// ========== Copyright Header Begin ========================================== // // OpenSPARC T2 Processor File: n2_com_64x132async_dp_cust.v // Copyright (C) 1995-2007 Sun Microsystems, Inc. All Rights Reserved // 4150 Network Circle, Santa Clara, California 95054, U.S.A. // // * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; version 2 of the License. // // This 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 program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // For the avoidance of doubt, and except that if any non-GPL license // choice is available it will apply instead, Sun elects to use only // the General Public License version 2 (GPLv2) at this time for any // software where a choice of GPL license versions is made // available with the language indicating that GPLv2 or any later version // may be used, or where a choice of which version of the GPL is applied is // otherwise unspecified. // // Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, // CA 95054 USA or visit www.sun.com if you need additional information or // have any questions. // // ========== Copyright Header End ============================================ module n2_com_64x132async_dp_cust ( // clocks, scan wr_clk, rd_clk, wr_pce, rd_pce, scan_in, tcu_se_scancollar_in, tcu_scan_en, tcu_pce_ov, tcu_aclk, tcu_bclk, tcu_array_wr_inhibit, bist_clk_mux_sel , bist_clk , scan_out, // ram control rd_addr, wr_addr, rd, wr_en, din, dout ); // clocks, scan input wr_clk; // write clock input rd_clk; // read clock input wr_pce ; // Write Clk Enable for pwr saving input rd_pce ; // Read Clk Enable for pwr saving input scan_in; // input tcu_se_scancollar_in; // scan enable to l1clk hdrs input tcu_scan_en; // scan enable to and_clk hdrs input tcu_pce_ov; // scan signals input tcu_aclk; // input tcu_bclk; // input tcu_array_wr_inhibit; // Array write/read inhibit during scan input bist_clk_mux_sel ; // Clk Hdr Mux Select for MBIST input bist_clk ; // BIST Clk, connect to pcl2clk output scan_out; // input [5:0] wr_addr; // wr port address in input wr_en; // wr port enable input [131:0] din; // data in input [5:0] rd_addr; // rd port address in input rd; // rd port enable output [131:0] dout; // rd port data out //------------------------------------------------------------------------ // scan chain connections //------------------------------------------------------------------------ wire [5:0] rd_addr_so ; wire [5:0] wr_addr_so ; wire rd_so ; wire wr_en_so ; wire [131:1] din_so ; //------------------------------------------------------------------------ // clock headers //------------------------------------------------------------------------ wire wr_l1clk ; wire siclk ; wire soclk ; wire rd_l1clk ; wire wr_array_l1clk ; // Free running write l1clk wire rd_and_l1clk ; wire rd_lce_0, rd_lce_1 ; wire wr_lce_0, wr_lce_1 ; assign siclk = tcu_aclk ; assign soclk = tcu_bclk ; cl_mc1_bistl1hdr_8x wr_collar_clk_hdr_mux ( .l2clk (wr_clk) , .se (tcu_se_scancollar_in) , .clksel (bist_clk_mux_sel) , .bistclk(bist_clk) , .lce (wr_lce_0), .l1clk (wr_l1clk) ); cl_mc1_bistlatch_4x wr_collar_clk_hdr_latch ( .l2clk (wr_clk) , .pce (wr_pce) , .pce_ov (tcu_pce_ov) , .lce (wr_lce_0) ); // L1 Hdr for Free Running Write L1 clk, which allows writing into the array // in low phase, when tcu_se_scancollar_in is high, which pulls the wr_l1clk // high. Similar to rd_and_l1clk, wr_array_l1clk is free running as long // as tcu_scan_en is not asserted. cl_mc1_bistl1hdr_8x wr_array_clk_hdr_mux ( .l2clk (wr_clk) , .se (tcu_scan_en) , .clksel (bist_clk_mux_sel) , .bistclk(bist_clk) , .lce (wr_lce_1), .l1clk (wr_array_l1clk) ); cl_mc1_bistlatch_4x wr_array_clk_hdr_latch ( .l2clk (wr_clk) , .pce (wr_pce) , .pce_ov (tcu_pce_ov) , .lce (wr_lce_1) ); cl_mc1_bistl1hdr_8x rd_collar_clk_hdr_mux ( .l2clk (rd_clk) , .se (tcu_se_scancollar_in) , .clksel (bist_clk_mux_sel) , .bistclk(bist_clk) , .lce (rd_lce_0), .l1clk (rd_l1clk) ); cl_mc1_bistlatch_4x rd_collar_clk_hdr_latch ( .l2clk (rd_clk) , .pce (rd_pce) , .pce_ov (tcu_pce_ov) , .lce (rd_lce_0) ); cl_mc1_bistl1hdr_8x rd_and_clk_hdr_mux ( .l2clk (rd_clk) , .se (tcu_scan_en) , .clksel (bist_clk_mux_sel) , .bistclk(bist_clk) , .lce (rd_lce_1), .l1clk (rd_and_l1clk) ); cl_mc1_bistlatch_4x rd_and_clk_hdr_latch ( .l2clk (rd_clk) , .pce (rd_pce) , .pce_ov (tcu_pce_ov) , .lce (rd_lce_1) ); //------------------------------------------------------------------------ // input flops //------------------------------------------------------------------------ wire [5:0] rd_addr_array ; wire [5:0] wr_addr_array ; wire rd_en_d1 ; wire wr_en_d1 ; wire rd_en_array ; wire wr_en_array ; wire [131:0] din_array ; cl_a1_msff_4x ff_din_131 ( .si(scan_in), .so(din_so[131]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[131]), .q(din_array[131]) ); cl_a1_msff_4x ff_din_130 ( .si(din_so[131]), .so(din_so[130]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[130]), .q(din_array[130]) ); cl_a1_msff_4x ff_din_129 ( .si(din_so[128]), .so(din_so[129]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[129]), .q(din_array[129]) ); cl_a1_msff_4x ff_din_128 ( .si(din_so[130]), .so(din_so[128]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[128]), .q(din_array[128]) ); cl_a1_msff_4x ff_din_127 ( .si(din_so[129]), .so(din_so[127]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[127]), .q(din_array[127]) ); cl_a1_msff_4x ff_din_126 ( .si(din_so[127]), .so(din_so[126]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[126]), .q(din_array[126]) ); cl_a1_msff_4x ff_din_125 ( .si(din_so[124]), .so(din_so[125]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[125]), .q(din_array[125]) ); cl_a1_msff_4x ff_din_124 ( .si(din_so[126]), .so(din_so[124]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[124]), .q(din_array[124]) ); cl_a1_msff_4x ff_din_123 ( .si(din_so[125]), .so(din_so[123]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[123]), .q(din_array[123]) ); cl_a1_msff_4x ff_din_122 ( .si(din_so[123]), .so(din_so[122]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[122]), .q(din_array[122]) ); cl_a1_msff_4x ff_din_121 ( .si(din_so[120]), .so(din_so[121]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[121]), .q(din_array[121]) ); cl_a1_msff_4x ff_din_120 ( .si(din_so[122]), .so(din_so[120]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[120]), .q(din_array[120]) ); cl_a1_msff_4x ff_din_119 ( .si(din_so[121]), .so(din_so[119]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[119]), .q(din_array[119]) ); cl_a1_msff_4x ff_din_118 ( .si(din_so[119]), .so(din_so[118]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[118]), .q(din_array[118]) ); cl_a1_msff_4x ff_din_117 ( .si(din_so[116]), .so(din_so[117]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[117]), .q(din_array[117]) ); cl_a1_msff_4x ff_din_116 ( .si(din_so[118]), .so(din_so[116]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[116]), .q(din_array[116]) ); cl_a1_msff_4x ff_din_115 ( .si(din_so[117]), .so(din_so[115]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[115]), .q(din_array[115]) ); cl_a1_msff_4x ff_din_114 ( .si(din_so[115]), .so(din_so[114]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[114]), .q(din_array[114]) ); cl_a1_msff_4x ff_din_113 ( .si(din_so[112]), .so(din_so[113]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[113]), .q(din_array[113]) ); cl_a1_msff_4x