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[/] [or1200_hp/] [trunk/] [rtl/] [rtl_cm4/] [verilog/] [or1200_dmmu_tlb.v] - Blame information for rev 2

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//////////////////////////////////////////////////////////////////////
////                                                              ////
////  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: not supported by cvs2svn $
// 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_cm4(
                clk_i_cml_1,
                clk_i_cml_2,
                clk_i_cml_3,
                cmls,
 
        // 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
);
 
 
input clk_i_cml_1;
input clk_i_cml_2;
input clk_i_cml_3;
input [1:0] cmls;
reg [ 32 - 1 : 0 ] vaddr_cml_1;
reg  spr_cs_cml_2;
reg  spr_cs_cml_1;
reg  spr_write_cml_2;
reg  spr_write_cml_1;
reg [ 31 : 0 ] spr_addr_cml_2;
reg [ 31 : 0 ] spr_addr_cml_1;
reg [ 31 : 0 ] spr_dat_i_cml_3;
reg [ 31 : 0 ] spr_dat_i_cml_2;
reg [ 31 : 0 ] spr_dat_i_cml_1;
reg [ 31 : 13 + 6 - 1 + 1 ] vpn_cml_1;
reg  v_cml_1;
reg [ 6 - 1 : 0 ] tlb_index_cml_3;
reg [ 6 - 1 : 0 ] tlb_index_cml_2;
reg [ 6 - 1 : 0 ] tlb_index_cml_1;
reg  tlb_mr_en_cml_3;
reg  tlb_mr_we_cml_3;
reg  tlb_tr_en_cml_3;
reg  tlb_tr_we_cml_3;
 
 
 
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
//
 
// SynEDA CoreMultiplier
// assignment(s): tlb_mr_en
// replace(s): spr_cs, spr_addr
assign tlb_mr_en = tlb_en | (spr_cs_cml_2 & !spr_addr_cml_2[`OR1200_DTLB_TM_ADDR]);
 
//
// Write enable for Match registers
//
 
// SynEDA CoreMultiplier
// assignment(s): tlb_mr_we
// replace(s): spr_cs, spr_write, spr_addr
assign tlb_mr_we = spr_cs_cml_2 & spr_write_cml_2 & !spr_addr_cml_2[`OR1200_DTLB_TM_ADDR];
 
//
// Enable for Translate registers
//
 
// SynEDA CoreMultiplier
// assignment(s): tlb_tr_en
// replace(s): spr_cs, spr_addr
assign tlb_tr_en = tlb_en | (spr_cs_cml_2 & spr_addr_cml_2[`OR1200_DTLB_TM_ADDR]);
 
//
// Write enable for Translate registers
//
 
// SynEDA CoreMultiplier
// assignment(s): tlb_tr_we
// replace(s): spr_cs, spr_write, spr_addr
assign tlb_tr_we = spr_cs_cml_2 & spr_write_cml_2 & spr_addr_cml_2[`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_INDXW{v}}, {`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 vpn = tlb_mr_ram_out[13:1];
assign v = tlb_mr_ram_out[0];
 
//
// Assign to Match registers inputs
//
 
// SynEDA CoreMultiplier
// assignment(s): tlb_mr_ram_in
// replace(s): spr_dat_i
assign tlb_mr_ram_in = {spr_dat_i_cml_3[`OR1200_DTLB_TAG], spr_dat_i_cml_3[`OR1200_DTLBMR_V_BITS]};
 
//
// Assign outputs from Translate registers
//
//assign {ppn, swe, sre, uwe, ure, ci} = tlb_tr_ram_out;
assign ppn = tlb_tr_ram_out[23:5];
assign swe = tlb_tr_ram_out[4];
assign sre = tlb_tr_ram_out[3];
assign uwe = tlb_tr_ram_out[2];
assign ure = tlb_tr_ram_out[1];
assign ci = tlb_tr_ram_out[0];
 
//
// Assign to Translate registers inputs
//
 
// SynEDA CoreMultiplier
// assignment(s): tlb_tr_ram_in
// replace(s): spr_dat_i
assign tlb_tr_ram_in = {spr_dat_i_cml_3[31:`OR1200_DMMU_PS],
                        spr_dat_i_cml_3[`OR1200_DTLBTR_SWE_BITS],
                        spr_dat_i_cml_3[`OR1200_DTLBTR_SRE_BITS],
                        spr_dat_i_cml_3[`OR1200_DTLBTR_UWE_BITS],
                        spr_dat_i_cml_3[`OR1200_DTLBTR_URE_BITS],
                        spr_dat_i_cml_3[`OR1200_DTLBTR_CI_BITS]};
 
