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// ========== Copyright Header Begin ==========================================
// 
// OpenSPARC T1 Processor File: sparc_exu_eclbyplog.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_eclbyplog
//      Description: This block implements the bypass logic for a single
//      operand.  It takes the destination registers of all
//      four forwarding sources and the rs.  It also has the
//      thread for the instruction in each stage and whether
//      the instruction writes to the register file.  It won't
//      bypass if rs =0.
*/
module sparc_exu_eclbyplog (/*AUTOARG*/
   // Outputs
   rs_sel_mux1_m, rs_sel_mux1_w, rs_sel_mux1_w2, rs_sel_mux1_other,
   rs_sel_mux2_usemux1, rs_sel_mux2_rf, rs_sel_mux2_e,
   rs_sel_mux2_ld, rs_sel_longmux_g2, rs_sel_longmux_w2,
   rs_sel_longmux_ldxa,
   // Inputs
   sehold, use_other, rs, rd_e, rd_m, ecl_irf_rd_w, ld_rd_g,
   wb_byplog_rd_w2, wb_byplog_rd_g2, tid_d, thr_match_de,
   thr_match_dm, ecl_irf_tid_w, ld_thr_match_dg, wb_byplog_tid_w2,
   ld_thr_match_dg2, ifu_exu_kill_e, wb_e, bypass_m,
   lsu_exu_dfill_vld_g, bypass_w, wb_byplog_wen_w2, wb_byplog_wen_g2,
   ecl_byp_ldxa_g
   ) ;
   input sehold;
   input use_other;
   input [4:0] rs;              // source register
   input [4:0] rd_e;            // destination regs for all stages
   input [4:0] rd_m;
   input [4:0] ecl_irf_rd_w;
   input [4:0] ld_rd_g;
   input [4:0] wb_byplog_rd_w2;
   input [4:0] wb_byplog_rd_g2;
   input [1:0] tid_d;
   input       thr_match_de;
   input       thr_match_dm;
   input [1:0] ecl_irf_tid_w;
   input       ld_thr_match_dg;
   input [1:0] wb_byplog_tid_w2;
   input       ld_thr_match_dg2;
   input       ifu_exu_kill_e;
   input       wb_e;            // whether each stage writes to reg
   input       bypass_m;            // file
   input       lsu_exu_dfill_vld_g;
   input       bypass_w;
   input       wb_byplog_wen_w2;
   input       wb_byplog_wen_g2;
   input       ecl_byp_ldxa_g;
 
   output      rs_sel_mux1_m;
   output      rs_sel_mux1_w;
   output      rs_sel_mux1_w2;
   output      rs_sel_mux1_other;
   output      rs_sel_mux2_usemux1;
   output      rs_sel_mux2_rf;
   output      rs_sel_mux2_e;
   output      rs_sel_mux2_ld;
   output      rs_sel_longmux_g2;
   output      rs_sel_longmux_w2;
   output      rs_sel_longmux_ldxa;
 
   wire        use_e, use_m, use_w, use_w2, use_rf, use_ld, use_ldxa;
   wire         match_e, match_m, match_w, match_w2, match_ld; // outputs of comparison
   wire         match_g2;
   wire         bypass;         // boolean that allows bypassing
   wire         rs_is_nonzero;
 
   // Don't bypass if rs == 0 or we are supposed to use other
   assign       rs_is_nonzero = rs[0]|rs[1]|rs[2]|rs[3]|rs[4];
   assign       bypass = rs_is_nonzero & ~use_other & ~sehold;
 
   // Normal pipe priority: E, M, W, RF
   // Ld priority: LD, RF
   // W2 priority: E, M, W2, RF
   assign       use_e = match_e & wb_e & ~ifu_exu_kill_e;
   assign       use_m = match_m & bypass_m & ~use_e;
   assign       use_w = match_w & bypass_w & ~use_m & ~use_e;
   assign       use_ld = match_ld & lsu_exu_dfill_vld_g & ~ecl_byp_ldxa_g;
   assign       use_ldxa = match_ld & ecl_byp_ldxa_g;
   assign       use_w2 = (match_w2 & wb_byplog_wen_w2 | match_g2 & wb_byplog_wen_g2) & ~use_e & ~use_m;
   assign       use_rf = ~use_w2 & ~use_w & ~use_m & ~use_e & ~use_ld & ~use_ldxa;
 
