OpenCores
URL https://opencores.org/ocsvn/minsoc/minsoc/trunk

Subversion Repositories minsoc

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  • This comparison shows the changes necessary to convert path
    /minsoc
    from Rev 65 to Rev 66
    Reverse comparison

Rev 65 → Rev 66

/trunk/backend/spartan3e_starter_kit/configure
1,5 → 1,7
#!/bin/bash
 
#NON STANDARD SCRIPT, USE ANOTHER AS TEMPLATE, NON STANDARD PART IS MARKED AS COMMENT
 
#new boards have to udpate this
BOARD=spartan3e_starter_kit #this has to have the name of the directory this file is in
DEVICE_PART='xc3s500e-4-fg320'
32,7 → 34,23
exit 1
fi
 
#NON STANDARD SCRIPT PART
echo "THIS SCRIPT HAS A NON-STANDARD BEGINNING."
echo "__________________________________________________________________________"
echo "Spartan3E Starter Kit requires another configuration for or1200_r3."
echo "or1200_r1 should work fine, roll back this for minsoc release-1.0."
 
echo ""
echo "Copying or1200_defines.v, to or1200 implementation directory..."
echo "(minsoc/rtl/verilog/or1200/rtl/verilog)"
echo "__________________________________________________________________________"
cp $BOARD_DIR/or1200_defines.v $MINSOC_DIR/rtl/verilog/or1200/rtl/verilog
echo ""
echo "REGULAR SCRIPT STARTS NOW"
echo "__________________________________________________________________________"
#~NON STANDARD SCRIPT PART
 
echo ""
echo "Configuring SoC board's specific files for firmware compilation, "
echo "testbench generation and synthesis."
echo "Firmware and testbench looks for board specific files under minsoc/backend."
/trunk/backend/spartan3e_starter_kit/or1200_defines.v
0,0 → 1,1783
//////////////////////////////////////////////////////////////////////
//// ////
//// OR1200's definitions ////
//// ////
//// This file is part of the OpenRISC 1200 project ////
//// http://opencores.org/project,or1k ////
//// ////
//// Description ////
//// Defines for the OR1200 core ////
//// ////
//// To Do: ////
//// - add parameters that are missing ////
//// ////
//// 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 ////
//// ////
//////////////////////////////////////////////////////////////////////
//
// $Log: or1200_defines.v,v $
// Revision 2.0 2010/06/30 11:00:00 ORSoC
// Minor update:
// Defines added, bugs fixed.
 
//
// Dump VCD
//
//`define OR1200_VCD_DUMP
 
//
// Generate debug messages during simulation
//
//`define OR1200_VERBOSE
 
// `define OR1200_ASIC
////////////////////////////////////////////////////////
//
// Typical configuration for an ASIC
//
`ifdef OR1200_ASIC
 
//
// Target ASIC memories
//
//`define OR1200_ARTISAN_SSP
//`define OR1200_ARTISAN_SDP
//`define OR1200_ARTISAN_STP
`define OR1200_VIRTUALSILICON_SSP
//`define OR1200_VIRTUALSILICON_STP_T1
//`define OR1200_VIRTUALSILICON_STP_T2
 
//
// Do not implement Data cache
//
//`define OR1200_NO_DC
 
//
// Do not implement Insn cache
//
//`define OR1200_NO_IC
 
//
// Do not implement Data MMU
//
//`define OR1200_NO_DMMU
 
//
// Do not implement Insn MMU
//
//`define OR1200_NO_IMMU
 
//
// Select between ASIC optimized and generic multiplier
//
//`define OR1200_ASIC_MULTP2_32X32
`define OR1200_GENERIC_MULTP2_32X32
 
//
// Size/type of insn/data cache if implemented
//
// `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
 
`else
 
 
/////////////////////////////////////////////////////////
//
// Typical configuration for an FPGA
//
 
//
// Target FPGA memories
//
//`define OR1200_ALTERA_LPM
//`define OR1200_XILINX_RAMB16
//`define OR1200_XILINX_RAMB4
//`define OR1200_XILINX_RAM32X1D
//`define OR1200_USE_RAM16X1D_FOR_RAM32X1D
// 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
 
//
// Do not implement Insn cache
//
`define OR1200_NO_IC
 
//
// Do not implement Data MMU
//
`define OR1200_NO_DMMU
 
//
// Do not implement Insn MMU
//
`define OR1200_NO_IMMU
 
//
// Select between ASIC and generic multiplier
//
// (Generic seems to trigger a bug in the Cadence Ncsim simulator)
//
//`define OR1200_ASIC_MULTP2_32X32
`define OR1200_GENERIC_MULTP2_32X32
 
//
// Size/type of insn/data cache if implemented
// (consider available FPGA memory resources)
//
//`define OR1200_IC_1W_512B
//`define OR1200_IC_1W_4KB
`define OR1200_IC_1W_8KB
//`define OR1200_IC_1W_16KB
//`define OR1200_IC_1W_32KB
//`define OR1200_DC_1W_4KB
`define OR1200_DC_1W_8KB
//`define OR1200_DC_1W_16KB
//`define OR1200_DC_1W_32KB
 
`endif
 
 
//////////////////////////////////////////////////////////
//
// Do not change below unless you know what you are doing
//
 
//
// Reset active low
//
//`define OR1200_RST_ACT_LOW
 
//
// Enable RAM BIST
//
// At the moment this only works for Virtual Silicon
// single port RAMs. For other RAMs it has not effect.
// Special wrapper for VS RAMs needs to be provided
// with scan flops to facilitate bist scan.
//
//`define OR1200_BIST
 
//
// Register OR1200 WISHBONE outputs
// (must be defined/enabled)
//
`define OR1200_REGISTERED_OUTPUTS
 
//
// Register OR1200 WISHBONE inputs
//
// (must be undefined/disabled)
//
//`define OR1200_REGISTERED_INPUTS
 
//
// Disable bursts if they are not supported by the
// memory subsystem (only affect cache line fill)
//
//`define OR1200_NO_BURSTS
//
 
//
// WISHBONE retry counter range
//
// 2^value range for retry counter. Retry counter
// is activated whenever *wb_rty_i is asserted and
// until retry counter expires, corresponding
// WISHBONE interface is deactivated.
//
// To disable retry counters and *wb_rty_i all together,
// undefine this macro.
//
//`define OR1200_WB_RETRY 7
 
//
// WISHBONE Consecutive Address Burst
//
// This was used prior to WISHBONE B3 specification
// to identify bursts. It is no longer needed but
// remains enabled for compatibility with old designs.
//
// To remove *wb_cab_o ports undefine this macro.
//
//`define OR1200_WB_CAB
 
//
// WISHBONE B3 compatible interface
//
// This follows the WISHBONE B3 specification.
// It is not enabled by default because most
// designs still don't use WB b3.
//
// To enable *wb_cti_o/*wb_bte_o ports,
// define this macro.
//
`define OR1200_WB_B3
 
//
// LOG all WISHBONE accesses
//
`define OR1200_LOG_WB_ACCESS
 
//
// Enable additional synthesis directives if using
// _Synopsys_ synthesis tool
//
//`define OR1200_ADDITIONAL_SYNOPSYS_DIRECTIVES
 
//
// Enables default statement in some case blocks
// and disables Synopsys synthesis directive full_case
//
// By default it is enabled. When disabled it
// can increase clock frequency.
//
`define OR1200_CASE_DEFAULT
 
