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[/] [sparc64soc/] [trunk/] [T1-CPU/] [lsu/] [lsu_qdp1.v] - Rev 2
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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: lsu_qdp1.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 ============================================ /////////////////////////////////////////////////////////////////////// /* // Description: LSU PCX Datapath - QDP1 */ //////////////////////////////////////////////////////////////////////// // header file includes //////////////////////////////////////////////////////////////////////// `include "sys.h" // system level definition file which contains the // time scale definition `include "iop.h" `include "lsu.h" //////////////////////////////////////////////////////////////////////// // Local header file includes / local defines //////////////////////////////////////////////////////////////////////// //FPGA_SYN enables all FPGA related modifications `ifdef FPGA_SYN `define FPGA_SYN_CLK_EN `define FPGA_SYN_CLK_DFF `endif module lsu_qdp1 ( /*AUTOARG*/ // Outputs so, lsu_va_match_b47_b32_m, lsu_va_match_b31_b3_m, lsu_va_wtchpt_addr, spc_pcx_data_pa, dtag_wdata_m, lmq0_byp_misc_sz, lmq1_byp_misc_sz, lmq2_byp_misc_sz, lmq3_byp_misc_sz, lsu_byp_misc_sz_e, lsu_l2fill_sign_extend_m, lsu_l2fill_bendian_m, lmq0_l2fill_fpld, lmq1_l2fill_fpld, lmq2_l2fill_fpld, lmq3_l2fill_fpld, lmq_ld_rd1, lmq0_ncache_ld, lmq1_ncache_ld, lmq2_ncache_ld, lmq3_ncache_ld, lmq0_ld_rq_type, lmq1_ld_rq_type, lmq2_ld_rq_type, lmq3_ld_rq_type, lmq0_ldd_vld, lmq1_ldd_vld, lmq2_ldd_vld, lmq3_ldd_vld, ld_sec_hit_thrd0, ld_sec_hit_thrd1, ld_sec_hit_thrd2, ld_sec_hit_thrd3, lmq0_pcx_pkt_addr, lmq1_pcx_pkt_addr, lmq2_pcx_pkt_addr, lmq3_pcx_pkt_addr, lsu_mmu_rs3_data_g, lsu_tlu_rs3_data_g, lsu_diagnstc_wr_data_b0, lsu_diagnstc_wr_data_e, lsu_ifu_stxa_data, lsu_ifu_ld_icache_index, lsu_ifu_ld_pcxpkt_tid, lsu_error_pa_m, lsu_pref_pcx_req, st_rs3_data_g, lsu_ldst_va_way_g, dcache_alt_data_w0_m, // Inputs rclk, si, se, lsu_dcache_iob_rd_w, lsu_ramtest_rd_w, lsu_pcx_rq_sz_b3, lsu_diagnstc_data_sel, pcx_pkt_src_sel, lsu_stb_pcx_rvld_d1, imiss_pcx_mx_sel, fwd_int_fp_pcx_mx_sel, spu_lsu_ldst_pckt, tlu_lsu_pcxpkt, const_cpuid, ifu_pcx_pkt, lmq_byp_data_en_w2, lmq_byp_data_sel0, lmq_byp_data_sel1, lmq_byp_data_sel2, lmq_byp_data_sel3, lmq_byp_ldxa_sel0, lmq_byp_ldxa_sel1, lmq_byp_ldxa_sel2, lmq_byp_ldxa_sel3, lmq_byp_data_fmx_sel, exu_lsu_rs3_data_e, ifu_lsu_ldxa_data_w2, tlu_lsu_int_ldxa_data_w2, spu_lsu_ldxa_data_w2, stb_rdata_ramd, stb_rdata_ramc, lmq_byp_misc_sel, dfq_byp_sel, ld_pcx_rq_sel, ld_pcx_thrd, lmq_enable, ld_pcx_pkt_g, ffu_lsu_data, lsu_tlb_st_sel_m, lsu_pcx_fwd_pkt, lsu_pcx_fwd_reply, lsu_diagnstc_dtagv_prty_invrt_e, lsu_misc_rdata_w2, lsu_stb_rd_tid, lsu_iobrdge_rply_data_sel, lsu_iobrdge_rd_data, lsu_atomic_pkt2_bsel_g, lsu_pcx_ld_dtag_perror_w2, lsu_dcache_rdata_w, lsu_va_wtchpt0_wr_en_l, lsu_va_wtchpt1_wr_en_l, lsu_va_wtchpt2_wr_en_l, lsu_va_wtchpt3_wr_en_l, thread0_m, thread1_m, thread2_m, thread3_m, lsu_thread_g, lsu_ldst_va_m, tlb_pgnum, lsu_bld_pcx_rq, lsu_bld_rq_addr, lmq0_pcx_pkt_way, lmq1_pcx_pkt_way, lmq2_pcx_pkt_way, lmq3_pcx_pkt_way, lsu_dfq_ld_vld, lsu_ifu_asi_data_en_l, lsu_ld0_spec_vld_kill_w2, lsu_ld1_spec_vld_kill_w2, lsu_ld2_spec_vld_kill_w2, lsu_ld3_spec_vld_kill_w2, lsu_fwd_rply_sz1_unc, rst_tri_en, lsu_l2fill_data, l2fill_vld_m, ld_thrd_byp_sel_m, sehold ) ; input rclk ; input si; input se; input sehold; //input tmb_l; output so; input lsu_dcache_iob_rd_w ; input lsu_ramtest_rd_w ; input lsu_pcx_rq_sz_b3 ; input [3:0] lsu_diagnstc_data_sel ; input [3:0] pcx_pkt_src_sel ; // sel 1/4 pkt src for pcx. input lsu_stb_pcx_rvld_d1 ; // stb has been read-delayby1cycle input imiss_pcx_mx_sel ; // select imiss over spu. input [2:0] fwd_int_fp_pcx_mx_sel ; // select fwd/intrpt/fpop input [`PCX_WIDTH-1:0] spu_lsu_ldst_pckt ; // stream ld/st pkt for pcx. input [25:0] tlu_lsu_pcxpkt ; // truncated pcx interrupt pkt. input [2:0] const_cpuid ; // cpu id input [51:0] ifu_pcx_pkt ; // ifu imiss request. input [3:0] lmq_byp_data_en_w2 ; input [3:0] lmq_byp_data_sel0 ; // ldxa/stb/cas bypass data sel. input [3:0] lmq_byp_data_sel1 ; // ldxa/stb/cas bypass data sel. input [3:0] lmq_byp_data_sel2 ; // ldxa/stb/cas bypass data sel. input [3:0] lmq_byp_data_sel3 ; // ldxa/stb/cas bypass data sel. input [2:0] lmq_byp_ldxa_sel0 ; // ldxa data sel - thread0 input [2:0] lmq_byp_ldxa_sel1 ; // ldxa data sel - thread1 input [2:0] lmq_byp_ldxa_sel2 ; // ldxa data sel - thread2 input [2:0] lmq_byp_ldxa_sel3 ; // ldxa data sel - thread3 input [3:0] lmq_byp_data_fmx_sel ; // final sel for lmq data. input [63:0] exu_lsu_rs3_data_e ; // rs3_data for cas pkt 2. input [63:0] ifu_lsu_ldxa_data_w2 ; // ldxa data from ifu. //input [63:0] tlu_lsu_ldxa_data_w2 ; // ldxa data from tlu (mmu) input [63:0] tlu_lsu_int_ldxa_data_w2 ; // ldxa data from tlu (intrpt/scpd) input [63:0] spu_lsu_ldxa_data_w2 ; // ldxa data from spu input [75:0] stb_rdata_ramd ; // stb0 data ram output. input [44:9] stb_rdata_ramc ; // stb0 tag ram output. input [3:0] lmq_byp_misc_sel ; // select g-stage lmq source input [3:0] dfq_byp_sel ; input [3:0] ld_pcx_rq_sel ; input [1:0] ld_pcx_thrd ; input [3:0] lmq_enable ; // 4 enables for lmq. input [`LMQ_WIDTH-1:40] ld_pcx_pkt_g ; // ld miss pkt for thread. input [80:0] ffu_lsu_data ; input [3:0] lsu_tlb_st_sel_m ; //input [3:0] lsu_tlb_st_sel_g ; //input lsu_tlb_st_vld_g ; input [107:0] lsu_pcx_fwd_pkt ; // local fwd reply/req input lsu_pcx_fwd_reply ; // fwd reply on pcx pkt input lsu_diagnstc_dtagv_prty_invrt_e ; //input lsu_diagnstc_wr_src_sel_e ;// dcache/dtag/v write - diag //input [47:0] lsu_local_ldxa_data_w2 ; // local ldxa data input [63:0] lsu_misc_rdata_w2 ; // local ldxa data input [1:0] lsu_stb_rd_tid ; // thread for which stb rd occurs input [2:0] lsu_iobrdge_rply_data_sel ; input [43:0] lsu_iobrdge_rd_data ; input [2:0] lsu_atomic_pkt2_bsel_g ; input lsu_pcx_ld_dtag_perror_w2 ; input [63:0] lsu_dcache_rdata_w ; //input [47:0] tlu_lsu_iobrdge_pc_data ; // NOTE: unused: remove this in sync w/ tlu input lsu_va_wtchpt0_wr_en_l; input lsu_va_wtchpt1_wr_en_l; input lsu_va_wtchpt2_wr_en_l; input lsu_va_wtchpt3_wr_en_l; input thread0_m; input thread1_m; input thread2_m; input thread3_m; input [3:0] lsu_thread_g; //input lsu_pa_wtchpt_wr_en_l; input [47:0] lsu_ldst_va_m; input [39:13] tlb_pgnum; input lsu_bld_pcx_rq ; // cycle after request input [1:0] lsu_bld_rq_addr ; // cycle after request //input [1:0] lsu_lmq_pkt_way_g; input [1:0] lmq0_pcx_pkt_way; input [1:0] lmq1_pcx_pkt_way; input [1:0] lmq2_pcx_pkt_way; input [1:0] lmq3_pcx_pkt_way; input lsu_dfq_ld_vld ; input lsu_ifu_asi_data_en_l ; input lsu_ld0_spec_vld_kill_w2 ; input lsu_ld1_spec_vld_kill_w2 ; input lsu_ld2_spec_vld_kill_w2 ; input lsu_ld3_spec_vld_kill_w2 ; input lsu_fwd_rply_sz1_unc ; input rst_tri_en ; output lsu_va_match_b47_b32_m; output lsu_va_match_b31_b3_m; //output lsu_pa_match_b39_13_g; //output lsu_pa_match_b12_3_m; output [47:3] lsu_va_wtchpt_addr; //output [39:3] lsu_pa_wtchpt_addr; //output [63:0] ld_stb_bypass_data ; // st to load bypass data. output [`PCX_WIDTH-1:0] spc_pcx_data_pa ; output [29:0] dtag_wdata_m ; // tag to write to dtag. //output [3:0] lsu_byp_misc_addr_m ; // lower 3bits of addr for ldxa/raw etc //output [1:0] lsu_byp_misc_sz_m ; // size for ldxa/raw etc output [1:0] lmq0_byp_misc_sz ; output [1:0] lmq1_byp_misc_sz ; output [1:0] lmq2_byp_misc_sz ; output [1:0] lmq3_byp_misc_sz ; output [1:0] lsu_byp_misc_sz_e ; // size for ldxa/raw etc output lsu_l2fill_sign_extend_m ;// requires sign-extend else zero extend output lsu_l2fill_bendian_m ; // big endian fill/bypass. //output lsu_l2fill_fpld_e ; // fp load output lmq0_l2fill_fpld ; // fp load output lmq1_l2fill_fpld ; // fp load output lmq2_l2fill_fpld ; // fp load output lmq3_l2fill_fpld ; // fp load output [4:0] lmq_ld_rd1 ; // rd for all loads //output lsu_ncache_ld_e ; // non-cacheable ld from dfq output lmq0_ncache_ld ; // non-cacheable ld from dfq output lmq1_ncache_ld ; // non-cacheable ld from dfq output lmq2_ncache_ld ; // non-cacheable ld from dfq output lmq3_ncache_ld ; // non-cacheable ld from dfq //output [2:0] lsu_ld_rq_type_e ; // for identifying atomic ld. output [2:0] lmq0_ld_rq_type ; // for identifying atomic ld. output [2:0] lmq1_ld_rq_type ; // for identifying atomic ld. output [2:0] lmq2_ld_rq_type ; // for identifying atomic ld. output [2:0] lmq3_ld_rq_type ; // for identifying atomic ld. output lmq0_ldd_vld ; // ld double output lmq1_ldd_vld ; // ld double output lmq2_ldd_vld ; // ld double output lmq3_ldd_vld ; // ld double output ld_sec_hit_thrd0 ; // ld has sec. hit against th0 output ld_sec_hit_thrd1 ; // ld has sec. hit against th1 output ld_sec_hit_thrd2 ; // ld has sec. hit against th2 output ld_sec_hit_thrd3 ; // ld has sec. hit against th3 //output [1:0] lmq_pcx_pkt_sz ; //output [39:0] lmq_pcx_pkt_addr ; output [10:0] lmq0_pcx_pkt_addr; output [10:0] lmq1_pcx_pkt_addr; output [10:0] lmq2_pcx_pkt_addr; output [10:0] lmq3_pcx_pkt_addr; //output [63:0] lsu_tlu_st_rs3_data_g ; output [63:0] lsu_mmu_rs3_data_g ; output [63:0] lsu_tlu_rs3_data_g ; output lsu_diagnstc_wr_data_b0 ; // diagnostic wr data - bit 0 output [63:0] lsu_diagnstc_wr_data_e ; output [47:0] lsu_ifu_stxa_data ; // stxa related data output [11:5] lsu_ifu_ld_icache_index ; output [1:0] lsu_ifu_ld_pcxpkt_tid ; //output [1:0] lmq_ld_way ; // cache set way for ld fill output [28:0] lsu_error_pa_m ; // error phy addr //output [13:0] lsu_spu_rsrv_data_m ; // rs3 data for reserved fields. output lsu_pref_pcx_req ; // pref sent to pcx output [63:0] st_rs3_data_g; output [1:0] lsu_ldst_va_way_g ; // 12:11 for direct map //==================================================================== //dc_fill CP input [63:0] lsu_l2fill_data; //from qdp2 input l2fill_vld_m; //from dctl input [3:0] ld_thrd_byp_sel_m;//from dctl output [63:0] dcache_alt_data_w0_m; //to d$ // output [7:0] lsu_l2fill_or_byp_msb_m; //to dctl //==================================================================== wire [`STB_PCX_WIDTH-1:0] store_pcx_pkt ; wire [`PCX_WIDTH-1:0] pcx_pkt_data ; wire [`STB_PCX_WIDTH-1:0] stb_pcx_pkt ; wire [`PCX_WIDTH-1:0] imiss_strm_pcx_pkt ; wire [`PCX_WIDTH-1:0] intrpt_full_pcxpkt ; wire [`PCX_WIDTH-1:0] ifu_full_pcx_pkt_e ; wire [51:0] ifu_pcx_pkt_e ; wire [63:0] cas_pkt2_data ; wire [63:0] lmq0_bypass_data_in,lmq1_bypass_data_in ; wire [63:0] lmq2_bypass_data_in,lmq3_bypass_data_in ; wire [63:0] lmq0_bypass_data, lmq1_bypass_data ; wire [63:0] lmq2_bypass_data, lmq3_bypass_data ; wire [39:0] lmq_ld_addr ; wire [`LMQ_WIDTH:0] load_pcx_pkt ; wire [`LMQ_WIDTH-1:0] lmq0_pcx_pkt, lmq1_pcx_pkt ; wire [`LMQ_WIDTH-1:0] lmq2_pcx_pkt, lmq3_pcx_pkt ; wire [`PCX_WIDTH-1:0] fpop_full_pcxpkt ; wire [63:0] tlb_st_data ; //wire [63:0] formatted_tte_tag ; //wire [63:0] formatted_tte_data ; wire [63:0] lmq0_bypass_ldxa_data ; wire [63:0] lmq1_bypass_ldxa_data ; wire [63:0] lmq2_bypass_ldxa_data ; wire [63:0] lmq3_bypass_ldxa_data ; wire [`PCX_WIDTH-1:0] fwd_full_pcxpkt ; wire [47:3] lsu_tlu_st_rs3_data_g ; //=================================================== // clock buffer //=================================================== //wire lsu_qdp1_clk ; wire clk; assign clk = rclk; wire thread0_g; wire thread1_g; wire thread2_g; wire thread3_g; assign thread0_g = lsu_thread_g[0]; assign thread1_g = lsu_thread_g[1]; assign thread2_g = lsu_thread_g[2]; assign thread3_g = lsu_thread_g[3]; //================================================================================================= // LMQ DP //================================================================================================= wire [12:0] ldst_va_g; dff_s #(13) ff_ldst_va_g ( .din (lsu_ldst_va_m[12:0]), .q (ldst_va_g[12:0]), .clk (clk), .se (1'b0), .si (), .so () ); assign lsu_ldst_va_way_g[1:0] = ldst_va_g[12:11]; wire [`LMQ_VLD:0] ld_pcx_pkt_g_tmp; assign ld_pcx_pkt_g_tmp[`LMQ_VLD:0] = {ld_pcx_pkt_g[`LMQ_WIDTH-1:44], 2'b00, // done after the flop //lsu_lmq_pkt_way_g[1:0], ld_pcx_pkt_g[41:40], tlb_pgnum[39:13],ldst_va_g[12:0]}; // Unfortunately ld_pcx_pkt_g is now 65 bits wide. Grape-mapper needs to give feedback. // THREAD 0. /* dffe_s #(`LMQ_WIDTH) lmq0 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq0_pcx_pkt[`LMQ_VLD:0]), .en (lmq_enable[0]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire lmq0_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf lmq0_clkbuf ( .rclk (clk), .enb_l (~lmq_enable[0]), .tmb_l (~se), .clk (lmq0_clk) ) ; `endif wire [`LMQ_VLD:0] lmq0_pcx_pkt_tmp ; `ifdef FPGA_SYN_CLK_DFF dffe_s #(`LMQ_WIDTH) lmq0 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq0_pcx_pkt_tmp[`LMQ_VLD:0]), .en (~(~lmq_enable[0])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(`LMQ_WIDTH) lmq0 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq0_pcx_pkt_tmp[`LMQ_VLD:0]), .clk (lmq0_clk), .se (1'b0), .si (), .so () ); `endif //bug2705 - speculative pick in w-cycle wire lmq0_pcx_pkt_vld ; assign lmq0_pcx_pkt_vld = lmq0_pcx_pkt_tmp[`LMQ_VLD] & ~lsu_ld0_spec_vld_kill_w2 ; assign lmq0_pcx_pkt[`LMQ_VLD:0] = {lmq0_pcx_pkt_vld, lmq0_pcx_pkt_tmp[`LMQ_VLD-1:44], lmq0_pcx_pkt_way[1:0], lmq0_pcx_pkt_tmp[41:0]}; // Needs to be multi-threaded. //assign lmq_pcx_pkt_sz[1:0] = lmq0_pcx_pkt[`LMQ_SZ_HI:`LMQ_SZ_LO] ; assign ld_sec_hit_thrd0 = (ld_pcx_pkt_g_tmp[`LMQ_AD_HI:`LMQ_AD_LO+4] == lmq0_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO+4]) ; `ifdef FPGA_SYN_1THREAD assign load_pcx_pkt[`LMQ_WIDTH-1:0] = lmq0_pcx_pkt[`LMQ_WIDTH-1:0]; `else // THREAD 1. /* dffe_s #(`LMQ_WIDTH) lmq1 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq1_pcx_pkt[`LMQ_VLD:0]), .en (lmq_enable[1]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire lmq1_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf lmq1_clkbuf ( .rclk (clk), .enb_l (~lmq_enable[1]), .tmb_l (~se), .clk (lmq1_clk) ) ; `endif wire [`LMQ_VLD:0] lmq1_pcx_pkt_tmp; `ifdef FPGA_SYN_CLK_DFF dffe_s #(`LMQ_WIDTH) lmq1 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq1_pcx_pkt_tmp[`LMQ_VLD:0]), .en (~(~lmq_enable[1])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(`LMQ_WIDTH) lmq1 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq1_pcx_pkt_tmp[`LMQ_VLD:0]), .clk (lmq1_clk), .se (1'b0), .si (), .so () ); `endif //bug2705 - speculative pick in w-cycle wire lmq1_pcx_pkt_vld ; assign lmq1_pcx_pkt_vld = lmq1_pcx_pkt_tmp[`LMQ_VLD] & ~lsu_ld1_spec_vld_kill_w2 ; assign lmq1_pcx_pkt[`LMQ_VLD:0] = {lmq1_pcx_pkt_vld, lmq1_pcx_pkt_tmp[`LMQ_VLD-1:44], lmq1_pcx_pkt_way[1:0], lmq1_pcx_pkt_tmp[41:0]}; assign ld_sec_hit_thrd1 = (ld_pcx_pkt_g_tmp[`LMQ_AD_HI:`LMQ_AD_LO+4] == lmq1_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO+4]) ; // THREAD 2. /* dffe_s #(`LMQ_WIDTH) lmq2 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq2_pcx_pkt[`LMQ_VLD:0]), .en (lmq_enable[2]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire lmq2_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf lmq2_clkbuf ( .rclk (clk), .enb_l (~lmq_enable[2]), .tmb_l (~se), .clk (lmq2_clk) ) ; `endif wire [`LMQ_VLD:0] lmq2_pcx_pkt_tmp; `ifdef FPGA_SYN_CLK_DFF dffe_s #(`LMQ_WIDTH) lmq2 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq2_pcx_pkt_tmp[`LMQ_VLD:0]), .en (~(~lmq_enable[2])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(`LMQ_WIDTH) lmq2 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq2_pcx_pkt_tmp[`LMQ_VLD:0]), .clk (lmq2_clk), .se (1'b0), .si (), .so () ); `endif //bug2705 - speculative pick in w-cycle wire lmq2_pcx_pkt_vld ; assign lmq2_pcx_pkt_vld = lmq2_pcx_pkt_tmp[`LMQ_VLD] & ~lsu_ld2_spec_vld_kill_w2 ; assign lmq2_pcx_pkt[`LMQ_VLD:0] = {lmq2_pcx_pkt_vld, lmq2_pcx_pkt_tmp[`LMQ_VLD-1:44], lmq2_pcx_pkt_way[1:0], lmq2_pcx_pkt_tmp[41:0]}; assign ld_sec_hit_thrd2 = (ld_pcx_pkt_g_tmp[`LMQ_AD_HI:`LMQ_AD_LO+4] == lmq2_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO+4]) ; // THREAD 3. /* dffe_s #(`LMQ_WIDTH) lmq3 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq3_pcx_pkt[`LMQ_VLD:0]), .en (lmq_enable[3]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire lmq3_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf lmq3_clkbuf ( .rclk (clk), .enb_l (~lmq_enable[3]), .tmb_l (~se), .clk (lmq3_clk) ) ; `endif wire [`LMQ_VLD:0] lmq3_pcx_pkt_tmp; `ifdef FPGA_SYN_CLK_DFF dffe_s #(`LMQ_WIDTH) lmq3 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq3_pcx_pkt_tmp[`LMQ_VLD:0]), .en (~(~lmq_enable[3])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(`LMQ_WIDTH) lmq3 ( .din (ld_pcx_pkt_g_tmp[`LMQ_VLD:0]), .q (lmq3_pcx_pkt_tmp[`LMQ_VLD:0]), .clk (lmq3_clk), .se (1'b0), .si (), .so () ); `endif //bug2705 - speculative pick in w-cycle wire lmq3_pcx_pkt_vld ; assign lmq3_pcx_pkt_vld = lmq3_pcx_pkt_tmp[`LMQ_VLD] & ~lsu_ld3_spec_vld_kill_w2 ; assign lmq3_pcx_pkt[`LMQ_VLD:0] = {lmq3_pcx_pkt_vld, lmq3_pcx_pkt_tmp[`LMQ_VLD-1:44], lmq3_pcx_pkt_way[1:0], lmq3_pcx_pkt_tmp[41:0]}; assign ld_sec_hit_thrd3 = (ld_pcx_pkt_g_tmp[`LMQ_AD_HI:`LMQ_AD_LO+4] == lmq3_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO+4]) ; // Select 1 of 4 LMQ Contents. // selection is based on which thread's load is chosen for pcx. mux4ds #(`LMQ_WIDTH) lmq_pthrd_sel ( .in0 (lmq0_pcx_pkt[`LMQ_WIDTH-1:0]), .in1 (lmq1_pcx_pkt[`LMQ_WIDTH-1:0]), .in2 (lmq2_pcx_pkt[`LMQ_WIDTH-1:0]), .in3 (lmq3_pcx_pkt[`LMQ_WIDTH-1:0]), .sel0 (ld_pcx_rq_sel[0]), .sel1 (ld_pcx_rq_sel[1]), .sel2 (ld_pcx_rq_sel[2]), .sel3 (ld_pcx_rq_sel[3]), .dout (load_pcx_pkt[`LMQ_WIDTH-1:0]) ); `endif assign lsu_pref_pcx_req = load_pcx_pkt[`LMQ_PREF] ; // Choose data to src for fill/bypass. // E-stage muxing : required for fills specifically. assign lmq0_ldd_vld = lmq0_pcx_pkt[`LMQ_RD2_VLD]; `ifdef FPGA_SYN_1THREAD assign lmq1_ldd_vld = 1'b0; assign lmq2_ldd_vld = 1'b0; assign lmq3_ldd_vld = 1'b0; `else assign lmq1_ldd_vld = lmq1_pcx_pkt[`LMQ_RD2_VLD]; assign lmq2_ldd_vld = lmq2_pcx_pkt[`LMQ_RD2_VLD]; assign lmq3_ldd_vld = lmq3_pcx_pkt[`LMQ_RD2_VLD]; `endif assign lmq0_pcx_pkt_addr[10:0] = lmq0_pcx_pkt[`LMQ_AD_LO + 10 :`LMQ_AD_LO]; `ifdef FPGA_SYN_1THREAD assign lmq1_pcx_pkt_addr[10:0] = 11'b0; assign lmq2_pcx_pkt_addr[10:0] = 11'b0; assign lmq3_pcx_pkt_addr[10:0] = 11'b0; `else assign lmq1_pcx_pkt_addr[10:0] = lmq1_pcx_pkt[`LMQ_AD_LO + 10 :`LMQ_AD_LO]; assign lmq2_pcx_pkt_addr[10:0] = lmq2_pcx_pkt[`LMQ_AD_LO + 10 :`LMQ_AD_LO]; assign lmq3_pcx_pkt_addr[10:0] = lmq3_pcx_pkt[`LMQ_AD_LO + 10 :`LMQ_AD_LO]; `endif assign lmq0_ld_rq_type[2:0] = lmq0_pcx_pkt[`LMQ_RQ_HI:`LMQ_RQ_LO]; `ifdef FPGA_SYN_1THREAD assign lmq1_ld_rq_type[2:0] = 3'b0; assign lmq2_ld_rq_type[2:0] = 3'b0; assign lmq3_ld_rq_type[2:0] = 3'b0; `else assign lmq1_ld_rq_type[2:0] = lmq1_pcx_pkt[`LMQ_RQ_HI:`LMQ_RQ_LO]; assign lmq2_ld_rq_type[2:0] = lmq2_pcx_pkt[`LMQ_RQ_HI:`LMQ_RQ_LO]; assign lmq3_ld_rq_type[2:0] = lmq3_pcx_pkt[`LMQ_RQ_HI:`LMQ_RQ_LO]; `endif assign lmq0_l2fill_fpld = lmq0_pcx_pkt[`LMQ_FPLD]; `ifdef FPGA_SYN_1THREAD assign lmq1_l2fill_fpld = 1'b0; assign lmq2_l2fill_fpld = 1'b0; assign lmq3_l2fill_fpld = 1'b0; `else assign lmq1_l2fill_fpld = lmq1_pcx_pkt[`LMQ_FPLD]; assign lmq2_l2fill_fpld = lmq2_pcx_pkt[`LMQ_FPLD]; assign lmq3_l2fill_fpld = lmq3_pcx_pkt[`LMQ_FPLD]; `endif /* wire lsu_l2fill_fpld_e; mux4ds #(44) lmq_dthrd_sel1 ( .in0 ({lmq0_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq0_pcx_pkt[`LMQ_NC], lmq0_pcx_pkt[`LMQ_FPLD],lmq0_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .in1 ({lmq1_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq1_pcx_pkt[`LMQ_NC], lmq1_pcx_pkt[`LMQ_FPLD],lmq1_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .in2 ({lmq2_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq2_pcx_pkt[`LMQ_NC], lmq2_pcx_pkt[`LMQ_FPLD],lmq2_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .in3 ({lmq3_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq3_pcx_pkt[`LMQ_NC], lmq3_pcx_pkt[`LMQ_FPLD],lmq3_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .sel0 (dfq_byp_sel[0]), .sel1 (dfq_byp_sel[1]), .sel2 (dfq_byp_sel[2]), .sel3 (dfq_byp_sel[3]), .dout ({lmq_ld_addr[39:0], lsu_ncache_ld_e, lsu_l2fill_fpld_e, lsu_byp_misc_sz_e[1:0]}) ); */ assign lmq0_ncache_ld = lmq0_pcx_pkt[`LMQ_NC]; `ifdef FPGA_SYN_1THREAD assign lmq1_ncache_ld = 1'b0; assign lmq2_ncache_ld = 1'b0; assign lmq3_ncache_ld = 1'b0; `else assign lmq1_ncache_ld = lmq1_pcx_pkt[`LMQ_NC]; assign lmq2_ncache_ld = lmq2_pcx_pkt[`LMQ_NC]; assign lmq3_ncache_ld = lmq3_pcx_pkt[`LMQ_NC]; `endif `ifdef FPGA_SYN_1THREAD assign lmq_ld_addr[39:0] = lmq0_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO]; assign lsu_byp_misc_sz_e[1:0] = lmq0_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]; assign lmq_ld_rd1[4:0] = lmq0_pcx_pkt[`LMQ_RD1_HI: `LMQ_RD1_LO]; assign lsu_l2fill_bendian_m = lmq0_pcx_pkt[`LMQ_BIGEND]; assign lsu_l2fill_sign_extend_m = lmq0_pcx_pkt[`LMQ_SIGNEXT]; `else mux4ds #(42) lmq_dthrd_sel1 ( .in0 ({lmq0_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq0_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .in1 ({lmq1_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq1_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .in2 ({lmq2_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq2_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .in3 ({lmq3_pcx_pkt[`LMQ_AD_HI:`LMQ_AD_LO], lmq3_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]}), .sel0 (dfq_byp_sel[0]), .sel1 (dfq_byp_sel[1]), .sel2 (dfq_byp_sel[2]), .sel3 (dfq_byp_sel[3]), .dout ({lmq_ld_addr[39:0], lsu_byp_misc_sz_e[1:0]}) ); // POR // M-stage muxing : require for alignment and bypassing to exu. // flopped then used in qctl/dctl G-stage // lmq_ld_rd1 to lsu_qctl // others to lsu_dctl // M-Stage Muxing mux4ds #(7) lmq_dthrd_sel2 ( .in0 ({lmq0_pcx_pkt[`LMQ_RD1_HI: `LMQ_RD1_LO],lmq0_pcx_pkt[`LMQ_BIGEND], lmq0_pcx_pkt[`LMQ_SIGNEXT]}), .in1 ({lmq1_pcx_pkt[`LMQ_RD1_HI: `LMQ_RD1_LO],lmq1_pcx_pkt[`LMQ_BIGEND], lmq1_pcx_pkt[`LMQ_SIGNEXT]}), .in2 ({lmq2_pcx_pkt[`LMQ_RD1_HI: `LMQ_RD1_LO],lmq2_pcx_pkt[`LMQ_BIGEND], lmq2_pcx_pkt[`LMQ_SIGNEXT]}), .in3 ({lmq3_pcx_pkt[`LMQ_RD1_HI: `LMQ_RD1_LO],lmq3_pcx_pkt[`LMQ_BIGEND], lmq3_pcx_pkt[`LMQ_SIGNEXT]}), .sel0 (lmq_byp_misc_sel[0]), .sel1 (lmq_byp_misc_sel[1]), .sel2 (lmq_byp_misc_sel[2]), .sel3 (lmq_byp_misc_sel[3]), .dout ({lmq_ld_rd1[4:0],lsu_l2fill_bendian_m,lsu_l2fill_sign_extend_m}) ); `endif assign lmq0_byp_misc_sz[1:0] = lmq0_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]; `ifdef FPGA_SYN_1THREAD assign lmq1_byp_misc_sz[1:0] = 2'b0; assign lmq2_byp_misc_sz[1:0] = 2'b0; assign lmq3_byp_misc_sz[1:0] = 2'b0; `else assign lmq1_byp_misc_sz[1:0] = lmq1_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]; assign lmq2_byp_misc_sz[1:0] = lmq2_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]; assign lmq3_byp_misc_sz[1:0] = lmq3_pcx_pkt[`LMQ_SZ_HI: `LMQ_SZ_LO]; `endif //assign lmq_pcx_pkt_addr[10:0] = lmq_ld_addr[10:0] ; wire [28:0] dtag_wdata_e; assign dtag_wdata_e[28:0] = ~lsu_dfq_ld_vld ? lsu_diagnstc_wr_data_e[29:1] : lmq_ld_addr[39:11] ; // Parity Generation for Tag. Match with macro. wire dtag_wr_parity ; //assign dtag_wr_parity = ^dtag_wdata_e[28:0] ; //assign dtag_wdata_e[29] = // ~lsu_dfq_ld_vld ? // lsu_diagnstc_dtagv_prty_invrt_e^dtag_wr_parity : dtag_wr_parity ; wire