   // mux1[M, W, W2, OTHER(optional)]
   // mux2[mux1, RF, E, LD]
   assign       rs_sel_mux2_e = (use_e & bypass);
   assign       rs_sel_mux2_rf = ((use_rf | ~bypass) & ~(use_other & ~sehold));
   assign       rs_sel_mux2_ld = (use_ld & ~use_e & ~use_w & ~use_m & ~use_w2 & bypass);
   assign       rs_sel_mux2_usemux1 = (use_other & ~sehold) | (~rs_sel_mux1_other & ~use_e);
   assign rs_sel_mux1_other = ~((use_m | use_w | use_w2 | use_ldxa) & bypass);
   assign rs_sel_mux1_w2 = ((use_w2 | use_ldxa) & bypass);
   assign rs_sel_mux1_w = (use_w & ~use_w2 & ~use_ldxa & bypass);
   assign rs_sel_mux1_m = (use_m & ~use_w2 & ~use_ldxa & bypass);
 
   assign rs_sel_longmux_ldxa = use_ldxa;
   assign rs_sel_longmux_g2 = match_g2 & wb_byplog_wen_g2 & ~use_ldxa;
   assign rs_sel_longmux_w2 = ~use_ldxa & ~(match_g2 & wb_byplog_wen_g2);
 
   // Comparisons
   assign match_e = thr_match_de & (rs[4:0] == rd_e[4:0]);
//   sparc_exu_eclcomp7 e_comp7(.out(match_e), .in1({tid_d[1:0],rs[4:0]}),
//                              .in2({ecl_rml_tid_e[1:0],rd_e[4:0]}));
   assign match_m = thr_match_dm & (rs[4:0] == rd_m[4:0]);
//   sparc_exu_eclcomp7 m_comp7(.out(match_m), .in1({tid_d[1:0],rs[4:0]}),
//                              .in2({tid_m[1:0],rd_m[4:0]}));
   sparc_exu_eclcomp7 w_comp7(.out(match_w), .in1({tid_d[1:0],rs[4:0]}),
                              .in2({ecl_irf_tid_w[1:0],ecl_irf_rd_w[4:0]}));
   sparc_exu_eclcomp7 w2_comp7(.out(match_w2), .in1({tid_d[1:0],rs[4:0]}),
                               .in2({wb_byplog_tid_w2[1:0],wb_byplog_rd_w2[4:0]}));
   assign match_ld = ld_thr_match_dg & (rs[4:0] == ld_rd_g[4:0]);
   assign match_g2 = ld_thr_match_dg2 & (rs[4:0] == wb_byplog_rd_g2[4:0]);
/* -----\/----- EXCLUDED -----\/-----
   sparc_exu_eclcomp7 ld_comp7(.out(match_ld), .in1({tid_d[1:0],rs[4:0]}),
                               .in2({ld_tid_g[1:0],ld_rd_g[4:0]}));
   sparc_exu_eclcomp7 g2_comp7(.out(match_g2), .in1({tid_d[1:0],rs[4:0]}),
                               .in2({wb_byplog_tid_g2[1:0],wb_byplog_rd_g2[4:0]}));
 -----/\----- EXCLUDED -----/\----- */
 