//
// Operand width / register file address width
//
// (DO NOT CHANGE)
//
`define OR1200_OPERAND_WIDTH 32
`define OR1200_REGFILE_ADDR_WIDTH 5
 
//
// l.add/l.addi/l.and and optional l.addc/l.addic
// also set (compare) flag when result of their
// operation equals zero
//
// At the time of writing this, default or32
// C/C++ compiler doesn't generate code that
// would benefit from this optimization.
//
// By default this optimization is disabled to
// save area.
//
//`define OR1200_ADDITIONAL_FLAG_MODIFIERS
 
//
// Implement l.addc/l.addic instructions
//
// By default implementation of l.addc/l.addic
// instructions is enabled in case you need them.
// If you don't use them, then disable implementation
// to save area.
//
//`define OR1200_IMPL_ADDC
 
//
// Implement l.sub instruction
//
// 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_SUB
 
//
// Implement carry bit SR[CY]
//
//
// 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_CY
 
//
// Implement rotate in the ALU
//
// At the time of writing this, or32
// C/C++ compiler doesn't generate rotate
// instructions. However or32 assembler
// can assemble code that uses rotate insn.
// This means that rotate instructions
// must be used manually inserted.
//
// By default implementation of rotate
// is disabled to save area and increase
// clock frequency.
//
//`define OR1200_IMPL_ALU_ROTATE
 
//
// Type of ALU compare to implement
//
// Try either one to find what yields
// higher clock frequencyin your case.
//
//`define OR1200_IMPL_ALU_COMP1
`define OR1200_IMPL_ALU_COMP2
 
//
// Implement Find First/Last '1'
//
`define OR1200_IMPL_ALU_FFL1
 
//
// Implement multiplier
//
// By default multiplier is implemented
//
`define OR1200_MULT_IMPLEMENTED
 
//
// Implement multiply-and-accumulate
//
// By default MAC is implemented. To
// implement MAC, multiplier (non-serial) needs to be
// implemented.
//
//`define OR1200_MAC_IMPLEMENTED
 
//
// Implement optional l.div/l.divu instructions
//
// By default divide instructions are not implemented
// to save area.
//
//
`define OR1200_DIV_IMPLEMENTED
 
//
// Serial multiplier.
//
//`define OR1200_MULT_SERIAL
 
//
// Serial divider.
// Uncomment to use a serial divider, otherwise will
// be a generic parallel implementation.
//
`define OR1200_DIV_SERIAL
 
//
// Implement HW Single Precision FPU
//
//`define OR1200_FPU_IMPLEMENTED
 
 
//
// Clock ratio RISC clock versus WB clock
//
// If you plan to run WB:RISC clock fixed to 1:1, disable
// both defines
//
// For WB:RISC 1:2 or 1:1, enable OR1200_CLKDIV_2_SUPPORTED
// and use clmode to set ratio
//
// 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_4_SUPPORTED
 
//
// Type of register file RAM
//
// Memory macro w/ two ports (see or1200_tpram_32x32.v)
//`define OR1200_RFRAM_TWOPORT
//
// Memory macro dual port (see or1200_dpram.v)
`define OR1200_RFRAM_DUALPORT
 
//
// Generic (flip-flop based) register file (see or1200_rfram_generic.v)
//`define OR1200_RFRAM_GENERIC
// Generic register file supports - 16 registers
`ifdef OR1200_RFRAM_GENERIC
// `define OR1200_RFRAM_16REG
`endif
 
//
// Type of mem2reg aligner to implement.
//
// Once OR1200_IMPL_MEM2REG2 yielded faster
// circuit, however with today tools it will
// most probably give you slower circuit.
//
`define OR1200_IMPL_MEM2REG1
//`define OR1200_IMPL_MEM2REG2
 
//
// Reset value and event
//
`ifdef OR1200_RST_ACT_LOW
`define OR1200_RST_VALUE (1'b0)
`define OR1200_RST_EVENT negedge
`else
`define OR1200_RST_VALUE (1'b1)
`define OR1200_RST_EVENT posedge
`endif
 
//
// ALUOPs
//
`define OR1200_ALUOP_WIDTH 4
`define OR1200_ALUOP_NOP 4'd4
/* Order defined by arith insns that have two source operands both in regs
(see binutils/include/opcode/or32.h) */
`define OR1200_ALUOP_ADD 4'd0
`define OR1200_ALUOP_ADDC 4'd1
`define OR1200_ALUOP_SUB 4'd2
`define OR1200_ALUOP_AND 4'd3
`define OR1200_ALUOP_OR 4'd4
`define OR1200_ALUOP_XOR 4'd5
`define OR1200_ALUOP_MUL 4'd6
`define OR1200_ALUOP_CUST5 4'd7
`define OR1200_ALUOP_SHROT 4'd8
`define OR1200_ALUOP_DIV 4'd9
`define OR1200_ALUOP_DIVU 4'd10
`define OR1200_ALUOP_MULU 4'd11
/* Values sent to ALU from decode unit - not strictly defined by ISA */
`define OR1200_ALUOP_MOVHI 4'd12
`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_FFL1 4'd15
 
 
// ALU instructions second opcode field (previously multicycle field in
// machine word)
`define OR1200_ALUOP2_POS 9:8
`define OR1200_ALUOP2_WIDTH 2
 
 
//
// MACOPs
//
`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
//
`define OR1200_SHROTOP_WIDTH 2
`define OR1200_SHROTOP_NOP 2'd0
`define OR1200_SHROTOP_SLL 2'd0
`define OR1200_SHROTOP_SRL 2'd1
`define OR1200_SHROTOP_SRA 2'd2
`define OR1200_SHROTOP_ROR 2'd3
 
// Execution cycles per instruction
`define OR1200_MULTICYCLE_WIDTH 3
`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
`define OR1200_SEL_IMM 2'd1
`define OR1200_SEL_EX_FORW 2'd2
`define OR1200_SEL_WB_FORW 2'd3
 
//
// BRANCHOPs
//
`define OR1200_BRANCHOP_WIDTH 3
`define OR1200_BRANCHOP_NOP 3'd0
`define OR1200_BRANCHOP_J 3'd1
`define OR1200_BRANCHOP_JR 3'd2
`define OR1200_BRANCHOP_BAL 3'd3
`define OR1200_BRANCHOP_BF 3'd4
`define OR1200_BRANCHOP_BNF 3'd5
`define OR1200_BRANCHOP_RFE 3'd6
 
//
// LSUOPs
//
// Bit 0: sign extend
// Bits 1-2: 00 doubleword, 01 byte, 10 halfword, 11 singleword
// Bit 3: 0 load, 1 store
`define OR1200_LSUOP_WIDTH 4
`define OR1200_LSUOP_NOP 4'b0000
`define OR1200_LSUOP_LBZ 4'b0010
`define OR1200_LSUOP_LBS 4'b0011
`define OR1200_LSUOP_LHZ 4'b0100
`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
 
// 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
`define OR1200_FETCHOP_LW 1'b1
 
//
// Register File Write-Back OPs
//
// 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
`define OR1200_RFWBOP_LSU 3'b001
`define OR1200_RFWBOP_SPRS 3'b010
`define OR1200_RFWBOP_LR 3'b011
`define OR1200_RFWBOP_FPU 3'b100
 
// Compare instructions
`define OR1200_COP_SFEQ 3'b000
`define OR1200_COP_SFNE 3'b001
`define OR1200_COP_SFGT 3'b010
`define OR1200_COP_SFGE 3'b011
`define OR1200_COP_SFLT 3'b100
`define OR1200_COP_SFLE 3'b101
`define OR1200_COP_X 3'b111
`define OR1200_SIGNED_COMPARE 'd3
`define OR1200_COMPOP_WIDTH 4
 
