1'b1;
- else
- wpcntr0_match = 1'b0;
-
-
-//
-// Watchpoint 8
-//
-always @(dmr1 or wpcntr0_match or wp)
- case (dmr1[`OR1200_DU_DMR1_CW8])
- 2'b00: wp[8] = wpcntr0_match;
- 2'b01: wp[8] = wpcntr0_match & wp[7];
- 2'b10: wp[8] = wpcntr0_match | wp[7];
- 2'b11: wp[8] = 1'b0;
- endcase
-
-
-//
-// Increment Watchpoint Counter 1
-//
-always @(wp or dmr2)
- if (dmr2[`OR1200_DU_DMR2_WCE1])
- incr_wpcntr1 = |(wp & dmr2[`OR1200_DU_DMR2_AWTC]);
- else
- incr_wpcntr1 = 1'b0;
-
-//
-// Match Condition Watchpoint Counter 1
-//
-always @(dwcr1)
- if (dwcr1[`OR1200_DU_DWCR_MATCH] == dwcr1[`OR1200_DU_DWCR_COUNT])
- wpcntr1_match = 1'b1;
- else
- wpcntr1_match = 1'b0;
-
-//
-// Watchpoint 9
-//
-always @(dmr1 or wpcntr1_match or wp)
- case (dmr1[`OR1200_DU_DMR1_CW9])
- 2'b00: wp[9] = wpcntr1_match;
- 2'b01: wp[9] = wpcntr1_match & wp[8];
- 2'b10: wp[9] = wpcntr1_match | wp[8];
- 2'b11: wp[9] = 1'b0;
- endcase
-
-//
-// Watchpoint 10
-//
-always @(dmr1 or dbg_ewt_i or wp)
- case (dmr1[`OR1200_DU_DMR1_CW10])
- 2'b00: wp[10] = dbg_ewt_i;
- 2'b01: wp[10] = dbg_ewt_i & wp[9];
- 2'b10: wp[10] = dbg_ewt_i | wp[9];
- 2'b11: wp[10] = 1'b0;
- endcase
-
-`endif
-
-//
-// Watchpoints can cause trap exception
-//
-`ifdef OR1200_DU_HWBKPTS
-assign du_hwbkpt = |(wp & dmr2[`OR1200_DU_DMR2_WGB]);
-`else
-assign du_hwbkpt = 1'b0;
-`endif
-
-`ifdef OR1200_DU_TB_IMPLEMENTED
-//
-// Simple trace buffer
-// (right now hardcoded for Xilinx Virtex FPGAs)
-//
-// Stores last 256 instruction addresses, instruction
-// machine words and ALU results
-//
-
-//
-// Trace buffer write enable
-//
-assign tb_enw = ~ex_freeze & ~((ex_insn[31:26] == `OR1200_OR32_NOP) & ex_insn[16]);
-
-//
-// Trace buffer write address pointer
-//
-always @(posedge clk or posedge rst)
- if (rst)
- tb_wadr <= #1 8'h00;
- else if (tb_enw)
- tb_wadr <= #1 tb_wadr + 8'd1;
-
-//
-// Free running counter (time stamp)
-//
-always @(posedge clk or posedge rst)
- if (rst)
- tb_timstmp <= #1 32'h00000000;
- else if (!dbg_bp_r)
- tb_timstmp <= #1 tb_timstmp + 32'd1;
-
-//
-// Trace buffer RAMs
-//
-
-or1200_dpram_256x32 tbia_ram(
- .clk_a(clk),
- .rst_a(rst),
- .addr_a(spr_addr[7:0]),
- .ce_a(1'b1),
- .oe_a(1'b1),
- .do_a(tbia_dat_o),
-
- .clk_b(clk),
- .rst_b(rst),
- .addr_b(tb_wadr),
- .di_b(spr_dat_npc),
- .ce_b(1'b1),
- .we_b(tb_enw)
-
-);
-
-or1200_dpram_256x32 tbim_ram(
- .clk_a(clk),
- .rst_a(rst),
- .addr_a(spr_addr[7:0]),
- .ce_a(1'b1),
- .oe_a(1'b1),
- .do_a(tbim_dat_o),
-
- .clk_b(clk),
- .rst_b(rst),
- .addr_b(tb_wadr),
- .di_b(ex_insn),
- .ce_b(1'b1),
- .we_b(tb_enw)
-);
-
-or1200_dpram_256x32 tbar_ram(
- .clk_a(clk),
- .rst_a(rst),
- .addr_a(spr_addr[7:0]),
- .ce_a(1'b1),
- .oe_a(1'b1),
- .do_a(tbar_dat_o),
-
- .clk_b(clk),
- .rst_b(rst),
- .addr_b(tb_wadr),
- .di_b(rf_dataw),
- .ce_b(1'b1),
- .we_b(tb_enw)
-);
-
-or1200_dpram_256x32 tbts_ram(
- .clk_a(clk),
- .rst_a(rst),
- .addr_a(spr_addr[7:0]),
- .ce_a(1'b1),
- .oe_a(1'b1),
- .do_a(tbts_dat_o),
-
- .clk_b(clk),
- .rst_b(rst),
- .addr_b(tb_wadr),
- .di_b(tb_timstmp),
- .ce_b(1'b1),
- .we_b(tb_enw)
-);
-
-`else
-
-assign tbia_dat_o = 32'h0000_0000;
-assign tbim_dat_o = 32'h0000_0000;
-assign tbar_dat_o = 32'h0000_0000;
-assign tbts_dat_o = 32'h0000_0000;
-
-`endif // OR1200_DU_TB_IMPLEMENTED
-
-`else // OR1200_DU_IMPLEMENTED
-
-//
-// When DU is not implemented, drive all outputs as would when DU is disabled
-//
-assign dbg_bp_o = 1'b0;
-assign du_dsr = {`OR1200_DU_DSR_WIDTH{1'b0}};
-assign du_hwbkpt = 1'b0;
-
-//
-// Read DU registers
-//
-`ifdef OR1200_DU_READREGS
-assign spr_dat_o = 32'h0000_0000;
-`ifdef OR1200_DU_UNUSED_ZERO
-`endif
-`endif
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_du.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_pic.v
===================================================================
--- verilog/components/or1200r2/or1200_pic.v (revision 185)
+++ verilog/components/or1200r2/or1200_pic.v (nonexistent)
@@ -1,228 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Programmable Interrupt Controller ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// PIC according to OR1K architectural specification. ////
-//// ////
-//// To Do: ////
-//// None ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_pic.v,v $
-// Revision 1.4 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.3 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.2 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_pic(
- // RISC Internal Interface
- clk, rst, spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o,
- pic_wakeup, intr,
-
- // PIC Interface
- pic_int
-);
-
-//
-// RISC Internal Interface
-//
-input clk; // Clock
-input rst; // Reset
-input spr_cs; // SPR CS
-input spr_write; // SPR Write
-input [31:0] spr_addr; // SPR Address
-input [31:0] spr_dat_i; // SPR Write Data
-output [31:0] spr_dat_o; // SPR Read Data
-output pic_wakeup; // Wakeup to the PM
-output intr; // interrupt
- // exception request
-
-//
-// PIC Interface
-//
-input [`OR1200_PIC_INTS-1:0] pic_int;// Interrupt inputs
-
-`ifdef OR1200_PIC_IMPLEMENTED
-
-//
-// PIC Mask Register bits (or no register)
-//
-`ifdef OR1200_PIC_PICMR
-reg [`OR1200_PIC_INTS-1:2] picmr; // PICMR bits
-`else
-wire [`OR1200_PIC_INTS-1:2] picmr; // No PICMR register
-`endif
-
-//
-// PIC Status Register bits (or no register)
-//
-`ifdef OR1200_PIC_PICSR
-reg [`OR1200_PIC_INTS-1:0] picsr; // PICSR bits
-`else
-wire [`OR1200_PIC_INTS-1:0] picsr; // No PICSR register
-`endif
-
-//
-// Internal wires & regs
-//
-wire picmr_sel; // PICMR select
-wire picsr_sel; // PICSR select
-wire [`OR1200_PIC_INTS-1:0] um_ints;// Unmasked interrupts
-reg [31:0] spr_dat_o; // SPR data out
-
-//
-// PIC registers address decoder
-//
-assign picmr_sel = (spr_cs && (spr_addr[`OR1200_PICOFS_BITS] == `OR1200_PIC_OFS_PICMR)) ? 1'b1 : 1'b0;
-assign picsr_sel = (spr_cs && (spr_addr[`OR1200_PICOFS_BITS] == `OR1200_PIC_OFS_PICSR)) ? 1'b1 : 1'b0;
-
-//
-// Write to PICMR
-//
-`ifdef OR1200_PIC_PICMR
-always @(posedge clk or posedge rst)
- if (rst)
- picmr <= {1'b1, {`OR1200_PIC_INTS-3{1'b0}}};
- else if (picmr_sel && spr_write) begin
- picmr <= #1 spr_dat_i[`OR1200_PIC_INTS-1:2];
- end
-`else
-assign picmr = (`OR1200_PIC_INTS)'b1;
-`endif
-
-//
-// Write to PICSR, both CPU and external ints
-//
-`ifdef OR1200_PIC_PICSR
-always @(posedge clk or posedge rst)
- if (rst)
- picsr <= {`OR1200_PIC_INTS{1'b0}};
- else if (picsr_sel && spr_write) begin
- picsr <= #1 spr_dat_i[`OR1200_PIC_INTS-1:0] | um_ints;
- end else
- picsr <= #1 picsr | um_ints;
-`else
-assign picsr = pic_int;
-`endif
-
-//
-// Read PIC registers
-//
-always @(spr_addr or picmr or picsr)
- case (spr_addr[`OR1200_PICOFS_BITS]) // synopsys parallel_case
-`ifdef OR1200_PIC_READREGS
- `OR1200_PIC_OFS_PICMR: begin
- spr_dat_o[`OR1200_PIC_INTS-1:0] = {picmr, 2'b0};
-`ifdef OR1200_PIC_UNUSED_ZERO
- spr_dat_o[31:`OR1200_PIC_INTS] = {32-`OR1200_PIC_INTS{1'b0}};
-`endif
- end
-`endif
- default: begin
- spr_dat_o[`OR1200_PIC_INTS-1:0] = picsr;
-`ifdef OR1200_PIC_UNUSED_ZERO
- spr_dat_o[31:`OR1200_PIC_INTS] = {32-`OR1200_PIC_INTS{1'b0}};
-`endif
- end
- endcase
-
-//
-// Unmasked interrupts
-//
-assign um_ints = pic_int & {picmr, 2'b11};
-
-//
-// Generate intr
-//
-assign intr = |um_ints;
-
-//
-// Assert pic_wakeup when intr is asserted
-//
-assign pic_wakeup = intr;
-
-`else
-
-//
-// When PIC is not implemented, drive all outputs as would when PIC is disabled
-//
-assign intr = pic_int[1] | pic_int[0];
-assign pic_wakeup= intr;
-
-//
-// Read PIC registers
-//
-`ifdef OR1200_PIC_READREGS
-assign spr_dat_o[`OR1200_PIC_INTS-1:0] = `OR1200_PIC_INTS'b0;
-`ifdef OR1200_PIC_UNUSED_ZERO
-assign spr_dat_o[31:`OR1200_PIC_INTS] = 32-`OR1200_PIC_INTS'b0;
-`endif
-`endif
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_pic.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_pm.v
===================================================================
--- verilog/components/or1200r2/or1200_pm.v (revision 185)
+++ verilog/components/or1200r2/or1200_pm.v (nonexistent)
@@ -1,218 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Power Management ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// PM according to OR1K architectural specification. ////
-//// ////
-//// To Do: ////
-//// - add support for dynamic clock gating ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_pm.v,v $
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_pm(
- // RISC Internal Interface
- clk, rst, pic_wakeup, spr_write, spr_addr, spr_dat_i, spr_dat_o,
-
- // Power Management Interface
- pm_clksd, pm_cpustall, pm_dc_gate, pm_ic_gate, pm_dmmu_gate,
- pm_immu_gate, pm_tt_gate, pm_cpu_gate, pm_wakeup, pm_lvolt
-);
-
-//
-// RISC Internal Interface
-//
-input clk; // Clock
-input rst; // Reset
-input pic_wakeup; // Wakeup from the PIC
-input spr_write; // SPR Read/Write
-input [31:0] spr_addr; // SPR Address
-input [31:0] spr_dat_i; // SPR Write Data
-output [31:0] spr_dat_o; // SPR Read Data
-
-//
-// Power Management Interface
-//
-input pm_cpustall; // Stall the CPU
-output [3:0] pm_clksd; // Clock Slowdown factor
-output pm_dc_gate; // Gate DCache clock
-output pm_ic_gate; // Gate ICache clock
-output pm_dmmu_gate; // Gate DMMU clock
-output pm_immu_gate; // Gate IMMU clock
-output pm_tt_gate; // Gate Tick Timer clock
-output pm_cpu_gate; // Gate main RISC/CPU clock
-output pm_wakeup; // Activate (de-gate) all clocks
-output pm_lvolt; // Lower operating voltage
-
-`ifdef OR1200_PM_IMPLEMENTED
-
-//
-// Power Management Register bits
-//
-reg [3:0] sdf; // Slow-down factor
-reg dme; // Doze Mode Enable
-reg sme; // Sleep Mode Enable
-reg dcge; // Dynamic Clock Gating Enable
-
-//
-// Internal wires
-//
-wire pmr_sel; // PMR select
-
-//
-// PMR address decoder (partial decoder)
-//
-`ifdef OR1200_PM_PARTIAL_DECODING
-assign pmr_sel = (spr_addr[`OR1200_SPR_GROUP_BITS] == `OR1200_SPRGRP_PM) ? 1'b1 : 1'b0;
-`else
-assign pmr_sel = ((spr_addr[`OR1200_SPR_GROUP_BITS] == `OR1200_SPRGRP_PM) &&
- (spr_addr[`OR1200_SPR_OFS_BITS] == `OR1200_PM_OFS_PMR)) ? 1'b1 : 1'b0;
-`endif
-
-//
-// Write to PMR and also PMR[DME]/PMR[SME] reset when
-// pic_wakeup is asserted
-//
-always @(posedge clk or posedge rst)
- if (rst)
- {dcge, sme, dme, sdf} <= 7'b0;
- else if (pmr_sel && spr_write) begin
- sdf <= #1 spr_dat_i[`OR1200_PM_PMR_SDF];
- dme <= #1 spr_dat_i[`OR1200_PM_PMR_DME];
- sme <= #1 spr_dat_i[`OR1200_PM_PMR_SME];
- dcge <= #1 spr_dat_i[`OR1200_PM_PMR_DCGE];
- end
- else if (pic_wakeup) begin
- dme <= #1 1'b0;
- sme <= #1 1'b0;
- end
-
-//
-// Read PMR
-//
-`ifdef OR1200_PM_READREGS
-assign spr_dat_o[`OR1200_PM_PMR_SDF] = sdf;
-assign spr_dat_o[`OR1200_PM_PMR_DME] = dme;
-assign spr_dat_o[`OR1200_PM_PMR_SME] = sme;
-assign spr_dat_o[`OR1200_PM_PMR_DCGE] = dcge;
-`ifdef OR1200_PM_UNUSED_ZERO
-assign spr_dat_o[`OR1200_PM_PMR_UNUSED] = 25'b0;
-`endif
-`endif
-
-//
-// Generate pm_clksd
-//
-assign pm_clksd = sdf;
-
-//
-// Statically generate all clock gate outputs
-// TODO: add dynamic clock gating feature
-//
-assign pm_cpu_gate = (dme | sme) & ~pic_wakeup;
-assign pm_dc_gate = pm_cpu_gate;
-assign pm_ic_gate = pm_cpu_gate;
-assign pm_dmmu_gate = pm_cpu_gate;
-assign pm_immu_gate = pm_cpu_gate;
-assign pm_tt_gate = sme & ~pic_wakeup;
-
-//
-// Assert pm_wakeup when pic_wakeup is asserted
-//
-assign pm_wakeup = pic_wakeup;
-
-//
-// Assert pm_lvolt when pm_cpu_gate or pm_cpustall are asserted
-//
-assign pm_lvolt = pm_cpu_gate | pm_cpustall;
-
-`else
-
-//
-// When PM is not implemented, drive all outputs as would when PM is disabled
-//
-assign pm_clksd = 4'b0;
-assign pm_cpu_gate = 1'b0;
-assign pm_dc_gate = 1'b0;
-assign pm_ic_gate = 1'b0;
-assign pm_dmmu_gate = 1'b0;
-assign pm_immu_gate = 1'b0;
-assign pm_tt_gate = 1'b0;
-assign pm_wakeup = 1'b1;
-assign pm_lvolt = 1'b0;
-
-//
-// Read PMR
-//
-`ifdef OR1200_PM_READREGS
-assign spr_dat_o[`OR1200_PM_PMR_SDF] = 4'b0;
-assign spr_dat_o[`OR1200_PM_PMR_DME] = 1'b0;
-assign spr_dat_o[`OR1200_PM_PMR_SME] = 1'b0;
-assign spr_dat_o[`OR1200_PM_PMR_DCGE] = 1'b0;
-`ifdef OR1200_PM_UNUSED_ZERO
-assign spr_dat_o[`OR1200_PM_PMR_UNUSED] = 25'b0;
-`endif
-`endif
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_pm.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_ic_top.v
===================================================================
--- verilog/components/or1200r2/or1200_ic_top.v (revision 185)
+++ verilog/components/or1200r2/or1200_ic_top.v (nonexistent)
@@ -1,341 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Data Cache top level ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of all IC blocks. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_ic_top.v,v $
-// Revision 1.9 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.7.4.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.7.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.7 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.6 2002/03/29 15:16:55 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.5 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.4 2002/02/01 19:56:54 lampret
-// Fixed combinational loops.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from ic.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.9 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.4 2001/08/13 03:36:20 lampret
-// Added cfg regs. Moved all defines into one defines.v file. More cleanup.
-//
-// Revision 1.3 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/22 03:31:53 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Data cache
-//
-module or1200_ic_top(
- // Rst, clk and clock control
- clk, rst,
-
- // External i/f
- icbiu_dat_o, icbiu_adr_o, icbiu_cyc_o, icbiu_stb_o, icbiu_we_o, icbiu_sel_o, icbiu_cab_o,
- icbiu_dat_i, icbiu_ack_i, icbiu_err_i,
-
- // Internal i/f
- ic_en,
- icqmem_adr_i, icqmem_cycstb_i, icqmem_ci_i,
- icqmem_sel_i, icqmem_tag_i,
- icqmem_dat_o, icqmem_ack_o, icqmem_rty_o, icqmem_err_o, icqmem_tag_o,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // SPRs
- spr_cs, spr_write, spr_dat_i
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// External I/F
-//
-output [dw-1:0] icbiu_dat_o;
-output [31:0] icbiu_adr_o;
-output icbiu_cyc_o;
-output icbiu_stb_o;
-output icbiu_we_o;
-output [3:0] icbiu_sel_o;
-output icbiu_cab_o;
-input [dw-1:0] icbiu_dat_i;
-input icbiu_ack_i;
-input icbiu_err_i;
-
-//
-// Internal I/F
-//
-input ic_en;
-input [31:0] icqmem_adr_i;
-input icqmem_cycstb_i;
-input icqmem_ci_i;
-input [3:0] icqmem_sel_i;
-input [3:0] icqmem_tag_i;
-output [dw-1:0] icqmem_dat_o;
-output icqmem_ack_o;
-output icqmem_rty_o;
-output icqmem_err_o;
-output [3:0] icqmem_tag_o;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// SPR access
-//
-input spr_cs;
-input spr_write;
-input [31:0] spr_dat_i;
-
-//
-// Internal wires and regs
-//
-wire tag_v;
-wire [`OR1200_ICTAG_W-2:0] tag;
-wire [dw-1:0] to_icram;
-wire [dw-1:0] from_icram;
-wire [31:0] saved_addr;
-wire [3:0] icram_we;
-wire ictag_we;
-wire [31:0] ic_addr;
-wire icfsm_biu_read;
-reg tagcomp_miss;
-wire [`OR1200_ICINDXH:`OR1200_ICLS] ictag_addr;
-wire ictag_en;
-wire ictag_v;
-wire ic_inv;
-wire icfsm_first_hit_ack;
-wire icfsm_first_miss_ack;
-wire icfsm_first_miss_err;
-wire icfsm_burst;
-wire icfsm_tag_we;
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-wire mbist_ram_so;
-wire mbist_tag_so;
-wire mbist_ram_si = mbist_si_i;
-wire mbist_tag_si = mbist_ram_so;
-assign mbist_so_o = mbist_tag_so;
-`endif
-
-//
-// Simple assignments
-//
-assign icbiu_adr_o = ic_addr;
-assign ic_inv = spr_cs & spr_write;
-assign ictag_we = icfsm_tag_we | ic_inv;
-assign ictag_addr = ic_inv ? spr_dat_i[`OR1200_ICINDXH:`OR1200_ICLS] : ic_addr[`OR1200_ICINDXH:`OR1200_ICLS];
-assign ictag_en = ic_inv | ic_en;
-assign ictag_v = ~ic_inv;
-
-//
-// Data to BIU is from ICRAM when IC is enabled or from LSU when
-// IC is disabled
-//
-assign icbiu_dat_o = 32'h00000000;
-
-//
-// Bypases of the IC when IC is disabled
-//
-assign icbiu_cyc_o = (ic_en) ? icfsm_biu_read : icqmem_cycstb_i;
-assign icbiu_stb_o = (ic_en) ? icfsm_biu_read : icqmem_cycstb_i;
-assign icbiu_we_o = 1'b0;
-assign icbiu_sel_o = (ic_en & icfsm_biu_read) ? 4'b1111 : icqmem_sel_i;
-assign icbiu_cab_o = (ic_en) ? icfsm_burst : 1'b0;
-assign icqmem_rty_o = ~icqmem_ack_o & ~icqmem_err_o;
-assign icqmem_tag_o = icqmem_err_o ? `OR1200_ITAG_BE : icqmem_tag_i;
-
-//
-// CPU normal and error termination
-//
-assign icqmem_ack_o = ic_en ? (icfsm_first_hit_ack | icfsm_first_miss_ack) : icbiu_ack_i;
-assign icqmem_err_o = ic_en ? icfsm_first_miss_err : icbiu_err_i;
-
-//
-// Select between claddr generated by IC FSM and addr[3:2] generated by LSU
-//
-assign ic_addr = (icfsm_biu_read) ? saved_addr : icqmem_adr_i;
-
-//
-// Select between input data generated by LSU or by BIU
-//
-assign to_icram = icbiu_dat_i;
-
-//
-// Select between data generated by ICRAM or passed by BIU
-//
-assign icqmem_dat_o = icfsm_first_miss_ack | !ic_en ? icbiu_dat_i : from_icram;
-
-//
-// Tag comparison
-//
-always @(tag or saved_addr or tag_v) begin
- if ((tag != saved_addr[31:`OR1200_ICTAGL]) || !tag_v)
- tagcomp_miss = 1'b1;
- else
- tagcomp_miss = 1'b0;
-end
-
-//
-// Instantiation of IC Finite State Machine
-//
-or1200_ic_fsm or1200_ic_fsm(
- .clk(clk),
- .rst(rst),
- .ic_en(ic_en),
- .icqmem_cycstb_i(icqmem_cycstb_i),
- .icqmem_ci_i(icqmem_ci_i),
- .tagcomp_miss(tagcomp_miss),
- .biudata_valid(icbiu_ack_i),
- .biudata_error(icbiu_err_i),
- .start_addr(icqmem_adr_i),
- .saved_addr(saved_addr),
- .icram_we(icram_we),
- .biu_read(icfsm_biu_read),
- .first_hit_ack(icfsm_first_hit_ack),
- .first_miss_ack(icfsm_first_miss_ack),
- .first_miss_err(icfsm_first_miss_err),
- .burst(icfsm_burst),
- .tag_we(icfsm_tag_we)
-);
-
-//
-// Instantiation of IC main memory
-//
-or1200_ic_ram or1200_ic_ram(
- .clk(clk),
- .rst(rst),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_ram_si),
- .mbist_so_o(mbist_ram_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .addr(ic_addr[`OR1200_ICINDXH:2]),
- .en(ic_en),
- .we(icram_we),
- .datain(to_icram),
- .dataout(from_icram)
-);
-
-//
-// Instantiation of IC TAG memory
-//
-or1200_ic_tag or1200_ic_tag(
- .clk(clk),
- .rst(rst),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_tag_si),
- .mbist_so_o(mbist_tag_so),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .addr(ictag_addr),
- .en(ictag_en),
- .we(ictag_we),
- .datain({ic_addr[31:`OR1200_ICTAGL], ictag_v}),
- .tag_v(tag_v),
- .tag(tag)
-);
-
-endmodule
verilog/components/or1200r2/or1200_ic_top.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_freeze.v
===================================================================
--- verilog/components/or1200r2/or1200_freeze.v (revision 185)
+++ verilog/components/or1200r2/or1200_freeze.v (nonexistent)
@@ -1,206 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Freeze logic ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Generates all freezes and stalls inside RISC ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_freeze.v,v $
-// Revision 1.8 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.6.4.2 2003/12/05 00:09:49 lampret
-// No functional change.
-//
-// Revision 1.6.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.6 2002/07/31 02:04:35 lampret
-// MAC now follows software convention (signed multiply instead of unsigned).
-//
-// Revision 1.5 2002/07/14 22:17:17 lampret
-// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
-//
-// Revision 1.4 2002/03/29 15:16:55 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/13 10:02:21 lampret
-// Added 'setpc'. Renamed some signals (except_flushpipe into flushpipe etc)
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/19 23:28:46 lampret
-// Fixed some synthesis warnings. Configured with caches and MMUs.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-`define OR1200_NO_FREEZE 3'd0
-`define OR1200_FREEZE_BYDC 3'd1
-`define OR1200_FREEZE_BYMULTICYCLE 3'd2
-`define OR1200_WAIT_LSU_TO_FINISH 3'd3
-`define OR1200_WAIT_IC 3'd4
-
-//
-// Freeze logic (stalls CPU pipeline, ifetcher etc.)
-//
-module or1200_freeze(
- // Clock and reset
- clk, rst,
-
- // Internal i/f
- multicycle, flushpipe, extend_flush, lsu_stall, if_stall,
- lsu_unstall, du_stall, mac_stall,
- force_dslot_fetch, abort_ex,
- genpc_freeze, if_freeze, id_freeze, ex_freeze, wb_freeze,
- icpu_ack_i, icpu_err_i
-);
-
-//
-// I/O
-//
-input clk;
-input rst;
-input [`OR1200_MULTICYCLE_WIDTH-1:0] multicycle;
-input flushpipe;
-input extend_flush;
-input lsu_stall;
-input if_stall;
-input lsu_unstall;
-input force_dslot_fetch;
-input abort_ex;
-input du_stall;
-input mac_stall;
-output genpc_freeze;
-output if_freeze;
-output id_freeze;
-output ex_freeze;
-output wb_freeze;
-input icpu_ack_i;
-input icpu_err_i;
-
-//
-// Internal wires and regs
-//
-wire multicycle_freeze;
-reg [`OR1200_MULTICYCLE_WIDTH-1:0] multicycle_cnt;
-reg flushpipe_r;
-
-//
-// Pipeline freeze
-//
-// Rules how to create freeze signals:
-// 1. Not overwriting pipeline stages:
-// Freze signals at the beginning of pipeline (such as if_freeze) can be asserted more
-// often than freeze signals at the of pipeline (such as wb_freeze). In other words, wb_freeze must never
-// be asserted when ex_freeze is not. ex_freeze must never be asserted when id_freeze is not etc.
-//
-// 2. Inserting NOPs in the middle of pipeline only if supported:
-// At this time, only ex_freeze (and wb_freeze) can be deassrted when id_freeze (and if_freeze) are asserted.
-// This way NOP is asserted from stage ID into EX stage.
-//
-//assign genpc_freeze = du_stall | flushpipe_r | lsu_stall;
-assign genpc_freeze = du_stall | flushpipe_r;
-assign if_freeze = id_freeze | extend_flush;
-//assign id_freeze = (lsu_stall | (~lsu_unstall & if_stall) | multicycle_freeze | force_dslot_fetch) & ~flushpipe | du_stall;
-assign id_freeze = (lsu_stall | (~lsu_unstall & if_stall) | multicycle_freeze | force_dslot_fetch) | du_stall | mac_stall;
-assign ex_freeze = wb_freeze;
-//assign wb_freeze = (lsu_stall | (~lsu_unstall & if_stall) | multicycle_freeze) & ~flushpipe | du_stall | mac_stall;
-assign wb_freeze = (lsu_stall | (~lsu_unstall & if_stall) | multicycle_freeze) | du_stall | mac_stall | abort_ex;
-
-//
-// registered flushpipe
-//
-always @(posedge clk or posedge rst)
- if (rst)
- flushpipe_r <= #1 1'b0;
- else if (icpu_ack_i | icpu_err_i)
-// else if (!if_stall)
- flushpipe_r <= #1 flushpipe;
- else if (!flushpipe)
- flushpipe_r <= #1 1'b0;
-
-//
-// Multicycle freeze
-//
-assign multicycle_freeze = |multicycle_cnt;
-
-//
-// Multicycle counter
-//
-always @(posedge clk or posedge rst)
- if (rst)
- multicycle_cnt <= #1 2'b00;
- else if (|multicycle_cnt)
- multicycle_cnt <= #1 multicycle_cnt - 2'd1;
- else if (|multicycle & !ex_freeze)
- multicycle_cnt <= #1 multicycle;
-
-endmodule
verilog/components/or1200r2/or1200_freeze.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_cfgr.v
===================================================================
--- verilog/components/or1200r2/or1200_cfgr.v (revision 185)
+++ verilog/components/or1200r2/or1200_cfgr.v (nonexistent)
@@ -1,237 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's VR, UPR and Configuration Registers ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// According to OR1K architectural and OR1200 specifications. ////
-//// ////
-//// To Do: ////
-//// - done ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_cfgr.v,v $
-// Revision 1.4 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.3 2002/03/29 15:16:54 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_cfgr(
- // RISC Internal Interface
- spr_addr, spr_dat_o
- );
-
- //
- // RISC Internal Interface
- //
- input [31:0] spr_addr; // SPR Address
- output [31:0] spr_dat_o; // SPR Read Data
-
- //
- // Internal wires & registers
- //
- reg [31:0] spr_dat_o; // SPR Read Data
-
-`ifdef OR1200_CFGR_IMPLEMENTED
-
- //
- // Implementation of VR, UPR and configuration registers
- //
- always @(spr_addr)
- `ifdef OR1200_SYS_FULL_DECODE
- if (~|spr_addr[31:4])
- `endif
- case(spr_addr[3:0]) // synopsys parallel_case
- `OR1200_SPRGRP_SYS_VR: begin
- spr_dat_o[`OR1200_VR_REV_BITS] = `OR1200_VR_REV;
- spr_dat_o[`OR1200_VR_RES1_BITS] = `OR1200_VR_RES1;
- spr_dat_o[`OR1200_VR_CFG_BITS] = `OR1200_VR_CFG;
- spr_dat_o[`OR1200_VR_VER_BITS] = `OR1200_VR_VER;
- end
- `OR1200_SPRGRP_SYS_UPR: begin
- spr_dat_o[`OR1200_UPR_UP_BITS] = `OR1200_UPR_UP;
- spr_dat_o[`OR1200_UPR_DCP_BITS] = `OR1200_UPR_DCP;
- spr_dat_o[`OR1200_UPR_ICP_BITS] = `OR1200_UPR_ICP;
- spr_dat_o[`OR1200_UPR_DMP_BITS] = `OR1200_UPR_DMP;
- spr_dat_o[`OR1200_UPR_IMP_BITS] = `OR1200_UPR_IMP;
- spr_dat_o[`OR1200_UPR_MP_BITS] = `OR1200_UPR_MP;
- spr_dat_o[`OR1200_UPR_DUP_BITS] = `OR1200_UPR_DUP;
- spr_dat_o[`OR1200_UPR_PCUP_BITS] = `OR1200_UPR_PCUP;
- spr_dat_o[`OR1200_UPR_PMP_BITS] = `OR1200_UPR_PMP;
- spr_dat_o[`OR1200_UPR_PICP_BITS] = `OR1200_UPR_PICP;
- spr_dat_o[`OR1200_UPR_TTP_BITS] = `OR1200_UPR_TTP;
- spr_dat_o[`OR1200_UPR_RES1_BITS] = `OR1200_UPR_RES1;
- spr_dat_o[`OR1200_UPR_CUP_BITS] = `OR1200_UPR_CUP;
- end
- `OR1200_SPRGRP_SYS_CPUCFGR: begin
- spr_dat_o[`OR1200_CPUCFGR_NSGF_BITS] = `OR1200_CPUCFGR_NSGF;
- spr_dat_o[`OR1200_CPUCFGR_HGF_BITS] = `OR1200_CPUCFGR_HGF;
- spr_dat_o[`OR1200_CPUCFGR_OB32S_BITS] = `OR1200_CPUCFGR_OB32S;
- spr_dat_o[`OR1200_CPUCFGR_OB64S_BITS] = `OR1200_CPUCFGR_OB64S;
- spr_dat_o[`OR1200_CPUCFGR_OF32S_BITS] = `OR1200_CPUCFGR_OF32S;
- spr_dat_o[`OR1200_CPUCFGR_OF64S_BITS] = `OR1200_CPUCFGR_OF64S;
- spr_dat_o[`OR1200_CPUCFGR_OV64S_BITS] = `OR1200_CPUCFGR_OV64S;
- spr_dat_o[`OR1200_CPUCFGR_RES1_BITS] = `OR1200_CPUCFGR_RES1;
- end
- `OR1200_SPRGRP_SYS_DMMUCFGR: begin
- spr_dat_o[`OR1200_DMMUCFGR_NTW_BITS] = `OR1200_DMMUCFGR_NTW;
- spr_dat_o[`OR1200_DMMUCFGR_NTS_BITS] = `OR1200_DMMUCFGR_NTS;
- spr_dat_o[`OR1200_DMMUCFGR_NAE_BITS] = `OR1200_DMMUCFGR_NAE;
- spr_dat_o[`OR1200_DMMUCFGR_CRI_BITS] = `OR1200_DMMUCFGR_CRI;
- spr_dat_o[`OR1200_DMMUCFGR_PRI_BITS] = `OR1200_DMMUCFGR_PRI;
- spr_dat_o[`OR1200_DMMUCFGR_TEIRI_BITS] = `OR1200_DMMUCFGR_TEIRI;
- spr_dat_o[`OR1200_DMMUCFGR_HTR_BITS] = `OR1200_DMMUCFGR_HTR;
- spr_dat_o[`OR1200_DMMUCFGR_RES1_BITS] = `OR1200_DMMUCFGR_RES1;
- end
- `OR1200_SPRGRP_SYS_IMMUCFGR: begin
- spr_dat_o[`OR1200_IMMUCFGR_NTW_BITS] = `OR1200_IMMUCFGR_NTW;
- spr_dat_o[`OR1200_IMMUCFGR_NTS_BITS] = `OR1200_IMMUCFGR_NTS;
- spr_dat_o[`OR1200_IMMUCFGR_NAE_BITS] = `OR1200_IMMUCFGR_NAE;
- spr_dat_o[`OR1200_IMMUCFGR_CRI_BITS] = `OR1200_IMMUCFGR_CRI;
- spr_dat_o[`OR1200_IMMUCFGR_PRI_BITS] = `OR1200_IMMUCFGR_PRI;
- spr_dat_o[`OR1200_IMMUCFGR_TEIRI_BITS] = `OR1200_IMMUCFGR_TEIRI;
- spr_dat_o[`OR1200_IMMUCFGR_HTR_BITS] = `OR1200_IMMUCFGR_HTR;
- spr_dat_o[`OR1200_IMMUCFGR_RES1_BITS] = `OR1200_IMMUCFGR_RES1;
- end
- `OR1200_SPRGRP_SYS_DCCFGR: begin
- spr_dat_o[`OR1200_DCCFGR_NCW_BITS] = `OR1200_DCCFGR_NCW;
- spr_dat_o[`OR1200_DCCFGR_NCS_BITS] = `OR1200_DCCFGR_NCS;
- spr_dat_o[`OR1200_DCCFGR_CBS_BITS] = `OR1200_DCCFGR_CBS;
- spr_dat_o[`OR1200_DCCFGR_CWS_BITS] = `OR1200_DCCFGR_CWS;
- spr_dat_o[`OR1200_DCCFGR_CCRI_BITS] = `OR1200_DCCFGR_CCRI;
- spr_dat_o[`OR1200_DCCFGR_CBIRI_BITS] = `OR1200_DCCFGR_CBIRI;
- spr_dat_o[`OR1200_DCCFGR_CBPRI_BITS] = `OR1200_DCCFGR_CBPRI;
- spr_dat_o[`OR1200_DCCFGR_CBLRI_BITS] = `OR1200_DCCFGR_CBLRI;
- spr_dat_o[`OR1200_DCCFGR_CBFRI_BITS] = `OR1200_DCCFGR_CBFRI;
- spr_dat_o[`OR1200_DCCFGR_CBWBRI_BITS] = `OR1200_DCCFGR_CBWBRI;
- spr_dat_o[`OR1200_DCCFGR_RES1_BITS] = `OR1200_DCCFGR_RES1;
- end
- `OR1200_SPRGRP_SYS_ICCFGR: begin
- spr_dat_o[`OR1200_ICCFGR_NCW_BITS] = `OR1200_ICCFGR_NCW;
- spr_dat_o[`OR1200_ICCFGR_NCS_BITS] = `OR1200_ICCFGR_NCS;
- spr_dat_o[`OR1200_ICCFGR_CBS_BITS] = `OR1200_ICCFGR_CBS;
- spr_dat_o[`OR1200_ICCFGR_CWS_BITS] = `OR1200_ICCFGR_CWS;
- spr_dat_o[`OR1200_ICCFGR_CCRI_BITS] = `OR1200_ICCFGR_CCRI;
- spr_dat_o[`OR1200_ICCFGR_CBIRI_BITS] = `OR1200_ICCFGR_CBIRI;
- spr_dat_o[`OR1200_ICCFGR_CBPRI_BITS] = `OR1200_ICCFGR_CBPRI;
- spr_dat_o[`OR1200_ICCFGR_CBLRI_BITS] = `OR1200_ICCFGR_CBLRI;
- spr_dat_o[`OR1200_ICCFGR_CBFRI_BITS] = `OR1200_ICCFGR_CBFRI;
- spr_dat_o[`OR1200_ICCFGR_CBWBRI_BITS] = `OR1200_ICCFGR_CBWBRI;
- spr_dat_o[`OR1200_ICCFGR_RES1_BITS] = `OR1200_ICCFGR_RES1;
- end
- `OR1200_SPRGRP_SYS_DCFGR: begin
- spr_dat_o[`OR1200_DCFGR_NDP_BITS] = `OR1200_DCFGR_NDP;
- spr_dat_o[`OR1200_DCFGR_WPCI_BITS] = `OR1200_DCFGR_WPCI;
- spr_dat_o[`OR1200_DCFGR_RES1_BITS] = `OR1200_DCFGR_RES1;
- end
- default: spr_dat_o = 32'h0000_0000;
- endcase
- `ifdef OR1200_SYS_FULL_DECODE
- else
- spr_dat_o = 32'h0000_0000;
- `endif
-
-`else
-
- //
- // When configuration registers are not implemented, only
- // implement VR and UPR
- //
- always @(spr_addr)
- `ifdef OR1200_SYS_FULL_DECODE
- if (spr_addr[31:4] == 28'h0)
- `endif
- case(spr_addr[3:0])
- `OR1200_SPRGRP_SYS_VR: begin
- spr_dat_o[`OR1200_VR_REV_BITS] = `OR1200_VR_REV;
- spr_dat_o[`OR1200_VR_RES1_BITS] = `OR1200_VR_RES1;
- spr_dat_o[`OR1200_VR_CFG_BITS] = `OR1200_VR_CFG;
- spr_dat_o[`OR1200_VR_VER_BITS] = `OR1200_VR_VER;
- end
- `OR1200_SPRGRP_SYS_UPR: begin
- spr_dat_o[`OR1200_UPR_UP_BITS] = `OR1200_UPR_UP;
- spr_dat_o[`OR1200_UPR_DCP_BITS] = `OR1200_UPR_DCP;
- spr_dat_o[`OR1200_UPR_ICP_BITS] = `OR1200_UPR_ICP;
- spr_dat_o[`OR1200_UPR_DMP_BITS] = `OR1200_UPR_DMP;
- spr_dat_o[`OR1200_UPR_IMP_BITS] = `OR1200_UPR_IMP;
- spr_dat_o[`OR1200_UPR_MP_BITS] = `OR1200_UPR_MP;
- spr_dat_o[`OR1200_UPR_DUP_BITS] = `OR1200_UPR_DUP;
- spr_dat_o[`OR1200_UPR_PCUP_BITS] = `OR1200_UPR_PCUP;
- spr_dat_o[`OR1200_UPR_PMP_BITS] = `OR1200_UPR_PMP;
- spr_dat_o[`OR1200_UPR_PICP_BITS] = `OR1200_UPR_PICP;
- spr_dat_o[`OR1200_UPR_TTP_BITS] = `OR1200_UPR_TTP;
- spr_dat_o[`OR1200_UPR_RES1_BITS] = `OR1200_UPR_RES1;
- spr_dat_o[`OR1200_UPR_CUP_BITS] = `OR1200_UPR_CUP;
- end
- default: spr_dat_o = 32'h0000_0000;
- endcase
- `ifdef OR1200_SYS_FULL_DECODE
- else
- spr_dat_o = 32'h0000_0000;
- `endif
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_cfgr.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_qmem_top.v
===================================================================
--- verilog/components/or1200r2/or1200_qmem_top.v (revision 185)
+++ verilog/components/or1200r2/or1200_qmem_top.v (nonexistent)
@@ -1,478 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Embedded Memory ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Embedded Memory . ////
-//// ////
-//// To Do: ////
-//// - QMEM and IC/DC muxes can be removed except for cycstb ////
-//// (now are is there for easier debugging) ////
-//// - currently arbitration is slow and stores take 2 clocks ////
-//// (final debugged version will be faster) ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2003 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_qmem_top.v,v $
-// Revision 1.3 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.2 2004/04/05 08:40:26 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.1.2.4 2004/01/11 22:45:46 andreje
-// Separate instruction and data QMEM decoders, QMEM acknowledge and byte-select added
-//
-// Revision 1.1.2.3 2003/12/17 13:36:58 simons
-// Qmem mbist signals fixed.