 
endmodule // sparc_exu_eclbyplog

Line No.	Rev	Author	Line
1	2	dmitryr	`// ========== Copyright Header Begin ==========================================`
2			`//`
3			`// OpenSPARC T1 Processor File: sparc_exu_eclbyplog.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_eclbyplog`
24			`// Description: This block implements the bypass logic for a single`
25			`// operand. It takes the destination registers of all`
26			`// four forwarding sources and the rs. It also has the`
27			`// thread for the instruction in each stage and whether`
28			`// the instruction writes to the register file. It won't`
29			`// bypass if rs =0.`
30			`*/`
31			`module sparc_exu_eclbyplog (/AUTOARG/`
32			`// Outputs`
33			`rs_sel_mux1_m, rs_sel_mux1_w, rs_sel_mux1_w2, rs_sel_mux1_other,`
34			`rs_sel_mux2_usemux1, rs_sel_mux2_rf, rs_sel_mux2_e,`
35			`rs_sel_mux2_ld, rs_sel_longmux_g2, rs_sel_longmux_w2,`
36			`rs_sel_longmux_ldxa,`
37			`// Inputs`
38			`sehold, use_other, rs, rd_e, rd_m, ecl_irf_rd_w, ld_rd_g,`
39			`wb_byplog_rd_w2, wb_byplog_rd_g2, tid_d, thr_match_de,`
40			`thr_match_dm, ecl_irf_tid_w, ld_thr_match_dg, wb_byplog_tid_w2,`
41			`ld_thr_match_dg2, ifu_exu_kill_e, wb_e, bypass_m,`
42			`lsu_exu_dfill_vld_g, bypass_w, wb_byplog_wen_w2, wb_byplog_wen_g2,`
43			`ecl_byp_ldxa_g`
44			`) ;`
45			`input sehold;`
46			`input use_other;`
47			`input [4:0] rs; // source register`
48			`input [4:0] rd_e; // destination regs for all stages`
49			`input [4:0] rd_m;`
50			`input [4:0] ecl_irf_rd_w;`
51			`input [4:0] ld_rd_g;`
52			`input [4:0] wb_byplog_rd_w2;`
53			`input [4:0] wb_byplog_rd_g2;`
54			`input [1:0] tid_d;`
55			`input thr_match_de;`
56			`input thr_match_dm;`
57			`input [1:0] ecl_irf_tid_w;`
58			`input ld_thr_match_dg;`
59			`input [1:0] wb_byplog_tid_w2;`
60			`input ld_thr_match_dg2;`
61			`input ifu_exu_kill_e;`
62			`input wb_e; // whether each stage writes to reg`
63			`input bypass_m; // file`
64			`input lsu_exu_dfill_vld_g;`
65			`input bypass_w;`
66			`input wb_byplog_wen_w2;`
67			`input wb_byplog_wen_g2;`
68			`input ecl_byp_ldxa_g;`
69
70			`output rs_sel_mux1_m;`
71			`output rs_sel_mux1_w;`
72			`output rs_sel_mux1_w2;`
73			`output rs_sel_mux1_other;`
74			`output rs_sel_mux2_usemux1;`
75			`output rs_sel_mux2_rf;`
76			`output rs_sel_mux2_e;`
77			`output rs_sel_mux2_ld;`
78			`output rs_sel_longmux_g2;`
79			`output rs_sel_longmux_w2;`
80			`output rs_sel_longmux_ldxa;`
81
82			`wire use_e, use_m, use_w, use_w2, use_rf, use_ld, use_ldxa;`
83			`wire match_e, match_m, match_w, match_w2, match_ld; // outputs of comparison`
84			`wire match_g2;`
85			`wire bypass; // boolean that allows bypassing`
86			`wire rs_is_nonzero;`
87
88			`// Don't bypass if rs == 0 or we are supposed to use other`
89			`assign rs_is_nonzero = rs[0]\|rs[1]\|rs[2]\|rs[3]\|rs[4];`