//
// FP OPs
//
// MSbit indicates FPU operation valid
//
`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
 
//
// TAGs for instruction bus
//
`define OR1200_ITAG_IDLE 4'h0 // idle bus
`define OR1200_ITAG_NI 4'h1 // normal insn
`define OR1200_ITAG_BE 4'hb // Bus error exception
`define OR1200_ITAG_PE 4'hc // Page fault exception
`define OR1200_ITAG_TE 4'hd // TLB miss exception
 
//
// TAGs for data bus
//
`define OR1200_DTAG_IDLE 4'h0 // idle bus
`define OR1200_DTAG_ND 4'h1 // normal data
`define OR1200_DTAG_AE 4'ha // Alignment exception
`define OR1200_DTAG_BE 4'hb // Bus error exception
`define OR1200_DTAG_PE 4'hc // Page fault exception
`define OR1200_DTAG_TE 4'hd // TLB miss exception
 
 
//////////////////////////////////////////////
//
// ORBIS32 ISA specifics
//
 
// SHROT_OP position in machine word
`define OR1200_SHROTOP_POS 7:6
 
//
// Instruction opcode groups (basic)
//
`define OR1200_OR32_J 6'b000000
`define OR1200_OR32_JAL 6'b000001
`define OR1200_OR32_BNF 6'b000011
`define OR1200_OR32_BF 6'b000100
`define OR1200_OR32_NOP 6'b000101
`define OR1200_OR32_MOVHI 6'b000110
`define OR1200_OR32_XSYNC 6'b001000
`define OR1200_OR32_RFE 6'b001001
/* */
`define OR1200_OR32_JR 6'b010001
`define OR1200_OR32_JALR 6'b010010
`define OR1200_OR32_MACI 6'b010011
/* */
`define OR1200_OR32_LWZ 6'b100001
`define OR1200_OR32_LBZ 6'b100011
`define OR1200_OR32_LBS 6'b100100
`define OR1200_OR32_LHZ 6'b100101
`define OR1200_OR32_LHS 6'b100110
`define OR1200_OR32_ADDI 6'b100111
`define OR1200_OR32_ADDIC 6'b101000
`define OR1200_OR32_ANDI 6'b101001
`define OR1200_OR32_ORI 6'b101010
`define OR1200_OR32_XORI 6'b101011
`define OR1200_OR32_MULI 6'b101100
`define OR1200_OR32_MFSPR 6'b101101
`define OR1200_OR32_SH_ROTI 6'b101110
`define OR1200_OR32_SFXXI 6'b101111
/* */
`define OR1200_OR32_MTSPR 6'b110000
`define OR1200_OR32_MACMSB 6'b110001
`define OR1200_OR32_FLOAT 6'b110010
/* */
`define OR1200_OR32_SW 6'b110101
`define OR1200_OR32_SB 6'b110110
`define OR1200_OR32_SH 6'b110111
`define OR1200_OR32_ALU 6'b111000
`define OR1200_OR32_SFXX 6'b111001
//`define OR1200_OR32_CUST5 6'b111100
 
 
/////////////////////////////////////////////////////
//
// Exceptions
//
 
//
// Exception vectors per OR1K architecture:
// 0xPPPPP100 - reset
// 0xPPPPP200 - bus error
// ... etc
// where P represents exception prefix.
//
// Exception vectors can be customized as per
// the following formula:
// 0xPPPPPNVV - exception N
//
// P represents exception prefix
// N represents exception N
// VV represents length of the individual vector space,
// usually it is 8 bits wide and starts with all bits zero
//
 
//
// PPPPP and VV parts
//
// Sum of these two defines needs to be 28
//
`define OR1200_EXCEPT_EPH0_P 20'h00000
`define OR1200_EXCEPT_EPH1_P 20'hF0000
`define OR1200_EXCEPT_V 8'h00
 
//
// N part width
//
`define OR1200_EXCEPT_WIDTH 4
 
//
// Definition of exception vectors
//
// To avoid implementation of a certain exception,
// simply comment out corresponding line
//
`define OR1200_EXCEPT_UNUSED `OR1200_EXCEPT_WIDTH'hf
`define OR1200_EXCEPT_TRAP `OR1200_EXCEPT_WIDTH'he
`define OR1200_EXCEPT_FLOAT `OR1200_EXCEPT_WIDTH'hd
`define OR1200_EXCEPT_SYSCALL `OR1200_EXCEPT_WIDTH'hc
`define OR1200_EXCEPT_RANGE `OR1200_EXCEPT_WIDTH'hb
`define OR1200_EXCEPT_ITLBMISS `OR1200_EXCEPT_WIDTH'ha
`define OR1200_EXCEPT_DTLBMISS `OR1200_EXCEPT_WIDTH'h9
`define OR1200_EXCEPT_INT `OR1200_EXCEPT_WIDTH'h8
`define OR1200_EXCEPT_ILLEGAL `OR1200_EXCEPT_WIDTH'h7
`define OR1200_EXCEPT_ALIGN `OR1200_EXCEPT_WIDTH'h6
`define OR1200_EXCEPT_TICK `OR1200_EXCEPT_WIDTH'h5
`define OR1200_EXCEPT_IPF `OR1200_EXCEPT_WIDTH'h4
`define OR1200_EXCEPT_DPF `OR1200_EXCEPT_WIDTH'h3
`define OR1200_EXCEPT_BUSERR `OR1200_EXCEPT_WIDTH'h2
`define OR1200_EXCEPT_RESET `OR1200_EXCEPT_WIDTH'h1
`define OR1200_EXCEPT_NONE `OR1200_EXCEPT_WIDTH'h0
 
 
/////////////////////////////////////////////////////
//
// SPR groups
//
 
// Bits that define the group
`define OR1200_SPR_GROUP_BITS 15:11
 
// Width of the group bits
`define OR1200_SPR_GROUP_WIDTH 5
 
// Bits that define offset inside the group
`define OR1200_SPR_OFS_BITS 10:0
 
// List of groups
`define OR1200_SPR_GROUP_SYS 5'd00
`define OR1200_SPR_GROUP_DMMU 5'd01
`define OR1200_SPR_GROUP_IMMU 5'd02
`define OR1200_SPR_GROUP_DC 5'd03
`define OR1200_SPR_GROUP_IC 5'd04
`define OR1200_SPR_GROUP_MAC 5'd05
`define OR1200_SPR_GROUP_DU 5'd06
`define OR1200_SPR_GROUP_PM 5'd08
`define OR1200_SPR_GROUP_PIC 5'd09
`define OR1200_SPR_GROUP_TT 5'd10
`define OR1200_SPR_GROUP_FPU 5'd11
 
/////////////////////////////////////////////////////
//
// System group
//
 
//
// System registers
//
`define OR1200_SPR_CFGR 7'd0
`define OR1200_SPR_RF 6'd32 // 1024 >> 5
`define OR1200_SPR_NPC 11'd16
`define OR1200_SPR_SR 11'd17
`define OR1200_SPR_PPC 11'd18
`define OR1200_SPR_FPCSR 11'd20
`define OR1200_SPR_EPCR 11'd32
`define OR1200_SPR_EEAR 11'd48
`define OR1200_SPR_ESR 11'd64
 