dtag_wr_parity_7_0, dtag_wr_parity_15_8, dtag_wr_parity_23_16, dtag_wr_parity_28_24; assign dtag_wr_parity_7_0 = ^dtag_wdata_e[7:0]; //zzpar8 assign dtag_wr_parity_15_8 = ^dtag_wdata_e[15:8]; //zzpar8 assign dtag_wr_parity_23_16 = ^dtag_wdata_e[23:16]; //zzpar8 assign dtag_wr_parity_28_24 = ^dtag_wdata_e[28:24]; //zzpar8 wire dtag_wr_parity_28_24_with_invrt; assign dtag_wr_parity_28_24_with_invrt = (^dtag_wdata_e[28:24]) ^ lsu_diagnstc_dtagv_prty_invrt_e; //zzpar8 wire dtag_wr_parity_7_0_m, dtag_wr_parity_15_8_m, dtag_wr_parity_23_16_m, dtag_wr_parity_28_24_m; wire lsu_dfq_ld_vld_m; wire dtag_wr_parity_28_24_with_invrt_m; // 12/12/03 : Change for Macrotest. I didn't mention // these 4 bits ! Pls check for a max time violation. wire dtag_wr_parity_7_0_din, dtag_wr_parity_15_8_din ; wire dtag_wr_parity_23_16_din, dtag_wr_parity_28_24_din ; assign dtag_wr_parity_7_0_din = sehold ? dtag_wr_parity_7_0_m : dtag_wr_parity_7_0 ; assign dtag_wr_parity_15_8_din = sehold ? dtag_wr_parity_15_8_m : dtag_wr_parity_15_8 ; assign dtag_wr_parity_23_16_din = sehold ? dtag_wr_parity_23_16_m : dtag_wr_parity_23_16 ; assign dtag_wr_parity_28_24_din = sehold ? dtag_wr_parity_28_24_m : dtag_wr_parity_28_24 ; dff_s #(6) tag_parity_m ( .din ({dtag_wr_parity_7_0_din, dtag_wr_parity_15_8_din, dtag_wr_parity_23_16_din, dtag_wr_parity_28_24_din, lsu_dfq_ld_vld, dtag_wr_parity_28_24_with_invrt}), .q ({dtag_wr_parity_7_0_m, dtag_wr_parity_15_8_m, dtag_wr_parity_23_16_m, dtag_wr_parity_28_24_m, lsu_dfq_ld_vld_m, dtag_wr_parity_28_24_with_invrt_m}), .clk (clk), .se (1'b0), .si (), .so () ); assign dtag_wr_parity = dtag_wr_parity_7_0_m ^ dtag_wr_parity_15_8_m ^ dtag_wr_parity_23_16_m ^ dtag_wr_parity_28_24_m; wire dtag_wr_parity_with_invrt; assign dtag_wr_parity_with_invrt = dtag_wr_parity_7_0_m ^ dtag_wr_parity_15_8_m ^ dtag_wr_parity_23_16_m ^ dtag_wr_parity_28_24_with_invrt_m; wire [29:0] dtag_wdata_m; // 12/12/03 : Change for Macrotest. assign dtag_wdata_m[29] = ~(lsu_dfq_ld_vld_m | sehold) ? dtag_wr_parity_with_invrt : dtag_wr_parity ; // 12/12/03 : Change for Macrotest. wire [28:0] dtag_wdata_e_din ; assign dtag_wdata_e_din[28:0] = sehold ? dtag_wdata_m[28:0] : dtag_wdata_e[28:0] ; dff_s #(29) tag_stgm ( .din (dtag_wdata_e_din[28:0]), .q (dtag_wdata_m[28:0]), .clk (clk), .se (1'b0), .si (), .so () ); assign lsu_error_pa_m[28:0] = dtag_wdata_m[28:0]; //================================================================================================= // RS3 DATA ALIGNMENT FOR CAS //================================================================================================= wire [7:0] rs3_byte0, rs3_byte1, rs3_byte2, rs3_byte3 ; wire [7:0] rs3_byte4, rs3_byte5, rs3_byte6, rs3_byte7 ; wire [63:0] atm_byte_g ; wire [63:0] st_rs3_data_m,st_rs3_data_g ; dff_s #(64) rs3_stgm ( .din (exu_lsu_rs3_data_e[63:0]), .q (st_rs3_data_m[63:0]), .clk (clk), .se (1'b0), .si (), .so () ); // rm (along with spu). //assign lsu_spu_rsrv_data_m[13:0] = // {st_rs3_data_m[27:23],st_rs3_data_m[21:16],st_rs3_data_m[8:6]} ; dff_s #(64) rs3_stgg ( .din (st_rs3_data_m[63:0]), .q (st_rs3_data_g[63:0]), .clk (clk), .se (1'b0), .si (), .so () ); assign rs3_byte0[7:0] = st_rs3_data_g[7:0] ; assign rs3_byte1[7:0] = st_rs3_data_g[15:8] ; assign rs3_byte2[7:0] = st_rs3_data_g[23:16] ; assign rs3_byte3[7:0] = st_rs3_data_g[31:24] ; assign rs3_byte4[7:0] = st_rs3_data_g[39:32] ; assign rs3_byte5[7:0] = st_rs3_data_g[47:40] ; assign rs3_byte6[7:0] = st_rs3_data_g[55:48] ; assign rs3_byte7[7:0] = st_rs3_data_g[63:56] ; //assign atm_byte_g[7:0] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte0[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte3[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte7[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_7_0 ( .in0 (rs3_byte0[7:0]), .in1 (rs3_byte3[7:0]), .in2 (rs3_byte7[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[7:0])); //assign atm_byte_g[15:8] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte1[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte2[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte6[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_15_8 ( .in0 (rs3_byte1[7:0]), .in1 (rs3_byte2[7:0]), .in2 (rs3_byte6[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[15:8])); //assign atm_byte_g[23:16] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte2[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte1[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte5[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_23_16 ( .in0 (rs3_byte2[7:0]), .in1 (rs3_byte1[7:0]), .in2 (rs3_byte5[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[23:16])); //assign atm_byte_g[31:24] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte3[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte0[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte4[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_31_24 ( .in0 (rs3_byte3[7:0]), .in1 (rs3_byte0[7:0]), .in2 (rs3_byte4[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[31:24])); //assign atm_byte_g[39:32] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte4[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte0[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte3[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_39_32 ( .in0 (rs3_byte4[7:0]), .in1 (rs3_byte0[7:0]), .in2 (rs3_byte3[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[39:32])); //assign atm_byte_g[47:40] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte5[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte1[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte2[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_47_40( .in0 (rs3_byte5[7:0]), .in1 (rs3_byte1[7:0]), .in2 (rs3_byte2[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[47:40])); //assign