-//
-// Revision 1.1.2.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.1.2.1 2003/07/08 15:45:26 lampret
-// Added embedded memory QMEM.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-`define OR1200_QMEMFSM_IDLE 3'd0
-`define OR1200_QMEMFSM_STORE 3'd1
-`define OR1200_QMEMFSM_LOAD 3'd2
-`define OR1200_QMEMFSM_FETCH 3'd3
-
-//
-// Embedded memory
-//
-module or1200_qmem_top(
- // Rst, clk and clock control
- clk, rst,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // QMEM and CPU/IMMU
- qmemimmu_adr_i,
- qmemimmu_cycstb_i,
- qmemimmu_ci_i,
- qmemicpu_sel_i,
- qmemicpu_tag_i,
- qmemicpu_dat_o,
- qmemicpu_ack_o,
- qmemimmu_rty_o,
- qmemimmu_err_o,
- qmemimmu_tag_o,
-
- // QMEM and IC
- icqmem_adr_o,
- icqmem_cycstb_o,
- icqmem_ci_o,
- icqmem_sel_o,
- icqmem_tag_o,
- icqmem_dat_i,
- icqmem_ack_i,
- icqmem_rty_i,
- icqmem_err_i,
- icqmem_tag_i,
-
- // QMEM and CPU/DMMU
- qmemdmmu_adr_i,
- qmemdmmu_cycstb_i,
- qmemdmmu_ci_i,
- qmemdcpu_we_i,
- qmemdcpu_sel_i,
- qmemdcpu_tag_i,
- qmemdcpu_dat_i,
- qmemdcpu_dat_o,
- qmemdcpu_ack_o,
- qmemdcpu_rty_o,
- qmemdmmu_err_o,
- qmemdmmu_tag_o,
-
- // QMEM and DC
- dcqmem_adr_o, dcqmem_cycstb_o, dcqmem_ci_o,
- dcqmem_we_o, dcqmem_sel_o, dcqmem_tag_o, dcqmem_dat_o,
- dcqmem_dat_i, dcqmem_ack_i, dcqmem_rty_i, dcqmem_err_i, dcqmem_tag_i
-
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// QMEM and CPU/IMMU
-//
-input [31:0] qmemimmu_adr_i;
-input qmemimmu_cycstb_i;
-input qmemimmu_ci_i;
-input [3:0] qmemicpu_sel_i;
-input [3:0] qmemicpu_tag_i;
-output [31:0] qmemicpu_dat_o;
-output qmemicpu_ack_o;
-output qmemimmu_rty_o;
-output qmemimmu_err_o;
-output [3:0] qmemimmu_tag_o;
-
-//
-// QMEM and IC
-//
-output [31:0] icqmem_adr_o;
-output icqmem_cycstb_o;
-output icqmem_ci_o;
-output [3:0] icqmem_sel_o;
-output [3:0] icqmem_tag_o;
-input [31:0] icqmem_dat_i;
-input icqmem_ack_i;
-input icqmem_rty_i;
-input icqmem_err_i;
-input [3:0] icqmem_tag_i;
-
-//
-// QMEM and CPU/DMMU
-//
-input [31:0] qmemdmmu_adr_i;
-input qmemdmmu_cycstb_i;
-input qmemdmmu_ci_i;
-input qmemdcpu_we_i;
-input [3:0] qmemdcpu_sel_i;
-input [3:0] qmemdcpu_tag_i;
-input [31:0] qmemdcpu_dat_i;
-output [31:0] qmemdcpu_dat_o;
-output qmemdcpu_ack_o;
-output qmemdcpu_rty_o;
-output qmemdmmu_err_o;
-output [3:0] qmemdmmu_tag_o;
-
-//
-// QMEM and DC
-//
-output [31:0] dcqmem_adr_o;
-output dcqmem_cycstb_o;
-output dcqmem_ci_o;
-output dcqmem_we_o;
-output [3:0] dcqmem_sel_o;
-output [3:0] dcqmem_tag_o;
-output [dw-1:0] dcqmem_dat_o;
-input [dw-1:0] dcqmem_dat_i;
-input dcqmem_ack_i;
-input dcqmem_rty_i;
-input dcqmem_err_i;
-input [3:0] dcqmem_tag_i;
-
-`ifdef OR1200_QMEM_IMPLEMENTED
-
-//
-// Internal regs and wires
-//
-wire iaddr_qmem_hit;
-wire daddr_qmem_hit;
-reg [2:0] state;
-reg qmem_dack;
-reg qmem_iack;
-wire [31:0] qmem_di;
-wire [31:0] qmem_do;
-wire qmem_en;
-wire qmem_we;
-`ifdef OR1200_QMEM_BSEL
-wire [3:0] qmem_sel;
-`endif
-wire [31:0] qmem_addr;
-`ifdef OR1200_QMEM_ACK
-wire qmem_ack;
-`else
-wire qmem_ack = 1'b1;
-`endif
-
-//
-// QMEM and CPU/IMMU
-//
-assign qmemicpu_dat_o = qmem_iack ? qmem_do : icqmem_dat_i;
-assign qmemicpu_ack_o = qmem_iack ? 1'b1 : icqmem_ack_i;
-assign qmemimmu_rty_o = qmem_iack ? 1'b0 : icqmem_rty_i;
-assign qmemimmu_err_o = qmem_iack ? 1'b0 : icqmem_err_i;
-assign qmemimmu_tag_o = qmem_iack ? 4'h0 : icqmem_tag_i;
-
-//
-// QMEM and IC
-//
-assign icqmem_adr_o = iaddr_qmem_hit ? 32'h0000_0000 : qmemimmu_adr_i;
-assign icqmem_cycstb_o = iaddr_qmem_hit ? 1'b0 : qmemimmu_cycstb_i;
-assign icqmem_ci_o = iaddr_qmem_hit ? 1'b0 : qmemimmu_ci_i;
-assign icqmem_sel_o = iaddr_qmem_hit ? 4'h0 : qmemicpu_sel_i;
-assign icqmem_tag_o = iaddr_qmem_hit ? 4'h0 : qmemicpu_tag_i;
-
-//
-// QMEM and CPU/DMMU
-//
-assign qmemdcpu_dat_o = daddr_qmem_hit ? qmem_do : dcqmem_dat_i;
-assign qmemdcpu_ack_o = daddr_qmem_hit ? qmem_dack : dcqmem_ack_i;
-assign qmemdcpu_rty_o = daddr_qmem_hit ? ~qmem_dack : dcqmem_rty_i;
-assign qmemdmmu_err_o = daddr_qmem_hit ? 1'b0 : dcqmem_err_i;
-assign qmemdmmu_tag_o = daddr_qmem_hit ? 4'h0 : dcqmem_tag_i;
-
-//
-// QMEM and DC
-//
-assign dcqmem_adr_o = daddr_qmem_hit ? 32'h0000_0000 : qmemdmmu_adr_i;
-assign dcqmem_cycstb_o = daddr_qmem_hit ? 1'b0 : qmemdmmu_cycstb_i;
-assign dcqmem_ci_o = daddr_qmem_hit ? 1'b0 : qmemdmmu_ci_i;
-assign dcqmem_we_o = daddr_qmem_hit ? 1'b0 : qmemdcpu_we_i;
-assign dcqmem_sel_o = daddr_qmem_hit ? 4'h0 : qmemdcpu_sel_i;
-assign dcqmem_tag_o = daddr_qmem_hit ? 4'h0 : qmemdcpu_tag_i;
-assign dcqmem_dat_o = daddr_qmem_hit ? 32'h0000_0000 : qmemdcpu_dat_i;
-
-//
-// Address comparison whether QMEM was hit
-//
-`ifdef OR1200_QMEM_IADDR
-assign iaddr_qmem_hit = (qmemimmu_adr_i & `OR1200_QMEM_IMASK) == `OR1200_QMEM_IADDR;
-`else
-assign iaddr_qmem_hit = 1'b0;
-`endif
-
-`ifdef OR1200_QMEM_DADDR
-assign daddr_qmem_hit = (qmemdmmu_adr_i & `OR1200_QMEM_DMASK) == `OR1200_QMEM_DADDR;
-`else
-assign daddr_qmem_hit = 1'b0;
-`endif
-
-//
-//
-//
-assign qmem_en = iaddr_qmem_hit & qmemimmu_cycstb_i | daddr_qmem_hit & qmemdmmu_cycstb_i;
-assign qmem_we = qmemdmmu_cycstb_i & daddr_qmem_hit & qmemdcpu_we_i;
-`ifdef OR1200_QMEM_BSEL
-assign qmem_sel = (qmemdmmu_cycstb_i & daddr_qmem_hit) ? qmemdcpu_sel_i : qmemicpu_sel_i;
-`endif
-assign qmem_di = qmemdcpu_dat_i;
-assign qmem_addr = (qmemdmmu_cycstb_i & daddr_qmem_hit) ? qmemdmmu_adr_i : qmemimmu_adr_i;
-
-//
-// QMEM control FSM
-//
-always @(posedge rst or posedge clk)
- if (rst) begin
- state <= #1 `OR1200_QMEMFSM_IDLE;
- qmem_dack <= #1 1'b0;
- qmem_iack <= #1 1'b0;
- end
- else case (state) // synopsys parallel_case
- `OR1200_QMEMFSM_IDLE: begin
- if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmemdcpu_we_i & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_STORE;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_LOAD;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemimmu_cycstb_i & iaddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_FETCH;
- qmem_iack <= #1 1'b1;
- qmem_dack <= #1 1'b0;
- end
- end
- `OR1200_QMEMFSM_STORE: begin
- if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmemdcpu_we_i & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_STORE;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_LOAD;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemimmu_cycstb_i & iaddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_FETCH;
- qmem_iack <= #1 1'b1;
- qmem_dack <= #1 1'b0;
- end
- else begin
- state <= #1 `OR1200_QMEMFSM_IDLE;
- qmem_dack <= #1 1'b0;
- qmem_iack <= #1 1'b0;
- end
- end
- `OR1200_QMEMFSM_LOAD: begin
- if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmemdcpu_we_i & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_STORE;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_LOAD;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemimmu_cycstb_i & iaddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_FETCH;
- qmem_iack <= #1 1'b1;
- qmem_dack <= #1 1'b0;
- end
- else begin
- state <= #1 `OR1200_QMEMFSM_IDLE;
- qmem_dack <= #1 1'b0;
- qmem_iack <= #1 1'b0;
- end
- end
- `OR1200_QMEMFSM_FETCH: begin
- if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmemdcpu_we_i & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_STORE;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemdmmu_cycstb_i & daddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_LOAD;
- qmem_dack <= #1 1'b1;
- qmem_iack <= #1 1'b0;
- end
- else if (qmemimmu_cycstb_i & iaddr_qmem_hit & qmem_ack) begin
- state <= #1 `OR1200_QMEMFSM_FETCH;
- qmem_iack <= #1 1'b1;
- qmem_dack <= #1 1'b0;
- end
- else begin
- state <= #1 `OR1200_QMEMFSM_IDLE;
- qmem_dack <= #1 1'b0;
- qmem_iack <= #1 1'b0;
- end
- end
- default: begin
- state <= #1 `OR1200_QMEMFSM_IDLE;
- qmem_dack <= #1 1'b0;
- qmem_iack <= #1 1'b0;
- end
- endcase
-
-//
-// Instantiation of embedded memory
-//
-or1200_spram_2048x32 or1200_qmem_ram(
- .clk(clk),
- .rst(rst),
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .addr(qmem_addr[12:2]),
-`ifdef OR1200_QMEM_BSEL
- .sel(qmem_sel),
-`endif
-`ifdef OR1200_QMEM_ACK
- .ack(qmem_ack),
-`endif
- .ce(qmem_en),
- .we(qmem_we),
- .oe(1'b1),
- .di(qmem_di),
- .doq(qmem_do)
-);
-
-`else // OR1200_QMEM_IMPLEMENTED
-
-//
-// QMEM and CPU/IMMU
-//
-assign qmemicpu_dat_o = icqmem_dat_i;
-assign qmemicpu_ack_o = icqmem_ack_i;
-assign qmemimmu_rty_o = icqmem_rty_i;
-assign qmemimmu_err_o = icqmem_err_i;
-assign qmemimmu_tag_o = icqmem_tag_i;
-
-//
-// QMEM and IC
-//
-assign icqmem_adr_o = qmemimmu_adr_i;
-assign icqmem_cycstb_o = qmemimmu_cycstb_i;
-assign icqmem_ci_o = qmemimmu_ci_i;
-assign icqmem_sel_o = qmemicpu_sel_i;
-assign icqmem_tag_o = qmemicpu_tag_i;
-
-//
-// QMEM and CPU/DMMU
-//
-assign qmemdcpu_dat_o = dcqmem_dat_i;
-assign qmemdcpu_ack_o = dcqmem_ack_i;
-assign qmemdcpu_rty_o = dcqmem_rty_i;
-assign qmemdmmu_err_o = dcqmem_err_i;
-assign qmemdmmu_tag_o = dcqmem_tag_i;
-
-//
-// QMEM and DC
-//
-assign dcqmem_adr_o = qmemdmmu_adr_i;
-assign dcqmem_cycstb_o = qmemdmmu_cycstb_i;
-assign dcqmem_ci_o = qmemdmmu_ci_i;
-assign dcqmem_we_o = qmemdcpu_we_i;
-assign dcqmem_sel_o = qmemdcpu_sel_i;
-assign dcqmem_tag_o = qmemdcpu_tag_i;
-assign dcqmem_dat_o = qmemdcpu_dat_i;
-
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_qmem_top.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dc_tag.v
===================================================================
--- verilog/components/or1200r2/or1200_dc_tag.v (revision 185)
+++ verilog/components/or1200r2/or1200_dc_tag.v (nonexistent)
@@ -1,168 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's DC TAG RAMs ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instatiation of data cache tag rams. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_dc_tag.v,v $
-// Revision 1.5 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.4 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.2.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_dc_tag(
- // Clock and reset
- clk, rst,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // Internal i/f
- addr, en, we, datain, tag_v, tag
-);
-
-parameter dw = `OR1200_DCTAG_W;
-parameter aw = `OR1200_DCTAG;
-
-//
-// I/O
-//
-input clk;
-input rst;
-input [aw-1:0] addr;
-input en;
-input we;
-input [dw-1:0] datain;
-output tag_v;
-output [dw-2:0] tag;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-`ifdef OR1200_NO_DC
-
-//
-// Data cache not implemented
-//
-assign tag = {dw-1{1'b0}};
-assign tag_v = 1'b0;
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-
-`else
-
-//
-// Instantiation of TAG RAM block
-//
-`ifdef OR1200_DC_1W_4KB
- or1200_spram #
- (
- .aw(8),
- .dw(21)
- )
-`endif
-`ifdef OR1200_DC_1W_8KB
- or1200_spram #
- (
- .aw(9),
- .dw(20)
- )
-`endif
- dc_tag0
- (
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .clk(clk),
- .ce(en),
- .we(we),
- .addr(addr),
- .di(datain),
- .doq({tag, tag_v})
- );
-`endif
-
-endmodule // or1200_dc_tag
verilog/components/or1200r2/or1200_dc_tag.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_2048x32_bw.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_2048x32_bw.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_2048x32_bw.v (nonexistent)
@@ -1,676 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM with byte write signals ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_2048x32_bw.v,v $
-// Revision 1.5 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.4 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.3 2003/10/17 07:59:44 markom
-// mbist signals updated according to newest convention
-//
-// Revision 1.2 2003/09/12 09:03:54 dries
-// correct all the syntax errors
-//
-// Revision 1.1 2003/08/26 09:37:02 simons
-// Added support for rams with byte write access.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_2048x32_bw(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; // bist chain shift control
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input [3:0] we; // Write enable input
-input oe; // Output enable input
-input [10:0] addr; // address bus inputs
-input [31:0] di; // input data bus
-output [31:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_2048x32_bw artisan_ssp(
-`else
-`ifdef OR1200_BIST
-art_hssp_2048x32_bw_bist artisan_ssp(
-`else
-art_hssp_2048x32_bw artisan_ssp(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CLK(clk),
- .CEN(~ce),
- .WEN(~we),
- .A(addr),
- .D(di),
- .OEN(~oe),
- .Q(doq)
-);
-
-`else
-
-`ifdef OR1200_AVANT_ATP
-
-//
-// Instantiation of ASIC memory:
-//
-// Avant! Asynchronous Two-Port RAM
-//
-avant_atp avant_atp(
- .web(~we),
- .reb(),
- .oeb(~oe),
- .rcsb(),
- .wcsb(),
- .ra(addr),
- .wa(addr),
- .di(di),
- .doq(doq)
-);
-
-`else
-
-`ifdef OR1200_VIRAGE_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virage Synchronous 1-port R/W RAM
-//
-virage_ssp virage_ssp(
- .clk(clk),
- .adr(addr),
- .d(di),
- .we(we),
- .oe(oe),
- .me(ce),
- .q(doq)
-);
-
-`else
-
-`ifdef OR1200_VIRTUALSILICON_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Virtual Silicon Single-Port Synchronous SRAM
-//
-`ifdef OR1200_BIST
-wire mbist_si_i_ram_0;
-wire mbist_si_i_ram_1;
-wire mbist_si_i_ram_2;
-wire mbist_si_i_ram_3;
-wire mbist_so_o_ram_0;
-wire mbist_so_o_ram_1;
-wire mbist_so_o_ram_2;
-wire mbist_so_o_ram_3;
-assign mbist_si_i_ram_0 = mbist_si_i;
-assign mbist_si_i_ram_1 = mbist_so_o_ram_0;
-assign mbist_si_i_ram_2 = mbist_so_o_ram_1;
-assign mbist_si_i_ram_3 = mbist_so_o_ram_2;
-assign mbist_so_o = mbist_so_o_ram_3;
-`endif
-
-`ifdef UNUSED
-vs_hdsp_2048x8 vs_ssp_0(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_2048x8_bist vs_ssp_0(
-`else
-vs_hdsp_2048x8 vs_ssp_0(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_0),
- .mbist_so_o(mbist_so_o_ram_0),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[7:0]),
- .WEN(~we[0]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[7:0])
-);
-
-`ifdef UNUSED
-vs_hdsp_2048x8 vs_ssp_1(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_2048x8_bist vs_ssp_1(
-`else
-vs_hdsp_2048x8 vs_ssp_1(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_1),
- .mbist_so_o(mbist_so_o_ram_1),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[15:8]),
- .WEN(~we[1]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[15:8])
-);
-
-`ifdef UNUSED
-vs_hdsp_2048x8 vs_ssp_2(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_2048x8_bist vs_ssp_2(
-`else
-vs_hdsp_2048x8 vs_ssp_2(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_2),
- .mbist_so_o(mbist_so_o_ram_2),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[23:16]),
- .WEN(~we[2]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[23:16])
-);
-
-`ifdef UNUSED
-vs_hdsp_2048x8 vs_ssp_3(
-`else
-`ifdef OR1200_BIST
-vs_hdsp_2048x8_bist vs_ssp_3(
-`else
-vs_hdsp_2048x8 vs_ssp_3(
-`endif
-`endif
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i_ram_3),
- .mbist_so_o(mbist_so_o_ram_3),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .CK(clk),
- .ADR(addr),
- .DI(di[31:24]),
- .WEN(~we[3]),
- .CEN(~ce),
- .OEN(~oe),
- .DOUT(doq[31:24])
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB4
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex/Spartan2
-//
-
-//
-// Block 0
-//
-RAMB4_S2 ramb4_s2_0(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[1:0]),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[1:0])
-);
-
-//
-// Block 1
-//
-RAMB4_S2 ramb4_s2_1(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[3:2]),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[3:2])
-);
-
-//
-// Block 2
-//
-RAMB4_S2 ramb4_s2_2(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[5:4]),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[5:4])
-);
-
-//
-// Block 3
-//
-RAMB4_S2 ramb4_s2_3(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[7:6]),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[7:6])
-);
-//
-// Block 4
-//
-RAMB4_S2 ramb4_s2_4(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[9:8]),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[9:8])
-);
-
-//
-// Block 5
-//
-RAMB4_S2 ramb4_s2_5(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[11:10]),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[11:10])
-);
-
-//
-// Block 6
-//
-RAMB4_S2 ramb4_s2_6(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[13:12]),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[13:12])
-);
-
-//
-// Block 7
-//
-RAMB4_S2 ramb4_s2_7(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[15:14]),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[15:14])
-);
-//
-// Block 8
-//
-RAMB4_S2 ramb4_s2_8(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[17:16]),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[17:16])
-);
-
-//
-// Block 9
-//
-RAMB4_S2 ramb4_s2_9(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[19:18]),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[19:18])
-);
-
-//
-// Block 10
-//
-RAMB4_S2 ramb4_s2_10(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[21:20]),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[21:20])
-);
-
-//
-// Block 11
-//
-RAMB4_S2 ramb4_s2_11(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[23:22]),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[23:22])
-);
-//
-// Block 12
-//
-RAMB4_S2 ramb4_s2_12(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[25:24]),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[25:24])
-);
-
-//
-// Block 13
-//
-RAMB4_S2 ramb4_s2_13(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[27:26]),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[27:26])
-);
-
-//
-// Block 14
-//
-RAMB4_S2 ramb4_s2_14(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[29:28]),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[29:28])
-);
-
-//
-// Block 15
-//
-RAMB4_S2 ramb4_s2_15(
- .CLK(clk),
- .RST(rst),
- .ADDR(addr),
- .DI(di[31:30]),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[31:30])
-);
-
-`else
-
-`ifdef OR1200_XILINX_RAMB16
-
-//
-// Instantiation of FPGA memory:
-//
-// Virtex4/Spartan3E
-//
-// Added By Nir Mor
-//
-
-//
-// Block 0
-//
-RAMB16_S9 ramb16_s9_0(
- .CLK(clk),
- .SSR(rst),
- .ADDR(addr),
- .DI(di[7:0]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[0]),
- .DO(doq[7:0]),
- .DOP()
-);
-
-//
-// Block 1
-//
-RAMB16_S9 ramb16_s9_1(
- .CLK(clk),
- .SSR(rst),
- .ADDR(addr),
- .DI(di[15:8]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[1]),
- .DO(doq[15:8]),
- .DOP()
-);
-
-//
-// Block 2
-//
-RAMB16_S9 ramb16_s9_2(
- .CLK(clk),
- .SSR(rst),
- .ADDR(addr),
- .DI(di[23:16]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[2]),
- .DO(doq[23:16]),
- .DOP()
-);
-
-//
-// Block 3
-//
-RAMB16_S9 ramb16_s9_3(
- .CLK(clk),
- .SSR(rst),
- .ADDR(addr),
- .DI(di[31:24]),
- .DIP(1'b0),
- .EN(ce),
- .WE(we[3]),
- .DO(doq[31:24]),
- .DOP()
-);
-
-`else
-
-//
-// Generic single-port synchronous RAM model
-//
-
-//
-// Generic RAM's registers and wires
-//
-reg [7:0] mem_0 [2047:0]; // RAM content
-reg [7:0] mem_1 [2047:0]; // RAM content
-reg [7:0] mem_2 [2047:0]; // RAM content
-reg [7:0] mem_3 [2047:0]; // RAM content
-reg [10:0] addr_reg; // RAM address register
-
-//
-// Data output drivers
-//
-assign doq = (oe) ? {mem_3[addr_reg], mem_2[addr_reg], mem_1[addr_reg], mem_0[addr_reg]} : {32{1'b0}};
-
-//
-// RAM address register
-//
-always @(posedge clk or posedge rst)
- if (rst)
- addr_reg <= #1 11'h000;
- else if (ce)
- addr_reg <= #1 addr;
-
-//
-// RAM write byte 0
-//
-always @(posedge clk)
- if (ce && we[0])