//
// SR bits
//
`define OR1200_SR_WIDTH 17
`define OR1200_SR_SM 0
`define OR1200_SR_TEE 1
`define OR1200_SR_IEE 2
`define OR1200_SR_DCE 3
`define OR1200_SR_ICE 4
`define OR1200_SR_DME 5
`define OR1200_SR_IME 6
`define OR1200_SR_LEE 7
`define OR1200_SR_CE 8
`define OR1200_SR_F 9
`define OR1200_SR_CY 10 // Unused
`define OR1200_SR_OV 11 // Unused
`define OR1200_SR_OVE 12 // Unused
`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
 
//
// Bits that define offset inside the group
//
`define OR1200_SPROFS_BITS 10:0
 
//
// Default Exception Prefix
//
// 1'b0 - OR1200_EXCEPT_EPH0_P (0x0000_0000)
// 1'b1 - OR1200_EXCEPT_EPH1_P (0xF000_0000)
//
`define OR1200_SR_EPH_DEF 1'b0
 
 
//
// FPCSR bits
//
`define OR1200_FPCSR_WIDTH 12
`define OR1200_FPCSR_FPEE 0
`define OR1200_FPCSR_RM 2:1
`define OR1200_FPCSR_OVF 3
`define OR1200_FPCSR_UNF 4
`define OR1200_FPCSR_SNF 5
`define OR1200_FPCSR_QNF 6
`define OR1200_FPCSR_ZF 7
`define OR1200_FPCSR_IXF 8
`define OR1200_FPCSR_IVF 9
`define OR1200_FPCSR_INF 10
`define OR1200_FPCSR_DZF 11
`define OR1200_FPCSR_RES 31:12
 
/////////////////////////////////////////////////////
//
// Power Management (PM)
//
 
// Define it if you want PM implemented
//`define OR1200_PM_IMPLEMENTED
 
// Bit positions inside PMR (don't change)
`define OR1200_PM_PMR_SDF 3:0
`define OR1200_PM_PMR_DME 4
`define OR1200_PM_PMR_SME 5
`define OR1200_PM_PMR_DCGE 6
`define OR1200_PM_PMR_UNUSED 31:7
 
// PMR offset inside PM group of registers
`define OR1200_PM_OFS_PMR 11'b0
 
// PM group
`define OR1200_SPRGRP_PM 5'd8
 
// Define if PMR can be read/written at any address inside PM group
`define OR1200_PM_PARTIAL_DECODING
 
// Define if reading PMR is allowed
`define OR1200_PM_READREGS
 
// Define if unused PMR bits should be zero
`define OR1200_PM_UNUSED_ZERO
 
 
/////////////////////////////////////////////////////
//
// Debug Unit (DU)
//
 
// Define it if you want DU implemented
`define OR1200_DU_IMPLEMENTED
 
//
// Define if you want HW Breakpoints
// (if HW breakpoints are not implemented
// only default software trapping is
// possible with l.trap insn - this is
// however already enough for use
// with or32 gdb)
//
//`define OR1200_DU_HWBKPTS
 
// 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
//
// To not implement a register, doq not define its address
//
`ifdef OR1200_DU_HWBKPTS
`define OR1200_DU_DVR0 11'd0
`define OR1200_DU_DVR1 11'd1
`define OR1200_DU_DVR2 11'd2
`define OR1200_DU_DVR3 11'd3
`define OR1200_DU_DVR4 11'd4
`define OR1200_DU_DVR5 11'd5
`define OR1200_DU_DVR6 11'd6
`define OR1200_DU_DVR7 11'd7
`define OR1200_DU_DCR0 11'd8
`define OR1200_DU_DCR1 11'd9
`define OR1200_DU_DCR2 11'd10
`define OR1200_DU_DCR3 11'd11
`define OR1200_DU_DCR4 11'd12
`define OR1200_DU_DCR5 11'd13
`define OR1200_DU_DCR6 11'd14
`define OR1200_DU_DCR7 11'd15
`endif
`define OR1200_DU_DMR1 11'd16
`ifdef OR1200_DU_HWBKPTS
`define OR1200_DU_DMR2 11'd17
`define OR1200_DU_DWCR0 11'd18
`define OR1200_DU_DWCR1 11'd19
`endif
`define OR1200_DU_DSR 11'd20
`define OR1200_DU_DRR 11'd21
`ifdef OR1200_DU_TB_IMPLEMENTED
`define OR1200_DU_TBADR 11'h0ff
`define OR1200_DU_TBIA 11'h1??
`define OR1200_DU_TBIM 11'h2??
`define OR1200_DU_TBAR 11'h3??
`define OR1200_DU_TBTS 11'h4??
`endif
 
// Position of offset bits inside SPR address
`define OR1200_DUOFS_BITS 10:0
 
// DCR bits
`define OR1200_DU_DCR_DP 0
`define OR1200_DU_DCR_CC 3:1
`define OR1200_DU_DCR_SC 4
`define OR1200_DU_DCR_CT 7:5
 
// DMR1 bits
`define OR1200_DU_DMR1_CW0 1:0
`define OR1200_DU_DMR1_CW1 3:2
`define OR1200_DU_DMR1_CW2 5:4
`define OR1200_DU_DMR1_CW3 7:6
`define OR1200_DU_DMR1_CW4 9:8
`define OR1200_DU_DMR1_CW5 11:10
`define OR1200_DU_DMR1_CW6 13:12
`define OR1200_DU_DMR1_CW7 15:14
`define OR1200_DU_DMR1_CW8 17:16
`define OR1200_DU_DMR1_CW9 19:18
`define OR1200_DU_DMR1_CW10 21:20
`define OR1200_DU_DMR1_ST 22
`define OR1200_DU_DMR1_BT 23
`define OR1200_DU_DMR1_DXFW 24
`define OR1200_DU_DMR1_ETE 25
 
// DMR2 bits
`define OR1200_DU_DMR2_WCE0 0
`define OR1200_DU_DMR2_WCE1 1
`define OR1200_DU_DMR2_AWTC 12:2
`define OR1200_DU_DMR2_WGB 23:13
 
// DWCR bits
`define OR1200_DU_DWCR_COUNT 15:0
`define OR1200_DU_DWCR_MATCH 31:16
 
// DSR bits
`define OR1200_DU_DSR_WIDTH 14
`define OR1200_DU_DSR_RSTE 0
`define OR1200_DU_DSR_BUSEE 1
`define OR1200_DU_DSR_DPFE 2
`define OR1200_DU_DSR_IPFE 3
`define OR1200_DU_DSR_TTE 4
`define OR1200_DU_DSR_AE 5
`define OR1200_DU_DSR_IIE 6
`define OR1200_DU_DSR_IE 7
`define OR1200_DU_DSR_DME 8
`define OR1200_DU_DSR_IME 9
`define OR1200_DU_DSR_RE 10
`define OR1200_DU_DSR_SCE 11
`define OR1200_DU_DSR_FPE 12
`define OR1200_DU_DSR_TE 13
 
// DRR bits
`define OR1200_DU_DRR_RSTE 0
`define OR1200_DU_DRR_BUSEE 1
`define OR1200_DU_DRR_DPFE 2
`define OR1200_DU_DRR_IPFE 3
`define OR1200_DU_DRR_TTE 4
`define OR1200_DU_DRR_AE 5
`define OR1200_DU_DRR_IIE 6
`define OR1200_DU_DRR_IE 7
`define OR1200_DU_DRR_DME 8
`define OR1200_DU_DRR_IME 9
`define OR1200_DU_DRR_RE 10
`define OR1200_DU_DRR_SCE 11
`define OR1200_DU_DRR_FPE 12
`define OR1200_DU_DRR_TE 13
 
