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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: sparc_exu_byp_eccgen.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 ============================================ `ifdef SIMPLY_RISC_TWEAKS `define SIMPLY_RISC_SCANIN .si(0) `else `define SIMPLY_RISC_SCANIN .si() `endif //////////////////////////////////////////////////////////////////////////////// // Module Name: zzecc_exu_byp_eccgen2 // Description: This block generates the 8 bit ecc for a 64 bit input // It is split over 2 cycles to accomodate the timing requirements of // the other blocks. module sparc_exu_byp_eccgen ( p, d, msk, clk, se); input [63:0] d; input [7:0] msk; input clk; input se; output [7:0] p; wire [7:0] p0_g; wire [7:0] p0_w; wire [7:0] p1_g; wire [7:0] p1_w; wire [7:0] p2_g; wire [7:0] p2_w; wire [7:0] p3_g; wire [7:0] p3_w; wire [3:0] p4_g; wire [3:0] p4_w; wire [1:0] p5_g; wire [1:0] p5_w; wire [1:0] p6_g; wire [1:0] p6_w; wire [7:0] p7_g; wire [7:0] p7_w; wire msk_w5; wire msk_w4; // Flops to store intermediate results dff_s Imsk_5_ ( .q(msk_w5), .din(msk[5]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Imsk_4_ ( .q(msk_w4), .din(msk[4]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_7_ ( .q(p0_w[7]), .din(p0_g[7]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_6_ ( .q(p0_w[6]), .din(p0_g[6]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_5_ ( .q(p0_w[5]), .din(p0_g[5]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_4_ ( .q(p0_w[4]), .din(p0_g[4]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_3_ ( .q(p0_w[3]), .din(p0_g[3]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_2_ ( .q(p0_w[2]), .din(p0_g[2]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_1_ ( .q(p0_w[1]), .din(p0_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip0ff_0_ ( .q(p0_w[0]), .din(p0_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_7_ ( .q(p1_w[7]), .din(p1_g[7]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_6_ ( .q(p1_w[6]), .din(p1_g[6]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_5_ ( .q(p1_w[5]), .din(p1_g[5]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_4_ ( .q(p1_w[4]), .din(p1_g[4]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_3_ ( .q(p1_w[3]), .din(p1_g[3]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_2_ ( .q(p1_w[2]), .din(p1_g[2]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_1_ ( .q(p1_w[1]), .din(p1_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip1ff_0_ ( .q(p1_w[0]), .din(p1_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_7_ ( .q(p2_w[7]), .din(p2_g[7]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_6_ ( .q(p2_w[6]), .din(p2_g[6]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_5_ ( .q(p2_w[5]), .din(p2_g[5]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_4_ ( .q(p2_w[4]), .din(p2_g[4]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_3_ ( .q(p2_w[3]), .din(p2_g[3]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_2_ ( .q(p2_w[2]), .din(p2_g[2]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_1_ ( .q(p2_w[1]), .din(p2_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip2ff_0_ ( .q(p2_w[0]), .din(p2_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_7_ ( .q(p3_w[7]), .din(p3_g[7]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_6_ ( .q(p3_w[6]), .din(p3_g[6]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_5_ ( .q(p3_w[5]), .din(p3_g[5]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_4_ ( .q(p3_w[4]), .din(p3_g[4]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_3_ ( .q(p3_w[3]), .din(p3_g[3]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_2_ ( .q(p3_w[2]), .din(p3_g[2]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_1_ ( .q(p3_w[1]), .din(p3_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip3ff_0_ ( .q(p3_w[0]), .din(p3_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip4ff_3_ ( .q(p4_w[3]), .din(p4_g[3]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip4ff_2_ ( .q(p4_w[2]), .din(p4_g[2]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip4ff_1_ ( .q(p4_w[1]), .din(p4_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip4ff_0_ ( .q(p4_w[0]), .din(p4_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip5ff_1_ ( .q(p5_w[1]), .din(p5_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip5ff_0_ ( .q(p5_w[0]), .din(p5_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip6ff_1_ ( .q(p6_w[1]), .din(p6_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip6ff_0_ ( .q(p6_w[0]), .din(p6_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_7_ ( .q(p7_w[7]), .din(p7_g[7]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_6_ ( .q(p7_w[6]), .din(p7_g[6]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_5_ ( .q(p7_w[5]), .din(p7_g[5]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_4_ ( .q(p7_w[4]), .din(p7_g[4]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_3_ ( .q(p7_w[3]), .din(p7_g[3]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_2_ ( .q(p7_w[2]), .din(p7_g[2]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_1_ ( .q(p7_w[1]), .din(p7_g[1]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); dff_s Ip7ff_0_ ( .q(p7_w[0]), .din(p7_g[0]), .clk(clk), .se(se), `SIMPLY_RISC_SCANIN, .so()); // p[0] assign p[0] = p0_w[0] ^ p0_w[1] ^ p0_w[2] ^ p0_w[3] ^ p0_w[4] ^ p0_w[5] ^ p0_w[6] ^ p0_w[7]; assign p0_g[0] = d[0] ^ d[1] ^ d[3] ^ d[4]; assign p0_g[1] = d[6] ^ d[8] ^ d[10] ^ d[11]; assign p0_g[2] = d[13] ^ d[15] ^ d[17] ^ d[19]; assign p0_g[3] = d[21] ^ d[23] ^ d[25] ^ d[26]; assign p0_g[4] = d[28] ^ d[30] ^ d[32] ^ d[34]; assign p0_g[5] = d[36] ^ d[38] ^ d[40] ^ d[42]; assign p0_g[6] = d[44] ^ d[46] ^ d[48] ^ d[50]; assign p0_g[7] = d[52] ^ d[54] ^ d[56] ^ d[57] ^ d[59] ^ d[61] ^ d[63] ^ msk[0]; // p[1] assign p[1] = p1_w[0] ^ p1_w[1] ^ p1_w[2] ^ p1_w[3] ^ p1_w[4] ^ p1_w[5] ^ p1_w[6] ^ p1_w[7]; assign p1_g[0] = d[0] ^ d[2] ^ d[3] ^ d[5]; assign p1_g[1] = d[6] ^ d[9] ^ d[10] ^ d[12]; assign p1_g[2] = d[13] ^ d[16] ^ d[17] ^ d[20]; assign p1_g[3] = d[21] ^ d[24] ^ d[25] ^ d[27]; assign p1_g[4] = d[28] ^ d[31] ^ d[32] ^ d[35]; assign p1_g[5] = d[36] ^ d[39] ^ d[40] ^ d[43]; assign p1_g[6] = d[44] ^ d[47] ^ d[48] ^ d[51]; assign p1_g[7] = d[52] ^ d[55] ^ d[56] ^ d[58] ^ d[59] ^ d[62] ^ d[63] ^ msk[1]; // p[2] assign p[2] = p2_w[0] ^ p2_w[1] ^ p2_w[2] ^ p2_w[3] ^ p2_w[4] ^ p2_w[5] ^ p2_w[6] ^ p2_w[7]; assign p2_g[0] = d[1] ^ d[2] ^ d[3] ^ d[7]; assign p2_g[1] = d[8] ^ d[9] ^ d[10] ^ d[14]; assign p2_g[2] = d[15] ^ d[16] ^ d[17] ^ d[22]; assign p2_g[3] = d[23] ^ d[24] ^ d[25] ^ d[29]; assign p2_g[4] = d[30] ^ d[31] ^ d[32] ^ d[37]; assign p2_g[5] = d[38] ^ d[39] ^ d[40] ^ d[45]; assign p2_g[6] = d[46] ^ d[47] ^ d[48] ^ d[53]; assign p2_g[7] = d[54] ^ d[55] ^ d[56] ^ d[60] ^ d[61] ^ d[62] ^ d[63] ^ msk[2]; // p[3] assign p[3] = p3_w[0] ^ p3_w[1] ^ p3_w[2] ^ p3_w[3] ^ p3_w[4] ^ p3_w[5] ^ p3_w[6] ^ p3_w[7]; assign p3_g[0] = d[4] ^ d[5] ^ d[6] ^ d[7]; assign p3_g[1] = d[8] ^ d[9] ^ d[10] ^ d[18]; assign p3_g[2] = d[19] ^ d[20] ^ d[21] ^ d[22]; assign p3_g[3] = d[23] ^ d[24] ^ d[25] ^ d[33]; assign p3_g[4] = d[34] ^ d[35] ^ d[36] ^ d[37]; assign p3_g[5] = d[38] ^ d[39] ^ d[40] ^ d[49]; assign p3_g[6] = d[50] ^ d[51] ^ d[52] ^ d[53]; assign p3_g[7] = d[54] ^ d[55] ^ d[56] ^ msk[3]; // p[4] assign p[4] = p4_w[0] ^ p4_w[1] ^ p4_w[2] ^ p4_w[3] ^ msk_w4; assign p4_g[0] = d[11] ^ d[12] ^ d[13] ^ d[14] ^ d[15] ^ d[16] ^ d[17] ^ d[18]; assign p4_g[1] = d[19] ^ d[20] ^ d[21] ^ d[22] ^ d[23] ^ d[24] ^ d[25] ^ d[41]; assign p4_g[2] = d[42] ^ d[43] ^ d[44] ^ d[45] ^ d[46] ^ d[47] ^ d[48] ^ d[49]; assign p4_g[3] = d[50] ^ d[51] ^ d[52] ^ d[53] ^ d[54] ^ d[55] ^ d[56]; // p[5] assign p[5] = p5_w[0] ^ p5_w[1] ^ p4_w[2] ^ p4_w[3] ^ msk_w5; assign p5_g[0] = d[26] ^ d[27] ^ d[28] ^ d[29] ^ d[30] ^ d[31] ^ d[32] ^ d[33]; assign p5_g[1] = d[34] ^ d[35] ^ d[36] ^ d[37] ^ d[38] ^ d[39] ^ d[40] ^ d[41]; /* -----\/----- EXCLUDED -----\/----- assign p5_g[2] = (d[42] ^ d[43] ^ d[44] ^ d[45] ^ d[46] ^ d[47] ^ d[48] ^ d[49]); assign p5_g[3] = (d[50] ^ d[51] ^ d[52] ^ d[53] ^ d[54] ^ d[55] ^ d[56]); -----/\----- EXCLUDED -----/\----- */ // p[6] assign p[6] = p6_w[0] ^ p6_w[1]; assign p6_g[0] = d[57] ^ d[58] ^ d[59] ^ d[60]; assign p6_g[1] = d[61] ^ d[62] ^ d[63] ^ msk[6]; // p[7] assign p[7] = p7_w[0] ^ p7_w[1] ^ p7_w[2] ^ p7_w[3] ^ p7_w[4] ^ p7_w[5] ^ p7_w[6] ^ p7_w[7]; assign p7_g[0] = d[0] ^ d[1] ^ d[2] ^ d[4]; assign p7_g[1] = d[5] ^ d[7] ^ d[10] ^ d[11]; assign p7_g[2] = d[12] ^ d[14] ^ d[17] ^ d[18]; assign p7_g[3] = d[21] ^ d[23] ^ d[24] ^ d[26]; assign p7_g[4] = d[27] ^ d[29] ^ d[32] ^ d[33]; assign p7_g[5] = d[36] ^ d[38] ^ d[39] ^ d[41]; assign p7_g[6] = d[44] ^ d[46] ^ d[47] ^ d[50]; assign p7_g[7] = d[51] ^ d[53] ^ d[56] ^ d[57] ^ d[58] ^ d[60] ^ d[63] ^ msk[7]; endmodule // zzecc_exu_byp_eccgen3