//
// Generate hit
//
 
// SynEDA CoreMultiplier
// assignment(s): hit
// replace(s): vaddr, vpn, v
assign hit = (vpn_cml_1 == vaddr_cml_1[`OR1200_DTLB_TAG]) & v_cml_1;
 
//
// 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];
 
`ifdef OR1200_RAM_MODELS_VIRTEX
 
//
//      Non-generic FPGA model instantiations
//
 
wire tlb_mr_en_wire;
wire [0 : 0] tlb_mr_we_wire;
wire [5 : 0] tlb_index_wire;
wire [13 : 0] tlb_mr_ram_in_wire;
 
 
// SynEDA CoreMultiplier
// assignment(s): tlb_mr_en_wire
// replace(s): tlb_mr_en
assign tlb_mr_en_wire = tlb_mr_en_cml_3;
 
// SynEDA CoreMultiplier
// assignment(s): tlb_mr_we_wire
// replace(s): tlb_mr_we
assign tlb_mr_we_wire = tlb_mr_we_cml_3;
 
// SynEDA CoreMultiplier
// assignment(s): tlb_index_wire
// replace(s): tlb_index
assign tlb_index_wire = tlb_index_cml_3;
assign tlb_mr_ram_in_wire = tlb_mr_ram_in;
 
dtlb_mr_sub_cm4 dtlb_ram (
                .clk_i_cml_1(clk_i_cml_1),
                .clk_i_cml_2(clk_i_cml_2),
                .clk_i_cml_3(clk_i_cml_3),
                .cmls(cmls),
        .clka(clk),
        .ena(tlb_mr_en_wire),
        .wea(tlb_mr_we_wire), // Bus [0 : 0] 
        .addra(tlb_index_wire), // Bus [5 : 0] 
        .dina(tlb_mr_ram_in_wire), // Bus [13 : 0] 
        .clkb(clk),
        .addrb(tlb_index_wire),
        .doutb(tlb_mr_ram_out)); // Bus [13 : 0]
 
wire tlb_tr_en_wire;
wire [0 : 0] tlb_tr_we_wire;
wire [23 : 0] tlb_tr_ram_in_wire;
 
 
// SynEDA CoreMultiplier
// assignment(s): tlb_tr_en_wire
// replace(s): tlb_tr_en
assign tlb_tr_en_wire = tlb_tr_en_cml_3;
 
// SynEDA CoreMultiplier
// assignment(s): tlb_tr_we_wire
// replace(s): tlb_tr_we
assign tlb_tr_we_wire = tlb_tr_we_cml_3;
assign tlb_tr_ram_in_wire = tlb_tr_ram_in;
 
dtlb_tr_sub_cm4 dtlb_tr_ram (
                .clk_i_cml_1(clk_i_cml_1),
                .clk_i_cml_2(clk_i_cml_2),
                .clk_i_cml_3(clk_i_cml_3),
                .cmls(cmls),
        .clka(clk),
        .ena(tlb_tr_en_wire),
        .wea(tlb_tr_we_wire), // Bus [0 : 0] 
        .addra(tlb_index_wire), // Bus [5 : 0] 
        .dina(tlb_tr_ram_in_wire), // Bus [23 : 0] 
        .clkb(clk),
        .addrb(tlb_index_wire),
        .doutb(tlb_tr_ram_out)); // Bus [23 : 0] 
 
`else
 
//
// Instantiation of DTLB Match Registers
//
or1200_spram_64x14 dtlb_mr_ram(
        .clk(clk),
        .rst(rst),
`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),
        .oe(1'b1),
        .addr(tlb_index),
        .di(tlb_mr_ram_in),
        .doq(tlb_mr_ram_out)
);
 
