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[/] [sparc64soc/] [trunk/] [T1-CPU/] [exu/] [sparc_exu_ecc.v] - Blame information for rev 2

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// ========== Copyright Header Begin ==========================================
// 
// OpenSPARC T1 Processor File: sparc_exu_ecc.v
// Copyright (c) 2006 Sun Microsystems, Inc.  All Rights Reserved.
// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.
// 
// The above named program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public
// License version 2 as published by the Free Software Foundation.
// 
// The above named program 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
// General Public License for more details.
// 
// You should have received a copy of the GNU General Public
// License along with this work; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
// 
// ========== Copyright Header End ============================================
////////////////////////////////////////////////////////////////////////
/*
//  Module Name: sparc_exu_ecc
//      Description: This block performs the ecc check and correction as well as
//                      doing the w2 write port arbitration and the w2 ecc generation.
*/
module sparc_exu_ecc (/*AUTOARG*/
   // Outputs
   so, ecc_ecl_rs1_ce, ecc_ecl_rs1_ue, ecc_ecl_rs2_ce,
   ecc_ecl_rs2_ue, ecc_ecl_rs3_ce, ecc_ecl_rs3_ue,
   ecc_byp_ecc_result_m, exu_ifu_err_synd_m,
   // Inputs
   rclk, se, si, byp_ecc_rcc_data_e, ecl_ecc_rs1_use_rf_e,
   byp_ecc_rs1_synd_d, byp_alu_rs2_data_e, ecl_ecc_rs2_use_rf_e,
   byp_ecc_rs2_synd_d, byp_ecc_rs3_data_e, ecl_ecc_rs3_use_rf_e,
   byp_ecc_rs3_synd_d, ecl_ecc_sel_rs1_m_l, ecl_ecc_sel_rs2_m_l,
   ecl_ecc_sel_rs3_m_l, ecl_ecc_log_rs1_m, ecl_ecc_log_rs2_m,
   ecl_ecc_log_rs3_m
   ) ;
   input rclk;
   input se;
   input si;
   input [63:0] byp_ecc_rcc_data_e;
   input        ecl_ecc_rs1_use_rf_e;
   input [7:0]  byp_ecc_rs1_synd_d;
   input [63:0] byp_alu_rs2_data_e;
   input        ecl_ecc_rs2_use_rf_e;
   input [7:0]  byp_ecc_rs2_synd_d;
   input [63:0] byp_ecc_rs3_data_e;
   input        ecl_ecc_rs3_use_rf_e;
   input [7:0]  byp_ecc_rs3_synd_d;
   input        ecl_ecc_sel_rs1_m_l;
   input        ecl_ecc_sel_rs2_m_l;
   input        ecl_ecc_sel_rs3_m_l;
   input        ecl_ecc_log_rs1_m;
   input        ecl_ecc_log_rs2_m;
   input        ecl_ecc_log_rs3_m;
 
   output       so;
   output       ecc_ecl_rs1_ce;
   output       ecc_ecl_rs1_ue;
   output       ecc_ecl_rs2_ce;
   output       ecc_ecl_rs2_ue;
   output       ecc_ecl_rs3_ce;
   output       ecc_ecl_rs3_ue;
 
   output [63:0] ecc_byp_ecc_result_m;
   output [6:0]  exu_ifu_err_synd_m;
 
   wire          clk;
   wire         sel_rs1_m;
   wire         sel_rs2_m;
   wire         sel_rs3_m;
   wire [7:0]   rs1_ecc_e;
   wire [6:0]   rs1_err_e;      // syndrome generated by checker
   wire [6:0]   rs1_err_m;      // syndrome generated by checker
   wire [7:0]   rs2_ecc_e;
   wire [6:0]   rs2_err_e;      // syndrome generated by checker
   wire [6:0]   rs2_err_m;      // syndrome generated by checker
   wire [7:0]   rs3_ecc_e;
   wire [6:0]   rs3_err_e;      // syndrome generated by checker
   wire [6:0]   rs3_err_m;      // syndrome generated by checker
   wire [6:0]   err_m;
   wire [63:0]  ecc_datain_m;
   wire [63:0]  byp_ecc_rcc_data_m;
   wire [63:0]  byp_alu_rs2_data_m;
   wire [63:0]  exu_lsu_rs3_data_m;
   wire [63:0]  error_data_m;
 