// Define if reading DU regs is allowed
`define OR1200_DU_READREGS
 
// Define if unused DU registers bits should be zero
`define OR1200_DU_UNUSED_ZERO
 
// Define if IF/LSU status is not needed by devel i/f
`define OR1200_DU_STATUS_UNIMPLEMENTED
 
/////////////////////////////////////////////////////
//
// Programmable Interrupt Controller (PIC)
//
 
// Define it if you want PIC implemented
`define OR1200_PIC_IMPLEMENTED
 
// Define number of interrupt inputs (2-31)
`define OR1200_PIC_INTS 20
 
// Address offsets of PIC registers inside PIC group
`define OR1200_PIC_OFS_PICMR 2'd0
`define OR1200_PIC_OFS_PICSR 2'd2
 
// Position of offset bits inside SPR address
`define OR1200_PICOFS_BITS 1:0
 
// Define if you want these PIC registers to be implemented
`define OR1200_PIC_PICMR
`define OR1200_PIC_PICSR
 
// Define if reading PIC registers is allowed
`define OR1200_PIC_READREGS
 
// Define if unused PIC register bits should be zero
`define OR1200_PIC_UNUSED_ZERO
 
 
/////////////////////////////////////////////////////
//
// Tick Timer (TT)
//
 
// Define it if you want TT implemented
`define OR1200_TT_IMPLEMENTED
 
// Address offsets of TT registers inside TT group
`define OR1200_TT_OFS_TTMR 1'd0
`define OR1200_TT_OFS_TTCR 1'd1
 
// Position of offset bits inside SPR group
`define OR1200_TTOFS_BITS 0
 
// Define if you want these TT registers to be implemented
`define OR1200_TT_TTMR
`define OR1200_TT_TTCR
 
// TTMR bits
`define OR1200_TT_TTMR_TP 27:0
`define OR1200_TT_TTMR_IP 28
`define OR1200_TT_TTMR_IE 29
`define OR1200_TT_TTMR_M 31:30
 
// Define if reading TT registers is allowed
`define OR1200_TT_READREGS
 
 
//////////////////////////////////////////////
//
// MAC
//
`define OR1200_MAC_ADDR 0 // MACLO 0xxxxxxxx1, MACHI 0xxxxxxxx0
`define OR1200_MAC_SPR_WE // Define if MACLO/MACHI are SPR writable
 
//
// Shift {MACHI,MACLO} into destination register when executing l.macrc
//
// According to architecture manual there is no shift, so default value is 0.
// However the implementation has deviated in this from the arch manual and had
// hard coded shift by 28 bits which is a useful optimization for MP3 decoding
// (if using libmad fixed point library). Shifts are no longer default setup,
// but if you need to remain backward compatible, define your shift bits, which
// were normally
// dest_GPR = {MACHI,MACLO}[59:28]
`define OR1200_MAC_SHIFTBY 0 // 0 = According to arch manual, 28 = obsolete backward compatibility
 
 
//////////////////////////////////////////////
//
// Data MMU (DMMU)
//
 
//
// Address that selects between TLB TR and MR
//
`define OR1200_DTLB_TM_ADDR 7
 
//
// DTLBMR fields
//
`define OR1200_DTLBMR_V_BITS 0
`define OR1200_DTLBMR_CID_BITS 4:1
`define OR1200_DTLBMR_RES_BITS 11:5
`define OR1200_DTLBMR_VPN_BITS 31:13
 
//
// DTLBTR fields
//
`define OR1200_DTLBTR_CC_BITS 0
`define OR1200_DTLBTR_CI_BITS 1
`define OR1200_DTLBTR_WBC_BITS 2
`define OR1200_DTLBTR_WOM_BITS 3
`define OR1200_DTLBTR_A_BITS 4
`define OR1200_DTLBTR_D_BITS 5
`define OR1200_DTLBTR_URE_BITS 6
`define OR1200_DTLBTR_UWE_BITS 7
`define OR1200_DTLBTR_SRE_BITS 8
`define OR1200_DTLBTR_SWE_BITS 9
`define OR1200_DTLBTR_RES_BITS 11:10
`define OR1200_DTLBTR_PPN_BITS 31:13
 
//
// DTLB configuration
//
`define OR1200_DMMU_PS 13 // 13 for 8KB page size
`define OR1200_DTLB_INDXW 6 // 6 for 64 entry DTLB 7 for 128 entries
`define OR1200_DTLB_INDXL `OR1200_DMMU_PS // 13 13
`define OR1200_DTLB_INDXH `OR1200_DMMU_PS+`OR1200_DTLB_INDXW-1 // 18 19
`define OR1200_DTLB_INDX `OR1200_DTLB_INDXH:`OR1200_DTLB_INDXL // 18:13 19:13
`define OR1200_DTLB_TAGW 32-`OR1200_DTLB_INDXW-`OR1200_DMMU_PS // 13 12
`define OR1200_DTLB_TAGL `OR1200_DTLB_INDXH+1 // 19 20
`define OR1200_DTLB_TAG 31:`OR1200_DTLB_TAGL // 31:19 31:20
`define OR1200_DTLBMRW `OR1200_DTLB_TAGW+1 // +1 because of V bit
`define OR1200_DTLBTRW 32-`OR1200_DMMU_PS+5 // +5 because of protection bits and CI
 
//
// Cache inhibit while DMMU is not enabled/implemented
//
// cache inhibited 0GB-4GB 1'b1
// cache inhibited 0GB-2GB !dcpu_adr_i[31]
// cache inhibited 0GB-1GB 2GB-3GB !dcpu_adr_i[30]
// cache inhibited 1GB-2GB 3GB-4GB dcpu_adr_i[30]
// cache inhibited 2GB-4GB (default) dcpu_adr_i[31]
// cached 0GB-4GB 1'b0
//
`define OR1200_DMMU_CI dcpu_adr_i[31]
 
 
//////////////////////////////////////////////
//
// Insn MMU (IMMU)
//
 
//
// Address that selects between TLB TR and MR
//
`define OR1200_ITLB_TM_ADDR 7
 
//
// ITLBMR fields
//
`define OR1200_ITLBMR_V_BITS 0
`define OR1200_ITLBMR_CID_BITS 4:1
`define OR1200_ITLBMR_RES_BITS 11:5
`define OR1200_ITLBMR_VPN_BITS 31:13
 
//
// ITLBTR fields
//
`define OR1200_ITLBTR_CC_BITS 0
`define OR1200_ITLBTR_CI_BITS 1
`define OR1200_ITLBTR_WBC_BITS 2
`define OR1200_ITLBTR_WOM_BITS 3
`define OR1200_ITLBTR_A_BITS 4
`define OR1200_ITLBTR_D_BITS 5
`define OR1200_ITLBTR_SXE_BITS 6
`define OR1200_ITLBTR_UXE_BITS 7
`define OR1200_ITLBTR_RES_BITS 11:8
`define OR1200_ITLBTR_PPN_BITS 31:13
 