- mem_0[addr] <= #1 di[7:0];
-
-//
-// RAM write byte 1
-//
-always @(posedge clk)
- if (ce && we[1])
- mem_1[addr] <= #1 di[15:8];
-
-//
-// RAM write byte 2
-//
-always @(posedge clk)
- if (ce && we[2])
- mem_2[addr] <= #1 di[23:16];
-
-//
-// RAM write byte 3
-//
-always @(posedge clk)
- if (ce && we[3])
- mem_3[addr] <= #1 di[31:24];
-
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-`endif // !OR1200_VIRTUALSILICON_SSP
-`endif // !OR1200_VIRAGE_SSP
-`endif // !OR1200_AVANT_ATP
-`endif // !OR1200_ARTISAN_SSP
-
-endmodule
verilog/components/or1200r2/or1200_spram_2048x32_bw.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_tpram_32x32.v
===================================================================
--- verilog/components/or1200r2/or1200_tpram_32x32.v (revision 185)
+++ verilog/components/or1200r2/or1200_tpram_32x32.v (nonexistent)
@@ -1,422 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Two-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common two-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// two-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Double-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage 2-port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - fix Avant! ////
-//// - xilinx rams need external tri-state logic ////
-//// - add additional RAMs (VS etc) ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_tpram_32x32.v,v $
-// Revision 1.5 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.4 2004/06/08 18:15:48 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.3 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.2.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.2 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.7 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.6 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_tpram_32x32(
- // Generic synchronous two-port RAM interface
- clk_a, rst_a, ce_a, we_a, oe_a, addr_a, di_a, do_a,
- clk_b, rst_b, ce_b, we_b, oe_b, addr_b, di_b, do_b
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 5;
-parameter dw = 32;
-
-//
-// Generic synchronous two-port RAM interface
-//
-input clk_a; // Clock
-input rst_a; // Reset
-input ce_a; // Chip enable input
-input we_a; // Write enable input
-input oe_a; // Output enable input
-input [aw-1:0] addr_a; // address bus inputs
-input [dw-1:0] di_a; // input data bus
-output [dw-1:0] do_a; // output data bus
-input clk_b; // Clock
-input rst_b; // Reset
-input ce_b; // Chip enable input
-input we_b; // Write enable input
-input oe_b; // Output enable input
-input [aw-1:0] addr_b; // address bus inputs
-input [dw-1:0] di_b; // input data bus
-output [dw-1:0] do_b; // output data bus
-
-//
-// Internal wires and registers
-//
-
-
-`ifdef OR1200_ARTISAN_SDP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Double-Port RAM (ra2sh)
-//
-`ifdef UNUSED
-art_hsdp_32x32 #(dw, 1<
verilog/components/or1200r2/or1200_tpram_32x32.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_dc_ram.v
===================================================================
--- verilog/components/or1200r2/or1200_dc_ram.v (revision 185)
+++ verilog/components/or1200r2/or1200_dc_ram.v (nonexistent)
@@ -1,169 +0,0 @@
-
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's DC RAMs ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instatiation of DC RAM blocks. ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_dc_ram.v,v $
-// Revision 1.6 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.5 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.2.4.2 2003/12/10 15:28:28 simons
-// Support for ram with byte selects added.
-//
-// Revision 1.2.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.2 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_dc_ram(
- // Reset and clock
- clk, rst,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // Internal i/f
- addr, en, we, datain, dataout
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_DCINDX;
-
-//
-// I/O
-//
-input clk;
-input rst;
-input [aw-1:0] addr;
-input en;
-input [3:0] we;
-input [dw-1:0] datain;
-output [dw-1:0] dataout;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; // bist chain shift control
-output mbist_so_o;
-`endif
-
-`ifdef OR1200_NO_DC
-
-//
-// Data cache not implemented
-//
-assign dataout = {dw{1'b0}};
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-
-`else
-
-//
-// Instantiation of RAM block
-//
-`ifdef OR1200_DC_1W_4KB
- or1200_spram_32_bw #
- (
- .aw(10),
- .dw(32)
- )
-`endif
-`ifdef OR1200_DC_1W_8KB
- or1200_spram_32_bw #
- (
- .aw(11),
- .dw(32)
- )
-`endif
- dc_ram
- (
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
- .clk(clk),
- .ce(en),
- .we(we),
- .addr(addr),
- .di(datain),
- .doq(dataout)
- );
-`endif
-endmodule // or1200_dc_ram
verilog/components/or1200r2/or1200_dc_ram.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_sprs.v
===================================================================
--- verilog/components/or1200r2/or1200_sprs.v (revision 185)
+++ verilog/components/or1200r2/or1200_sprs.v (nonexistent)
@@ -1,509 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's interface to SPRs ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Decoding of SPR addresses and access to SPRs ////
-//// ////
-//// To Do: ////
-//// - make it smaller and faster ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_sprs.v,v $
-// Revision 1.11 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.9.4.1 2003/12/17 13:43:38 simons
-// Exception prefix configuration changed.
-//
-// Revision 1.9 2002/09/07 05:42:02 lampret
-// Added optional SR[CY]. Added define to enable additional (compare) flag modifiers. Defines are OR1200_IMPL_ADDC and OR1200_ADDITIONAL_FLAG_MODIFIERS.
-//
-// Revision 1.8 2002/08/28 01:44:25 lampret
-// Removed some commented RTL. Fixed SR/ESR flag bug.
-//
-// Revision 1.7 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.6 2002/03/11 01:26:57 lampret
-// Changed generation of SPR address. Now it is ORed from base and offset instead of a sum.
-//
-// Revision 1.5 2002/02/01 19:56:54 lampret
-// Fixed combinational loops.
-//
-// Revision 1.4 2002/01/23 07:52:36 lampret
-// Changed default reset values for SR and ESR to match or1ksim's. Fixed flop model in or1200_dpram_32x32 when OR1200_XILINX_RAM32X1D is defined.
-//
-// Revision 1.3 2002/01/19 09:27:49 lampret
-// SR[TEE] should be zero after reset.
-//
-// Revision 1.2 2002/01/18 07:56:00 lampret
-// No more low/high priority interrupts (PICPR removed). Added tick timer exception. Added exception prefix (SR[EPH]). Fixed single-step bug whenreading NPC.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.12 2001/11/23 21:42:31 simons
-// Program counter divided to PPC and NPC.
-//
-// Revision 1.11 2001/11/23 08:38:51 lampret
-// Changed DSR/DRR behavior and exception detection.
-//
-// Revision 1.10 2001/11/12 01:45:41 lampret
-// Moved flag bit into SR. Changed RF enable from constant enable to dynamic enable for read ports.
-//
-// Revision 1.9 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.8 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.3 2001/08/13 03:36:20 lampret
-// Added cfg regs. Moved all defines into one defines.v file. More cleanup.
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:21 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_sprs(
- // Clk & Rst
- clk, rst,
-
- // Internal CPU interface
- flagforw, flag_we, flag, cyforw, cy_we, carry,
- addrbase, addrofs, dat_i, alu_op, branch_op,
- epcr, eear, esr, except_started,
- to_wbmux, epcr_we, eear_we, esr_we, pc_we, sr_we, to_sr, sr,
- spr_dat_cfgr, spr_dat_rf, spr_dat_npc, spr_dat_ppc, spr_dat_mac,
- boot_adr_sel_i,
-
- // From/to other RISC units
- spr_dat_pic, spr_dat_tt, spr_dat_pm,
- spr_dat_dmmu, spr_dat_immu, spr_dat_du,
- spr_addr, spr_dat_o, spr_cs, spr_we,
-
- du_addr, du_dat_du, du_read,
- du_write, du_dat_cpu
-`ifdef OR1200_FPU_IMPLEMENTED
- // Floating point control register and SPR input
- ,fpcsr,fpcsr_we,spr_dat_fpu
-`endif
-
-
-);
-
-parameter width = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O Ports
-//
-
-//
-// Internal CPU interface
-//
-input clk; // Clock
-input rst; // Reset
-input flagforw; // From ALU
-input flag_we; // From ALU
-output flag; // SR[F]
-input cyforw; // From ALU
-input cy_we; // From ALU
-output carry; // SR[CY]
-input [width-1:0] addrbase; // SPR base address
-input [15:0] addrofs; // SPR offset
-input [width-1:0] dat_i; // SPR write data
-input [`OR1200_ALUOP_WIDTH-1:0] alu_op; // ALU operation
-input [`OR1200_BRANCHOP_WIDTH-1:0] branch_op; // Branch operation
-input [width-1:0] epcr /* verilator public */; // EPCR0
-input [width-1:0] eear /* verilator public */; // EEAR0
-input [`OR1200_SR_WIDTH-1:0] esr /* verilator public */; // ESR0
-input except_started; // Exception was started
-output [width-1:0] to_wbmux; // For l.mfspr
-output epcr_we; // EPCR0 write enable
-output eear_we; // EEAR0 write enable
-output esr_we; // ESR0 write enable
-output pc_we; // PC write enable
-output sr_we; // Write enable SR
-output [`OR1200_SR_WIDTH-1:0] to_sr; // Data to SR
-output [`OR1200_SR_WIDTH-1:0] sr /* verilator public */; // SR
-input [31:0] spr_dat_cfgr; // Data from CFGR
-input [31:0] spr_dat_rf; // Data from RF
-input [31:0] spr_dat_npc; // Data from NPC
-input [31:0] spr_dat_ppc; // Data from PPC
-input [31:0] spr_dat_mac; // Data from MAC
-input boot_adr_sel_i;
-`ifdef OR1200_FPU_IMPLEMENTED
-input [`OR1200_FPCSR_WIDTH-1:0] fpcsr; // FPCSR
-output fpcsr_we; // Write enable FPCSR
-input [31:0] spr_dat_fpu; // Data from FPU
-`endif
-
-
-//
-// To/from other RISC units
-//
-input [31:0] spr_dat_pic; // Data from PIC
-input [31:0] spr_dat_tt; // Data from TT
-input [31:0] spr_dat_pm; // Data from PM
-input [31:0] spr_dat_dmmu; // Data from DMMU
-input [31:0] spr_dat_immu; // Data from IMMU
-input [31:0] spr_dat_du; // Data from DU
-output [31:0] spr_addr; // SPR Address
-output [31:0] spr_dat_o; // Data to unit
-output [31:0] spr_cs; // Unit select
-output spr_we; // SPR write enable
-
-//
-// To/from Debug Unit
-//
-input [width-1:0] du_addr; // Address
-input [width-1:0] du_dat_du; // Data from DU to SPRS
-input du_read; // Read qualifier
-input du_write; // Write qualifier
-output [width-1:0] du_dat_cpu; // Data from SPRS to DU
-
-//
-// Internal regs & wires
-//
-reg [`OR1200_SR_WIDTH-1:0] sr_reg; // SR
-reg sr_reg_bit_eph; // SR_EPH bit
-reg sr_reg_bit_eph_select; // SR_EPH select
-wire sr_reg_bit_eph_muxed; // SR_EPH muxed bit
-reg [`OR1200_SR_WIDTH-1:0] sr; // SR
-/* verilator lint_off UNOPTFLAT */
-reg write_spr; // Write SPR
-reg read_spr; // Read SPR
-/* verilator lint_on UNOPTFLAT */
-reg [width-1:0] to_wbmux; // For l.mfspr
-wire cfgr_sel; // Select for cfg regs
-wire rf_sel; // Select for RF
-wire npc_sel; // Select for NPC
-wire ppc_sel; // Select for PPC
-wire sr_sel; // Select for SR
-wire epcr_sel; // Select for EPCR0
-wire eear_sel; // Select for EEAR0
-wire esr_sel; // Select for ESR0
-`ifdef OR1200_FPU_IMPLEMENTED
-wire fpcsr_sel; // Select for FPCSR
-`endif
-wire [31:0] sys_data; // Read data from system SPRs
-wire du_access; // Debug unit access
-wire [`OR1200_ALUOP_WIDTH-1:0] sprs_op; // ALU operation
-reg [31:0] unqualified_cs; // Unqualified chip selects
-
-//
-// Decide if it is debug unit access
-//
-assign du_access = du_read | du_write;
-
-//
-// Generate sprs opcode
-//
-assign sprs_op = du_write ? `OR1200_ALUOP_MTSR : du_read ? `OR1200_ALUOP_MFSR : alu_op;
-
-//
-// Generate SPR address from base address and offset
-// OR from debug unit address
-//
-assign spr_addr = du_access ? du_addr : addrbase | {16'h0000, addrofs};
-
-//
-// SPR is written by debug unit or by l.mtspr
-//
-assign spr_dat_o = du_write ? du_dat_du : dat_i;
-
-//
-// debug unit data input:
-// - write into debug unit SPRs by debug unit itself
-// - read of SPRS by debug unit
-// - write into debug unit SPRs by l.mtspr
-//
-assign du_dat_cpu = du_write ? du_dat_du : du_read ? to_wbmux : dat_i;
-
-//
-// Write into SPRs when l.mtspr
-//
-assign spr_we = du_write | write_spr;
-
-//
-// Qualify chip selects
-//
-/* verilator lint_off UNOPTFLAT */
-assign spr_cs = unqualified_cs & {32{read_spr | write_spr}};
-/* verilator lint_on UNOPTFLAT */
-//
-// Decoding of groups
-//
-always @(spr_addr)
- case (spr_addr[`OR1200_SPR_GROUP_BITS]) // synopsys parallel_case
- `OR1200_SPR_GROUP_WIDTH'd00: unqualified_cs = 32'b00000000_00000000_00000000_00000001;
- `OR1200_SPR_GROUP_WIDTH'd01: unqualified_cs = 32'b00000000_00000000_00000000_00000010;
- `OR1200_SPR_GROUP_WIDTH'd02: unqualified_cs = 32'b00000000_00000000_00000000_00000100;
- `OR1200_SPR_GROUP_WIDTH'd03: unqualified_cs = 32'b00000000_00000000_00000000_00001000;
- `OR1200_SPR_GROUP_WIDTH'd04: unqualified_cs = 32'b00000000_00000000_00000000_00010000;
- `OR1200_SPR_GROUP_WIDTH'd05: unqualified_cs = 32'b00000000_00000000_00000000_00100000;
- `OR1200_SPR_GROUP_WIDTH'd06: unqualified_cs = 32'b00000000_00000000_00000000_01000000;
- `OR1200_SPR_GROUP_WIDTH'd07: unqualified_cs = 32'b00000000_00000000_00000000_10000000;
- `OR1200_SPR_GROUP_WIDTH'd08: unqualified_cs = 32'b00000000_00000000_00000001_00000000;
- `OR1200_SPR_GROUP_WIDTH'd09: unqualified_cs = 32'b00000000_00000000_00000010_00000000;
- `OR1200_SPR_GROUP_WIDTH'd10: unqualified_cs = 32'b00000000_00000000_00000100_00000000;
- `OR1200_SPR_GROUP_WIDTH'd11: unqualified_cs = 32'b00000000_00000000_00001000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd12: unqualified_cs = 32'b00000000_00000000_00010000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd13: unqualified_cs = 32'b00000000_00000000_00100000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd14: unqualified_cs = 32'b00000000_00000000_01000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd15: unqualified_cs = 32'b00000000_00000000_10000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd16: unqualified_cs = 32'b00000000_00000001_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd17: unqualified_cs = 32'b00000000_00000010_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd18: unqualified_cs = 32'b00000000_00000100_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd19: unqualified_cs = 32'b00000000_00001000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd20: unqualified_cs = 32'b00000000_00010000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd21: unqualified_cs = 32'b00000000_00100000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd22: unqualified_cs = 32'b00000000_01000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd23: unqualified_cs = 32'b00000000_10000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd24: unqualified_cs = 32'b00000001_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd25: unqualified_cs = 32'b00000010_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd26: unqualified_cs = 32'b00000100_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd27: unqualified_cs = 32'b00001000_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd28: unqualified_cs = 32'b00010000_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd29: unqualified_cs = 32'b00100000_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd30: unqualified_cs = 32'b01000000_00000000_00000000_00000000;
- `OR1200_SPR_GROUP_WIDTH'd31: unqualified_cs = 32'b10000000_00000000_00000000_00000000;
- endcase
-
-//
-// SPRs System Group
-//
-
-//
-// What to write into SR
-//
-assign to_sr[`OR1200_SR_FO:`OR1200_SR_OV] =
- (except_started) ? sr[`OR1200_SR_FO:`OR1200_SR_OV] :
- (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_FO:`OR1200_SR_OV] :
- (write_spr && sr_sel) ? {1'b1, spr_dat_o[`OR1200_SR_FO-1:`OR1200_SR_OV]}:
- sr[`OR1200_SR_FO:`OR1200_SR_OV];
-assign to_sr[`OR1200_SR_CY] =
- (except_started) ? sr[`OR1200_SR_CY] :
- (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_CY] :
- cy_we ? cyforw :
- (write_spr && sr_sel) ? spr_dat_o[`OR1200_SR_CY] :
- sr[`OR1200_SR_CY];
-assign to_sr[`OR1200_SR_F] =
- (except_started) ? sr[`OR1200_SR_F] :
- (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_F] :
- flag_we ? flagforw :
- (write_spr && sr_sel) ? spr_dat_o[`OR1200_SR_F] :
- sr[`OR1200_SR_F];
-assign to_sr[`OR1200_SR_CE:`OR1200_SR_SM] =
- (except_started) ? {sr[`OR1200_SR_CE:`OR1200_SR_LEE], 2'b00, sr[`OR1200_SR_ICE:`OR1200_SR_DCE], 3'b001} :
- (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_CE:`OR1200_SR_SM] :
- (write_spr && sr_sel) ? spr_dat_o[`OR1200_SR_CE:`OR1200_SR_SM]:
- sr[`OR1200_SR_CE:`OR1200_SR_SM];
-
-//
-// Selects for system SPRs
-//
-assign cfgr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:4] == `OR1200_SPR_CFGR));
-assign rf_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:5] == `OR1200_SPR_RF));
-assign npc_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_NPC));
-assign ppc_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_PPC));
-assign sr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_SR));
-assign epcr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_EPCR));
-assign eear_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_EEAR));
-assign esr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_ESR));
-`ifdef OR1200_FPU_IMPLEMENTED
-assign fpcsr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_FPCSR));
-`endif
-
-
-//
-// Write enables for system SPRs
-//
-assign sr_we = (write_spr && sr_sel) | (branch_op == `OR1200_BRANCHOP_RFE) | flag_we | cy_we;
-assign pc_we = (write_spr && (npc_sel | ppc_sel));
-assign epcr_we = (write_spr && epcr_sel);
-assign eear_we = (write_spr && eear_sel);
-assign esr_we = (write_spr && esr_sel);
-`ifdef OR1200_FPU_IMPLEMENTED
-assign fpcsr_we = (write_spr && fpcsr_sel);
-`endif
-
-//
-// Output from system SPRs
-//
-assign sys_data = (spr_dat_cfgr & {32{read_spr & cfgr_sel}}) |
- (spr_dat_rf & {32{read_spr & rf_sel}}) |
- (spr_dat_npc & {32{read_spr & npc_sel}}) |
- (spr_dat_ppc & {32{read_spr & ppc_sel}}) |
- ({{32-`OR1200_SR_WIDTH{1'b0}},sr} & {32{read_spr & sr_sel}}) |
- (epcr & {32{read_spr & epcr_sel}}) |
- (eear & {32{read_spr & eear_sel}}) |
-`ifdef OR1200_FPU_IMPLEMENTED
- ({{32-`OR1200_FPCSR_WIDTH{1'b0}},fpcsr} & {32{read_spr & fpcsr_sel}}) |
-`endif
- ({{32-`OR1200_SR_WIDTH{1'b0}},esr} & {32{read_spr & esr_sel}});
-
-//
-// Flag alias
-//
-assign flag = sr[`OR1200_SR_F];
-
-//
-// Carry alias
-//
-assign carry = sr[`OR1200_SR_CY];
-
-//
-// Supervision register
-//
-always @(posedge clk or posedge rst)
- if (rst)
- sr_reg <= #1 {1'b1, `OR1200_SR_EPH_DEF, {`OR1200_SR_WIDTH-3{1'b0}}, 1'b1};
- else if (except_started)
- sr_reg <= #1 to_sr[`OR1200_SR_WIDTH-1:0];
- else if (sr_we)
- sr_reg <= #1 to_sr[`OR1200_SR_WIDTH-1:0];
-
-always @(posedge clk or posedge rst)
- if (rst) begin
- sr_reg_bit_eph <= #1 `OR1200_SR_EPH_DEF;
- sr_reg_bit_eph_select <= #1 1'b1;
- end
- else if (sr_reg_bit_eph_select) begin
- sr_reg_bit_eph <= #1 boot_adr_sel_i;
- sr_reg_bit_eph_select <= #1 1'b0;
- end
- else if (sr_we) begin
- sr_reg_bit_eph <= #1 to_sr[`OR1200_SR_EPH];
- end
-
-assign sr_reg_bit_eph_muxed = (sr_reg_bit_eph_select) ? boot_adr_sel_i : sr_reg_bit_eph;
-
-always @(sr_reg or sr_reg_bit_eph_muxed)
- sr = {sr_reg[`OR1200_SR_WIDTH-1], sr_reg_bit_eph_muxed, sr_reg[`OR1200_SR_WIDTH-3:0]};
-
-`ifdef verilator
- // Function to access various sprs (for Verilator). Have to hide this from
- // simulator, since functions with no inputs are not allowed in IEEE
- // 1364-2001.