90			`assign bypass = rs_is_nonzero & ~use_other & ~sehold;`
91
92			`// Normal pipe priority: E, M, W, RF`
93			`// Ld priority: LD, RF`
94			`// W2 priority: E, M, W2, RF`
95			`assign use_e = match_e & wb_e & ~ifu_exu_kill_e;`
96			`assign use_m = match_m & bypass_m & ~use_e;`
97			`assign use_w = match_w & bypass_w & ~use_m & ~use_e;`
98			`assign use_ld = match_ld & lsu_exu_dfill_vld_g & ~ecl_byp_ldxa_g;`
99			`assign use_ldxa = match_ld & ecl_byp_ldxa_g;`
100			`assign use_w2 = (match_w2 & wb_byplog_wen_w2 \| match_g2 & wb_byplog_wen_g2) & ~use_e & ~use_m;`
101			`assign use_rf = ~use_w2 & ~use_w & ~use_m & ~use_e & ~use_ld & ~use_ldxa;`
102
103			`// mux1[M, W, W2, OTHER(optional)]`
104			`// mux2[mux1, RF, E, LD]`
105			`assign rs_sel_mux2_e = (use_e & bypass);`
106			`assign rs_sel_mux2_rf = ((use_rf \| ~bypass) & ~(use_other & ~sehold));`
107			`assign rs_sel_mux2_ld = (use_ld & ~use_e & ~use_w & ~use_m & ~use_w2 & bypass);`
108			`assign rs_sel_mux2_usemux1 = (use_other & ~sehold) \| (~rs_sel_mux1_other & ~use_e);`
109			`assign rs_sel_mux1_other = ~((use_m \| use_w \| use_w2 \| use_ldxa) & bypass);`
110			`assign rs_sel_mux1_w2 = ((use_w2 \| use_ldxa) & bypass);`
111			`assign rs_sel_mux1_w = (use_w & ~use_w2 & ~use_ldxa & bypass);`
112			`assign rs_sel_mux1_m = (use_m & ~use_w2 & ~use_ldxa & bypass);`
113
114			`assign rs_sel_longmux_ldxa = use_ldxa;`
115			`assign rs_sel_longmux_g2 = match_g2 & wb_byplog_wen_g2 & ~use_ldxa;`
116			`assign rs_sel_longmux_w2 = ~use_ldxa & ~(match_g2 & wb_byplog_wen_g2);`
117
118			`// Comparisons`
119			`assign match_e = thr_match_de & (rs[4:0] == rd_e[4:0]);`
120			`// sparc_exu_eclcomp7 e_comp7(.out(match_e), .in1({tid_d[1:0],rs[4:0]}),`
121			`// .in2({ecl_rml_tid_e[1:0],rd_e[4:0]}));`
122			`assign match_m = thr_match_dm & (rs[4:0] == rd_m[4:0]);`
123			`// sparc_exu_eclcomp7 m_comp7(.out(match_m), .in1({tid_d[1:0],rs[4:0]}),`
124			`// .in2({tid_m[1:0],rd_m[4:0]}));`
125			`sparc_exu_eclcomp7 w_comp7(.out(match_w), .in1({tid_d[1:0],rs[4:0]}),`
126			`.in2({ecl_irf_tid_w[1:0],ecl_irf_rd_w[4:0]}));`
127			`sparc_exu_eclcomp7 w2_comp7(.out(match_w2), .in1({tid_d[1:0],rs[4:0]}),`
128			`.in2({wb_byplog_tid_w2[1:0],wb_byplog_rd_w2[4:0]}));`
129			`assign match_ld = ld_thr_match_dg & (rs[4:0] == ld_rd_g[4:0]);`
130			`assign match_g2 = ld_thr_match_dg2 & (rs[4:0] == wb_byplog_rd_g2[4:0]);`
131			`/* -----\/----- EXCLUDED -----\/-----`
132			`sparc_exu_eclcomp7 ld_comp7(.out(match_ld), .in1({tid_d[1:0],rs[4:0]}),`
133			`.in2({ld_tid_g[1:0],ld_rd_g[4:0]}));`
134			`sparc_exu_eclcomp7 g2_comp7(.out(match_g2), .in1({tid_d[1:0],rs[4:0]}),`
135			`.in2({wb_byplog_tid_g2[1:0],wb_byplog_rd_g2[4:0]}));`
136			`-----/\----- EXCLUDED -----/\----- */`
137
138
139			`endmodule // sparc_exu_eclbyplog`

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