// ========== Copyright Header Begin ========================================== // // OpenSPARC T2 Processor File: spc_rep1_dp.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 spc_rep1_dp ( exu_address0_e, exu_address1_e, exu_address0_e_rep0, exu_address1_e_rep0, exu_address0_e_rep01, exu_address1_e_rep01, fgu_exu_result_fx5, fgu_exu_result_fx5_rep0, fgu_exu_result_fx5_rep1, lsu_exu_ld_data_b, lsu_exu_ld_data_b_rep00, lsu_exu_ld_data_b_rep01, fgu_cecc_fx2, fgu_uecc_fx2, fgu_cecc_fx2_rep1, fgu_uecc_fx2_rep1, pce_ov, spc_aclk, spc_bclk, spc_aclk_wmr, lb_scan_en, scan_in, tcu_pce_ov, tcu_aclk, tcu_bclk, tcu_dectest, tcu_muxtest, tcu_scan_en, tcu_array_wr_inhibit, tcu_se_scancollar_in, tcu_se_scancollar_out, rst_wmr_protect, dmo_dcmuxctl, hver_mask_minor_rev, scan_out, tcu_shscan_pce_ov, tcu_shscan_aclk, tcu_shscan_bclk, tcu_shscan_scan_in, tcu_shscan_scan_en, spc_shscan_scan_out, cluster_arst_l, tcu_spc_mbist_scan_in, tcu_spc_mbist_start_ff, spc_mbist_fail, spc_mbist_done, spc_tcu_mbist_scan_out, tcu_spc_lbist_start, tcu_spc_lbist_scan_in, tcu_spc_lbist_pgm, tcu_spc_test_mode, spc_tcu_lbist_done, spc_tcu_lbist_scan_out, scan_in_buf, tcu_pce_ov_buf, tcu_aclk_buf, tcu_bclk_buf, tcu_dectest_buf, tcu_muxtest_buf, tcu_scan_en_buf, tcu_array_wr_inhibit_buf, tcu_se_scancollar_in_buf, tcu_se_scancollar_out_buf, rst_wmr_protect_buf, dmo_dcmuxctl_buf, hver_mask_minor_rev_buf, scan_out_buf, tcu_shscan_pce_ov_buf, tcu_shscan_aclk_buf, tcu_shscan_bclk_buf, tcu_shscan_scan_in_buf, tcu_shscan_scan_en_buf, spc_shscan_scan_out_buf, cluster_arst_l_buf, tcu_spc_mbist_scan_in_buf, tcu_spc_mbist_start_buf0, spc_mbist_fail_ff, spc_mbist_done_ff, spc_tcu_mbist_scan_out_buf, tcu_spc_lbist_start_buf, tcu_spc_lbist_scan_in_buf, tcu_spc_lbist_pgm_buf, tcu_spc_test_mode_buf, lb_lbist_done, spc_tcu_lbist_scan_out_buf, ftu_instr_0_c, ftu_instr_1_c, ftu_instr_2_c, ftu_instr_3_c, ftu_instr_exceptions_c, ftu_instr_0_c_rep0, ftu_instr_0_c_rep1, ftu_instr_0_c_rep2, ftu_instr_0_c_rep3, ftu_instr_1_c_rep0, ftu_instr_1_c_rep1, ftu_instr_1_c_rep2, ftu_instr_1_c_rep3, ftu_instr_2_c_rep0, ftu_instr_2_c_rep1, ftu_instr_2_c_rep2, ftu_instr_2_c_rep3, ftu_instr_3_c_rep0, ftu_instr_3_c_rep1, ftu_instr_3_c_rep2, ftu_instr_3_c_rep3, ftu_instr_0_exceptions_c_rep0, ftu_instr_0_exceptions_c_rep1, ftu_instr_0_exceptions_c_rep2, ftu_instr_0_exceptions_c_rep3, ftu_instr_1_exceptions_c_rep0, ftu_instr_1_exceptions_c_rep1, ftu_instr_1_exceptions_c_rep2, ftu_instr_1_exceptions_c_rep3, ftu_instr_2_exceptions_c_rep0, ftu_instr_2_exceptions_c_rep1, ftu_instr_2_exceptions_c_rep2, ftu_instr_2_exceptions_c_rep3, ftu_instr_3_exceptions_c_rep0, ftu_instr_3_exceptions_c_rep1, ftu_instr_3_exceptions_c_rep2, ftu_instr_3_exceptions_c_rep3, pce_ov_tl, spc_aclk_tl, spc_bclk_tl, spc_aclk_wmr_tl, lb_scan_en_tl, pce_ov_tr, spc_aclk_tr, spc_bclk_tr, spc_aclk_wmr_tr, lb_scan_en_tr, pce_ov_bl, spc_aclk_bl, spc_bclk_bl, spc_aclk_wmr_bl, lb_scan_en_bl, pce_ov_br, spc_aclk_br, spc_bclk_br, spc_aclk_wmr_br, lb_scan_en_br, dec_spu_grant_d, dec_spu_grant_d_rep0); wire