//
// ITLB configuration
//
`define OR1200_IMMU_PS 13 // 13 for 8KB page size
`define OR1200_ITLB_INDXW 6 // 6 for 64 entry ITLB 7 for 128 entries
`define OR1200_ITLB_INDXL `OR1200_IMMU_PS // 13 13
`define OR1200_ITLB_INDXH `OR1200_IMMU_PS+`OR1200_ITLB_INDXW-1 // 18 19
`define OR1200_ITLB_INDX `OR1200_ITLB_INDXH:`OR1200_ITLB_INDXL // 18:13 19:13
`define OR1200_ITLB_TAGW 32-`OR1200_ITLB_INDXW-`OR1200_IMMU_PS // 13 12
`define OR1200_ITLB_TAGL `OR1200_ITLB_INDXH+1 // 19 20
`define OR1200_ITLB_TAG 31:`OR1200_ITLB_TAGL // 31:19 31:20
`define OR1200_ITLBMRW `OR1200_ITLB_TAGW+1 // +1 because of V bit
`define OR1200_ITLBTRW 32-`OR1200_IMMU_PS+3 // +3 because of protection bits and CI
 
//
// Cache inhibit while IMMU is not enabled/implemented
// Note: all combinations that use icpu_adr_i cause async loop
//
// cache inhibited 0GB-4GB 1'b1
// cache inhibited 0GB-2GB !icpu_adr_i[31]
// cache inhibited 0GB-1GB 2GB-3GB !icpu_adr_i[30]
// cache inhibited 1GB-2GB 3GB-4GB icpu_adr_i[30]
// cache inhibited 2GB-4GB (default) icpu_adr_i[31]
// cached 0GB-4GB 1'b0
//
`define OR1200_IMMU_CI 1'b0
 
 
/////////////////////////////////////////////////
//
// Insn cache (IC)
//
 
// 4 for 16 byte line, 5 for 32 byte lines.
`ifdef OR1200_IC_1W_32KB
`define OR1200_ICLS 5
`else
`define OR1200_ICLS 4
`endif
 
//
// IC configurations
//
`ifdef OR1200_IC_1W_512B
`define OR1200_ICSIZE 9 // 512
`define OR1200_ICINDX `OR1200_ICSIZE-2 // 7
`define OR1200_ICINDXH `OR1200_ICSIZE-1 // 8
`define OR1200_ICTAGL `OR1200_ICINDXH+1 // 9
`define OR1200_ICTAG `OR1200_ICSIZE-`OR1200_ICLS // 5
`define OR1200_ICTAG_W 24
`endif
`ifdef OR1200_IC_1W_4KB
`define OR1200_ICSIZE 12 // 4096
`define OR1200_ICINDX `OR1200_ICSIZE-2 // 10
`define OR1200_ICINDXH `OR1200_ICSIZE-1 // 11
`define OR1200_ICTAGL `OR1200_ICINDXH+1 // 12
`define OR1200_ICTAG `OR1200_ICSIZE-`OR1200_ICLS // 8
`define OR1200_ICTAG_W 21
`endif
`ifdef OR1200_IC_1W_8KB
`define OR1200_ICSIZE 13 // 8192
`define OR1200_ICINDX `OR1200_ICSIZE-2 // 11
`define OR1200_ICINDXH `OR1200_ICSIZE-1 // 12
`define OR1200_ICTAGL `OR1200_ICINDXH+1 // 13
`define OR1200_ICTAG `OR1200_ICSIZE-`OR1200_ICLS // 9
`define OR1200_ICTAG_W 20
`endif
`ifdef OR1200_IC_1W_16KB
`define OR1200_ICSIZE 14 // 16384
`define OR1200_ICINDX `OR1200_ICSIZE-2 // 12
`define OR1200_ICINDXH `OR1200_ICSIZE-1 // 13
`define OR1200_ICTAGL `OR1200_ICINDXH+1 // 14
`define OR1200_ICTAG `OR1200_ICSIZE-`OR1200_ICLS // 10
`define OR1200_ICTAG_W 19
`endif
`ifdef OR1200_IC_1W_32KB
`define OR1200_ICSIZE 15 // 32768
`define OR1200_ICINDX `OR1200_ICSIZE-2 // 13
`define OR1200_ICINDXH `OR1200_ICSIZE-1 // 14
`define OR1200_ICTAGL `OR1200_ICINDXH+1 // 14
`define OR1200_ICTAG `OR1200_ICSIZE-`OR1200_ICLS // 10
`define OR1200_ICTAG_W 18
`endif
 
 
/////////////////////////////////////////////////
//
// Data cache (DC)
//
 
// 4 for 16 bytes, 5 for 32 bytes
`ifdef OR1200_DC_1W_32KB
`define OR1200_DCLS 5
`else
`define OR1200_DCLS 4
`endif
 
// 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
//
`ifdef OR1200_DC_1W_4KB
`define OR1200_DCSIZE 12 // 4096
`define OR1200_DCINDX `OR1200_DCSIZE-2 // 10
`define OR1200_DCINDXH `OR1200_DCSIZE-1 // 11
`define OR1200_DCTAGL `OR1200_DCINDXH+1 // 12
`define OR1200_DCTAG `OR1200_DCSIZE-`OR1200_DCLS // 8
`define OR1200_DCTAG_W 21
`endif
`ifdef OR1200_DC_1W_8KB
`define OR1200_DCSIZE 13 // 8192
`define OR1200_DCINDX `OR1200_DCSIZE-2 // 11
`define OR1200_DCINDXH `OR1200_DCSIZE-1 // 12
`define OR1200_DCTAGL `OR1200_DCINDXH+1 // 13
`define OR1200_DCTAG `OR1200_DCSIZE-`OR1200_DCLS // 9
`define OR1200_DCTAG_W 20
`endif
`ifdef OR1200_DC_1W_16KB
`define OR1200_DCSIZE 14 // 16384
`define OR1200_DCINDX `OR1200_DCSIZE-2 // 12
`define OR1200_DCINDXH `OR1200_DCSIZE-1 // 13
`define OR1200_DCTAGL `OR1200_DCINDXH+1 // 14
`define OR1200_DCTAG `OR1200_DCSIZE-`OR1200_DCLS // 10
`define OR1200_DCTAG_W 19
`endif
`ifdef OR1200_DC_1W_32KB
`define OR1200_DCSIZE 15 // 32768
`define OR1200_DCINDX `OR1200_DCSIZE-2 // 13
`define OR1200_DCINDXH `OR1200_DCSIZE-1 // 14
`define OR1200_DCTAGL `OR1200_DCINDXH+1 // 15
`define OR1200_DCTAG `OR1200_DCSIZE-`OR1200_DCLS // 10
`define OR1200_DCTAG_W 18
`endif
 
 
/////////////////////////////////////////////////
//
// Store buffer (SB)
//
 
//
// Store buffer
//
// It will improve performance by "caching" CPU stores
// using store buffer. This is most important for function
// prologues because DC can only work in write though mode
// and all stores would have to complete external WB writes
// to memory.
// Store buffer is between DC and data BIU.
// All stores will be stored into store buffer and immediately
// completed by the CPU, even though actual external writes
// will be performed later. As a consequence store buffer masks
// all data bus errors related to stores (data bus errors
// related to loads are delivered normally).
// All pending CPU loads will wait until store buffer is empty to
// ensure strict memory model. Right now this is necessary because
// we don't make destinction between cached and cache inhibited
// address space, so we simply empty store buffer until loads
// can begin.
//
// It makes design a bit bigger, depending what is the number of
// entries in SB FIFO. Number of entries can be changed further
// down.
//
//`define OR1200_SB_IMPLEMENTED
 
//
// Number of store buffer entries
//
// Verified number of entries are 4 and 8 entries
// (2 and 3 for OR1200_SB_LOG). OR1200_SB_ENTRIES must
// always match 2**OR1200_SB_LOG.
// To disable store buffer, undefine
// OR1200_SB_IMPLEMENTED.
//
`define OR1200_SB_LOG 2 // 2 or 3
`define OR1200_SB_ENTRIES 4 // 4 or 8
 