ff_din_112 ( .si(din_so[114]), .so(din_so[112]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[112]), .q(din_array[112]) ); cl_a1_msff_4x ff_din_111 ( .si(din_so[113]), .so(din_so[111]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[111]), .q(din_array[111]) ); cl_a1_msff_4x ff_din_110 ( .si(din_so[111]), .so(din_so[110]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[110]), .q(din_array[110]) ); cl_a1_msff_4x ff_din_109 ( .si(din_so[108]), .so(din_so[109]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[109]), .q(din_array[109]) ); cl_a1_msff_4x ff_din_108 ( .si(din_so[110]), .so(din_so[108]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[108]), .q(din_array[108]) ); cl_a1_msff_4x ff_din_107 ( .si(din_so[109]), .so(din_so[107]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[107]), .q(din_array[107]) ); cl_a1_msff_4x ff_din_106 ( .si(din_so[107]), .so(din_so[106]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[106]), .q(din_array[106]) ); cl_a1_msff_4x ff_din_105 ( .si(din_so[104]), .so(din_so[105]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[105]), .q(din_array[105]) ); cl_a1_msff_4x ff_din_104 ( .si(din_so[106]), .so(din_so[104]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[104]), .q(din_array[104]) ); cl_a1_msff_4x ff_din_103 ( .si(din_so[105]), .so(din_so[103]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[103]), .q(din_array[103]) ); cl_a1_msff_4x ff_din_102 ( .si(din_so[103]), .so(din_so[102]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[102]), .q(din_array[102]) ); cl_a1_msff_4x ff_din_101 ( .si(din_so[100]), .so(din_so[101]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[101]), .q(din_array[101]) ); cl_a1_msff_4x ff_din_100 ( .si(din_so[102]), .so(din_so[100]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[100]), .q(din_array[100]) ); cl_a1_msff_4x ff_din_99 ( .si(din_so[101]), .so(din_so[99]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[99]), .q(din_array[99]) ); cl_a1_msff_4x ff_din_98 ( .si(din_so[99]), .so(din_so[98]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[98]), .q(din_array[98]) ); cl_a1_msff_4x ff_din_97 ( .si(din_so[96]), .so(din_so[97]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[97]), .q(din_array[97]) ); cl_a1_msff_4x ff_din_96 ( .si(din_so[98]), .so(din_so[96]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[96]), .q(din_array[96]) ); cl_a1_msff_4x ff_din_95 ( .si(din_so[97]), .so(din_so[95]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[95]), .q(din_array[95]) ); cl_a1_msff_4x ff_din_94 ( .si(din_so[95]), .so(din_so[94]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[94]), .q(din_array[94]) ); cl_a1_msff_4x ff_din_93 ( .si(din_so[92]), .so(din_so[93]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[93]), .q(din_array[93]) ); cl_a1_msff_4x ff_din_92 ( .si(din_so[94]), .so(din_so[92]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[92]), .q(din_array[92]) ); cl_a1_msff_4x ff_din_91 ( .si(din_so[93]), .so(din_so[91]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[91]), .q(din_array[91]) ); cl_a1_msff_4x ff_din_90 ( .si(din_so[91]), .so(din_so[90]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[90]), .q(din_array[90]) ); cl_a1_msff_4x ff_din_89 ( .si(din_so[88]), .so(din_so[89]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[89]), .q(din_array[89]) ); cl_a1_msff_4x ff_din_88 ( .si(din_so[90]), .so(din_so[88]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[88]), .q(din_array[88]) ); cl_a1_msff_4x ff_din_87 ( .si(din_so[89]), .so(din_so[87]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[87]), .q(din_array[87]) ); cl_a1_msff_4x ff_din_86 ( .si(din_so[87]), .so(din_so[86]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[86]), .q(din_array[86]) ); cl_a1_msff_4x ff_din_85 ( .si(din_so[84]), .so(din_so[85]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[85]), .q(din_array[85]) ); cl_a1_msff_4x ff_din_84 ( .si(din_so[86]), .so(din_so[84]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[84]), .q(din_array[84]) ); cl_a1_msff_4x ff_din_83 ( .si(din_so[85]), .so(din_so[83]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[83]), .q(din_array[83]) ); cl_a1_msff_4x ff_din_82 ( .si(din_so[83]), .so(din_so[82]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[82]), .q(din_array[82]) ); cl_a1_msff_4x ff_din_81 ( .si(din_so[80]), .so(din_so[81]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[81]), .q(din_array[81]) ); cl_a1_msff_4x ff_din_80 ( .si(din_so[82]), .so(din_so[80]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[80]), .q(din_array[80]) ); cl_a1_msff_4x ff_din_79 ( .si(din_so[81]), .so(din_so[79]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[79]), .q(din_array[79]) ); cl_a1_msff_4x ff_din_78 ( .si(din_so[79]), .so(din_so[78]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[78]), .q(din_array[78]) ); cl_a1_msff_4x ff_din_77 ( .si(din_so[76]), .so(din_so[77]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[77]), .q(din_array[77]) ); cl_a1_msff_4x ff_din_76 ( .si(din_so[78]), .so(din_so[76]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[76]), .q(din_array[76]) ); cl_a1_msff_4x ff_din_75 ( .si(din_so[77]), .so(din_so[75]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[75]), .q(din_array[75]) ); cl_a1_msff_4x ff_din_74 ( .si(din_so[75]), .so(din_so[74]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[74]), .q(din_array[74]) ); cl_a1_msff_4x ff_din_73 ( .si(din_so[72]), .so(din_so[73]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[73]), .q(din_array[73]) ); cl_a1_msff_4x ff_din_72 ( .si(din_so[74]), .so(din_so[72]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[72]), .q(din_array[72]) ); cl_a1_msff_4x ff_din_71 ( .si(din_so[73]), .so(din_so[71]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[71]), .q(din_array[71]) ); cl_a1_msff_4x ff_din_70 ( .si(din_so[71]), .so(din_so[70]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[70]), .q(din_array[70]) ); cl_a1_msff_4x ff_din_69 ( .si(din_so[68]), .so(din_so[69]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[69]), .q(din_array[69]) ); cl_a1_msff_4x ff_din_68 ( .si(din_so[70]), .so(din_so[68]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[68]), .q(din_array[68]) ); cl_a1_msff_4x ff_din_67 ( .si(din_so[69]), .so(din_so[67]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[67]), .q(din_array[67]) ); cl_a1_msff_4x ff_din_66 ( .si(din_so[67]), .so(din_so[66]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[66]), .q(din_array[66]) ); cl_mc1_sram_msff_mo_8x ff_rd ( .si(din_so[66]), .so(rd_so), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd), .mq(rd_en_d1) ); cl_mc1_sram_msff_mo_8x ff_rd_addr_5 ( .si(rd_so), .so(rd_addr_so[5]), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd_addr[5]), .mq(rd_addr_array[5]) ); cl_mc1_sram_msff_mo_8x ff_rd_addr_4 ( .si(rd_addr_so[5]), .so(rd_addr_so[4]), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd_addr[4]), .mq(rd_addr_array[4]) ); cl_mc1_sram_msff_mo_8x ff_rd_addr_3 ( .si(rd_addr_so[4]), .so(rd_addr_so[3]), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd_addr[3]), .mq(rd_addr_array[3]) ); cl_mc1_sram_msff_mo_8x ff_rd_addr_2 ( .si(rd_addr_so[3]), .so(rd_addr_so[2]), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd_addr[2]), .mq(rd_addr_array[2]) ); cl_mc1_sram_msff_mo_8x ff_rd_addr_1 ( .si(rd_addr_so[2]), .so(rd_addr_so[1]), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd_addr[1]), .mq(rd_addr_array[1]) ); cl_mc1_sram_msff_mo_8x ff_rd_addr_0 ( .si(rd_addr_so[1]), .so(rd_addr_so[0]), .l1clk(rd_l1clk), .and_clk(rd_and_l1clk), .siclk(siclk), .soclk(soclk), .d(rd_addr[0]), .mq(rd_addr_array[0]) ); cl_a1_msff_4x ff_wr_en ( .si(rd_addr_so[0]), .so(wr_en_so), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_en), .q(wr_en_d1) ); cl_a1_msff_4x ff_wr_addr_5 ( .si(wr_en_so), .so(wr_addr_so[5]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_addr[5]), .q(wr_addr_array[5]) ); cl_a1_msff_4x ff_wr_addr_4 ( .si(wr_addr_so[5]), .so(wr_addr_so[4]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_addr[4]), .q(wr_addr_array[4]) ); cl_a1_msff_4x ff_wr_addr_3 ( .si(wr_addr_so[4]), .so(wr_addr_so[3]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_addr[3]), .q(wr_addr_array[3]) ); cl_a1_msff_4x ff_wr_addr_2 ( .si(wr_addr_so[3]), .so(wr_addr_so[2]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_addr[2]), .q(wr_addr_array[2]) ); cl_a1_msff_4x ff_wr_addr_1 ( .si(wr_addr_so[2]), .so(wr_addr_so[1]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_addr[1]), .q(wr_addr_array[1]) ); cl_a1_msff_4x ff_wr_addr_0 ( .si(wr_addr_so[1]), .so(wr_addr_so[0]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(wr_addr[0]), .q(wr_addr_array[0]) ); cl_a1_msff_4x ff_din_65 ( .si(wr_addr_so[0]), .so(din_so[65]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[65]), .q(din_array[65]) ); cl_a1_msff_4x ff_din_64 ( .si(din_so[65]), .so(din_so[64]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[64]), .q(din_array[64]) ); cl_a1_msff_4x ff_din_63 ( .si(din_so[62]), .so(din_so[63]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[63]), .q(din_array[63]) ); cl_a1_msff_4x ff_din_62 ( .si(din_so[64]), .so(din_so[62]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[62]), .q(din_array[62]) ); cl_a1_msff_4x ff_din_61 ( .si(din_so[63]), .so(din_so[61]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[61]), .q(din_array[61]) ); cl_a1_msff_4x ff_din_60 ( .si(din_so[61]), .so(din_so[60]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[60]), .q(din_array[60]) ); cl_a1_msff_4x ff_din_59 ( .si(din_so[58]), .so(din_so[59]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[59]), .q(din_array[59]) ); cl_a1_msff_4x ff_din_58 ( .si(din_so[60]), .so(din_so[58]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[58]), .q(din_array[58]) ); cl_a1_msff_4x ff_din_57 ( .si(din_so[59]), .so(din_so[57]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[57]), .q(din_array[57]) ); cl_a1_msff_4x ff_din_56 ( .si(din_so[57]), .so(din_so[56]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[56]), .q(din_array[56]) ); cl_a1_msff_4x ff_din_55 ( .si(din_so[54]), .so(din_so[55]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[55]), .q(din_array[55]) ); cl_a1_msff_4x ff_din_54 ( .si(din_so[56]), .so(din_so[54]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[54]), .q(din_array[54]) ); cl_a1_msff_4x ff_din_53 ( .si(din_so[55]), .so(din_so[53]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[53]), .q(din_array[53]) ); cl_a1_msff_4x ff_din_52 ( .si(din_so[53]), .so(din_so[52]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[52]), .q(din_array[52]) ); cl_a1_msff_4x ff_din_51 ( .si(din_so[50]), .so(din_so[51]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[51]), .q(din_array[51]) ); cl_a1_msff_4x ff_din_50 ( .si(din_so[52]), .so(din_so[50]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[50]), .q(din_array[50]) ); cl_a1_msff_4x ff_din_49 ( .si(din_so[51]), .so(din_so[49]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[49]), .q(din_array[49]) ); cl_a1_msff_4x