//
// Instantiation of DTLB Translate Registers
//
or1200_spram_64x24 dtlb_tr_ram(
        .clk(clk),
        .rst(rst),
`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),
        .oe(1'b1),
        .addr(tlb_index),
        .di(tlb_tr_ram_in),
        .doq(tlb_tr_ram_out)
);
`endif
 
 
always @ (posedge clk_i_cml_1) begin
vaddr_cml_1 <= vaddr;
spr_cs_cml_1 <= spr_cs;
spr_write_cml_1 <= spr_write;
spr_addr_cml_1 <= spr_addr;
spr_dat_i_cml_1 <= spr_dat_i;
vpn_cml_1 <= vpn;
v_cml_1 <= v;
tlb_index_cml_1 <= tlb_index;
end
always @ (posedge clk_i_cml_2) begin
spr_cs_cml_2 <= spr_cs_cml_1;
spr_write_cml_2 <= spr_write_cml_1;
spr_addr_cml_2 <= spr_addr_cml_1;
spr_dat_i_cml_2 <= spr_dat_i_cml_1;
tlb_index_cml_2 <= tlb_index_cml_1;
end
always @ (posedge clk_i_cml_3) begin
spr_dat_i_cml_3 <= spr_dat_i_cml_2;
tlb_index_cml_3 <= tlb_index_cml_2;
tlb_mr_en_cml_3 <= tlb_mr_en;
tlb_mr_we_cml_3 <= tlb_mr_we;
tlb_tr_en_cml_3 <= tlb_tr_en;
tlb_tr_we_cml_3 <= tlb_tr_we;
end
endmodule
 

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[/] [or1200_hp/] [trunk/] [rtl/] [rtl_cm4/] [verilog/] [or1200_dmmu_tlb.v] - Blame information for rev 2