-
- function [31:0] get_sr;
- // verilator public
- get_sr = sr;
- endfunction // get_sr
-
- function [31:0] get_epcr;
- // verilator public
- get_epcr = epcr;
- endfunction // get_epcr
-
- function [31:0] get_eear;
- // verilator public
- get_eear = eear;
- endfunction // get_eear
-
- function [31:0] get_esr;
- // verilator public
- get_esr = esr;
- endfunction // get_esr
-
-`endif
-
-//
-// MTSPR/MFSPR interface
-//
-always @(sprs_op or spr_addr or sys_data or spr_dat_mac or spr_dat_pic or spr_dat_pm or
-`ifdef OR1200_FPU_IMPLEMENTED
- spr_dat_fpu or
-`endif
- spr_dat_dmmu or spr_dat_immu or spr_dat_du or spr_dat_tt) begin
- case (sprs_op) // synopsys parallel_case
- `OR1200_ALUOP_MTSR : begin
- write_spr = 1'b1;
- read_spr = 1'b0;
- to_wbmux = 32'b0;
- end
- `OR1200_ALUOP_MFSR : begin
- casex (spr_addr[`OR1200_SPR_GROUP_BITS]) // synopsys parallel_case
- `OR1200_SPR_GROUP_TT:
- to_wbmux = spr_dat_tt;
- `OR1200_SPR_GROUP_PIC:
- to_wbmux = spr_dat_pic;
- `OR1200_SPR_GROUP_PM:
- to_wbmux = spr_dat_pm;
- `OR1200_SPR_GROUP_DMMU:
- to_wbmux = spr_dat_dmmu;
- `OR1200_SPR_GROUP_IMMU:
- to_wbmux = spr_dat_immu;
- `OR1200_SPR_GROUP_MAC:
- to_wbmux = spr_dat_mac;
-`ifdef OR1200_FPU_IMPLEMENTED
- `OR1200_SPR_GROUP_FPU:
- to_wbmux = spr_dat_fpu;
-`endif
-
- `OR1200_SPR_GROUP_DU:
- to_wbmux = spr_dat_du;
- `OR1200_SPR_GROUP_SYS:
- to_wbmux = sys_data;
- default:
- to_wbmux = 32'b0;
- endcase
- write_spr = 1'b0;
- read_spr = 1'b1;
- end
- default : begin
- write_spr = 1'b0;
- read_spr = 1'b0;
- to_wbmux = 32'b0;
- end
- endcase
-end
-
-endmodule
verilog/components/or1200r2/or1200_sprs.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_tt.v
===================================================================
--- verilog/components/or1200r2/or1200_tt.v (revision 185)
+++ verilog/components/or1200r2/or1200_tt.v (nonexistent)
@@ -1,226 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Tick Timer ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// TT according to OR1K architectural specification. ////
-//// ////
-//// To Do: ////
-//// None ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_tt.v,v $
-// Revision 1.5 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.4 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.3 2002/02/12 01:33:47 lampret
-// No longer using async rst as sync reset for the counter.
-//
-// Revision 1.2 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.10 2001/11/13 10:00:49 lampret
-// Fixed tick timer interrupt reporting by using TTCR[IP] bit.
-//
-// Revision 1.9 2001/11/10 03:43:57 lampret
-// Fixed exceptions.
-//
-// Revision 1.8 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.7 2001/10/14 13:12:10 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:35 igorm
-// no message
-//
-// Revision 1.2 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.1 2001/07/20 00:46:23 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_tt(
- // RISC Internal Interface
- clk, rst, du_stall,
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o,
- intr
-);
-
-//
-// RISC Internal Interface
-//
-input clk; // Clock
-input rst; // Reset
-input du_stall; // DU stall
-input spr_cs; // SPR CS
-input spr_write; // SPR Write
-input [31:0] spr_addr; // SPR Address
-input [31:0] spr_dat_i; // SPR Write Data
-output [31:0] spr_dat_o; // SPR Read Data
-output intr; // Interrupt output
-
-`ifdef OR1200_TT_IMPLEMENTED
-
-//
-// TT Mode Register bits (or no register)
-//
-`ifdef OR1200_TT_TTMR
-reg [31:0] ttmr; // TTMR bits
-`else
-wire [31:0] ttmr; // No TTMR register
-`endif
-
-//
-// TT Count Register bits (or no register)
-//
-`ifdef OR1200_TT_TTCR
-reg [31:0] ttcr; // TTCR bits
-`else
-wire [31:0] ttcr; // No TTCR register
-`endif
-
-//
-// Internal wires & regs
-//
-wire ttmr_sel; // TTMR select
-wire ttcr_sel; // TTCR select
-wire match; // Asserted when TTMR[TP]
- // is equal to TTCR[27:0]
-wire restart; // Restart counter when asserted
-wire stop; // Stop counter when asserted
-reg [31:0] spr_dat_o; // SPR data out
-
-//
-// TT registers address decoder
-//
-assign ttmr_sel = (spr_cs && (spr_addr[`OR1200_TTOFS_BITS] == `OR1200_TT_OFS_TTMR)) ? 1'b1 : 1'b0;
-assign ttcr_sel = (spr_cs && (spr_addr[`OR1200_TTOFS_BITS] == `OR1200_TT_OFS_TTCR)) ? 1'b1 : 1'b0;
-
-//
-// Write to TTMR or update of TTMR[IP] bit
-//
-`ifdef OR1200_TT_TTMR
-always @(posedge clk or posedge rst)
- if (rst)
- ttmr <= 32'b0;
- else if (ttmr_sel && spr_write)
- ttmr <= #1 spr_dat_i;
- else if (ttmr[`OR1200_TT_TTMR_IE])
- ttmr[`OR1200_TT_TTMR_IP] <= #1 ttmr[`OR1200_TT_TTMR_IP] | (match & ttmr[`OR1200_TT_TTMR_IE]);
-`else
-assign ttmr = {2'b11, 30'b0}; // TTMR[M] = 0x3
-`endif
-
-//
-// Write to or increment of TTCR
-//
-`ifdef OR1200_TT_TTCR
-always @(posedge clk or posedge rst)
- if (rst)
- ttcr <= 32'b0;
- else if (restart)
- ttcr <= #1 32'b0;
- else if (ttcr_sel && spr_write)
- ttcr <= #1 spr_dat_i;
- else if (!stop)
- ttcr <= #1 ttcr + 32'd1;
-`else
-assign ttcr = 32'b0;
-`endif
-
-//
-// Read TT registers
-//
-always @(spr_addr or ttmr or ttcr)
- case (spr_addr[`OR1200_TTOFS_BITS]) // synopsys parallel_case
-`ifdef OR1200_TT_READREGS
- `OR1200_TT_OFS_TTMR: spr_dat_o = ttmr;
-`endif
- default: spr_dat_o = ttcr;
- endcase
-
-//
-// A match when TTMR[TP] is equal to TTCR[27:0]
-//
-assign match = (ttmr[`OR1200_TT_TTMR_TP] == ttcr[27:0]) ? 1'b1 : 1'b0;
-
-//
-// Restart when match and TTMR[M]==0x1
-//
-assign restart = match && (ttmr[`OR1200_TT_TTMR_M] == 2'b01);
-
-//
-// Stop when match and TTMR[M]==0x2 or when TTMR[M]==0x0 or when RISC is stalled by debug unit
-//
-assign stop = match & (ttmr[`OR1200_TT_TTMR_M] == 2'b10) | (ttmr[`OR1200_TT_TTMR_M] == 2'b00) | du_stall;
-
-//
-// Generate an interrupt request
-//
-assign intr = ttmr[`OR1200_TT_TTMR_IP];
-
-`else
-
-//
-// When TT is not implemented, drive all outputs as would when TT is disabled
-//
-assign intr = 1'b0;
-
-//
-// Read TT registers
-//
-`ifdef OR1200_TT_READREGS
-assign spr_dat_o = 32'b0;
-`endif
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_tt.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_spram_64x14.v
===================================================================
--- verilog/components/or1200r2/or1200_spram_64x14.v (revision 185)
+++ verilog/components/or1200r2/or1200_spram_64x14.v (nonexistent)
@@ -1,396 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Generic Single-Port Synchronous RAM ////
-//// ////
-//// This file is part of memory library available from ////
-//// http://www.opencores.org/cvsweb.shtml/generic_memories/ ////
-//// ////
-//// Description ////
-//// This block is a wrapper with common single-port ////
-//// synchronous memory interface for different ////
-//// types of ASIC and FPGA RAMs. Beside universal memory ////
-//// interface it also provides behavioral model of generic ////
-//// single-port synchronous RAM. ////
-//// It should be used in all OPENCORES designs that want to be ////
-//// portable accross different target technologies and ////
-//// independent of target memory. ////
-//// ////
-//// Supported ASIC RAMs are: ////
-//// - Artisan Single-Port Sync RAM ////
-//// - Avant! Two-Port Sync RAM (*) ////
-//// - Virage Single-Port Sync RAM ////
-//// - Virtual Silicon Single-Port Sync RAM ////
-//// ////
-//// Supported FPGA RAMs are: ////
-//// - Xilinx Virtex RAMB16 ////
-//// - Xilinx Virtex RAMB4 ////
-//// - Altera LPM ////
-//// ////
-//// To Do: ////
-//// - xilinx rams need external tri-state logic ////
-//// - fix avant! two-port ram ////
-//// - add additional RAMs ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_spram_64x14.v,v $
-// Revision 1.9 2005/10/19 11:37:56 jcastillo
-// Added support for RAMB16 Xilinx4/Spartan3 primitives
-//
-// Revision 1.8 2004/06/08 18:15:32 lampret
-// Changed behavior of the simulation generic models
-//
-// Revision 1.7 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.3.4.1 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.3 2003/04/07 01:19:07 lampret
-// Added Altera LPM RAMs. Changed generic RAM output when OE inactive.
-//
-// Revision 1.2 2002/10/17 20:04:41 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.7 2001/11/02 18:57:14 lampret
-// Modified virtual silicon instantiations.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/09 13:39:33 lampret
-// Major clean-up.
-//
-// Revision 1.2 2001/07/30 05:38:02 lampret
-// Adding empty directories required by HDL coding guidelines
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-module or1200_spram_64x14(
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
- // Generic synchronous single-port RAM interface
- clk, rst, ce, we, oe, addr, di, doq
-);
-
-//
-// Default address and data buses width
-//
-parameter aw = 6;
-parameter dw = 14;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// Generic synchronous single-port RAM interface
-//
-input clk; // Clock
-input rst; // Reset
-input ce; // Chip enable input
-input we; // Write enable input
-input oe; // Output enable input
-input [aw-1:0] addr; // address bus inputs
-input [dw-1:0] di; // input data bus
-output [dw-1:0] doq; // output data bus
-
-//
-// Internal wires and registers
-//
-
-`ifdef OR1200_XILINX_RAMB4
-wire [1:0] unconnected;
-`else
-`ifdef OR1200_XILINX_RAMB16
-wire [1:0] unconnected;
-`endif // !OR1200_XILINX_RAMB16
-`endif // !OR1200_XILINX_RAMB4
-
-`ifdef OR1200_ARTISAN_SSP
-`else
-`ifdef OR1200_VIRTUALSILICON_SSP
-`else
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`endif
-`endif
-
-`ifdef OR1200_ARTISAN_SSP
-
-//
-// Instantiation of ASIC memory:
-//
-// Artisan Synchronous Single-Port RAM (ra1sh)
-//
-`ifdef UNUSED
-art_hssp_64x14 #(dw, 1<
verilog/components/or1200r2/or1200_spram_64x14.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/or1200r2/or1200_immu_top.v
===================================================================
--- verilog/components/or1200r2/or1200_immu_top.v (revision 185)
+++ verilog/components/or1200r2/or1200_immu_top.v (nonexistent)
@@ -1,469 +0,0 @@
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// OR1200's Instruction MMU top level ////
-//// ////
-//// This file is part of the OpenRISC 1200 project ////
-//// http://www.opencores.org/cores/or1k/ ////
-//// ////
-//// Description ////
-//// Instantiation of all IMMU blocks. ////
-//// ////
-//// To Do: ////
-//// - cache inhibit ////
-//// ////
-//// Author(s): ////
-//// - Damjan Lampret, lampret@opencores.org ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer. ////
-//// ////
-//// This source file is free software; you can redistribute it ////
-//// and/or modify it under the terms of the GNU Lesser General ////
-//// Public License as published by the Free Software Foundation; ////
-//// either version 2.1 of the License, or (at your option) any ////
-//// later version. ////
-//// ////
-//// This source is distributed in the hope that it will be ////
-//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
-//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
-//// PURPOSE. See the GNU Lesser General Public License for more ////
-//// details. ////
-//// ////
-//// You should have received a copy of the GNU Lesser General ////
-//// Public License along with this source; if not, download it ////
-//// from http://www.opencores.org/lgpl.shtml ////
-//// ////
-//////////////////////////////////////////////////////////////////////
-//
-// CVS Revision History
-//
-// $Log: or1200_immu_top.v,v $
-// Revision 1.15 2004/06/08 18:17:36 lampret
-// Non-functional changes. Coding style fixes.
-//
-// Revision 1.14 2004/04/05 08:29:57 lampret
-// Merged branch_qmem into main tree.
-//
-// Revision 1.12.4.2 2003/12/09 11:46:48 simons
-// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.
-//
-// Revision 1.12.4.1 2003/07/08 15:36:37 lampret
-// Added embedded memory QMEM.
-//
-// Revision 1.12 2003/06/06 02:54:47 lampret
-// When OR1200_NO_IMMU and OR1200_NO_IC are not both defined or undefined at the same time, results in a IC bug. Fixed.
-//
-// Revision 1.11 2002/10/17 20:04:40 lampret
-// Added BIST scan. Special VS RAMs need to be used to implement BIST.
-//
-// Revision 1.10 2002/09/16 03:08:56 lampret
-// Disabled cache inhibit atttribute.
-//
-// Revision 1.9 2002/08/18 19:54:17 lampret
-// Added store buffer.
-//
-// Revision 1.8 2002/08/14 06:23:50 lampret
-// Disabled ITLB translation when 1) doing access to ITLB SPRs or 2) crossing page. This modification was tested only with parts of IMMU test - remaining test cases needs to be run.
-//
-// Revision 1.7 2002/08/12 05:31:30 lampret
-// Delayed external access at page crossing.
-//
-// Revision 1.6 2002/03/29 15:16:56 lampret
-// Some of the warnings fixed.
-//
-// Revision 1.5 2002/02/11 04:33:17 lampret
-// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.
-//
-// Revision 1.4 2002/02/01 19:56:54 lampret
-// Fixed combinational loops.
-//
-// Revision 1.3 2002/01/28 01:16:00 lampret
-// Changed 'void' nop-ops instead of insn[0] to use insn[16]. Debug unit stalls the tick timer. Prepared new flag generation for add and and insns. Blocked DC/IC while they are turned off. Fixed I/D MMU SPRs layout except WAYs. TODO: smart IC invalidate, l.j 2 and TLB ways.
-//
-// Revision 1.2 2002/01/14 06:18:22 lampret
-// Fixed mem2reg bug in FAST implementation. Updated debug unit to work with new genpc/if.