ff_din_48 ( .si(din_so[49]), .so(din_so[48]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[48]), .q(din_array[48]) ); cl_a1_msff_4x ff_din_47 ( .si(din_so[46]), .so(din_so[47]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[47]), .q(din_array[47]) ); cl_a1_msff_4x ff_din_46 ( .si(din_so[48]), .so(din_so[46]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[46]), .q(din_array[46]) ); cl_a1_msff_4x ff_din_45 ( .si(din_so[47]), .so(din_so[45]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[45]), .q(din_array[45]) ); cl_a1_msff_4x ff_din_44 ( .si(din_so[45]), .so(din_so[44]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[44]), .q(din_array[44]) ); cl_a1_msff_4x ff_din_43 ( .si(din_so[42]), .so(din_so[43]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[43]), .q(din_array[43]) ); cl_a1_msff_4x ff_din_42 ( .si(din_so[44]), .so(din_so[42]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[42]), .q(din_array[42]) ); cl_a1_msff_4x ff_din_41 ( .si(din_so[43]), .so(din_so[41]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[41]), .q(din_array[41]) ); cl_a1_msff_4x ff_din_40 ( .si(din_so[41]), .so(din_so[40]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[40]), .q(din_array[40]) ); cl_a1_msff_4x ff_din_39 ( .si(din_so[38]), .so(din_so[39]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[39]), .q(din_array[39]) ); cl_a1_msff_4x ff_din_38 ( .si(din_so[40]), .so(din_so[38]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[38]), .q(din_array[38]) ); cl_a1_msff_4x ff_din_37 ( .si(din_so[39]), .so(din_so[37]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[37]), .q(din_array[37]) ); cl_a1_msff_4x ff_din_36 ( .si(din_so[37]), .so(din_so[36]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[36]), .q(din_array[36]) ); cl_a1_msff_4x ff_din_35 ( .si(din_so[34]), .so(din_so[35]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[35]), .q(din_array[35]) ); cl_a1_msff_4x ff_din_34 ( .si(din_so[36]), .so(din_so[34]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[34]), .q(din_array[34]) ); cl_a1_msff_4x ff_din_33 ( .si(din_so[35]), .so(din_so[33]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[33]), .q(din_array[33]) ); cl_a1_msff_4x ff_din_32 ( .si(din_so[33]), .so(din_so[32]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[32]), .q(din_array[32]) ); cl_a1_msff_4x ff_din_31 ( .si(din_so[30]), .so(din_so[31]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[31]), .q(din_array[31]) ); cl_a1_msff_4x ff_din_30 ( .si(din_so[32]), .so(din_so[30]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[30]), .q(din_array[30]) ); cl_a1_msff_4x ff_din_29 ( .si(din_so[31]), .so(din_so[29]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[29]), .q(din_array[29]) ); cl_a1_msff_4x ff_din_28 ( .si(din_so[29]), .so(din_so[28]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[28]), .q(din_array[28]) ); cl_a1_msff_4x ff_din_27 ( .si(din_so[26]), .so(din_so[27]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[27]), .q(din_array[27]) ); cl_a1_msff_4x ff_din_26 ( .si(din_so[28]), .so(din_so[26]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[26]), .q(din_array[26]) ); cl_a1_msff_4x ff_din_25 ( .si(din_so[27]), .so(din_so[25]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[25]), .q(din_array[25]) ); cl_a1_msff_4x ff_din_24 ( .si(din_so[25]), .so(din_so[24]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[24]), .q(din_array[24]) ); cl_a1_msff_4x ff_din_23 ( .si(din_so[22]), .so(din_so[23]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[23]), .q(din_array[23]) ); cl_a1_msff_4x ff_din_22 ( .si(din_so[24]), .so(din_so[22]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[22]), .q(din_array[22]) ); cl_a1_msff_4x ff_din_21 ( .si(din_so[23]), .so(din_so[21]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[21]), .q(din_array[21]) ); cl_a1_msff_4x ff_din_20 ( .si(din_so[21]), .so(din_so[20]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[20]), .q(din_array[20]) ); cl_a1_msff_4x ff_din_19 ( .si(din_so[18]), .so(din_so[19]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[19]), .q(din_array[19]) ); cl_a1_msff_4x ff_din_18 ( .si(din_so[20]), .so(din_so[18]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[18]), .q(din_array[18]) ); cl_a1_msff_4x ff_din_17 ( .si(din_so[19]), .so(din_so[17]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[17]), .q(din_array[17]) ); cl_a1_msff_4x ff_din_16 ( .si(din_so[17]), .so(din_so[16]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[16]), .q(din_array[16]) ); cl_a1_msff_4x ff_din_15 ( .si(din_so[14]), .so(din_so[15]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[15]), .q(din_array[15]) ); cl_a1_msff_4x ff_din_14 ( .si(din_so[16]), .so(din_so[14]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[14]), .q(din_array[14]) ); cl_a1_msff_4x ff_din_13 ( .si(din_so[15]), .so(din_so[13]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[13]), .q(din_array[13]) ); cl_a1_msff_4x ff_din_12 ( .si(din_so[13]), .so(din_so[12]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[12]), .q(din_array[12]) ); cl_a1_msff_4x ff_din_11 ( .si(din_so[10]), .so(din_so[11]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[11]), .q(din_array[11]) ); cl_a1_msff_4x ff_din_10 ( .si(din_so[12]), .so(din_so[10]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[10]), .q(din_array[10]) ); cl_a1_msff_4x ff_din_9 ( .si(din_so[11]), .so(din_so[9]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[9]), .q(din_array[9]) ); cl_a1_msff_4x ff_din_8 ( .si(din_so[9]), .so(din_so[8]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[8]), .q(din_array[8]) ); cl_a1_msff_4x ff_din_7 ( .si(din_so[6]), .so(din_so[7]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[7]), .q(din_array[7]) ); cl_a1_msff_4x ff_din_6 ( .si(din_so[8]), .so(din_so[6]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[6]), .q(din_array[6]) ); cl_a1_msff_4x ff_din_5 ( .si(din_so[7]), .so(din_so[5]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[5]), .q(din_array[5]) ); cl_a1_msff_4x ff_din_4 ( .si(din_so[5]), .so(din_so[4]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[4]), .q(din_array[4]) ); cl_a1_msff_4x ff_din_3 ( .si(din_so[2]), .so(din_so[3]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[3]), .q(din_array[3]) ); cl_a1_msff_4x ff_din_2 ( .si(din_so[4]), .so(din_so[2]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[2]), .q(din_array[2]) ); cl_a1_msff_4x ff_din_1 ( .si(din_so[3]), .so(din_so[1]), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[1]), .q(din_array[1]) ); cl_a1_msff_4x ff_din_0 ( .si(din_so[1]), .so(scan_out), .l1clk(wr_l1clk), .siclk(siclk), .soclk(soclk), .d(din[0]), .q(din_array[0]) ); //------------------------------------------------------------------------ // instantiate the array //------------------------------------------------------------------------ n2_com_64x132async_dp_cust_array ptl_hb_async_ram( .wr_clk (wr_array_l1clk), .wr_addr_array (wr_addr_array[5:0]), .wr_en_array (wr_en_array), .din_array (din_array[131:0]), .rd_clk (rd_and_l1clk), .rd_addr_array (rd_addr_array[5:0]), .rd_en_array (rd_en_array), .dout_array (dout[131:0]) ); assign wr_en_array = wr_en_d1 & ! tcu_array_wr_inhibit ; assign rd_en_array = rd_en_d1 & ! tcu_array_wr_inhibit ; endmodule //n2_com_64x132async_dp_cust