Line No.	Rev	Author	Line
1	2	tobil	`//////////////////////////////////////////////////////////////////////`
2			`//// ////`
3			`//// OR1200's Data TLB ////`
4			`//// ////`
5			`//// This file is part of the OpenRISC 1200 project ////`
6			`//// http://www.opencores.org/cores/or1k/ ////`
7			`//// ////`
8			`//// Description ////`
9			`//// Instantiation of DTLB. ////`
10			`//// ////`
11			`//// To Do: ////`
12			`//// - make it smaller and faster ////`
13			`//// ////`
14			`//// Author(s): ////`
15			`//// - Damjan Lampret, lampret@opencores.org ////`
16			`//// ////`
17			`//////////////////////////////////////////////////////////////////////`
18			`//// ////`
19			`//// Copyright (C) 2000 Authors and OPENCORES.ORG ////`
20			`//// ////`
21			`//// This source file may be used and distributed without ////`
22			`//// restriction provided that this copyright statement is not ////`
23			`//// removed from the file and that any derivative work contains ////`
24			`//// the original copyright notice and the associated disclaimer. ////`
25			`//// ////`
26			`//// This source file is free software; you can redistribute it ////`
27			`//// and/or modify it under the terms of the GNU Lesser General ////`
28			`//// Public License as published by the Free Software Foundation; ////`
29			`//// either version 2.1 of the License, or (at your option) any ////`
30			`//// later version. ////`
31			`//// ////`
32			`//// This source is distributed in the hope that it will be ////`
33			`//// useful, but WITHOUT ANY WARRANTY; without even the implied ////`
34			`//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////`
35			`//// PURPOSE. See the GNU Lesser General Public License for more ////`
36			`//// details. ////`
37			`//// ////`
38			`//// You should have received a copy of the GNU Lesser General ////`
39			`//// Public License along with this source; if not, download it ////`
40			`//// from http://www.opencores.org/lgpl.shtml ////`
41			`//// ////`
42			`//////////////////////////////////////////////////////////////////////`
43			`//`
44			`// CVS Revision History`
45			`//`
46			`// $Log: not supported by cvs2svn $`
47			`// Revision 1.6 2004/04/05 08:29:57 lampret`
48			`// Merged branch_qmem into main tree.`
49			`//`
50			`// Revision 1.4.4.1 2003/12/09 11:46:48 simons`
51			`// Mbist nameing changed, Artisan ram instance signal names fixed, some synthesis waning fixed.`
52			`//`
53			`// Revision 1.4 2002/10/17 20:04:40 lampret`
54			`// Added BIST scan. Special VS RAMs need to be used to implement BIST.`
55			`//`
56			`// Revision 1.3 2002/02/11 04:33:17 lampret`
57			`// Speed optimizations (removed duplicate _cyc_ and _stb_). Fixed D/IMMU cache-inhibit attr.`
58			`//`
59			`// Revision 1.2 2002/01/28 01:16:00 lampret`
60			`// 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.`
61			`//`
62			`// Revision 1.1 2002/01/03 08:16:15 lampret`
63			`// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.`
64			`//`
65			`// Revision 1.8 2001/10/21 17:57:16 lampret`
66			`// 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.`
67			`//`
68			`// Revision 1.7 2001/10/14 13:12:09 lampret`
69			`// MP3 version.`
70			`//`
71			`// Revision 1.1.1.1 2001/10/06 10:18:36 igorm`
72			`// no message`
73			`//`
74			`//`
75
76			`// synopsys translate_off`
77			`include "timescale.v"
78			`// synopsys translate_on`
79			`include "or1200_defines.v"
80
81			`//`
82			`// Data TLB`
83			`//`
84
85			`module or1200_dmmu_tlb_cm4(`
86			`clk_i_cml_1,`
87			`clk_i_cml_2,`