   assign       clk = rclk;
   // Pass along ecc parity bits from RF
   dff_s #(8) rs1_ecc_d2e(.din(byp_ecc_rs1_synd_d[7:0]), .clk(clk), .q(rs1_ecc_e[7:0]),
                      .se(se), .si(), .so());
   dff_s #(8) rs2_ecc_d2e(.din(byp_ecc_rs2_synd_d[7:0]), .clk(clk), .q(rs2_ecc_e[7:0]),
                      .se(se), .si(), .so());
   dff_s #(8) rs3_ecc_d2e(.din(byp_ecc_rs3_synd_d[7:0]), .clk(clk), .q(rs3_ecc_e[7:0]),
                      .se(se), .si(), .so());
 
   // Check the ecc for all 4 outputs from RF
   zzecc_exu_chkecc2 chk_rs1(.d(byp_ecc_rcc_data_e[63:0]),
                            .vld(ecl_ecc_rs1_use_rf_e),
                            .p(rs1_ecc_e[7:0]),
                            .q(rs1_err_e[6:0]),
                            .ce(ecc_ecl_rs1_ce), .ue(ecc_ecl_rs1_ue), .ne());
   zzecc_exu_chkecc2 chk_rs2(.d(byp_alu_rs2_data_e[63:0]),
                            .vld(ecl_ecc_rs2_use_rf_e),
                            .p(rs2_ecc_e[7:0]),
                            .q(rs2_err_e[6:0]),
                            .ce(ecc_ecl_rs2_ce), .ue(ecc_ecl_rs2_ue), .ne());
   zzecc_exu_chkecc2 chk_rs3(.d(byp_ecc_rs3_data_e[63:0]),
                                .vld(ecl_ecc_rs3_use_rf_e),
                                .p(rs3_ecc_e[7:0]),
                                .q(rs3_err_e[6:0]),
                                .ce(ecc_ecl_rs3_ce), .ue(ecc_ecl_rs3_ue), .ne());
 
   // Put results from checkers into flops
   dff_s #(7) rs1_err_e2m(.din(rs1_err_e[6:0]), .clk(clk), .q(rs1_err_m[6:0]),
                      .se(se), .si(), .so());
   dff_s #(7) rs2_err_e2m(.din(rs2_err_e[6:0]), .clk(clk), .q(rs2_err_m[6:0]),
                      .se(se), .si(), .so());
   dff_s #(7) rs3o_err_e2m(.din(rs3_err_e[6:0]), .clk(clk), .q(rs3_err_m[6:0]),
                      .se(se), .si(), .so());
 
   // Pass along RF data to M stage
   dff_s #(64) rs1_data_e2m(.din(byp_ecc_rcc_data_e[63:0]), .clk(clk), .q(byp_ecc_rcc_data_m[63:0]),
                        .se(se), .si(), .so());
   dff_s #(64) rs2_data_e2m(.din(byp_alu_rs2_data_e[63:0]), .clk(clk), .q(byp_alu_rs2_data_m[63:0]),
                        .se(se), .si(), .so());
   dff_s #(64) rs3_data_e2m(.din(byp_ecc_rs3_data_e[63:0]), .clk(clk),
                         .q(exu_lsu_rs3_data_m[63:0]),
                         .se(se), .si(), .so());
 