fgu_cecc_fx2_rep0; wire fgu_uecc_fx2_rep0; input [47:0] exu_address0_e; input [47:0] exu_address1_e; output [47:0] exu_address0_e_rep0; output [47:0] exu_address1_e_rep0; output [47:0] exu_address0_e_rep01; output [47:0] exu_address1_e_rep01; input [63:0] fgu_exu_result_fx5; output [63:0] fgu_exu_result_fx5_rep0; output [63:0] fgu_exu_result_fx5_rep1; input [63:0] lsu_exu_ld_data_b; output [63:0] lsu_exu_ld_data_b_rep00; output [63:0] lsu_exu_ld_data_b_rep01; input fgu_cecc_fx2; input fgu_uecc_fx2; output fgu_cecc_fx2_rep1; output fgu_uecc_fx2_rep1; // high-fanout nets that need buffering input pce_ov; // from cluster header input spc_aclk; // from cluster header input spc_bclk; // from cluster header input spc_aclk_wmr; // from cluster header input lb_scan_en; // from spc_lb_ctl // Next few are primary I/O's needing buffers and/or flops input [1:0] scan_in; input tcu_pce_ov; input tcu_aclk; input tcu_bclk; input tcu_dectest; input tcu_muxtest; input tcu_scan_en; input tcu_array_wr_inhibit; input tcu_se_scancollar_in; input tcu_se_scancollar_out; input rst_wmr_protect; input dmo_dcmuxctl; input [3:0] hver_mask_minor_rev; output [1:0] scan_out; // shadow scan signals input tcu_shscan_pce_ov; input tcu_shscan_aclk; input tcu_shscan_bclk; input tcu_shscan_scan_in; input tcu_shscan_scan_en; output spc_shscan_scan_out; // From RST input cluster_arst_l; // MBIST signals input tcu_spc_mbist_scan_in; input tcu_spc_mbist_start_ff; // input flop + buffer output spc_mbist_fail; // flop + output buffer output spc_mbist_done; // flop + output buffer output spc_tcu_mbist_scan_out; // Logic BIST signals input tcu_spc_lbist_start; // buffer input tcu_spc_lbist_scan_in; input tcu_spc_lbist_pgm; input tcu_spc_test_mode; output spc_tcu_lbist_done; // output buffer output spc_tcu_lbist_scan_out; // and the I/O from the internals of SPC for these signals output [1:0] scan_in_buf; output tcu_pce_ov_buf; output tcu_aclk_buf; output tcu_bclk_buf; output tcu_dectest_buf; output tcu_muxtest_buf; output tcu_scan_en_buf; output tcu_array_wr_inhibit_buf; output tcu_se_scancollar_in_buf; output tcu_se_scancollar_out_buf; output rst_wmr_protect_buf; output dmo_dcmuxctl_buf; output [3:0] hver_mask_minor_rev_buf; input [1:0] scan_out_buf; // shadow scan signals output tcu_shscan_pce_ov_buf; output tcu_shscan_aclk_buf; output tcu_shscan_bclk_buf; output tcu_shscan_scan_in_buf; output tcu_shscan_scan_en_buf; input spc_shscan_scan_out_buf; // From RST output cluster_arst_l_buf; // MBIST signals output tcu_spc_mbist_scan_in_buf; output tcu_spc_mbist_start_buf0; input spc_mbist_fail_ff; input spc_mbist_done_ff; input spc_tcu_mbist_scan_out_buf; // Logic BIST signals output tcu_spc_lbist_start_buf; output tcu_spc_lbist_scan_in_buf; output tcu_spc_lbist_pgm_buf; output tcu_spc_test_mode_buf; input lb_lbist_done; input spc_tcu_lbist_scan_out_buf; ///////////////////////////////////////////////////////// // Added the following for ifu_ftu // ///////////////////////////////////////////////////////// input [32:0] ftu_instr_0_c ; input [32:0] ftu_instr_1_c ; input [32:0] ftu_instr_2_c ; input [32:0] ftu_instr_3_c ; input [4:0] ftu_instr_exceptions_c; output [32:0] ftu_instr_0_c_rep0 ; output [32:0] ftu_instr_0_c_rep1 ; output [32:0] ftu_instr_0_c_rep2 ; output [32:0] ftu_instr_0_c_rep3 ; output [32:0] ftu_instr_1_c_rep0 ; output [32:0] ftu_instr_1_c_rep1 ; output [32:0] ftu_instr_1_c_rep2 ; output [32:0] ftu_instr_1_c_rep3 ; output [32:0] ftu_instr_2_c_rep0 ; output [32:0] ftu_instr_2_c_rep1 ; output [32:0] ftu_instr_2_c_rep2 ; output [32:0] ftu_instr_2_c_rep3 ; output [32:0] ftu_instr_3_c_rep0 ; output [32:0] ftu_instr_3_c_rep1 ; output [32:0] ftu_instr_3_c_rep2 ; output [32:0] ftu_instr_3_c_rep3 ; output [4:0] ftu_instr_0_exceptions_c_rep0; output [4:0] ftu_instr_0_exceptions_c_rep1; output [4:0] ftu_instr_0_exceptions_c_rep2; output [4:0] ftu_instr_0_exceptions_c_rep3; output [4:0] ftu_instr_1_exceptions_c_rep0; output [4:0] ftu_instr_1_exceptions_c_rep1; output [4:0] ftu_instr_1_exceptions_c_rep2; output [4:0] ftu_instr_1_exceptions_c_rep3; output [4:0] ftu_instr_2_exceptions_c_rep0; output [4:0] ftu_instr_2_exceptions_c_rep1; output [4:0] ftu_instr_2_exceptions_c_rep2; output [4:0] ftu_instr_2_exceptions_c_rep3; output [4:0] ftu_instr_3_exceptions_c_rep0; output [4:0] ftu_instr_3_exceptions_c_rep1; output [4:0] ftu_instr_3_exceptions_c_rep2; output [4:0] ftu_instr_3_exceptions_c_rep3; output pce_ov_tl; output spc_aclk_tl; output spc_bclk_tl; output spc_aclk_wmr_tl; output lb_scan_en_tl; output pce_ov_tr; output spc_aclk_tr; output spc_bclk_tr; output spc_aclk_wmr_tr; output lb_scan_en_tr; output pce_ov_bl; output spc_aclk_bl; output spc_bclk_bl; output spc_aclk_wmr_bl; output lb_scan_en_bl; output pce_ov_br; output spc_aclk_br; output spc_bclk_br; output spc_aclk_wmr_br; output lb_scan_en_br; ////////////// END ifu_ftu ///////////////////////////////////// // dec -> spu_mct_ctl input dec_spu_grant_d; output dec_spu_grant_d_rep0; spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__vertical_1__width_37 chip_io_rep0 ( .din ({scan_in[1:0], tcu_pce_ov, tcu_aclk, tcu_bclk, tcu_dectest, tcu_muxtest, tcu_scan_en, tcu_array_wr_inhibit, tcu_se_scancollar_in, tcu_se_scancollar_out, rst_wmr_protect, scan_out_buf[1:0], tcu_shscan_pce_ov, tcu_shscan_aclk, tcu_shscan_bclk, tcu_shscan_scan_in, tcu_shscan_scan_en, spc_shscan_scan_out_buf, cluster_arst_l, tcu_spc_mbist_scan_in, tcu_spc_mbist_start_ff, spc_mbist_fail_ff, spc_mbist_done_ff, spc_tcu_mbist_scan_out_buf, tcu_spc_lbist_start, tcu_spc_lbist_scan_in, tcu_spc_lbist_pgm, tcu_spc_test_mode, lb_lbist_done, spc_tcu_lbist_scan_out_buf, dmo_dcmuxctl, hver_mask_minor_rev[3:0]}), .dout ({scan_in_buf[1:0], tcu_pce_ov_buf, tcu_aclk_buf, tcu_bclk_buf, tcu_dectest_buf, tcu_muxtest_buf, tcu_scan_en_buf, tcu_array_wr_inhibit_buf, tcu_se_scancollar_in_buf, tcu_se_scancollar_out_buf, rst_wmr_protect_buf, scan_out[1:0], tcu_shscan_pce_ov_buf, tcu_shscan_aclk_buf, tcu_shscan_bclk_buf, tcu_shscan_scan_in_buf, tcu_shscan_scan_en_buf, spc_shscan_scan_out, cluster_arst_l_buf, tcu_spc_mbist_scan_in_buf, tcu_spc_mbist_start_buf0, spc_mbist_fail, spc_mbist_done, spc_tcu_mbist_scan_out, tcu_spc_lbist_start_buf, tcu_spc_lbist_scan_in_buf, tcu_spc_lbist_pgm_buf, tcu_spc_test_mode_buf, spc_tcu_lbist_done, spc_tcu_lbist_scan_out, dmo_dcmuxctl_buf, hver_mask_minor_rev_buf[3:0]}) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_1 spu_grant_rep0 ( .din (dec_spu_grant_d), .dout(dec_spu_grant_d_rep0) ); // end dec -> spu_mct_ctl // high-fanout buffering spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_5 hf_tl_rep0 ( .din ({pce_ov,spc_aclk,spc_bclk,spc_aclk_wmr,lb_scan_en}), .dout({pce_ov_tl,spc_aclk_tl,spc_bclk_tl,spc_aclk_wmr_tl,lb_scan_en_tl}) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_5 hf_tr_rep0 ( .din ({pce_ov,spc_aclk,spc_bclk,spc_aclk_wmr,lb_scan_en}), .dout({pce_ov_tr,spc_aclk_tr,spc_bclk_tr,spc_aclk_wmr_tr,lb_scan_en_tr}) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_5 hf_br_rep0 ( .din ({pce_ov,spc_aclk,spc_bclk,spc_aclk_wmr,lb_scan_en}), .dout({pce_ov_br,spc_aclk_br,spc_bclk_br,spc_aclk_wmr_br,lb_scan_en_br}) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_5 hf_bl_rep0 ( .din ({pce_ov,spc_aclk,spc_bclk,spc_aclk_wmr,lb_scan_en}), .dout({pce_ov_bl,spc_aclk_bl,spc_bclk_bl,spc_aclk_wmr_bl,lb_scan_en_bl}) ); /////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////// // Added the following for ifu_ftu // // All exception buses are the same and interchangeable// // The exception buses are connected to the closest // // buffer. // ///////////////////////////////////////////////////////// spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_0_rep0 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_0_c[32:0] } ), .dout({ftu_instr_0_exceptions_c_rep0[4:0] , ftu_instr_0_c_rep0[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_0_rep1 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_0_c[32:0] } ), .dout({ftu_instr_0_exceptions_c_rep1[4:0] , ftu_instr_0_c_rep1[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_0_rep2 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_0_c[32:0] } ), .dout({ftu_instr_0_exceptions_c_rep2[4:0] , ftu_instr_0_c_rep2[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_0_rep3 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_0_c[32:0] } ), .dout({ftu_instr_0_exceptions_c_rep3[4:0] , ftu_instr_0_c_rep3[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_1_rep0 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_1_c[32:0] } ), .dout({ftu_instr_1_exceptions_c_rep0[4:0] , ftu_instr_1_c_rep0[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_1_rep1 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_1_c[32:0] } ), .dout({ftu_instr_1_exceptions_c_rep1[4:0] , ftu_instr_1_c_rep1[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_1_rep2 