88			`clk_i_cml_3,`
89			`cmls,`
90
91			`// Rst and clk`
92			`clk, rst,`
93
94			`// I/F for translation`
95			`tlb_en, vaddr, hit, ppn, uwe, ure, swe, sre, ci,`
96
97			`ifdef OR1200_BIST
98			`// RAM BIST`
99			`mbist_si_i, mbist_so_o, mbist_ctrl_i,`
100			`endif
101
102			`// SPR access`
103			`spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o`
104			`);`
105
106
107			`input clk_i_cml_1;`
108			`input clk_i_cml_2;`
109			`input clk_i_cml_3;`
110			`input [1:0] cmls;`
111			`reg [ 32 - 1 : 0 ] vaddr_cml_1;`
112			`reg spr_cs_cml_2;`
113			`reg spr_cs_cml_1;`
114			`reg spr_write_cml_2;`
115			`reg spr_write_cml_1;`
116			`reg [ 31 : 0 ] spr_addr_cml_2;`
117			`reg [ 31 : 0 ] spr_addr_cml_1;`
118			`reg [ 31 : 0 ] spr_dat_i_cml_3;`
119			`reg [ 31 : 0 ] spr_dat_i_cml_2;`
120			`reg [ 31 : 0 ] spr_dat_i_cml_1;`
121			`reg [ 31 : 13 + 6 - 1 + 1 ] vpn_cml_1;`
122			`reg v_cml_1;`
123			`reg [ 6 - 1 : 0 ] tlb_index_cml_3;`
124			`reg [ 6 - 1 : 0 ] tlb_index_cml_2;`
125			`reg [ 6 - 1 : 0 ] tlb_index_cml_1;`
126			`reg tlb_mr_en_cml_3;`
127			`reg tlb_mr_we_cml_3;`
128			`reg tlb_tr_en_cml_3;`
129			`reg tlb_tr_we_cml_3;`
130
131
132
133			parameter dw = `OR1200_OPERAND_WIDTH;
134			parameter aw = `OR1200_OPERAND_WIDTH;
135
136			`//`
137			`// I/O`
138			`//`
139
140			`//`
141			`// Clock and reset`
142			`//`
143			`input clk;`
144			`input rst;`
145
146			`//`
147			`// I/F for translation`
148			`//`
149			`input tlb_en;`
150			`input [aw-1:0] vaddr;`
151			`output hit;`
152			output [31:`OR1200_DMMU_PS] ppn;
153			`output uwe;`
154			`output ure;`
155			`output swe;`
156			`output sre;`
157			`output ci;`
158
159			`ifdef OR1200_BIST
160			`//`
161			`// RAM BIST`
162			`//`
163			`input mbist_si_i;`
164			input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i;
165			`output mbist_so_o;`
166			`endif
167
168			`//`
169			`// SPR access`
170			`//`
171			`input spr_cs;`
172			`input spr_write;`
173			`input [31:0] spr_addr;`
174			`input [31:0] spr_dat_i;`
175			`output [31:0] spr_dat_o;`
176
177			`//`
178			`// Internal wires and regs`
179			`//`
180			wire [`OR1200_DTLB_TAG] vpn;
181			`wire v;`
182			wire [`OR1200_DTLB_INDXW-1:0] tlb_index;
183			`wire tlb_mr_en;`
184			`wire tlb_mr_we;`
185			wire [`OR1200_DTLBMRW-1:0] tlb_mr_ram_in;
186			wire [`OR1200_DTLBMRW-1:0] tlb_mr_ram_out;
187			`wire tlb_tr_en;`
188			`wire tlb_tr_we;`
189			wire [`OR1200_DTLBTRW-1:0] tlb_tr_ram_in;
190			wire [`OR1200_DTLBTRW-1:0] tlb_tr_ram_out;
191			`ifdef OR1200_BIST
192			`//`
193			`// RAM BIST`
194			`//`
195			`wire mbist_mr_so;`
196			`wire mbist_tr_so;`
197			`wire mbist_mr_si = mbist_si_i;`
198			`wire mbist_tr_si = mbist_mr_so;`
199			`assign mbist_so_o = mbist_tr_so;`
200			`endif
201
202			`//`
203			`// Implemented bits inside match and translate registers`
204			`//`
205			`// dtlbwYmrX: vpn 31-19 v 0`
206			`// dtlbwYtrX: ppn 31-13 swe 9 sre 8 uwe 7 ure 6`
207			`//`
208			`// dtlb memory width:`
209			`// 19 bits for ppn`
210			`// 13 bits for vpn`
211			`// 1 bit for valid`
212			`// 4 bits for protection`
213			`// 1 bit for cache inhibit`
214
215			`//`
216			`// Enable for Match registers`
217			`//`
218
219			`// SynEDA CoreMultiplier`
220			`// assignment(s): tlb_mr_en`
221			`// replace(s): spr_cs, spr_addr`
222			assign tlb_mr_en = tlb_en \| (spr_cs_cml_2 & !spr_addr_cml_2[`OR1200_DTLB_TM_ADDR]);
223
224			`//`
225			`// Write enable for Match registers`
226			`//`
227
228			`// SynEDA CoreMultiplier`
229			`// assignment(s): tlb_mr_we`