   // Mux between 3 different ports for syndrome and data
   assign       sel_rs1_m = ~ecl_ecc_sel_rs1_m_l;
   assign       sel_rs2_m = ~ecl_ecc_sel_rs2_m_l;
   assign       sel_rs3_m = ~ecl_ecc_sel_rs3_m_l;
   mux3ds #(7) syn_mux(.dout(err_m[6:0]),
                     .in0(rs1_err_m[6:0]),
                     .in1(rs2_err_m[6:0]),
                     .in2(rs3_err_m[6:0]),
                     .sel0(sel_rs1_m),
                     .sel1(sel_rs2_m),
                     .sel2(sel_rs3_m));
   mux3ds #(64) data_m_mux(.dout(ecc_datain_m[63:0]),
                     .in0(byp_ecc_rcc_data_m[63:0]),
                     .in1(byp_alu_rs2_data_m[63:0]),
                     .in2(exu_lsu_rs3_data_m[63:0]),
                     .sel0(sel_rs1_m),
                     .sel1(sel_rs2_m),
                     .sel2(sel_rs3_m));
 
   mux3ds #(7) syn_log_mux(.dout(exu_ifu_err_synd_m[6:0]),
                           .in0(rs1_err_m[6:0]),
                           .in1(rs2_err_m[6:0]),
                           .in2(rs3_err_m[6:0]),
                           .sel0(ecl_ecc_log_rs1_m),
                           .sel1(ecl_ecc_log_rs2_m),
                           .sel2(ecl_ecc_log_rs3_m));
   // Decode syndrome from checker
   sparc_exu_ecc_dec decode(.e          (error_data_m[63:0]),
                            .q          (err_m[6:0]));
   assign       ecc_byp_ecc_result_m[63:0] = ecc_datain_m[63:0] ^ error_data_m[63:0];
 