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_1_c[32:0] } ), .dout({ftu_instr_1_exceptions_c_rep2[4:0] , ftu_instr_1_c_rep2[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_1_rep3 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_1_c[32:0] } ), .dout({ftu_instr_1_exceptions_c_rep3[4:0] , ftu_instr_1_c_rep3[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_2_rep0 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_2_c[32:0] } ), .dout({ftu_instr_2_exceptions_c_rep0[4:0] , ftu_instr_2_c_rep0[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_2_rep1 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_2_c[32:0] } ), .dout({ftu_instr_2_exceptions_c_rep1[4:0] , ftu_instr_2_c_rep1[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_2_rep2 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_2_c[32:0] } ), .dout({ftu_instr_2_exceptions_c_rep2[4:0] , ftu_instr_2_c_rep2[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_2_rep3 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_2_c[32:0] } ), .dout({ftu_instr_2_exceptions_c_rep3[4:0] , ftu_instr_2_c_rep3[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_3_rep0 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_3_c[32:0] } ), .dout({ftu_instr_3_exceptions_c_rep0[4:0] , ftu_instr_3_c_rep0[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_3_rep1 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_3_c[32:0] } ), .dout({ftu_instr_3_exceptions_c_rep1[4:0] , ftu_instr_3_c_rep1[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_3_rep2 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_3_c[32:0] } ), .dout({ftu_instr_3_exceptions_c_rep2[4:0] , ftu_instr_3_c_rep2[32:0]}) ); spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ftu_instr_3_rep3 ( .din ({ftu_instr_exceptions_c[4:0], ftu_instr_3_c[32:0] } ), .dout({ftu_instr_3_exceptions_c_rep3[4:0] , ftu_instr_3_c_rep3[32:0]}) ); ////////////// END ifu_ftu ///////////////////////////////////// // exu_address; buffer off the less critical ifu/tlu load to // improve timing on the path to lsu spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_64c__width_48 i_exu_address0_e_rep0 ( .din (exu_address0_e[47:0]), .dout(exu_address0_e_rep0[47:0]) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_50c__width_48 i_exu_address0_e_rep01 ( .din (exu_address0_e_rep0[47:0]), .dout(exu_address0_e_rep01[47:0]) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_64c__width_48 i_exu_address1_e_rep0 ( .din (exu_address1_e[47:0]), .dout(exu_address1_e_rep0[47:0]) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_50c__width_48 i_exu_address1_e_rep01 ( .din (exu_address1_e_rep0[47:0]), .dout(exu_address1_e_rep01[47:0]) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__top_lsb__vertical_1__width_32 i_fgu_exu_result_fx5_rep0a ( .din (fgu_exu_result_fx5[31:0]), .dout (fgu_exu_result_fx5_rep0[31:0]) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__top_lsb__vertical_1__width_32 i_fgu_exu_result_fx5_rep0b ( .din (fgu_exu_result_fx5[63:32]), .dout (fgu_exu_result_fx5_rep0[63:32]) ); spc_rep1_dpbuff_macro__dbuff_16x__rep_1__stack_none__top_lsb__vertical_1__width_32 