-//
-// Revision 1.1 2002/01/03 08:16:15 lampret
-// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
-//
-// Revision 1.6 2001/10/21 17:57:16 lampret
-// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
-//
-// Revision 1.5 2001/10/14 13:12:09 lampret
-// MP3 version.
-//
-// Revision 1.1.1.1 2001/10/06 10:18:36 igorm
-// no message
-//
-// Revision 1.1 2001/08/17 08:03:35 lampret
-// *** empty log message ***
-//
-// Revision 1.2 2001/07/22 03:31:53 lampret
-// Fixed RAM's oen bug. Cache bypass under development.
-//
-// Revision 1.1 2001/07/20 00:46:03 lampret
-// Development version of RTL. Libraries are missing.
-//
-//
-
-// synopsys translate_off
-`include "timescale.v"
-// synopsys translate_on
-`include "or1200_defines.v"
-
-//
-// Insn MMU
-//
-
-module or1200_immu_top(
- // Rst and clk
- clk, rst,
-
- // CPU i/f
- ic_en, immu_en, supv, icpu_adr_i, icpu_cycstb_i,
- icpu_adr_o, icpu_tag_o, icpu_rty_o, icpu_err_o,
-
- // SR Interface
- boot_adr_sel_i,
-
- // SPR access
- spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o,
-
-`ifdef OR1200_BIST
- // RAM BIST
- mbist_si_i, mbist_so_o, mbist_ctrl_i,
-`endif
-
- // QMEM i/f
- qmemimmu_rty_i, qmemimmu_err_i, qmemimmu_tag_i, qmemimmu_adr_o, qmemimmu_cycstb_o, qmemimmu_ci_o
-);
-
-parameter dw = `OR1200_OPERAND_WIDTH;
-parameter aw = `OR1200_OPERAND_WIDTH;
-
-//
-// I/O
-//
-
-//
-// Clock and reset
-//
-input clk;
-input rst;
-
-//
-// CPU I/F
-//
-input ic_en;
-input immu_en;
-input supv;
-input [aw-1:0] icpu_adr_i;
-input icpu_cycstb_i;
-output [aw-1:0] icpu_adr_o;
-output [3:0] icpu_tag_o;
-output icpu_rty_o;
-output icpu_err_o;
-
-//
-// SR Interface
-//
-input boot_adr_sel_i;
-
-//
-// SPR access
-//
-input spr_cs;
-input spr_write;
-input [aw-1:0] spr_addr;
-input [31:0] spr_dat_i;
-output [31:0] spr_dat_o;
-
-`ifdef OR1200_BIST
-//
-// RAM BIST
-//
-input mbist_si_i;
-input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
-output mbist_so_o;
-`endif
-
-//
-// IC I/F
-//
-input qmemimmu_rty_i;
-input qmemimmu_err_i;
-input [3:0] qmemimmu_tag_i;
-output [aw-1:0] qmemimmu_adr_o;
-output qmemimmu_cycstb_o;
-output qmemimmu_ci_o;
-
-//
-// Internal wires and regs
-//
-wire itlb_spr_access;
-wire [31:`OR1200_IMMU_PS] itlb_ppn;
-wire itlb_hit;
-wire itlb_uxe;
-wire itlb_sxe;
-wire [31:0] itlb_dat_o;
-wire itlb_en;
-wire itlb_ci;
-wire itlb_done;
-wire fault;
-wire miss;
-wire page_cross;
-reg [31:0] icpu_adr_default;
-wire [31:0] icpu_adr_boot;
-reg icpu_adr_select;
-reg [31:0] icpu_adr_o;
-reg [31:`OR1200_IMMU_PS] icpu_vpn_r;
-`ifdef OR1200_NO_IMMU
-`else
-reg itlb_en_r;
-reg dis_spr_access_frst_clk;
-reg dis_spr_access_scnd_clk;
-`endif
-
-//
-// Implemented bits inside match and translate registers
-//
-// itlbwYmrX: vpn 31-10 v 0
-// itlbwYtrX: ppn 31-10 uxe 7 sxe 6
-//
-// itlb memory width:
-// 19 bits for ppn
-// 13 bits for vpn
-// 1 bit for valid
-// 2 bits for protection
-// 1 bit for cache inhibit
-
-//
-// icpu_adr_o
-//
-`ifdef OR1200_REGISTERED_OUTPUTS
-always @(posedge rst or posedge clk)
- if (rst) begin
- icpu_adr_default <= #1 32'h0000_0100;
- icpu_adr_select <= #1 1'b1;
- end
- else if (icpu_adr_select) begin
- icpu_adr_default <= #1 icpu_adr_boot;
- icpu_adr_select <= #1 1'b0;
- end
- else begin
- icpu_adr_default <= #1 icpu_adr_i;
- end
-
-assign icpu_adr_boot = {(boot_adr_sel_i ? `OR1200_EXCEPT_EPH1_P : `OR1200_EXCEPT_EPH0_P), 12'h100} ;
-
-always @(icpu_adr_boot or icpu_adr_default or icpu_adr_select)
- if (icpu_adr_select)
- icpu_adr_o = icpu_adr_boot ;
- else
- icpu_adr_o = icpu_adr_default ;
-`else
-Unsupported !!!
-`endif
-
-//
-// Page cross
-//
-// Asserted when CPU address crosses page boundary. Most of the time it is zero.
-//
-assign page_cross = icpu_adr_i[31:`OR1200_IMMU_PS] != icpu_vpn_r;
-
-//
-// Register icpu_adr_i's VPN for use when IMMU is not enabled but PPN is expected to come
-// one clock cycle after offset part.
-//
-always @(posedge clk or posedge rst)
- if (rst)
- icpu_vpn_r <= #1 {32-`OR1200_IMMU_PS{1'b0}};
- else
- icpu_vpn_r <= #1 icpu_adr_i[31:`OR1200_IMMU_PS];
-
-`ifdef OR1200_NO_IMMU
-
-//
-// Put all outputs in inactive state
-//
-assign spr_dat_o = 32'h00000000;
-assign qmemimmu_adr_o = icpu_adr_i;
-assign icpu_tag_o = qmemimmu_tag_i;
-assign qmemimmu_cycstb_o = icpu_cycstb_i & ~page_cross;
-assign icpu_rty_o = qmemimmu_rty_i;
-assign icpu_err_o = qmemimmu_err_i;
-assign qmemimmu_ci_o = `OR1200_IMMU_CI;
-`ifdef OR1200_BIST
-assign mbist_so_o = mbist_si_i;
-`endif
-`else
-
-//
-// ITLB SPR access
-//
-// 1200 - 12FF itlbmr w0
-// 1200 - 123F itlbmr w0 [63:0]
-//
-// 1300 - 13FF itlbtr w0
-// 1300 - 133F itlbtr w0 [63:0]
-//
-assign itlb_spr_access = spr_cs & ~dis_spr_access_scnd_clk;
-
-//
-// Disable ITLB SPR access
-//
-// This flops are used to mask ITLB miss/fault exception
-// during first & second clock cycles of accessing ITLB SPR. In
-// subsequent clock cycles it is assumed that ITLB SPR
-// access was accomplished and that normal instruction fetching
-// can proceed.
-//
-// spr_cs sets dis_spr_access_frst_clk and icpu_rty_o clears it.
-// dis_spr_access_frst_clk sets dis_spr_access_scnd_clk and
-// icpu_rty_o clears it.
-//
-always @(posedge clk or posedge rst)
- if (rst)
- dis_spr_access_frst_clk <= #1 1'b0;
- else if (!icpu_rty_o)
- dis_spr_access_frst_clk <= #1 1'b0;
- else if (spr_cs)
- dis_spr_access_frst_clk <= #1 1'b1;
-
-always @(posedge clk or posedge rst)
- if (rst)
- dis_spr_access_scnd_clk <= #1 1'b0;
- else if (!icpu_rty_o)
- dis_spr_access_scnd_clk <= #1 1'b0;
- else if (dis_spr_access_frst_clk)
- dis_spr_access_scnd_clk <= #1 1'b1;
-
-//
-// Tags:
-//
-// OR1200_DTAG_TE - TLB miss Exception
-// OR1200_DTAG_PE - Page fault Exception
-//
-assign icpu_tag_o = miss ? `OR1200_DTAG_TE : fault ? `OR1200_DTAG_PE : qmemimmu_tag_i;
-
-//
-// icpu_rty_o
-//
-// assign icpu_rty_o = !icpu_err_o & qmemimmu_rty_i;
-assign icpu_rty_o = qmemimmu_rty_i | itlb_spr_access & immu_en;
-
-//
-// icpu_err_o
-//
-assign icpu_err_o = miss | fault | qmemimmu_err_i;
-
-//
-// Assert itlb_en_r after one clock cycle and when there is no
-// ITLB SPR access
-//
-always @(posedge clk or posedge rst)
- if (rst)
- itlb_en_r <= #1 1'b0;
- else
- itlb_en_r <= #1 itlb_en & ~itlb_spr_access;
-
-//
-// ITLB lookup successful
-//
-assign itlb_done = itlb_en_r & ~page_cross;
-
-//
-// Cut transfer if something goes wrong with translation. If IC is disabled,
-// use delayed signals.
-//
-// assign qmemimmu_cycstb_o = (!ic_en & immu_en) ? ~(miss | fault) & icpu_cycstb_i & ~page_cross : (miss | fault) ? 1'b0 : icpu_cycstb_i & ~page_cross; // DL
-assign qmemimmu_cycstb_o = immu_en ? ~(miss | fault) & icpu_cycstb_i & ~page_cross & itlb_done : icpu_cycstb_i & ~page_cross;
-
-//
-// Cache Inhibit
-//
-// Cache inhibit is not really needed for instruction memory subsystem.
-// If we would doq it, we would doq it like this.
-// assign qmemimmu_ci_o = immu_en ? itlb_done & itlb_ci : `OR1200_IMMU_CI;
-// However this causes a async combinational loop so we stick to
-// no cache inhibit.
-assign qmemimmu_ci_o = `OR1200_IMMU_CI;
-
-
-//
-// Physical address is either translated virtual address or
-// simply equal when IMMU is disabled
-//
-assign qmemimmu_adr_o = itlb_done ? {itlb_ppn, icpu_adr_i[`OR1200_IMMU_PS-1:0]} : {icpu_vpn_r, icpu_adr_i[`OR1200_IMMU_PS-1:0]}; // DL: immu_en
-
-reg [31:0] spr_dat_o;
-//
-// Output to SPRS unit
-//
-//always @(posedge clk `OR1200_RST_EVENT)
-// if (rst == `OR1200_RST_ACT)
- always @ (posedge clk or posedge rst)
- if (rst)
- spr_dat_o <= #1 32'h0000_0000;
- else if (spr_cs & !dis_spr_access_scnd_clk)
- spr_dat_o <= #1 itlb_dat_o;
-
-//
-// Page fault exception logic
-//
-assign fault = itlb_done &
- ( (!supv & !itlb_uxe) // Execute in user mode not enabled
- || (supv & !itlb_sxe)); // Execute in supv mode not enabled
-
-//
-// TLB Miss exception logic
-//
-assign miss = itlb_done & !itlb_hit;
-
-//
-// ITLB Enable
-//
-assign itlb_en = immu_en & icpu_cycstb_i;
-
-//
-// Instantiation of ITLB
-//
-or1200_immu_tlb or1200_immu_tlb(
- // Rst and clk
- .clk(clk),
- .rst(rst),
-
- // I/F for translation
- .tlb_en(itlb_en),
- .vaddr(icpu_adr_i),
- .hit(itlb_hit),
- .ppn(itlb_ppn),
- .uxe(itlb_uxe),
- .sxe(itlb_sxe),
- .ci(itlb_ci),
-
-`ifdef OR1200_BIST
- // RAM BIST
- .mbist_si_i(mbist_si_i),
- .mbist_so_o(mbist_so_o),
- .mbist_ctrl_i(mbist_ctrl_i),
-`endif
-
- // SPR access
- .spr_cs(itlb_spr_access),
- .spr_write(spr_write),
- .spr_addr(spr_addr),
- .spr_dat_i(spr_dat_i),
- .spr_dat_o(itlb_dat_o)
-);
-
-`endif
-
-endmodule
verilog/components/or1200r2/or1200_immu_top.v
Property changes :
Deleted: svn:executable
## -1 +0,0 ##
-*
\ No newline at end of property
Index: verilog/components/fpu/add_sub27.v
===================================================================
--- verilog/components/fpu/add_sub27.v (revision 185)
+++ verilog/components/fpu/add_sub27.v (nonexistent)
@@ -1,54 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Primitives ////
-//// FPU Primitives ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-
-`timescale 1ns / 100ps
-
-
-////////////////////////////////////////////////////////////////////////
-//
-// Add/Sub
-//
-
-module add_sub27(add, opa, opb, sum, co);
-input add;
-input [26:0] opa, opb;
-output [26:0] sum;
-output co;
-
-
-
-assign {co, sum} = add ? (opa + opb) : (opa - opb);
-
-endmodule
Index: verilog/components/fpu/fpu.v
===================================================================
--- verilog/components/fpu/fpu.v (revision 185)
+++ verilog/components/fpu/fpu.v (nonexistent)
@@ -1,539 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// FPU ////
-//// Floating Point Unit (Single precision) ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-`timescale 1ns / 100ps
-
-/*
-
-FPU Operations (fpu_op):
-========================
-
-0 = add
-1 = sub
-2 = mul
-3 = div
-4 =
-5 =
-6 =
-7 =
-
-Rounding Modes (rmode):
-=======================
-
-0 = round_nearest_even
-1 = round_to_zero
-2 = round_up
-3 = round_down
-
-*/
-`define INPUT_ENABLES
-
-module fpu( clk, rmode, fpu_op, opa, opb,
-`ifdef INPUT_ENABLES
-latch_operand, latch_op,
-`endif
-out, inf, snan, qnan, ine, overflow, underflow, zero, div_by_zero);
-
-input clk;
-input [1:0] rmode;
-input [2:0] fpu_op;
-input [31:0] opa, opb;
-`ifdef INPUT_ENABLES
-input latch_operand;
-input latch_op;
-`endif
-output [31:0] out;
-output inf, snan, qnan;
-output ine;
-output overflow, underflow;
-output zero;
-output div_by_zero;
-
-parameter INF = 31'h7f800000,
- QNAN = 31'h7fc00001,
- SNAN = 31'h7f800001;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Local Wires
-//
-reg zero;
-reg [31:0] opa_r, opb_r; // Input operand registers
-reg [31:0] out; // Output register
-reg div_by_zero; // Divide by zero output register
-wire signa, signb; // alias to opX sign
-wire sign_fasu; // sign output
-wire [26:0] fracta, fractb; // Fraction Outputs from EQU block
-wire [7:0] exp_fasu; // Exponent output from EQU block
-reg [7:0] exp_r; // Exponent output (registerd)
-wire [26:0] fract_out_d; // fraction output
-wire co; // carry output
-reg [27:0] fract_out_q; // fraction output (registerd)
-wire [30:0] out_d; // Intermediate final result output
-wire overflow_d, underflow_d;// Overflow/Underflow Indicators
-reg overflow, underflow; // Output registers for Overflow & Underflow
-reg inf, snan, qnan; // Output Registers for INF, SNAN and QNAN
-reg ine; // Output Registers for INE
-reg [1:0] rmode_r1, rmode_r2, // Pipeline registers for rounding mode
- rmode_r3;
-reg [2:0] fpu_op_r1, fpu_op_r2, // Pipeline registers for fp opration
- fpu_op_r3;
-wire mul_inf, div_inf;
-wire mul_00, div_00;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Input Registers
-//
-
-always @(posedge clk)
-`ifdef INPUT_ENABLES
- if (latch_operand)
-`endif
- opa_r <= #1 opa;
-
-always @(posedge clk)
-`ifdef INPUT_ENABLES
- if (latch_operand)
-`endif
- opb_r <= #1 opb;
-
-always @(posedge clk)
- rmode_r1 <= #1 rmode;
-
-always @(posedge clk)
- rmode_r2 <= #1 rmode_r1;
-
-always @(posedge clk)
- rmode_r3 <= #1 rmode_r2;
-
-always @(posedge clk)
-`ifdef INPUT_ENABLES
- if (latch_op)
-`endif
- fpu_op_r1 <= #1 fpu_op;
-
-always @(posedge clk)
- fpu_op_r2 <= #1 fpu_op_r1;
-
-always @(posedge clk)
- fpu_op_r3 <= #1 fpu_op_r2;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Exceptions block
-//
-wire inf_d, ind_d, qnan_d, snan_d, opa_nan, opb_nan;
-wire opa_00, opb_00;
-wire opa_inf, opb_inf;
-wire opa_dn, opb_dn;
-
-except u0( .clk(clk),
- .opa(opa_r), .opb(opb_r),
- .inf(inf_d), .ind(ind_d),
- .qnan(qnan_d), .snan(snan_d),
- .opa_nan(opa_nan), .opb_nan(opb_nan),
- .opa_00(opa_00), .opb_00(opb_00),
- .opa_inf(opa_inf), .opb_inf(opb_inf),
- .opa_dn(opa_dn), .opb_dn(opb_dn)
- );
-
-////////////////////////////////////////////////////////////////////////
-//
-// Pre-Normalize block
-// - Adjusts the numbers to equal exponents and sorts them
-// - determine result sign
-// - determine actual operation to perform (add or sub)
-//
-
-wire nan_sign_d, result_zero_sign_d;
-reg sign_fasu_r;
-wire [7:0] exp_mul;
-wire sign_mul;
-reg sign_mul_r;
-wire [23:0] fracta_mul, fractb_mul;
-wire inf_mul;
-reg inf_mul_r;
-wire [1:0] exp_ovf;
-reg [1:0] exp_ovf_r;
-wire sign_exe;
-reg sign_exe_r;
-wire [2:0] underflow_fmul_d;
-
-
-pre_norm u1(.clk(clk), // System Clock
- .rmode(rmode_r2), // Roundin Mode
- .add(!fpu_op_r1[0]), // Add/Sub Input
- .opa(opa_r), .opb(opb_r), // Registered OP Inputs
- .opa_nan(opa_nan), // OpA is a NAN indicator
- .opb_nan(opb_nan), // OpB is a NAN indicator
- .fracta_out(fracta), // Equalized and sorted fraction
- .fractb_out(fractb), // outputs (Registered)
- .exp_dn_out(exp_fasu), // Selected exponent output (registered);
- .sign(sign_fasu), // Encoded output Sign (registered)
- .nan_sign(nan_sign_d), // Output Sign for NANs (registered)
- .result_zero_sign(result_zero_sign_d), // Output Sign for zero result (registered)
- .fasu_op(fasu_op) // Actual fasu operation output (registered)
- );
-
-always @(posedge clk)
- sign_fasu_r <= #1 sign_fasu;
-
-pre_norm_fmul u2(
- .clk(clk),
- .fpu_op(fpu_op_r1),
- .opa(opa_r), .opb(opb_r),
- .fracta(fracta_mul),
- .fractb(fractb_mul),
- .exp_out(exp_mul), // FMUL exponent output (registered)
- .sign(sign_mul), // FMUL sign output (registered)
- .sign_exe(sign_exe), // FMUL exception sign output (registered)
- .inf(inf_mul), // FMUL inf output (registered)
- .exp_ovf(exp_ovf), // FMUL exponnent overflow output (registered)
- .underflow(underflow_fmul_d)
- );
-
-
-always @(posedge clk)
- sign_mul_r <= #1 sign_mul;
-
-always @(posedge clk)
- sign_exe_r <= #1 sign_exe;
-
-always @(posedge clk)
- inf_mul_r <= #1 inf_mul;
-
-always @(posedge clk)
- exp_ovf_r <= #1 exp_ovf;
-
-
-////////////////////////////////////////////////////////////////////////
-//
-// Add/Sub
-//
-
-add_sub27 u3(
- .add(fasu_op), // Add/Sub
- .opa(fracta), // Fraction A input
- .opb(fractb), // Fraction B Input
- .sum(fract_out_d), // SUM output
- .co(co_d) ); // Carry Output
-
-always @(posedge clk)
- fract_out_q <= #1 {co_d, fract_out_d};
-
-////////////////////////////////////////////////////////////////////////
-//
-// Mul
-//
-wire [47:0] prod;
-
-mul_r2 u5(.clk(clk), .opa(fracta_mul), .opb(fractb_mul), .prod(prod));
-
-////////////////////////////////////////////////////////////////////////
-//
-// Divide
-//
-wire [49:0] quo;
-wire [49:0] fdiv_opa;
-wire [49:0] remainder;
-wire remainder_00;
-reg [4:0] div_opa_ldz_d, div_opa_ldz_r1, div_opa_ldz_r2;
-
-always @(fracta_mul)
- casex(fracta_mul[22:0])
- 23'b1??????????????????????: div_opa_ldz_d = 1;
- 23'b01?????????????????????: div_opa_ldz_d = 2;
- 23'b001????????????????????: div_opa_ldz_d = 3;
- 23'b0001???????????????????: div_opa_ldz_d = 4;