 
endmodule // sparc_exu_ecc

Line No.	Rev	Author	Line
1	2	dmitryr	`// ========== Copyright Header Begin ==========================================`
2			`//`
3			`// OpenSPARC T1 Processor File: sparc_exu_ecc.v`
4			`// Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved.`
5			`// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.`
6			`//`
7			`// The above named program is free software; you can redistribute it and/or`
8			`// modify it under the terms of the GNU General Public`
9			`// License version 2 as published by the Free Software Foundation.`
10			`//`
11			`// The above named program is distributed in the hope that it will be`
12			`// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of`
13			`// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
14			`// General Public License for more details.`
15			`//`
16			`// You should have received a copy of the GNU General Public`
17			`// License along with this work; if not, write to the Free Software`
18			`// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.`
19			`//`
20			`// ========== Copyright Header End ============================================`
21			`////////////////////////////////////////////////////////////////////////`
22			`/*`
23			`// Module Name: sparc_exu_ecc`
24			`// Description: This block performs the ecc check and correction as well as`
25			`// doing the w2 write port arbitration and the w2 ecc generation.`
26			`*/`
27			`module sparc_exu_ecc (/AUTOARG/`
28			`// Outputs`
29			`so, ecc_ecl_rs1_ce, ecc_ecl_rs1_ue, ecc_ecl_rs2_ce,`
30			`ecc_ecl_rs2_ue, ecc_ecl_rs3_ce, ecc_ecl_rs3_ue,`
31			`ecc_byp_ecc_result_m, exu_ifu_err_synd_m,`
32			`// Inputs`
33			`rclk, se, si, byp_ecc_rcc_data_e, ecl_ecc_rs1_use_rf_e,`
34			`byp_ecc_rs1_synd_d, byp_alu_rs2_data_e, ecl_ecc_rs2_use_rf_e,`
35			`byp_ecc_rs2_synd_d, byp_ecc_rs3_data_e, ecl_ecc_rs3_use_rf_e,`
36			`byp_ecc_rs3_synd_d, ecl_ecc_sel_rs1_m_l, ecl_ecc_sel_rs2_m_l,`
37			`ecl_ecc_sel_rs3_m_l, ecl_ecc_log_rs1_m, ecl_ecc_log_rs2_m,`
38			`ecl_ecc_log_rs3_m`
39			`) ;`
40			`input rclk;`
41			`input se;`
42			`input si;`
43			`input [63:0] byp_ecc_rcc_data_e;`
44			`input ecl_ecc_rs1_use_rf_e;`
45			`input [7:0] byp_ecc_rs1_synd_d;`
46			`input [63:0] byp_alu_rs2_data_e;`
47			`input ecl_ecc_rs2_use_rf_e;`
48			`input [7:0] byp_ecc_rs2_synd_d;`
49			`input [63:0] byp_ecc_rs3_data_e;`
50			`input ecl_ecc_rs3_use_rf_e;`
51			`input [7:0] byp_ecc_rs3_synd_d;`
52			`input ecl_ecc_sel_rs1_m_l;`
53			`input ecl_ecc_sel_rs2_m_l;`
54			`input ecl_ecc_sel_rs3_m_l;`
55			`input ecl_ecc_log_rs1_m;`
56			`input ecl_ecc_log_rs2_m;`
57			`input ecl_ecc_log_rs3_m;`
58
59			`output so;`
60			`output ecc_ecl_rs1_ce;`
61			`output ecc_ecl_rs1_ue;`
62			`output ecc_ecl_rs2_ce;`
63			`output ecc_ecl_rs2_ue;`
64			`output ecc_ecl_rs3_ce;`
65			`output ecc_ecl_rs3_ue;`
66
67			`output [63:0] ecc_byp_ecc_result_m;`
68			`output [6:0] exu_ifu_err_synd_m;`
69
70			`wire clk;`
71			`wire sel_rs1_m;`
72			`wire sel_rs2_m;`
73			`wire sel_rs3_m;`
74			`wire [7:0] rs1_ecc_e;`
75			`wire [6:0] rs1_err_e; // syndrome generated by checker`
76			`wire [6:0] rs1_err_m; // syndrome generated by checker`
77			`wire [7:0] rs2_ecc_e;`
78			`wire [6:0] rs2_err_e; // syndrome generated by checker`
79			`wire [6:0] rs2_err_m; // syndrome generated by checker`
80			`wire [7:0] rs3_ecc_e;`
81			`wire [6:0] rs3_err_e; // syndrome generated by checker`
82			`wire [6:0] rs3_err_m; // syndrome generated by checker`
83			`wire [6:0] err_m;`
84			`wire [63:0] ecc_datain_m;`