i_fgu_exu_result_fx5_rep1a ( .din (fgu_exu_result_fx5_rep0[31:0]), .dout (fgu_exu_result_fx5_rep1[31:0]) ); spc_rep1_dpbuff_macro__dbuff_16x__rep_1__stack_none__top_lsb__vertical_1__width_32 i_fgu_exu_result_fx5_rep1b ( .din (fgu_exu_result_fx5_rep0[63:32]), .dout (fgu_exu_result_fx5_rep1[63:32]) ); // lsu_exu_ld_data_b spc_rep1_dpbuff_macro__dbuff_16x__rep_1__stack_72c__width_64 i_lsu_exu_ld_data_rep00 ( .din (lsu_exu_ld_data_b[63:0]), .dout(lsu_exu_ld_data_b_rep00[63:0]) ); spc_rep1_dpbuff_macro__dbuff_16x__rep_1__stack_72c__width_64 i_lsu_exu_ld_data_rep01 ( .din (lsu_exu_ld_data_b[63:0]), .dout(lsu_exu_ld_data_b_rep01[63:0]) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_2 i_fgu_ecc_fx2_rep0 ( .din ({fgu_cecc_fx2, fgu_uecc_fx2 }), .dout({fgu_cecc_fx2_rep0, fgu_uecc_fx2_rep0}) ); spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__vertical_1__width_2 i_fgu_ecc_fx2_rep1 ( .din ({fgu_cecc_fx2_rep0, fgu_uecc_fx2_rep0}), .dout({fgu_cecc_fx2_rep1, fgu_uecc_fx2_rep1}) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__vertical_1__width_37 ( din, dout); input [36:0] din; output [36:0] dout; buff #(37) d0_0 ( .in(din[36:0]), .out(dout[36:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_1 ( din, dout); input [0:0] din; output [0:0] dout; buff #(1) d0_0 ( .in(din[0:0]), .out(dout[0:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_5 ( din, dout); input [4:0] din; output [4:0] dout; buff #(5) d0_0 ( .in(din[4:0]), .out(dout[4:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_48x__rep_1__stack_38c__width_38 ( din, dout); input [37:0] din; output [37:0] dout; buff #(38) d0_0 ( .in(din[37:0]), .out(dout[37:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_64c__width_48 ( din, dout); input [47:0] din; output [47:0] dout; buff #(48) d0_0 ( .in(din[47:0]), .out(dout[47:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_50c__width_48 ( din, dout); input [47:0] din; output [47:0] dout; buff #(48) d0_0 ( .in(din[47:0]), .out(dout[47:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__top_lsb__vertical_1__width_32 ( din, dout); input [31:0] din; output [31:0] dout; buff #(32) d0_0 ( .in(din[31:0]), .out(dout[31:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_16x__rep_1__stack_none__top_lsb__vertical_1__width_32 ( din, dout); input [31:0] din; output [31:0] dout; buff #(32) d0_0 ( .in(din[31:0]), .out(dout[31:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_16x__rep_1__stack_72c__width_64 ( din, dout); input [63:0] din; output [63:0] dout; buff #(64) d0_0 ( .in(din[63:0]), .out(dout[63:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__width_2 ( din, dout); input [1:0] din; output [1:0] dout; buff #(2) d0_0 ( .in(din[1:0]), .out(dout[1:0]) ); endmodule // // buff macro // // module spc_rep1_dpbuff_macro__dbuff_32x__rep_1__stack_none__vertical_1__width_2 ( din, dout); input [1:0] din; output [1:0] dout; buff #(2) d0_0 ( .in(din[1:0]), .out(dout[1:0]) ); endmodule