 
/////////////////////////////////////////////////
//
// Quick Embedded Memory (QMEM)
//
 
//
// Quick Embedded Memory
//
// Instantiation of dedicated insn/data memory (RAM or ROM).
// Insn fetch has effective throughput 1insn / clock cycle.
// Data load takes two clock cycles / access, data store
// takes 1 clock cycle / access (if there is no insn fetch)).
// Memory instantiation is shared between insn and data,
// meaning if insn fetch are performed, data load/store
// performance will be lower.
//
// Main reason for QMEM is to put some time critical functions
// into this memory and to have predictable and fast access
// to these functions. (soft fpu, context switch, exception
// handlers, stack, etc)
//
// It makes design a bit bigger and slower. QMEM sits behind
// IMMU/DMMU so all addresses are physical (so the MMUs can be
// used with QMEM and QMEM is seen by the CPU just like any other
// memory in the system). IC/DC are sitting behind QMEM so the
// whole design timing might be worse with QMEM implemented.
//
//`define OR1200_QMEM_IMPLEMENTED
 
//
// Base address and mask of QMEM
//
// Base address defines first address of QMEM. Mask defines
// QMEM range in address space. Actual size of QMEM is however
// determined with instantiated RAM/ROM. However bigger
// mask will reserve more address space for QMEM, but also
// make design faster, while more tight mask will take
// less address space but also make design slower. If
// instantiated RAM/ROM is smaller than space reserved with
// the mask, instatiated RAM/ROM will also be shadowed
// 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
 
//
// QMEM interface byte-select capability
//
// To enable qmem_sel* ports, define this macro.
//
//`define OR1200_QMEM_BSEL
 
//
// QMEM interface acknowledge
//
// To enable qmem_ack port, define this macro.
//
//`define OR1200_QMEM_ACK
 
/////////////////////////////////////////////////////
//
// VR, UPR and Configuration Registers
//
//
// VR, UPR and configuration registers are optional. If
// implemented, operating system can automatically figure
// out how to use the processor because it knows
// what units are available in the processor and how they
// are configured.
//
// This section must be last in or1200_defines.v file so
// that all units are already configured and thus
// configuration registers are properly set.
//
 
// Define if you want configuration registers implemented
`define OR1200_CFGR_IMPLEMENTED
 
// Define if you want full address decode inside SYS group
`define OR1200_SYS_FULL_DECODE
 
// Offsets of VR, UPR and CFGR registers
`define OR1200_SPRGRP_SYS_VR 4'h0
`define OR1200_SPRGRP_SYS_UPR 4'h1
`define OR1200_SPRGRP_SYS_CPUCFGR 4'h2
`define OR1200_SPRGRP_SYS_DMMUCFGR 4'h3
`define OR1200_SPRGRP_SYS_IMMUCFGR 4'h4
`define OR1200_SPRGRP_SYS_DCCFGR 4'h5
`define OR1200_SPRGRP_SYS_ICCFGR 4'h6
`define OR1200_SPRGRP_SYS_DCFGR 4'h7
 
// VR fields
`define OR1200_VR_REV_BITS 5:0
`define OR1200_VR_RES1_BITS 15:6
`define OR1200_VR_CFG_BITS 23:16
`define OR1200_VR_VER_BITS 31:24
 
// VR values
`define OR1200_VR_REV 6'h08
`define OR1200_VR_RES1 10'h000
`define OR1200_VR_CFG 8'h00
`define OR1200_VR_VER 8'h12
 
// UPR fields
`define OR1200_UPR_UP_BITS 0
`define OR1200_UPR_DCP_BITS 1
`define OR1200_UPR_ICP_BITS 2
`define OR1200_UPR_DMP_BITS 3
`define OR1200_UPR_IMP_BITS 4
`define OR1200_UPR_MP_BITS 5
`define OR1200_UPR_DUP_BITS 6
`define OR1200_UPR_PCUP_BITS 7
`define OR1200_UPR_PMP_BITS 8
`define OR1200_UPR_PICP_BITS 9
`define OR1200_UPR_TTP_BITS 10
`define OR1200_UPR_FPP_BITS 11
`define OR1200_UPR_RES1_BITS 23:12
`define OR1200_UPR_CUP_BITS 31:24
 
// UPR values
`define OR1200_UPR_UP 1'b1
`ifdef OR1200_NO_DC
`define OR1200_UPR_DCP 1'b0
`else
`define OR1200_UPR_DCP 1'b1
`endif
`ifdef OR1200_NO_IC
`define OR1200_UPR_ICP 1'b0
`else
`define OR1200_UPR_ICP 1'b1
`endif
`ifdef OR1200_NO_DMMU
`define OR1200_UPR_DMP 1'b0
`else
`define OR1200_UPR_DMP 1'b1
`endif
`ifdef OR1200_NO_IMMU
`define OR1200_UPR_IMP 1'b0
`else
`define OR1200_UPR_IMP 1'b1
`endif
`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
`define OR1200_UPR_DUP 1'b0
`endif
`define OR1200_UPR_PCUP 1'b0 // Performance counters not present
`ifdef OR1200_PM_IMPLEMENTED
`define OR1200_UPR_PMP 1'b1
`else
`define OR1200_UPR_PMP 1'b0
`endif
`ifdef OR1200_PIC_IMPLEMENTED
`define OR1200_UPR_PICP 1'b1
`else
`define OR1200_UPR_PICP 1'b0
`endif
`ifdef OR1200_TT_IMPLEMENTED
`define OR1200_UPR_TTP 1'b1
`else
`define OR1200_UPR_TTP 1'b0
`endif
`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
`define OR1200_CPUCFGR_NSGF_BITS 3:0
`define OR1200_CPUCFGR_HGF_BITS 4
`define OR1200_CPUCFGR_OB32S_BITS 5
`define OR1200_CPUCFGR_OB64S_BITS 6
`define OR1200_CPUCFGR_OF32S_BITS 7
`define OR1200_CPUCFGR_OF64S_BITS 8
`define OR1200_CPUCFGR_OV64S_BITS 9
`define OR1200_CPUCFGR_RES1_BITS 31:10
 
// CPUCFGR values
`define OR1200_CPUCFGR_NSGF 4'h0
`ifdef OR1200_RFRAM_16REG
`define OR1200_CPUCFGR_HGF 1'b1
`else
`define OR1200_CPUCFGR_HGF 1'b0
`endif
`define OR1200_CPUCFGR_OB32S 1'b1
`define OR1200_CPUCFGR_OB64S 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
 
// DMMUCFGR fields
`define OR1200_DMMUCFGR_NTW_BITS 1:0
`define OR1200_DMMUCFGR_NTS_BITS 4:2
`define OR1200_DMMUCFGR_NAE_BITS 7:5
`define OR1200_DMMUCFGR_CRI_BITS 8
`define OR1200_DMMUCFGR_PRI_BITS 9
`define OR1200_DMMUCFGR_TEIRI_BITS 10
`define OR1200_DMMUCFGR_HTR_BITS 11
`define OR1200_DMMUCFGR_RES1_BITS 31:12
 