85			`wire [63:0] byp_ecc_rcc_data_m;`
86			`wire [63:0] byp_alu_rs2_data_m;`
87			`wire [63:0] exu_lsu_rs3_data_m;`
88			`wire [63:0] error_data_m;`
89
90			`assign clk = rclk;`
91			`// Pass along ecc parity bits from RF`
92			`dff_s #(8) rs1_ecc_d2e(.din(byp_ecc_rs1_synd_d[7:0]), .clk(clk), .q(rs1_ecc_e[7:0]),`
93			`.se(se), .si(), .so());`
94			`dff_s #(8) rs2_ecc_d2e(.din(byp_ecc_rs2_synd_d[7:0]), .clk(clk), .q(rs2_ecc_e[7:0]),`
95			`.se(se), .si(), .so());`
96			`dff_s #(8) rs3_ecc_d2e(.din(byp_ecc_rs3_synd_d[7:0]), .clk(clk), .q(rs3_ecc_e[7:0]),`
97			`.se(se), .si(), .so());`
98
99			`// Check the ecc for all 4 outputs from RF`
100			`zzecc_exu_chkecc2 chk_rs1(.d(byp_ecc_rcc_data_e[63:0]),`
101			`.vld(ecl_ecc_rs1_use_rf_e),`
102			`.p(rs1_ecc_e[7:0]),`
103			`.q(rs1_err_e[6:0]),`
104			`.ce(ecc_ecl_rs1_ce), .ue(ecc_ecl_rs1_ue), .ne());`
105			`zzecc_exu_chkecc2 chk_rs2(.d(byp_alu_rs2_data_e[63:0]),`
106			`.vld(ecl_ecc_rs2_use_rf_e),`
107			`.p(rs2_ecc_e[7:0]),`
108			`.q(rs2_err_e[6:0]),`
109			`.ce(ecc_ecl_rs2_ce), .ue(ecc_ecl_rs2_ue), .ne());`
110			`zzecc_exu_chkecc2 chk_rs3(.d(byp_ecc_rs3_data_e[63:0]),`
111			`.vld(ecl_ecc_rs3_use_rf_e),`
112			`.p(rs3_ecc_e[7:0]),`
113			`.q(rs3_err_e[6:0]),`
114			`.ce(ecc_ecl_rs3_ce), .ue(ecc_ecl_rs3_ue), .ne());`
115
116			`// Put results from checkers into flops`
117			`dff_s #(7) rs1_err_e2m(.din(rs1_err_e[6:0]), .clk(clk), .q(rs1_err_m[6:0]),`
118			`.se(se), .si(), .so());`
119			`dff_s #(7) rs2_err_e2m(.din(rs2_err_e[6:0]), .clk(clk), .q(rs2_err_m[6:0]),`
120			`.se(se), .si(), .so());`
121			`dff_s #(7) rs3o_err_e2m(.din(rs3_err_e[6:0]), .clk(clk), .q(rs3_err_m[6:0]),`
122			`.se(se), .si(), .so());`
123
124			`// Pass along RF data to M stage`
125			`dff_s #(64) rs1_data_e2m(.din(byp_ecc_rcc_data_e[63:0]), .clk(clk), .q(byp_ecc_rcc_data_m[63:0]),`
126			`.se(se), .si(), .so());`
127			`dff_s #(64) rs2_data_e2m(.din(byp_alu_rs2_data_e[63:0]), .clk(clk), .q(byp_alu_rs2_data_m[63:0]),`
128			`.se(se), .si(), .so());`
129			`dff_s #(64) rs3_data_e2m(.din(byp_ecc_rs3_data_e[63:0]), .clk(clk),`
130			`.q(exu_lsu_rs3_data_m[63:0]),`
131			`.se(se), .si(), .so());`
132
133			`// Mux between 3 different ports for syndrome and data`
134			`assign sel_rs1_m = ~ecl_ecc_sel_rs1_m_l;`
135			`assign sel_rs2_m = ~ecl_ecc_sel_rs2_m_l;`
136			`assign sel_rs3_m = ~ecl_ecc_sel_rs3_m_l;`
137			`mux3ds #(7) syn_mux(.dout(err_m[6:0]),`
138			`.in0(rs1_err_m[6:0]),`
139			`.in1(rs2_err_m[6:0]),`
140			`.in2(rs3_err_m[6:0]),`
141			`.sel0(sel_rs1_m),`
142			`.sel1(sel_rs2_m),`
143			`.sel2(sel_rs3_m));`
144			`mux3ds #(64) data_m_mux(.dout(ecc_datain_m[63:0]),`
145			`.in0(byp_ecc_rcc_data_m[63:0]),`
146			`.in1(byp_alu_rs2_data_m[63:0]),`
147			`.in2(exu_lsu_rs3_data_m[63:0]),`
148			`.sel0(sel_rs1_m),`
149			`.sel1(sel_rs2_m),`
150			`.sel2(sel_rs3_m));`
151
152			`mux3ds #(7) syn_log_mux(.dout(exu_ifu_err_synd_m[6:0]),`
153			`.in0(rs1_err_m[6:0]),`
154			`.in1(rs2_err_m[6:0]),`
155			`.in2(rs3_err_m[6:0]),`
156			`.sel0(ecl_ecc_log_rs1_m),`
157			`.sel1(ecl_ecc_log_rs2_m),`
158			`.sel2(ecl_ecc_log_rs3_m));`
159			`// Decode syndrome from checker`
160			`sparc_exu_ecc_dec decode(.e (error_data_m[63:0]),`
161			`.q (err_m[6:0]));`
162			`assign ecc_byp_ecc_result_m[63:0] = ecc_datain_m[63:0] ^ error_data_m[63:0];`
163
164
165			`endmodule // sparc_exu_ecc`

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[/] [sparc64soc/] [trunk/] [T1-CPU/] [exu/] [sparc_exu_ecc.v] - Blame information for rev 2