- 23'b00001??????????????????: div_opa_ldz_d = 5;
- 23'b000001?????????????????: div_opa_ldz_d = 6;
- 23'b0000001????????????????: div_opa_ldz_d = 7;
- 23'b00000001???????????????: div_opa_ldz_d = 8;
- 23'b000000001??????????????: div_opa_ldz_d = 9;
- 23'b0000000001?????????????: div_opa_ldz_d = 10;
- 23'b00000000001????????????: div_opa_ldz_d = 11;
- 23'b000000000001???????????: div_opa_ldz_d = 12;
- 23'b0000000000001??????????: div_opa_ldz_d = 13;
- 23'b00000000000001?????????: div_opa_ldz_d = 14;
- 23'b000000000000001????????: div_opa_ldz_d = 15;
- 23'b0000000000000001???????: div_opa_ldz_d = 16;
- 23'b00000000000000001??????: div_opa_ldz_d = 17;
- 23'b000000000000000001?????: div_opa_ldz_d = 18;
- 23'b0000000000000000001????: div_opa_ldz_d = 19;
- 23'b00000000000000000001???: div_opa_ldz_d = 20;
- 23'b000000000000000000001??: div_opa_ldz_d = 21;
- 23'b0000000000000000000001?: div_opa_ldz_d = 22;
- 23'b0000000000000000000000?: div_opa_ldz_d = 23;
- endcase
-
-assign fdiv_opa = !(|opa_r[30:23]) ? {(fracta_mul<f2i_emax)) | (opas & (exp_inf2i_emax)) | (opas & (exp_in8'h16);
-
-assign f2i_shft = exp_in-8'h7d;
-
-// Select shifting direction
-assign left_right = op_div ? lr_div : op_mul ? lr_mul : 1;
-
-assign lr_div = (op_dn & !exp_ovf[1] & exp_ovf[0]) ? 1 :
- (op_dn & exp_ovf[1]) ? 0 :
- (op_dn & div_shft1_co) ? 0 :
- (op_dn & exp_out_00) ? 1 :
- (!op_dn & exp_out_00 & !exp_ovf[1]) ? 1 :
- exp_ovf[1] ? 0 :
- 1;
-assign lr_mul = (shft_co | (!exp_ovf[1] & exp_in_00) |
- (!exp_ovf[1] & !exp_in_00 & (exp_out1_co | exp_out_00) )) ? 1 :
- ( exp_ovf[1] | exp_in_00 ) ? 0 :
- 1;
-
-// Select Left and Right shift value
-assign fasu_shift = (dn | exp_out_00) ? (exp_in_00 ? 8'h2 : exp_in_pl1[7:0]) : {2'h0, fi_ldz};
-assign shift_right = op_div ? shftr_div : shftr_mul;
-
-assign conv_shft = op_f2i ? f2i_shft : {2'h0, fi_ldz};
-
-assign shift_left = op_div ? shftl_div : op_mul ? shftl_mul : (op_f2i | op_i2f) ? conv_shft : fasu_shift;
-
-assign shftl_mul = (shft_co |
- (!exp_ovf[1] & exp_in_00) |
- (!exp_ovf[1] & !exp_in_00 & (exp_out1_co | exp_out_00))) ? exp_in_pl1[7:0] : {2'h0, fi_ldz};
-
-assign shftl_div = ( op_dn & exp_out_00 & !(!exp_ovf[1] & exp_ovf[0])) ? div_shft1[7:0] :
- (!op_dn & exp_out_00 & !exp_ovf[1]) ? exp_in[7:0] :
- {2'h0, fi_ldz};
-assign shftr_div = (op_dn & exp_ovf[1]) ? div_shft3 :
- (op_dn & div_shft1_co) ? div_shft4 :
- div_shft2;
-// Do the actual shifting
-assign fract_in_shftr = (|shift_right[7:6]) ? 0 : fract_in>>shift_right[5:0];
-assign fract_in_shftl = (|shift_left[7:6] | (f2i_zero & op_f2i)) ? 0 : fract_in<f2i_emax) ? 0 : opas) :
- ((exp_inf2i_emax) ? 1 : opas);
-
-assign exp_i2f = fract_in_00 ? (opas ? 8'h9e : 0) : (8'h9e-fi_ldz);
-assign exp_f2i_1 = {{8{fract_in[47]}}, fract_in }<9'hfe) )) ? div_exp2 :
- (opa_dn | (exp_in_00 & !exp_ovf[1]) ) ? 0 :
- exp_out1_mi1;
-
-assign div_inf = opb_dn & !opa_dn & (div_exp1[7:0] < 8'h7f);
-
-// ---------------------------------------------------------------------
-// Round
-
-// Extract rounding (GRS) bits
-assign grs_sel_div = op_div & (exp_ovf[1] | div_dn | exp_out1_co | exp_out_00);
-
-assign g = grs_sel_div ? fract_out[0] : fract_out[0];
-assign r = grs_sel_div ? (fract_trunc[24] & !div_nr) : fract_trunc[24];
-assign s = grs_sel_div ? |fract_trunc[24:0] : (|fract_trunc[23:0] | (fract_trunc[24] & op_div));
-
-// Round to nearest even
-assign round = (g & r) | (r & s) ;
-assign {exp_rnd_adj0, fract_out_rnd0} = round ? fract_out_pl1 : {1'b0, fract_out};
-assign exp_out_rnd0 = exp_rnd_adj0 ? exp_out_pl1 : exp_out;
-assign ovf0 = exp_out_final_ff & !rmode_01 & !op_f2i;
-
-// round to zero
-assign fract_out_rnd1 = (exp_out_ff & !op_div & !dn & !op_f2i) ? 23'h7fffff : fract_out;
-assign exp_fix_div = (fi_ldz>22) ? exp_fix_diva : exp_fix_divb;
-assign exp_out_rnd1 = (g & r & s & exp_in_ff) ? (op_div ? exp_fix_div : exp_next_mi[7:0]) :
- (exp_out_ff & !op_f2i) ? exp_in : exp_out;
-assign ovf1 = exp_out_ff & !dn;
-
-// round to +inf (UP) and -inf (DOWN)
-assign r_sign = sign;
-
-assign round2a = !exp_out_fe | !fract_out_7fffff | (exp_out_fe & fract_out_7fffff);
-assign round2_fasu = ((r | s) & !r_sign) & (!exp_out[7] | (exp_out[7] & round2a));
-
- assign round2_fmul = !r_sign &
- (
- (exp_ovf[1] & !fract_in_00 &
- ( ((!exp_out1_co | op_dn) & (r | s | (!rem_00 & op_div) )) | fract_out_00 | (!op_dn & !op_div))
- ) |
- (
- (r | s | (!rem_00 & op_div)) & (
- (!exp_ovf[1] & (exp_in_80 | !exp_ovf[0])) | op_div |
- ( exp_ovf[1] & !exp_ovf[0] & exp_out1_co)
- )
- )
- );
-
-assign round2_f2i = rmode_10 & (( |fract_in[23:0] & !opas & (exp_in<8'h80 )) | (|fract_trunc));
-assign round2 = (op_mul | op_div) ? round2_fmul : op_f2i ? round2_f2i : round2_fasu;
-
-assign {exp_rnd_adj2a, fract_out_rnd2a} = round2 ? fract_out_pl1 : {1'b0, fract_out};
-assign exp_out_rnd2a = exp_rnd_adj2a ? ((exp_ovf[1] & op_mul) ? exp_out_mi1 : exp_out_pl1) : exp_out;
-
-assign fract_out_rnd2 = (r_sign & exp_out_ff & !op_div & !dn & !op_f2i) ? 23'h7fffff : fract_out_rnd2a;
-assign exp_out_rnd2 = (r_sign & exp_out_ff & !op_f2i) ? 8'hfe : exp_out_rnd2a;
-
-
-// Choose rounding mode
-always @(rmode or exp_out_rnd0 or exp_out_rnd1 or exp_out_rnd2)
- case(rmode) // synopsys full_case parallel_case
- 0: exp_out_rnd = exp_out_rnd0;
- 1: exp_out_rnd = exp_out_rnd1;
- 2,3: exp_out_rnd = exp_out_rnd2;
- endcase
-
-always @(rmode or fract_out_rnd0 or fract_out_rnd1 or fract_out_rnd2)
- case(rmode) // synopsys full_case parallel_case
- 0: fract_out_rnd = fract_out_rnd0;
- 1: fract_out_rnd = fract_out_rnd1;
- 2,3: fract_out_rnd = fract_out_rnd2;
- endcase
-
-// ---------------------------------------------------------------------
-// Final Output Mux
-// Fix Output for denormalized and special numbers
-wire max_num, inf_out;
-
- assign max_num = ( !rmode_00 & (op_mul | op_div ) & (
- ( exp_ovf[1] & exp_ovf[0]) |
- (!exp_ovf[1] & !exp_ovf[0] & exp_in_ff & (fi_ldz_2<24) & (exp_out!=8'hfe) )
- )
- ) |
-
- ( op_div & (
- ( rmode_01 & ( div_inf |
- (exp_out_ff & !exp_ovf[1] ) |
- (exp_ovf[1] & exp_ovf[0] )
- )
- ) |
-
- ( rmode[1] & !exp_ovf[1] & (
- ( exp_ovf[0] & exp_in_ff & r_sign & fract_in[47]
- ) |
-
- ( r_sign & (
- (fract_in[47] & div_inf) |
- (exp_in[7] & !exp_out_rnd[7] & !exp_in_80 & exp_out!=8'h7f ) |
- (exp_in[7] & exp_out_rnd[7] & r_sign & exp_out_ff & op_dn &
- div_exp1>9'h0fe )
- )
- ) |
-
- ( exp_in_00 & r_sign & (
- div_inf |
- (r_sign & exp_out_ff & fi_ldz_2<24)
- )
- )
- )
- )
- )
- );
-
-
-assign inf_out = (rmode[1] & (op_mul | op_div) & !r_sign & ( (exp_in_ff & !op_div) |
- (exp_ovf[1] & exp_ovf[0] & (exp_in_00 | exp_in[7]) )
- )
- ) | (div_inf & op_div & (
- rmode_00 |
- (rmode[1] & !exp_in_ff & !exp_ovf[1] & !exp_ovf[0] & !r_sign ) |
- (rmode[1] & !exp_ovf[1] & exp_ovf[0] & exp_in_00 & !r_sign)
- )
- ) | (op_div & rmode[1] & exp_in_ff & op_dn & !r_sign & (fi_ldz_2 < 24) & (exp_out_rnd!=8'hfe) );
-
-assign fract_out_final = (inf_out | ovf0 | output_zero ) ? 23'h0 :
- (max_num | (f2i_max & op_f2i) ) ? 23'h7fffff :
- fract_out_rnd;
-
-assign exp_out_final = ((op_div & exp_ovf[1] & !exp_ovf[0]) | output_zero ) ? 8'h00 :
- ((op_div & exp_ovf[1] & exp_ovf[0] & rmode_00) | inf_out | (f2i_max & op_f2i) ) ? 8'hff :
- max_num ? 8'hfe :
- exp_out_rnd;
-
-
-// ---------------------------------------------------------------------
-// Pack Result
-
-assign out = {exp_out_final, fract_out_final};
-
-// ---------------------------------------------------------------------
-// Exceptions
-wire underflow_fmul;
-wire overflow_fdiv;
-wire undeflow_div;
-
-wire z = shft_co | ( exp_ovf[1] | exp_in_00) |
- (!exp_ovf[1] & !exp_in_00 & (exp_out1_co | exp_out_00));
-
-assign underflow_fmul = ( (|fract_trunc) & z & !exp_in_ff ) |
- (fract_out_00 & !fract_in_00 & exp_ovf[1]);
-
-assign undeflow_div = !(exp_ovf[1] & exp_ovf[0] & rmode_00) & !inf_out & !max_num & exp_out_final!=8'hff & (
-
- ((|fract_trunc) & !opb_dn & (
- ( op_dn & !exp_ovf[1] & exp_ovf[0]) |
- ( op_dn & exp_ovf[1]) |
- ( op_dn & div_shft1_co) |
- exp_out_00 |
- exp_ovf[1]
- )
-
- ) |
-
- ( exp_ovf[1] & !exp_ovf[0] & (
- ( op_dn & exp_in>8'h16 & fi_ldz<23) |
- ( op_dn & exp_in<23 & fi_ldz<23 & !rem_00) |
- ( !op_dn & (exp_in[7]==exp_div[7]) & !rem_00) |
- ( !op_dn & exp_in_00 & (exp_div[7:1]==7'h7f) ) |
- ( !op_dn & exp_in<8'h7f & exp_in>8'h20 )
- )
- ) |
-
- (!exp_ovf[1] & !exp_ovf[0] & (
- ( op_dn & fi_ldz<23 & exp_out_00) |
- ( exp_in_00 & !rem_00) |
- ( !op_dn & ldz_all<23 & exp_in==1 & exp_out_00 & !rem_00)
- )
- )
-
- );
-
-assign underflow = op_div ? undeflow_div : op_mul ? underflow_fmul : (!fract_in[47] & exp_out1_co) & !dn;
-
-assign overflow_fdiv = inf_out |
- (!rmode_00 & max_num) |
- (exp_in[7] & op_dn & exp_out_ff) |
- (exp_ovf[0] & (exp_ovf[1] | exp_out_ff) );
-
-assign overflow = op_div ? overflow_fdiv : (ovf0 | ovf1);
-
-wire f2i_ine;
-
-assign f2i_ine = (f2i_zero & !fract_in_00 & !opas) |
- (|fract_trunc) |
- (f2i_zero & (exp_in<8'h80) & opas & !fract_in_00) |
- (f2i_max & rmode_11 & (exp_in<8'h80));
-
-
-
-assign ine = op_f2i ? f2i_ine :
- op_i2f ? (|fract_trunc) :
- ((r & !dn) | (s & !dn) | max_num | (op_div & !rem_00));
-
-
-endmodule
-
-
-
-module delay1(clk, in, out);
-parameter N = 1;
-input [N:0] in;
-output [N:0] out;
-input clk;
-
-reg [N:0] out;
-
-always @(posedge clk)
- out <= #1 in;
-
-endmodule
-
-
-module delay2(clk, in, out);
-parameter N = 1;
-input [N:0] in;
-output [N:0] out;
-input clk;
-
-reg [N:0] out, r1;
-
-always @(posedge clk)
- r1 <= #1 in;
-
-always @(posedge clk)
- out <= #1 r1;
-
-endmodule
-
-module delay3(clk, in, out);
-parameter N = 1;
-input [N:0] in;
-output [N:0] out;
-input clk;
-
-reg [N:0] out, r1, r2;
-
-always @(posedge clk)
- r1 <= #1 in;
-
-always @(posedge clk)
- r2 <= #1 r1;
-
-always @(posedge clk)
- out <= #1 r2;
-
-endmodule
-
Index: verilog/components/fpu/mul_r2.v
===================================================================
--- verilog/components/fpu/mul_r2.v (revision 185)
+++ verilog/components/fpu/mul_r2.v (nonexistent)
@@ -1,56 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Primitives ////
-//// FPU Primitives ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-
-`timescale 1ns / 100ps
-
-////////////////////////////////////////////////////////////////////////
-//
-// Multiply
-//
-
-module mul_r2(clk, opa, opb, prod);
-input clk;
-input [23:0] opa, opb;
-output [47:0] prod;
-
-reg [47:0] prod1, prod;
-
-always @(posedge clk)
- prod1 <= #1 opa * opb;
-
-always @(posedge clk)
- prod <= #1 prod1;
-
-endmodule
Index: verilog/components/fpu/pre_norm.v
===================================================================
--- verilog/components/fpu/pre_norm.v (revision 185)
+++ verilog/components/fpu/pre_norm.v (nonexistent)
@@ -1,270 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Pre Normalize ////
-//// Pre Normalization Unit for Add/Sub Operations ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-`timescale 1ns / 100ps
-
-
-module pre_norm(clk, rmode, add, opa, opb, opa_nan, opb_nan, fracta_out,
- fractb_out, exp_dn_out, sign, nan_sign, result_zero_sign,
- fasu_op);
-input clk;
-input [1:0] rmode;
-input add;
-input [31:0] opa, opb;
-input opa_nan, opb_nan;
-output [26:0] fracta_out, fractb_out;
-output [7:0] exp_dn_out;
-output sign;
-output nan_sign, result_zero_sign;
-output fasu_op; // Operation Output
-
-////////////////////////////////////////////////////////////////////////
-//
-// Local Wires and registers
-//
-
-wire signa, signb; // alias to opX sign
-wire [7:0] expa, expb; // alias to opX exponent
-wire [22:0] fracta, fractb; // alias to opX fraction
-wire expa_lt_expb; // expa is larger than expb indicator
-wire fractb_lt_fracta; // fractb is larger than fracta indicator
-reg [7:0] exp_dn_out; // de normalized exponent output
-wire [7:0] exp_small, exp_large;
-wire [7:0] exp_diff; // Numeric difference of the two exponents
-wire [22:0] adj_op; // Fraction adjustment: input
-wire [26:0] adj_op_tmp;
-wire [26:0] adj_op_out; // Fraction adjustment: output
-wire [26:0] fracta_n, fractb_n; // Fraction selection after normalizing
-wire [26:0] fracta_s, fractb_s; // Fraction Sorting out
-reg [26:0] fracta_out, fractb_out; // Fraction Output
-reg sign, sign_d; // Sign Output
-reg add_d; // operation (add/sub)
-reg fasu_op; // operation (add/sub) register
-wire expa_dn, expb_dn;
-reg sticky;
-reg result_zero_sign;
-reg add_r, signa_r, signb_r;
-wire [4:0] exp_diff_sft;
-wire exp_lt_27;
-wire op_dn;
-wire [26:0] adj_op_out_sft;
-reg fracta_lt_fractb, fracta_eq_fractb;
-wire nan_sign1;
-reg nan_sign;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Aliases
-//
-
-assign signa = opa[31];
-assign signb = opb[31];
-assign expa = opa[30:23];
-assign expb = opb[30:23];
-assign fracta = opa[22:0];
-assign fractb = opb[22:0];
-
-////////////////////////////////////////////////////////////////////////
-//
-// Pre-Normalize exponents (and fractions)
-//
-
-assign expa_lt_expb = expa > expb; // expa is larger than expb
-
-// ---------------------------------------------------------------------
-// Normalize
-
-assign expa_dn = !(|expa); // opa denormalized
-assign expb_dn = !(|expb); // opb denormalized
-
-// ---------------------------------------------------------------------
-// Calculate the difference between the smaller and larger exponent
-
-wire [7:0] exp_diff1, exp_diff1a, exp_diff2;
-
-assign exp_small = expa_lt_expb ? expb : expa;
-assign exp_large = expa_lt_expb ? expa : expb;
-assign exp_diff1 = exp_large - exp_small;
-assign exp_diff1a = exp_diff1-1;
-assign exp_diff2 = (expa_dn | expb_dn) ? exp_diff1a : exp_diff1;
-assign exp_diff = (expa_dn & expb_dn) ? 8'h0 : exp_diff2;
-
-always @(posedge clk) // If numbers are equal we should return zero
- exp_dn_out <= #1 (!add_d & expa==expb & fracta==fractb) ? 8'h0 : exp_large;
-
-// ---------------------------------------------------------------------
-// Adjust the smaller fraction
-
-
-assign op_dn = expa_lt_expb ? expb_dn : expa_dn;
-assign adj_op = expa_lt_expb ? fractb : fracta;
-assign adj_op_tmp = { ~op_dn, adj_op, 3'b0 }; // recover hidden bit (op_dn)
-
-// adj_op_out is 27 bits wide, so can only be shifted 27 bits to the right
-assign exp_lt_27 = exp_diff > 8'd27;
-assign exp_diff_sft = exp_lt_27 ? 5'd27 : exp_diff[4:0];
-assign adj_op_out_sft = adj_op_tmp >> exp_diff_sft;
-assign adj_op_out = {adj_op_out_sft[26:1], adj_op_out_sft[0] | sticky };
-
-// ---------------------------------------------------------------------
-// Get truncated portion (sticky bit)
-
-always @(exp_diff_sft or adj_op_tmp)
- case(exp_diff_sft) // synopsys full_case parallel_case
- 00: sticky = 1'h0;
- 01: sticky = adj_op_tmp[0];
- 02: sticky = |adj_op_tmp[01:0];
- 03: sticky = |adj_op_tmp[02:0];
- 04: sticky = |adj_op_tmp[03:0];
- 05: sticky = |adj_op_tmp[04:0];
- 06: sticky = |adj_op_tmp[05:0];
- 07: sticky = |adj_op_tmp[06:0];
- 08: sticky = |adj_op_tmp[07:0];
- 09: sticky = |adj_op_tmp[08:0];
- 10: sticky = |adj_op_tmp[09:0];
- 11: sticky = |adj_op_tmp[10:0];
- 12: sticky = |adj_op_tmp[11:0];
- 13: sticky = |adj_op_tmp[12:0];
- 14: sticky = |adj_op_tmp[13:0];
- 15: sticky = |adj_op_tmp[14:0];
- 16: sticky = |adj_op_tmp[15:0];
- 17: sticky = |adj_op_tmp[16:0];
- 18: sticky = |adj_op_tmp[17:0];
- 19: sticky = |adj_op_tmp[18:0];
- 20: sticky = |adj_op_tmp[19:0];
- 21: sticky = |adj_op_tmp[20:0];
- 22: sticky = |adj_op_tmp[21:0];
- 23: sticky = |adj_op_tmp[22:0];
- 24: sticky = |adj_op_tmp[23:0];
- 25: sticky = |adj_op_tmp[24:0];
- 26: sticky = |adj_op_tmp[25:0];
- 27: sticky = |adj_op_tmp[26:0];
- endcase
-
-// ---------------------------------------------------------------------
-// Select operands for add/sub (recover hidden bit)
-
-assign fracta_n = expa_lt_expb ? {~expa_dn, fracta, 3'b0} : adj_op_out;