// DMMUCFGR values
`ifdef OR1200_NO_DMMU
`define OR1200_DMMUCFGR_NTW 2'h0 // Irrelevant
`define OR1200_DMMUCFGR_NTS 3'h0 // Irrelevant
`define OR1200_DMMUCFGR_NAE 3'h0 // Irrelevant
`define OR1200_DMMUCFGR_CRI 1'b0 // Irrelevant
`define OR1200_DMMUCFGR_PRI 1'b0 // Irrelevant
`define OR1200_DMMUCFGR_TEIRI 1'b0 // Irrelevant
`define OR1200_DMMUCFGR_HTR 1'b0 // Irrelevant
`define OR1200_DMMUCFGR_RES1 20'h00000
`else
`define OR1200_DMMUCFGR_NTW 2'h0 // 1 TLB way
`define OR1200_DMMUCFGR_NTS 3'h`OR1200_DTLB_INDXW // Num TLB sets
`define OR1200_DMMUCFGR_NAE 3'h0 // No ATB entries
`define OR1200_DMMUCFGR_CRI 1'b0 // No control register
`define OR1200_DMMUCFGR_PRI 1'b0 // No protection reg
`define OR1200_DMMUCFGR_TEIRI 1'b1 // TLB entry inv reg impl.
`define OR1200_DMMUCFGR_HTR 1'b0 // No HW TLB reload
`define OR1200_DMMUCFGR_RES1 20'h00000
`endif
 
// IMMUCFGR fields
`define OR1200_IMMUCFGR_NTW_BITS 1:0
`define OR1200_IMMUCFGR_NTS_BITS 4:2
`define OR1200_IMMUCFGR_NAE_BITS 7:5
`define OR1200_IMMUCFGR_CRI_BITS 8
`define OR1200_IMMUCFGR_PRI_BITS 9
`define OR1200_IMMUCFGR_TEIRI_BITS 10
`define OR1200_IMMUCFGR_HTR_BITS 11
`define OR1200_IMMUCFGR_RES1_BITS 31:12
 
// IMMUCFGR values
`ifdef OR1200_NO_IMMU
`define OR1200_IMMUCFGR_NTW 2'h0 // Irrelevant
`define OR1200_IMMUCFGR_NTS 3'h0 // Irrelevant
`define OR1200_IMMUCFGR_NAE 3'h0 // Irrelevant
`define OR1200_IMMUCFGR_CRI 1'b0 // Irrelevant
`define OR1200_IMMUCFGR_PRI 1'b0 // Irrelevant
`define OR1200_IMMUCFGR_TEIRI 1'b0 // Irrelevant
`define OR1200_IMMUCFGR_HTR 1'b0 // Irrelevant
`define OR1200_IMMUCFGR_RES1 20'h00000
`else
`define OR1200_IMMUCFGR_NTW 2'h0 // 1 TLB way
`define OR1200_IMMUCFGR_NTS 3'h`OR1200_ITLB_INDXW // Num TLB sets
`define OR1200_IMMUCFGR_NAE 3'h0 // No ATB entry
`define OR1200_IMMUCFGR_CRI 1'b0 // No control reg
`define OR1200_IMMUCFGR_PRI 1'b0 // No protection reg
`define OR1200_IMMUCFGR_TEIRI 1'b1 // TLB entry inv reg impl
`define OR1200_IMMUCFGR_HTR 1'b0 // No HW TLB reload
`define OR1200_IMMUCFGR_RES1 20'h00000
`endif
 
// DCCFGR fields
`define OR1200_DCCFGR_NCW_BITS 2:0
`define OR1200_DCCFGR_NCS_BITS 6:3
`define OR1200_DCCFGR_CBS_BITS 7
`define OR1200_DCCFGR_CWS_BITS 8
`define OR1200_DCCFGR_CCRI_BITS 9
`define OR1200_DCCFGR_CBIRI_BITS 10
`define OR1200_DCCFGR_CBPRI_BITS 11
`define OR1200_DCCFGR_CBLRI_BITS 12
`define OR1200_DCCFGR_CBFRI_BITS 13
`define OR1200_DCCFGR_CBWBRI_BITS 14
`define OR1200_DCCFGR_RES1_BITS 31:15
 
// DCCFGR values
`ifdef OR1200_NO_DC
`define OR1200_DCCFGR_NCW 3'h0 // Irrelevant
`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'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'b0 // Irrelevant
`define OR1200_DCCFGR_CBWBRI 1'b0 // Irrelevant
`define OR1200_DCCFGR_RES1 17'h00000
`else
`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 ? 1'b0 : 1'b1 // 16 byte cache block
`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.
`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
 
// ICCFGR fields
`define OR1200_ICCFGR_NCW_BITS 2:0
`define OR1200_ICCFGR_NCS_BITS 6:3
`define OR1200_ICCFGR_CBS_BITS 7
`define OR1200_ICCFGR_CWS_BITS 8
`define OR1200_ICCFGR_CCRI_BITS 9
`define OR1200_ICCFGR_CBIRI_BITS 10
`define OR1200_ICCFGR_CBPRI_BITS 11
`define OR1200_ICCFGR_CBLRI_BITS 12
`define OR1200_ICCFGR_CBFRI_BITS 13
`define OR1200_ICCFGR_CBWBRI_BITS 14
`define OR1200_ICCFGR_RES1_BITS 31:15
 
// ICCFGR values
`ifdef OR1200_NO_IC
`define OR1200_ICCFGR_NCW 3'h0 // Irrelevant
`define OR1200_ICCFGR_NCS 4'h0 // Irrelevant
`define OR1200_ICCFGR_CBS 1'b0 // Irrelevant
`define OR1200_ICCFGR_CWS 1'b0 // Irrelevant
`define OR1200_ICCFGR_CCRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_CBIRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_CBPRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_CBLRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_CBFRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_CBWBRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_RES1 17'h00000
`else
`define OR1200_ICCFGR_NCW 3'h0 // 1 cache way
`define OR1200_ICCFGR_NCS (`OR1200_ICTAG) // Num cache sets
`define OR1200_ICCFGR_CBS `OR1200_ICLS==4 ? 1'b0: 1'b1 // 16 byte cache block
`define OR1200_ICCFGR_CWS 1'b0 // Irrelevant
`define OR1200_ICCFGR_CCRI 1'b1 // Cache control reg impl.
`define OR1200_ICCFGR_CBIRI 1'b1 // Cache block inv reg impl.
`define OR1200_ICCFGR_CBPRI 1'b0 // Cache block prefetch reg not impl.
`define OR1200_ICCFGR_CBLRI 1'b0 // Cache block lock reg not impl.
`define OR1200_ICCFGR_CBFRI 1'b1 // Cache block flush reg impl.
`define OR1200_ICCFGR_CBWBRI 1'b0 // Irrelevant
`define OR1200_ICCFGR_RES1 17'h00000
`endif
 
// DCFGR fields
`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 4'h`OR1200_DU_DVRDCR_PAIRS // # of DVR/DCR pairs
`ifdef OR1200_DU_DWCR0
`define OR1200_DCFGR_WPCI 1'b1
`else
`define OR1200_DCFGR_WPCI 1'b0 // WP counters not impl.
`endif
`else
`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 27'd0
 
///////////////////////////////////////////////////////////////////////////////
// Boot Address Selection //
// //
// Allows a definable boot address, potentially different to the usual reset //
// vector to allow for power-on code to be run, if desired. //
// //
// OR1200_BOOT_ADR should be the 32-bit address of the boot location //
// OR1200_BOOT_PCREG_DEFAULT should be ((OR1200_BOOT_ADR-4)>>2) //
// //
// For default reset behavior uncomment the settings under the "Boot 0x100" //
// comment below. //
// //
///////////////////////////////////////////////////////////////////////////////
// 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

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