230			`// replace(s): spr_cs, spr_write, spr_addr`
231			assign tlb_mr_we = spr_cs_cml_2 & spr_write_cml_2 & !spr_addr_cml_2[`OR1200_DTLB_TM_ADDR];
232
233			`//`
234			`// Enable for Translate registers`
235			`//`
236
237			`// SynEDA CoreMultiplier`
238			`// assignment(s): tlb_tr_en`
239			`// replace(s): spr_cs, spr_addr`
240			assign tlb_tr_en = tlb_en \| (spr_cs_cml_2 & spr_addr_cml_2[`OR1200_DTLB_TM_ADDR]);
241
242			`//`
243			`// Write enable for Translate registers`
244			`//`
245
246			`// SynEDA CoreMultiplier`
247			`// assignment(s): tlb_tr_we`
248			`// replace(s): spr_cs, spr_write, spr_addr`
249			assign tlb_tr_we = spr_cs_cml_2 & spr_write_cml_2 & spr_addr_cml_2[`OR1200_DTLB_TM_ADDR];
250
251			`//`
252			`// Output to SPRS unit`
253			`//`
254			assign spr_dat_o = (spr_cs & !spr_write & !spr_addr[`OR1200_DTLB_TM_ADDR]) ?
255			{vpn, tlb_index & {`OR1200_DTLB_INDXW{v}}, {`OR1200_DTLB_TAGW-7{1'b0}}, 1'b0, 5'b00000, v} :
256			(spr_cs & !spr_write & spr_addr[`OR1200_DTLB_TM_ADDR]) ?
257			{ppn, {`OR1200_DMMU_PS-10{1'b0}}, swe, sre, uwe, ure, {4{1'b0}}, ci, 1'b0} :
258			`32'h00000000;`
259
260			`//`
261			`// Assign outputs from Match registers`
262			`//`
263			`//assign {vpn, v} = tlb_mr_ram_out;`
264			`assign vpn = tlb_mr_ram_out[13:1];`
265			`assign v = tlb_mr_ram_out[0];`
266
267			`//`
268			`// Assign to Match registers inputs`
269			`//`
270
271			`// SynEDA CoreMultiplier`
272			`// assignment(s): tlb_mr_ram_in`
273			`// replace(s): spr_dat_i`
274			assign tlb_mr_ram_in = {spr_dat_i_cml_3[`OR1200_DTLB_TAG], spr_dat_i_cml_3[`OR1200_DTLBMR_V_BITS]};
275
276			`//`
277			`// Assign outputs from Translate registers`
278			`//`
279			`//assign {ppn, swe, sre, uwe, ure, ci} = tlb_tr_ram_out;`
280			`assign ppn = tlb_tr_ram_out[23:5];`
281			`assign swe = tlb_tr_ram_out[4];`
282			`assign sre = tlb_tr_ram_out[3];`
283			`assign uwe = tlb_tr_ram_out[2];`
284			`assign ure = tlb_tr_ram_out[1];`
285			`assign ci = tlb_tr_ram_out[0];`
286
287			`//`
288			`// Assign to Translate registers inputs`
289			`//`
290
291			`// SynEDA CoreMultiplier`
292			`// assignment(s): tlb_tr_ram_in`
293			`// replace(s): spr_dat_i`
294			assign tlb_tr_ram_in = {spr_dat_i_cml_3[31:`OR1200_DMMU_PS],
295			spr_dat_i_cml_3[`OR1200_DTLBTR_SWE_BITS],
296			spr_dat_i_cml_3[`OR1200_DTLBTR_SRE_BITS],
297			spr_dat_i_cml_3[`OR1200_DTLBTR_UWE_BITS],
298			spr_dat_i_cml_3[`OR1200_DTLBTR_URE_BITS],
299			spr_dat_i_cml_3[`OR1200_DTLBTR_CI_BITS]};
300
301			`//`
302			`// Generate hit`
303			`//`
304
305			`// SynEDA CoreMultiplier`
306			`// assignment(s): hit`
307			`// replace(s): vaddr, vpn, v`
308			assign hit = (vpn_cml_1 == vaddr_cml_1[`OR1200_DTLB_TAG]) & v_cml_1;
309
310			`//`
311			`// TLB index is normally vaddr[18:13]. If it is SPR access then index is`
312			`// spr_addr[5:0].`
313			`//`
314			assign tlb_index = spr_cs ? spr_addr[`OR1200_DTLB_INDXW-1:0] : vaddr[`OR1200_DTLB_INDX];
315
316			`ifdef OR1200_RAM_MODELS_VIRTEX
317
318			`//`
319			`// Non-generic FPGA model instantiations`
320			`//`
321
322			`wire tlb_mr_en_wire;`
323			`wire [0 : 0] tlb_mr_we_wire;`
324			`wire [5 : 0] tlb_index_wire;`
325			`wire [13 : 0] tlb_mr_ram_in_wire;`
326
327
328			`// SynEDA CoreMultiplier`
329			`// assignment(s): tlb_mr_en_wire`
330			`// replace(s): tlb_mr_en`
331			`assign tlb_mr_en_wire = tlb_mr_en_cml_3;`
332
333			`// SynEDA CoreMultiplier`
334			`// assignment(s): tlb_mr_we_wire`
335			`// replace(s): tlb_mr_we`
336			`assign tlb_mr_we_wire = tlb_mr_we_cml_3;`