-assign fractb_n = expa_lt_expb ? adj_op_out : {~expb_dn, fractb, 3'b0};
-
-// ---------------------------------------------------------------------
-// Sort operands (for sub only)
-
-assign fractb_lt_fracta = fractb_n > fracta_n; // fractb is larger than fracta
-assign fracta_s = fractb_lt_fracta ? fractb_n : fracta_n;
-assign fractb_s = fractb_lt_fracta ? fracta_n : fractb_n;
-
-always @(posedge clk)
- fracta_out <= #1 fracta_s;
-
-always @(posedge clk)
- fractb_out <= #1 fractb_s;
-
-// ---------------------------------------------------------------------
-// Determine sign for the output
-
-// sign: 0=Positive Number; 1=Negative Number
-always @(signa or signb or add or fractb_lt_fracta)
- case({signa, signb, add}) // synopsys full_case parallel_case
-
- // Add
- 3'b0_0_1: sign_d = 0;
- 3'b0_1_1: sign_d = fractb_lt_fracta;
- 3'b1_0_1: sign_d = !fractb_lt_fracta;
- 3'b1_1_1: sign_d = 1;
-
- // Sub
- 3'b0_0_0: sign_d = fractb_lt_fracta;
- 3'b0_1_0: sign_d = 0;
- 3'b1_0_0: sign_d = 1;
- 3'b1_1_0: sign_d = !fractb_lt_fracta;
- endcase
-
-always @(posedge clk)
- sign <= #1 sign_d;
-
-// Fix sign for ZERO result
-always @(posedge clk)
- signa_r <= #1 signa;
-
-always @(posedge clk)
- signb_r <= #1 signb;
-
-always @(posedge clk)
- add_r <= #1 add;
-
-always @(posedge clk)
- result_zero_sign <= #1 ( add_r & signa_r & signb_r) |
- (!add_r & signa_r & !signb_r) |
- ( add_r & (signa_r | signb_r) & (rmode==3)) |
- (!add_r & (signa_r == signb_r) & (rmode==3));
-
-// Fix sign for NAN result
-always @(posedge clk)
- fracta_lt_fractb <= #1 fracta < fractb;
-
-always @(posedge clk)
- fracta_eq_fractb <= #1 fracta == fractb;
-
-assign nan_sign1 = fracta_eq_fractb ? (signa_r & signb_r) : fracta_lt_fractb ? signb_r : signa_r;
-
-always @(posedge clk)
- nan_sign <= #1 (opa_nan & opb_nan) ? nan_sign1 : opb_nan ? signb_r : signa_r;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Decode Add/Sub operation
-//
-
-// add: 1=Add; 0=Subtract
-always @(signa or signb or add)
- case({signa, signb, add}) // synopsys full_case parallel_case
-
- // Add
- 3'b0_0_1: add_d = 1;
- 3'b0_1_1: add_d = 0;
- 3'b1_0_1: add_d = 0;
- 3'b1_1_1: add_d = 1;
-
- // Sub
- 3'b0_0_0: add_d = 0;
- 3'b0_1_0: add_d = 1;
- 3'b1_0_0: add_d = 1;
- 3'b1_1_0: add_d = 0;
- endcase
-
-always @(posedge clk)
- fasu_op <= #1 add_d;
-
-endmodule
Index: verilog/components/fpu/pre_norm_fmul.v
===================================================================
--- verilog/components/fpu/pre_norm_fmul.v (revision 185)
+++ verilog/components/fpu/pre_norm_fmul.v (nonexistent)
@@ -1,150 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Pre Normalize ////
-//// Floating Point Pre Normalization Unit for FMUL ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-`timescale 1ns / 100ps
-
-module pre_norm_fmul(clk, fpu_op, opa, opb, fracta, fractb, exp_out, sign,
- sign_exe, inf, exp_ovf, underflow);
-input clk;
-input [2:0] fpu_op;
-input [31:0] opa, opb;
-output [23:0] fracta, fractb;
-output [7:0] exp_out;
-output sign, sign_exe;
-output inf;
-output [1:0] exp_ovf;
-output [2:0] underflow;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Local Wires and registers
-//
-
-reg [7:0] exp_out;
-wire signa, signb;
-reg sign, sign_d;
-reg sign_exe;
-reg inf;
-wire [1:0] exp_ovf_d;
-reg [1:0] exp_ovf;
-wire [7:0] expa, expb;
-wire [7:0] exp_tmp1, exp_tmp2;
-wire co1, co2;
-wire expa_dn, expb_dn;
-wire [7:0] exp_out_a;
-wire opa_00, opb_00, fracta_00, fractb_00;
-wire [7:0] exp_tmp3, exp_tmp4, exp_tmp5;
-wire [2:0] underflow_d;
-reg [2:0] underflow;
-wire op_div = (fpu_op == 3'b011);
-wire [7:0] exp_out_mul, exp_out_div;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Aliases
-//
-
-assign signa = opa[31];
-assign signb = opb[31];
-assign expa = opa[30:23];
-assign expb = opb[30:23];
-
-////////////////////////////////////////////////////////////////////////
-//
-// Calculate Exponenet
-//
-
-assign expa_dn = !(|expa);
-assign expb_dn = !(|expb);
-assign opa_00 = !(|opa[30:0]);
-assign opb_00 = !(|opb[30:0]);
-assign fracta_00 = !(|opa[22:0]);
-assign fractb_00 = !(|opb[22:0]);
-
-assign fracta = {!expa_dn,opa[22:0]}; // Recover hidden bit
-assign fractb = {!expb_dn,opb[22:0]}; // Recover hidden bit
-
-assign {co1,exp_tmp1} = op_div ? (expa - expb) : (expa + expb);
-assign {co2,exp_tmp2} = op_div ? ({co1,exp_tmp1} + 8'h7f) : ({co1,exp_tmp1} - 8'h7f);
-
-assign exp_tmp3 = exp_tmp2 + 1;
-assign exp_tmp4 = 8'h7f - exp_tmp1;
-assign exp_tmp5 = op_div ? (exp_tmp4+1) : (exp_tmp4-1);
-
-
-always@(posedge clk)
- exp_out <= #1 op_div ? exp_out_div : exp_out_mul;
-
-assign exp_out_div = (expa_dn | expb_dn) ? (co2 ? exp_tmp5 : exp_tmp3 ) : co2 ? exp_tmp4 : exp_tmp2;
-assign exp_out_mul = exp_ovf_d[1] ? exp_out_a : (expa_dn | expb_dn) ? exp_tmp3 : exp_tmp2;
-assign exp_out_a = (expa_dn | expb_dn) ? exp_tmp5 : exp_tmp4;
-assign exp_ovf_d[0] = op_div ? (expa[7] & !expb[7]) : (co2 & expa[7] & expb[7]);
-assign exp_ovf_d[1] = op_div ? co2 : ((!expa[7] & !expb[7] & exp_tmp2[7]) | co2);
-
-always @(posedge clk)
- exp_ovf <= #1 exp_ovf_d;
-
-assign underflow_d[0] = (exp_tmp1 < 8'h7f) & !co1 & !(opa_00 | opb_00 | expa_dn | expb_dn);
-assign underflow_d[1] = ((expa[7] | expb[7]) & !opa_00 & !opb_00) |
- (expa_dn & !fracta_00) | (expb_dn & !fractb_00);
-assign underflow_d[2] = !opa_00 & !opb_00 & (exp_tmp1 == 8'h7f);
-
-always @(posedge clk)
- underflow <= #1 underflow_d;
-
-always @(posedge clk)
- inf <= #1 op_div ? (expb_dn & !expa[7]) : ({co1,exp_tmp1} > 9'h17e) ;
-
-
-////////////////////////////////////////////////////////////////////////
-//
-// Determine sign for the output
-//
-
-// sign: 0=Posetive Number; 1=Negative Number
-always @(signa or signb)
- case({signa, signb}) // synopsys full_case parallel_case
- 2'b0_0: sign_d = 0;
- 2'b0_1: sign_d = 1;
- 2'b1_0: sign_d = 1;
- 2'b1_1: sign_d = 0;
- endcase
-
-always @(posedge clk)
- sign <= #1 sign_d;
-
-always @(posedge clk)
- sign_exe <= #1 signa & signb;
-
-endmodule
\ No newline at end of file
Index: verilog/components/fpu/fcmp.v
===================================================================
--- verilog/components/fpu/fcmp.v (revision 185)
+++ verilog/components/fpu/fcmp.v (nonexistent)
@@ -1,165 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// FCMP ////
-//// Single precision Floating Point Compare Unit ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-`timescale 1ns / 100ps
-
-
-module fcmp(opa, opb, unordered, altb, blta, aeqb, inf, zero);
-
-input [31:0] opa, opb;
-output unordered;
-output altb, blta, aeqb;
-output inf, zero;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Local Wire
-//
-
-reg altb, blta, aeqb;
-
-wire signa, signb;
-wire [7:0] expa, expb;
-wire [22:0] fracta, fractb;
-
-wire expa_ff, expb_ff, fracta_00, fractb_00;
-wire qnan_a, snan_a, qnan_b, snan_b, opa_inf, opb_inf, inf;
-wire qnan, snan, opa_zero, opb_zero;
-
-wire exp_eq, exp_gt, exp_lt;
-wire fract_eq, fract_gt, fract_lt;
-wire all_zero;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Aliases
-//
-
-assign signa = opa[31];
-assign signb = opb[31];
-assign expa = opa[30:23];
-assign expb = opb[30:23];
-assign fracta = opa[22:0];
-assign fractb = opb[22:0];
-
-////////////////////////////////////////////////////////////////////////
-//
-// Exception Logic
-//
-
-assign expa_ff = &expa;
-assign expb_ff = &expb;
-
-assign fracta_00 = !(|fracta);
-assign fractb_00 = !(|fractb);
-
-assign qnan_a = fracta[22];
-assign snan_a = !fracta[22] & |fracta[21:0];
-assign qnan_b = fractb[22];
-assign snan_b = !fractb[22] & |fractb[21:0];
-
-assign opa_inf = (expa_ff & fracta_00);
-assign opb_inf = (expb_ff & fractb_00);
-assign inf = opa_inf | opb_inf;
-
-assign qnan = (expa_ff & qnan_a) | (expb_ff & qnan_b);
-assign snan = (expa_ff & snan_a) | (expb_ff & snan_b);
-assign unordered = qnan | snan;
-
-assign opa_zero = !(|expa) & fracta_00;
-assign opb_zero = !(|expb) & fractb_00;
-assign zero = opa_zero;
-
-
-////////////////////////////////////////////////////////////////////////
-//
-// Comparison Logic
-//
-
-assign exp_eq = expa == expb;
-assign exp_gt = expa > expb;
-assign exp_lt = expa < expb;
-
-assign fract_eq = fracta == fractb;
-assign fract_gt = fracta > fractb;
-assign fract_lt = fracta < fractb;
-
-assign all_zero = opa_zero & opb_zero;
-
-always @( qnan or snan or opa_inf or opb_inf or signa or signb or exp_eq or exp_gt or
- exp_lt or fract_eq or fract_gt or fract_lt or all_zero)
-
- casex( {qnan, snan, opa_inf, opb_inf, signa, signb, exp_eq, exp_gt, exp_lt, fract_eq, fract_gt, fract_lt, all_zero})
- //13'b??_??_??_???_???_?: {altb, blta, aeqb} = 3'b000;
-
- 13'b1?_??_??_???_???_?: {altb, blta, aeqb} = 3'b000; // qnan
- 13'b?1_??_??_???_???_?: {altb, blta, aeqb} = 3'b000; // snan
-
- 13'b00_11_00_???_???_?: {altb, blta, aeqb} = 3'b001; // both op INF comparisson
- 13'b00_11_01_???_???_?: {altb, blta, aeqb} = 3'b100;
- 13'b00_11_10_???_???_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_11_11_???_???_?: {altb, blta, aeqb} = 3'b001;
-
- 13'b00_10_00_???_???_?: {altb, blta, aeqb} = 3'b100; // opa INF comparisson
- 13'b00_10_01_???_???_?: {altb, blta, aeqb} = 3'b100;
- 13'b00_10_10_???_???_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_10_11_???_???_?: {altb, blta, aeqb} = 3'b010;
-
- 13'b00_01_00_???_???_?: {altb, blta, aeqb} = 3'b010; // opb INF comparisson
- 13'b00_01_01_???_???_?: {altb, blta, aeqb} = 3'b100;
- 13'b00_01_10_???_???_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_01_11_???_???_?: {altb, blta, aeqb} = 3'b100;
-
- 13'b00_00_10_???_???_0: {altb, blta, aeqb} = 3'b010; //compare base on sign
- 13'b00_00_01_???_???_0: {altb, blta, aeqb} = 3'b100; //compare base on sign
-
- 13'b00_00_??_???_???_1: {altb, blta, aeqb} = 3'b001; //compare base on sign both are zero
-
- 13'b00_00_00_010_???_?: {altb, blta, aeqb} = 3'b100; // cmp exp, equal sign
- 13'b00_00_00_001_???_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_00_11_010_???_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_00_11_001_???_?: {altb, blta, aeqb} = 3'b100;
-
- 13'b00_00_00_100_010_?: {altb, blta, aeqb} = 3'b100; // compare fractions, equal sign, equal exp
- 13'b00_00_00_100_001_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_00_11_100_010_?: {altb, blta, aeqb} = 3'b010;
- 13'b00_00_11_100_001_?: {altb, blta, aeqb} = 3'b100;
-
- 13'b00_00_00_100_100_?: {altb, blta, aeqb} = 3'b001;
- 13'b00_00_11_100_100_?: {altb, blta, aeqb} = 3'b001;
-
- default: {altb, blta, aeqb} = 3'bxxx;
- endcase
-
-endmodule
Index: verilog/components/fpu/div_r2.v
===================================================================
--- verilog/components/fpu/div_r2.v (revision 185)
+++ verilog/components/fpu/div_r2.v (nonexistent)
@@ -1,63 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Primitives ////
-//// FPU Primitives ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-
-`timescale 1ns / 100ps
-
-////////////////////////////////////////////////////////////////////////
-//
-// Divide
-//
-
-module div_r2(clk, opa, opb, quo, rem);
-input clk;
-input [49:0] opa;
-input [23:0] opb;
-output [49:0] quo, rem;
-
-reg [49:0] quo, rem, quo1, remainder;
-
-always @(posedge clk)
- quo1 <= #1 opa / opb;
-
-always @(posedge clk)
- quo <= #1 quo1;
-
-always @(posedge clk)
- remainder <= #1 opa % opb;
-
-always @(posedge clk)
- rem <= #1 remainder;
-
-endmodule // div_r2
Index: verilog/components/fpu/except.v
===================================================================
--- verilog/components/fpu/except.v (revision 185)
+++ verilog/components/fpu/except.v (nonexistent)
@@ -1,153 +0,0 @@
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// EXCEPT ////
-//// Floating Point Exception/Special Numbers Unit ////
-//// ////
-//// Author: Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-//// ////
-//// Copyright (C) 2000 Rudolf Usselmann ////
-//// rudi@asics.ws ////
-//// ////
-//// This source file may be used and distributed without ////
-//// restriction provided that this copyright statement is not ////
-//// removed from the file and that any derivative work contains ////
-//// the original copyright notice and the associated disclaimer.////
-//// ////
-//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
-//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
-//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
-//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
-//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
-//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
-//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
-//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
-//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
-//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
-//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
-//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
-//// POSSIBILITY OF SUCH DAMAGE. ////
-//// ////
-/////////////////////////////////////////////////////////////////////
-
-
-`timescale 1ns / 100ps
-
-
-module except( clk, opa, opb, inf, ind, qnan, snan, opa_nan, opb_nan,
- opa_00, opb_00, opa_inf, opb_inf, opa_dn, opb_dn);
-input clk;
-input [31:0] opa, opb;
-output inf, ind, qnan, snan, opa_nan, opb_nan;
-output opa_00, opb_00;
-output opa_inf, opb_inf;
-output opa_dn;
-output opb_dn;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Local Wires and registers
-//
-
-wire [7:0] expa, expb; // alias to opX exponent
-wire [22:0] fracta, fractb; // alias to opX fraction
-reg expa_ff, infa_f_r, qnan_r_a, snan_r_a;
-reg expb_ff, infb_f_r, qnan_r_b, snan_r_b;
-reg inf, ind, qnan, snan; // Output registers
-reg opa_nan, opb_nan;
-reg expa_00, expb_00, fracta_00, fractb_00;
-reg opa_00, opb_00;
-reg opa_inf, opb_inf;
-reg opa_dn, opb_dn;
-
-////////////////////////////////////////////////////////////////////////
-//
-// Aliases
-//
-
-assign expa = opa[30:23];
-assign expb = opb[30:23];
-assign fracta = opa[22:0];
-assign fractb = opb[22:0];
-
-////////////////////////////////////////////////////////////////////////
-//
-// Determine if any of the input operators is a INF or NAN or any other special number
-//
-
-always @(posedge clk)
- expa_ff <= #1 &expa;
-
-always @(posedge clk)
- expb_ff <= #1 &expb;
-
-always @(posedge clk)
- infa_f_r <= #1 !(|fracta);
-
-always @(posedge clk)
- infb_f_r <= #1 !(|fractb);
-
-always @(posedge clk)
- qnan_r_a <= #1 fracta[22];
-
-always @(posedge clk)
- snan_r_a <= #1 !fracta[22] & |fracta[21:0];
-
-always @(posedge clk)
- qnan_r_b <= #1 fractb[22];
-
-always @(posedge clk)
- snan_r_b <= #1 !fractb[22] & |fractb[21:0];
-
-always @(posedge clk)
- ind <= #1 (expa_ff & infa_f_r) & (expb_ff & infb_f_r);
-
-always @(posedge clk)
- inf <= #1 (expa_ff & infa_f_r) | (expb_ff & infb_f_r);
-
-always @(posedge clk)
- qnan <= #1 (expa_ff & qnan_r_a) | (expb_ff & qnan_r_b);
-
-always @(posedge clk)
- snan <= #1 (expa_ff & snan_r_a) | (expb_ff & snan_r_b);
-
-always @(posedge clk)
- opa_nan <= #1 &expa & (|fracta[22:0]);
-
-always @(posedge clk)
- opb_nan <= #1 &expb & (|fractb[22:0]);
-
-always @(posedge clk)
- opa_inf <= #1 (expa_ff & infa_f_r);
-
-always @(posedge clk)
- opb_inf <= #1 (expb_ff & infb_f_r);
-
-always @(posedge clk)
- expa_00 <= #1 !(|expa);
-
-always @(posedge clk)
- expb_00 <= #1 !(|expb);
-
-always @(posedge clk)
- fracta_00 <= #1 !(|fracta);
-
-always @(posedge clk)
- fractb_00 <= #1 !(|fractb);
-
-always @(posedge clk)
- opa_00 <= #1 expa_00 & fracta_00;
-
-always @(posedge clk)
- opb_00 <= #1 expb_00 & fractb_00;
-
-always @(posedge clk)
- opa_dn <= #1 expa_00;
-
-always @(posedge clk)
- opb_dn <= #1 expb_00;
-
-endmodule
-
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