337
338			`// SynEDA CoreMultiplier`
339			`// assignment(s): tlb_index_wire`
340			`// replace(s): tlb_index`
341			`assign tlb_index_wire = tlb_index_cml_3;`
342			`assign tlb_mr_ram_in_wire = tlb_mr_ram_in;`
343
344			`dtlb_mr_sub_cm4 dtlb_ram (`
345			`.clk_i_cml_1(clk_i_cml_1),`
346			`.clk_i_cml_2(clk_i_cml_2),`
347			`.clk_i_cml_3(clk_i_cml_3),`
348			`.cmls(cmls),`
349			`.clka(clk),`
350			`.ena(tlb_mr_en_wire),`
351			`.wea(tlb_mr_we_wire), // Bus [0 : 0]`
352			`.addra(tlb_index_wire), // Bus [5 : 0]`
353			`.dina(tlb_mr_ram_in_wire), // Bus [13 : 0]`
354			`.clkb(clk),`
355			`.addrb(tlb_index_wire),`
356			`.doutb(tlb_mr_ram_out)); // Bus [13 : 0]`
357
358			`wire tlb_tr_en_wire;`
359			`wire [0 : 0] tlb_tr_we_wire;`
360			`wire [23 : 0] tlb_tr_ram_in_wire;`
361
362
363			`// SynEDA CoreMultiplier`
364			`// assignment(s): tlb_tr_en_wire`
365			`// replace(s): tlb_tr_en`
366			`assign tlb_tr_en_wire = tlb_tr_en_cml_3;`
367
368			`// SynEDA CoreMultiplier`
369			`// assignment(s): tlb_tr_we_wire`
370			`// replace(s): tlb_tr_we`
371			`assign tlb_tr_we_wire = tlb_tr_we_cml_3;`
372			`assign tlb_tr_ram_in_wire = tlb_tr_ram_in;`
373
374			`dtlb_tr_sub_cm4 dtlb_tr_ram (`
375			`.clk_i_cml_1(clk_i_cml_1),`
376			`.clk_i_cml_2(clk_i_cml_2),`
377			`.clk_i_cml_3(clk_i_cml_3),`
378			`.cmls(cmls),`
379			`.clka(clk),`
380			`.ena(tlb_tr_en_wire),`
381			`.wea(tlb_tr_we_wire), // Bus [0 : 0]`
382			`.addra(tlb_index_wire), // Bus [5 : 0]`
383			`.dina(tlb_tr_ram_in_wire), // Bus [23 : 0]`
384			`.clkb(clk),`
385			`.addrb(tlb_index_wire),`
386			`.doutb(tlb_tr_ram_out)); // Bus [23 : 0]`
387
388			`else
389
390			`//`
391			`// Instantiation of DTLB Match Registers`
392			`//`
393			`or1200_spram_64x14 dtlb_mr_ram(`
394			`.clk(clk),`
395			`.rst(rst),`
396			`ifdef OR1200_BIST
397			`// RAM BIST`
398			`.mbist_si_i(mbist_mr_si),`
399			`.mbist_so_o(mbist_mr_so),`
400			`.mbist_ctrl_i(mbist_ctrl_i),`
401			`endif
402			`.ce(tlb_mr_en),`
403			`.we(tlb_mr_we),`
404			`.oe(1'b1),`
405			`.addr(tlb_index),`
406			`.di(tlb_mr_ram_in),`
407			`.doq(tlb_mr_ram_out)`
408			`);`
409
410			`//`
411			`// Instantiation of DTLB Translate Registers`
412			`//`
413			`or1200_spram_64x24 dtlb_tr_ram(`
414			`.clk(clk),`
415			`.rst(rst),`
416			`ifdef OR1200_BIST
417			`// RAM BIST`
418			`.mbist_si_i(mbist_tr_si),`
419			`.mbist_so_o(mbist_tr_so),`
420			`.mbist_ctrl_i(mbist_ctrl_i),`
421			`endif
422			`.ce(tlb_tr_en),`
423			`.we(tlb_tr_we),`
424			`.oe(1'b1),`
425			`.addr(tlb_index),`
426			`.di(tlb_tr_ram_in),`
427			`.doq(tlb_tr_ram_out)`
428			`);`
429			`endif
430
431
432			`always @ (posedge clk_i_cml_1) begin`
433			`vaddr_cml_1 <= vaddr;`
434			`spr_cs_cml_1 <= spr_cs;`
435			`spr_write_cml_1 <= spr_write;`
436			`spr_addr_cml_1 <= spr_addr;`
437			`spr_dat_i_cml_1 <= spr_dat_i;`
438			`vpn_cml_1 <= vpn;`
439			`v_cml_1 <= v;`
440			`tlb_index_cml_1 <= tlb_index;`
441			`end`
442			`always @ (posedge clk_i_cml_2) begin`
443			`spr_cs_cml_2 <= spr_cs_cml_1;`
444			`spr_write_cml_2 <= spr_write_cml_1;`
445			`spr_addr_cml_2 <= spr_addr_cml_1;`
446			`spr_dat_i_cml_2 <= spr_dat_i_cml_1;`
447			`tlb_index_cml_2 <= tlb_index_cml_1;`
448			`end`
449			`always @ (posedge clk_i_cml_3) begin`
450			`spr_dat_i_cml_3 <= spr_dat_i_cml_2;`
451			`tlb_index_cml_3 <= tlb_index_cml_2;`
452			`tlb_mr_en_cml_3 <= tlb_mr_en;`
453			`tlb_mr_we_cml_3 <= tlb_mr_we;`
454			`tlb_tr_en_cml_3 <= tlb_tr_en;`
455			`tlb_tr_we_cml_3 <= tlb_tr_we;`
456			`end`
457			`endmodule`
458