atm_byte_g[55:48] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte6[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte2[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte1[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_55_48( .in0 (rs3_byte6[7:0]), .in1 (rs3_byte2[7:0]), .in2 (rs3_byte1[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[55:48])); //assign atm_byte_g[63:56] = //lsu_atomic_pkt2_bsel_g[2] ? rs3_byte7[7:0] : // lsu_atomic_pkt2_bsel_g[1] ? rs3_byte3[7:0] : // lsu_atomic_pkt2_bsel_g[0] ? rs3_byte0[7:0] : 8'bxxxx_xxxx ; mux3ds #(8) mx_atm_byte_g_63_56 ( .in0 (rs3_byte7[7:0]), .in1 (rs3_byte3[7:0]), .in2 (rs3_byte0[7:0]), .sel0(lsu_atomic_pkt2_bsel_g[2]), .sel1(lsu_atomic_pkt2_bsel_g[1]), .sel2(lsu_atomic_pkt2_bsel_g[0]), .dout(atm_byte_g[63:56])); //================================================================================================= // STB/LDXA DATA BYPASSING //================================================================================================= // Add STB to load bypass data flops. // Attempt is made to bypass data in G-stage for load. If not // possible then flop data and wait for next available bubble. // Once bypass occurs then load can be considered resolved. // Load Full Raw bypassing does not have to use DFQ. // ldxa data will reside in bypass flops until an opportunity // is available to write to irf. ldxa's must write to lmq // in order to provide information such as rd to irf. // ** The two conditions are mutually exclusive. ** // lsu_local_ldxa_data_w2 w/ lsu_misc_rdata_w2 for all 4 threads // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [2:0] lmq_byp_ldxa_sel0_1hot ; assign lmq_byp_ldxa_sel0_1hot[0] = lmq_byp_ldxa_sel0[0] & ~rst_tri_en; assign lmq_byp_ldxa_sel0_1hot[1] = lmq_byp_ldxa_sel0[1] & ~rst_tri_en; assign lmq_byp_ldxa_sel0_1hot[2] = lmq_byp_ldxa_sel0[2] | rst_tri_en; // THREAD 0 mux3ds #(64) ldbyp0_ldxa_mx ( .in0 (ifu_lsu_ldxa_data_w2[63:0]), // ifu-ldxa bypass data //.in1 (tlu_lsu_ldxa_data_w2[63:0]), // tlu-ldxa bypass data .in1 (spu_lsu_ldxa_data_w2[63:0]), // spu-ldxa bypass data .in2 (lsu_misc_rdata_w2[63:0]), // local asi bypass data .sel0 (lmq_byp_ldxa_sel0_1hot[0]), //.sel1 (lmq_byp_ldxa_sel0[1]), .sel1 (lmq_byp_ldxa_sel0_1hot[1]), .sel2 (lmq_byp_ldxa_sel0_1hot[2]), .dout (lmq0_bypass_ldxa_data[63:0]) ); // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [3:0] lmq_byp_data_sel0_1hot ; assign lmq_byp_data_sel0_1hot[0] = lmq_byp_data_sel0[0] ; assign lmq_byp_data_sel0_1hot[1] = lmq_byp_data_sel0[1] ; assign lmq_byp_data_sel0_1hot[2] = lmq_byp_data_sel0[2] ; assign lmq_byp_data_sel0_1hot[3] = lmq_byp_data_sel0[3] ; wire [63:0] lmq0_bypass_misc_data ; mux4ds #(64) ldbyp0_data_mx ( .in0 (stb_rdata_ramd[63:0]), // stb bypass data .in1 (exu_lsu_rs3_data_e[63:0]), // rs3 data .in2 (atm_byte_g[63:0]), // cas formatted data .in3 (lmq0_bypass_ldxa_data[63:0]), // ldxa bypass data .sel0 (lmq_byp_data_sel0_1hot[0]), .sel1 (lmq_byp_data_sel0_1hot[1]), .sel2 (lmq_byp_data_sel0_1hot[2]), .sel3 (lmq_byp_data_sel0_1hot[3]), .dout (lmq0_bypass_misc_data[63:0]) ); // 2:1 mux for additional data bus from tlu. // Grape : merge into mux-flop. mux2ds #(64) ldbyp0_fmx ( .in0 (lmq0_bypass_misc_data[63:0]), .in1 (tlu_lsu_int_ldxa_data_w2[63:0]), .sel0 (~lmq_byp_data_fmx_sel[0]), .sel1 (lmq_byp_data_fmx_sel[0]), .dout (lmq0_bypass_data_in[63:0]) ); /* dffe_s #(64) ldbyp0_data_ff ( .din (lmq0_bypass_data_in[63:0]), .q (lmq0_bypass_data[63:0]), .en (lmq_byp_data_en_w2[0]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire ldbyp0_data_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf ldbyp0_data_clkbuf ( .rclk (clk), .enb_l (~lmq_byp_data_en_w2[0]), .tmb_l (~se), .clk (ldbyp0_data_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(64) ldbyp0_data_ff ( .din (lmq0_bypass_data_in[63:0]), .q (lmq0_bypass_data[63:0]), .en (~(~lmq_byp_data_en_w2[0])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(64) ldbyp0_data_ff ( .din (lmq0_bypass_data_in[63:0]), .q (lmq0_bypass_data[63:0]), .clk (ldbyp0_data_clk), .se (1'b0), .si (), .so () ); `endif `ifdef FPGA_SYN_1THREAD `else // THREAD 1 // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [2:0] lmq_byp_ldxa_sel1_1hot ; assign lmq_byp_ldxa_sel1_1hot[0] = lmq_byp_ldxa_sel1[0] & ~rst_tri_en; assign lmq_byp_ldxa_sel1_1hot[1] = lmq_byp_ldxa_sel1[1] & ~rst_tri_en; assign lmq_byp_ldxa_sel1_1hot[2] = lmq_byp_ldxa_sel1[2] | rst_tri_en; mux3ds #(64) ldbyp1_ldxa_mx ( .in0 (ifu_lsu_ldxa_data_w2[63:0]), // ifu-ldxa bypass data //.in1 (tlu_lsu_ldxa_data_w2[63:0]), // tlu-ldxa bypass data .in1 (spu_lsu_ldxa_data_w2[63:0]), // spu-ldxa bypass data .in2 (lsu_misc_rdata_w2[63:0]),// local asi bypass data .sel0 (lmq_byp_ldxa_sel1_1hot[0]), //.sel1 (lmq_byp_ldxa_sel1[1]), .sel1 (lmq_byp_ldxa_sel1_1hot[1]), .sel2 (lmq_byp_ldxa_sel1_1hot[2]), .dout (lmq1_bypass_ldxa_data[63:0]) ); // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [3:0] lmq_byp_data_sel1_1hot ; assign lmq_byp_data_sel1_1hot[0] = lmq_byp_data_sel1[0] ; assign lmq_byp_data_sel1_1hot[1] = lmq_byp_data_sel1[1] ; assign lmq_byp_data_sel1_1hot[2] = lmq_byp_data_sel1[2] ; assign lmq_byp_data_sel1_1hot[3] = lmq_byp_data_sel1[3] ; wire [63:0] lmq1_bypass_misc_data ; mux4ds #(64) ldbyp1_data_mx ( .in0 (stb_rdata_ramd[63:0]), // stb bypass data .in1 (exu_lsu_rs3_data_e[63:0]), // rs3 data .in2 (atm_byte_g[63:0]), // cas formatted data .in3 (lmq1_bypass_ldxa_data[63:0]), // ldxa bypass data .sel0 (lmq_byp_data_sel1_1hot[0]), .sel1 (lmq_byp_data_sel1_1hot[1]), .sel2 (lmq_byp_data_sel1_1hot[2]), .sel3 (lmq_byp_data_sel1_1hot[3]), .dout (lmq1_bypass_misc_data[63:0]) ); // 2:1 mux for additional data bus from tlu. // Grape : merge into mux-flop. mux2ds #(64) ldbyp1_fmx ( .in0 (lmq1_bypass_misc_data[63:0]), .in1 (tlu_lsu_int_ldxa_data_w2[63:0]), .sel0 (~lmq_byp_data_fmx_sel[1]), .sel1 (lmq_byp_data_fmx_sel[1]), .dout (lmq1_bypass_data_in[63:0]) ); /* dffe_s #(64) ldbyp1_data_ff ( .din (lmq1_bypass_data_in[63:0]), .q (lmq1_bypass_data[63:0]), .en (lmq_byp_data_en_w2[1]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire ldbyp1_data_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf ldbyp1_data_clkbuf ( .rclk (clk), .enb_l (~lmq_byp_data_en_w2[1]), .tmb_l (~se), .clk (ldbyp1_data_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(64) ldbyp1_data_ff ( .din (lmq1_bypass_data_in[63:0]), .q (lmq1_bypass_data[63:0]), .en (~(~lmq_byp_data_en_w2[1])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(64) ldbyp1_data_ff ( .din (lmq1_bypass_data_in[63:0]), .q (lmq1_bypass_data[63:0]), .clk (ldbyp1_data_clk), .se (1'b0), .si (), .so () ); `endif // THREAD 2 // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [2:0] lmq_byp_ldxa_sel2_1hot ; assign lmq_byp_ldxa_sel2_1hot[0] = lmq_byp_ldxa_sel2[0] & ~rst_tri_en; assign lmq_byp_ldxa_sel2_1hot[1] = lmq_byp_ldxa_sel2[1] & ~rst_tri_en; assign lmq_byp_ldxa_sel2_1hot[2] = lmq_byp_ldxa_sel2[2] | rst_tri_en; mux3ds #(64) ldbyp2_data_mx ( .in0 (ifu_lsu_ldxa_data_w2[63:0]), // ifu-ldxa bypass data //.in1 (tlu_lsu_ldxa_data_w2[63:0]), // tlu-ldxa bypass data .in1 (spu_lsu_ldxa_data_w2[63:0]), // spu-ldxa bypass data .in2 (lsu_misc_rdata_w2[63:0]),// local asi bypass data .sel0 (lmq_byp_ldxa_sel2_1hot[0]), //.sel1 (lmq_byp_ldxa_sel2[1]), .sel1 (lmq_byp_ldxa_sel2_1hot[1]), .sel2 (lmq_byp_ldxa_sel2_1hot[2]), .dout (lmq2_bypass_ldxa_data[63:0]) ); // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [3:0] lmq_byp_data_sel2_1hot ; assign lmq_byp_data_sel2_1hot[0] = lmq_byp_data_sel2[0] ; assign lmq_byp_data_sel2_1hot[1] = lmq_byp_data_sel2[1] ; assign lmq_byp_data_sel2_1hot[2] = lmq_byp_data_sel2[2] ; assign lmq_byp_data_sel2_1hot[3] = lmq_byp_data_sel2[3] ; wire [63:0] lmq2_bypass_misc_data ; mux4ds #(64) ldbyp2_ldxa_mx ( .in0 (stb_rdata_ramd[63:0]), // stb bypass data .in1 (exu_lsu_rs3_data_e[63:0]), // rs3 data .in2 (atm_byte_g[63:0]), // cas formatted data .in3 (lmq2_bypass_ldxa_data[63:0]), // ldxa bypass data .sel0 (lmq_byp_data_sel2_1hot[0]), .sel1 (lmq_byp_data_sel2_1hot[1]), .sel2 (lmq_byp_data_sel2_1hot[2]), .sel3 (lmq_byp_data_sel2_1hot[3]), .dout (lmq2_bypass_misc_data[63:0]) ); // 2:1 mux for additional data bus from tlu. // Grape : merge into mux-flop. mux2ds #(64) ldbyp2_fmx ( .in0 (lmq2_bypass_misc_data[63:0]), .in1 (tlu_lsu_int_ldxa_data_w2[63:0]), .sel0 (~lmq_byp_data_fmx_sel[2]), .sel1 (lmq_byp_data_fmx_sel[2]), .dout (lmq2_bypass_data_in[63:0]) ); /* dffe_s #(64) ldbyp2_data_ff ( .din (lmq2_bypass_data_in[63:0]), .q (lmq2_bypass_data[63:0]), .en (lmq_byp_data_en_w2[2]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire ldbyp2_data_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf ldbyp2_data_clkbuf ( .rclk (clk), .enb_l (~lmq_byp_data_en_w2[2]), .tmb_l (~se), .clk (ldbyp2_data_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(64) ldbyp2_data_ff ( .din (lmq2_bypass_data_in[63:0]), .q (lmq2_bypass_data[63:0]), .en (~(~lmq_byp_data_en_w2[2])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(64) ldbyp2_data_ff ( .din (lmq2_bypass_data_in[63:0]), .q (lmq2_bypass_data[63:0]), .clk (ldbyp2_data_clk), .se (1'b0), .si (), .so () ); `endif // THREAD 3 // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [2:0] lmq_byp_ldxa_sel3_1hot ; assign lmq_byp_ldxa_sel3_1hot[0] = lmq_byp_ldxa_sel3[0] & ~rst_tri_en; assign lmq_byp_ldxa_sel3_1hot[1] = lmq_byp_ldxa_sel3[1] & ~rst_tri_en; assign lmq_byp_ldxa_sel3_1hot[2] = lmq_byp_ldxa_sel3[2] | rst_tri_en; mux3ds #(64) ldbyp3_data_mx ( .in0 (ifu_lsu_ldxa_data_w2[63:0]), // ifu-ldxa bypass data //.in1 (tlu_lsu_ldxa_data_w2[63:0]), // tlu-ldxa bypass data .in1 (spu_lsu_ldxa_data_w2[63:0]), // spu-ldxa bypass data .in2 (lsu_misc_rdata_w2[63:0]),// local asi bypass data .sel0 (lmq_byp_ldxa_sel3_1hot[0]), //.sel1 (lmq_byp_ldxa_sel3[1]), .sel1 (lmq_byp_ldxa_sel3_1hot[1]), .sel2 (lmq_byp_ldxa_sel3_1hot[2]), .dout (lmq3_bypass_ldxa_data[63:0]) ); // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [3:0] lmq_byp_data_sel3_1hot ; assign lmq_byp_data_sel3_1hot[0] = lmq_byp_data_sel3[0] ; assign lmq_byp_data_sel3_1hot[1] = lmq_byp_data_sel3[1] ; assign lmq_byp_data_sel3_1hot[2] = lmq_byp_data_sel3[2] ; assign lmq_byp_data_sel3_1hot[3] = lmq_byp_data_sel3[3] ; wire [63:0] lmq3_bypass_misc_data ; mux4ds #(64) ldbyp3_ldxa_mx ( .in0 (stb_rdata_ramd[63:0]), // stb bypass data .in1 (exu_lsu_rs3_data_e[63:0]), // rs3 data .in2 (atm_byte_g[63:0]), // cas formatted data .in3 (lmq3_bypass_ldxa_data[63:0]), // ldxa bypass data .sel0 (lmq_byp_data_sel3_1hot[0]), .sel1 (lmq_byp_data_sel3_1hot[1]), .sel2 (lmq_byp_data_sel3_1hot[2]), .sel3 (lmq_byp_data_sel3_1hot[3]), .dout (lmq3_bypass_misc_data[63:0]) ); // 2:1 mux for additional data bus from tlu. // Grape : merge into mux-flop. mux2ds #(64) ldbyp3_fmx ( .in0 (lmq3_bypass_misc_data[63:0]), .in1 (tlu_lsu_int_ldxa_data_w2[63:0]), .sel0 (~lmq_byp_data_fmx_sel[3]), .sel1 (lmq_byp_data_fmx_sel[3]), .dout (lmq3_bypass_data_in[63:0]) ); /* dffe_s #(64) ldbyp3_data_ff ( .din (lmq3_bypass_data_in[63:0]), .q (lmq3_bypass_data[63:0]), .en (lmq_byp_data_en_w2[3]), .clk (clk), .se (1'b0), .si (), .so () ); */ wire ldbyp3_data_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf ldbyp3_data_clkbuf ( .rclk (clk), .enb_l (~lmq_byp_data_en_w2[3]), .tmb_l (~se), .clk (ldbyp3_data_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(64) ldbyp3_data_ff ( .din (lmq3_bypass_data_in[63:0]), .q (lmq3_bypass_data[63:0]), .en (~(~lmq_byp_data_en_w2[3])), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(64) ldbyp3_data_ff ( .din (lmq3_bypass_data_in[63:0]), .q (lmq3_bypass_data[63:0]), .clk (ldbyp3_data_clk), .se (1'b0), .si (), .so () ); `endif `endif `ifdef FPGA_SYN_1THREAD assign cas_pkt2_data[63:0] = lmq0_bypass_data[63:0]; assign tlb_st_data[63:0] = lmq0_bypass_data[63:0]; `else // This can be merged with above mux !!!! mux4ds #(64) ld_byp_cas_mx ( .in0 (lmq0_bypass_data[63:0]), .in1 (lmq1_bypass_data[63:0]), .in2 (lmq2_bypass_data[63:0]), .in3 (lmq3_bypass_data[63:0]), .sel0 (ld_pcx_rq_sel[0]), .sel1 (ld_pcx_rq_sel[1]), .sel2 (ld_pcx_rq_sel[2]), .sel3 (ld_pcx_rq_sel[3]), .dout (cas_pkt2_data[63:0]) ); // Can this be merged with above muxes ? mux4ds #(64) tlb_st_mx ( .in0 (lmq0_bypass_data[63:0]), .in1 (lmq1_bypass_data[63:0]), .in2 (lmq2_bypass_data[63:0]), .in3 (lmq3_bypass_data[63:0]), .sel0 (lsu_tlb_st_sel_m[0]), .sel1 (lsu_tlb_st_sel_m[1]), .sel2 (lsu_tlb_st_sel_m[2]), .sel3 (lsu_tlb_st_sel_m[3]), .dout (tlb_st_data[63:0]) ); `endif /*mux4ds #(64) tlb_st_mx ( .in0 (lmq0_bypass_data[63:0]), .in1 (lmq1_bypass_data[63:0]), .in2 (lmq2_bypass_data[63:0]), .in3 (lmq3_bypass_data[63:0]), .sel0 (lsu_tlb_st_sel_g[0]), .sel1 (lsu_tlb_st_sel_g[1]), .sel2 (lsu_tlb_st_sel_g[2]), .sel3 (lsu_tlb_st_sel_g[3]), .dout (tlb_st_data[63:0]) );*/ wire [63:0] tlb_st_data_d1 ; dff_s #(64) std_d1 ( .din (tlb_st_data[63:0]), .q (tlb_st_data_d1[63:0]), .clk (clk), .se (1'b0), .si (), .so () ); // Begin - Bug3487. wire asi_data_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf asid_clkbuf ( .rclk (clk), .enb_l (lsu_ifu_asi_data_en_l), .tmb_l (~se), .clk (asi_data_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(48) ifu_std_d1 ( .din (tlb_st_data[47:0]), .q (lsu_ifu_stxa_data[47:0]), .en (~(lsu_ifu_asi_data_en_l)), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(48) ifu_std_d1 ( .din (tlb_st_data[47:0]), .q (lsu_ifu_stxa_data[47:0]), .clk (asi_data_clk), .se (1'b0), .si (), .so () ); `endif // select is now a stage earlier, which should be // fine as selects stay constant. //assign lsu_ifu_stxa_data[47:0] = tlb_st_data_d1[47:0] ; // End - Bug3487. //wire [3:0] lsu_diag_access_sel_d1 ; //dff #(4) diagsel_stgd1 ( // .din (lsu_diag_access_sel[3:0]), // .q (lsu_diag_access_sel_d1[3:0]), // .clk (clk), // .se (1'b0), .si (), .so () // ); //mux4ds #(64) diag_st_mx ( // .in0 (lmq0_bypass_data[63:0]), // .in1 (lmq1_bypass_data[63:0]), // .in2 (lmq2_bypass_data[63:0]), // .in3 (lmq3_bypass_data[63:0]), // .sel0 (lsu_diag_access_sel_d1[0]), // .sel1 (lsu_diag_access_sel_d1[1]), // .sel2 (lsu_diag_access_sel_d1[2]), // .sel3 (lsu_diag_access_sel_d1[3]), // .dout (lsu_diagnstc_wr_data_e[63:0]) //); // 1-hot fix: 8/1/03 - can be multihot during scan // grape mapper convert the 1 of the inverter used for the select to the logic below wire [3:0] lsu_diagnstc_data_sel_1hot ; assign lsu_diagnstc_data_sel_1hot[0] = lsu_diagnstc_data_sel[0] & ~rst_tri_en; assign lsu_diagnstc_data_sel_1hot[1] = lsu_diagnstc_data_sel[1] & ~rst_tri_en; assign lsu_diagnstc_data_sel_1hot[2] = lsu_diagnstc_data_sel[2] & ~rst_tri_en; assign lsu_diagnstc_data_sel_1hot[3] = lsu_diagnstc_data_sel[3] | rst_tri_en; `ifdef FPGA_SYN_1THREAD assign lsu_diagnstc_wr_data_e[63:0] = lmq0_bypass_data[63:0]; `else mux4ds #(64) diag_st_mx ( .in0 (lmq0_bypass_data[63:0]), .in1 (lmq1_bypass_data[63:0]), .in2 (lmq2_bypass_data[63:0]), .in3 (lmq3_bypass_data[63:0]), .sel0 (lsu_diagnstc_data_sel_1hot[0]), .sel1 (lsu_diagnstc_data_sel_1hot[1]), .sel2 (lsu_diagnstc_data_sel_1hot[2]), .sel3 (lsu_diagnstc_data_sel_1hot[3]), .dout (lsu_diagnstc_wr_data_e[63:0]) ); `endif // Remove flops /*dff #(64) dgndt_d1 ( .din (tlb_st_data[63:0]), .q (lsu_diagnstc_wr_data_e[63:0]), .clk (clk), .se (1'b0), .si (), .so () ); */ assign lsu_diagnstc_wr_data_b0 = lsu_diagnstc_wr_data_e[0] ; // Move tte format and parity calc to tlbdp //assign lsu_tlu_st_rs3_data_g[63:0] = tlb_st_data_d1[63:0]; assign lsu_tlu_st_rs3_data_g[47:3] = tlb_st_data_d1[47:3]; assign lsu_mmu_rs3_data_g[63:0] = tlb_st_data_d1[63:0]; assign lsu_tlu_rs3_data_g[63:0] = tlb_st_data_d1[63:0]; // Removed Fast bypass as penalty is negligible. //================================================================================================= // STQ PKT2 DATA //================================================================================================= //** stquad support removed ** //================================================================================================= // IMISS/SPU DP //================================================================================================= // Format of IFU pcx packet (50b) : // b49 - valid // b48:44 - req type // b43:42 - rep way (for "eviction" - maintains directory consistency ) // b41:40 - mil id // b39:0 - imiss address // Align ifu pkt with ldst pkt - temporary ! // Does this need to be enabled ?!!!! No. assign ifu_pcx_pkt_e[51:0] = ifu_pcx_pkt[51:0] ; // Form pcx-wide ifu request packet. assign ifu_full_pcx_pkt_e[`PCX_VLD] = ifu_pcx_pkt_e[51] ; assign ifu_full_pcx_pkt_e[`PCX_RQ_HI:`PCX_RQ_LO] = ifu_pcx_pkt_e[48:44]; assign ifu_full_pcx_pkt_e[`PCX_NC] = ifu_pcx_pkt_e[49] ; assign ifu_full_pcx_pkt_e[`PCX_CP_HI:`PCX_CP_LO] = const_cpuid[2:0] ; // thread-id unused - use mil id instead. assign ifu_full_pcx_pkt_e[`PCX_TH_HI:`PCX_TH_LO] = ifu_pcx_pkt_e[41:40] ; assign ifu_full_pcx_pkt_e[`PCX_BF_HI] = ifu_pcx_pkt_e[50] ; assign ifu_full_pcx_pkt_e[`PCX_BF_HI-1:`PCX_BF_LO] = 2'b00; assign ifu_full_pcx_pkt_e[`PCX_WY_HI:`PCX_WY_LO] = ifu_pcx_pkt_e[43:42] ; // unused - always infer 32b assign ifu_full_pcx_pkt_e[`PCX_SZ_HI:`PCX_SZ_LO] = 3'b000 ; assign ifu_full_pcx_pkt_e[`PCX_AD_HI:`PCX_AD_LO] = ifu_pcx_pkt_e[39:0] ; // no data assign ifu_full_pcx_pkt_e[`PCX_DA_HI:`PCX_DA_LO] = 64'd0 ; // Form pcx-wide interrupt request packet. assign intrpt_full_pcxpkt[`PCX_VLD] = tlu_lsu_pcxpkt[25] ; assign intrpt_full_pcxpkt[`PCX_RQ_HI:`PCX_RQ_LO] = tlu_lsu_pcxpkt[24:20]; assign intrpt_full_pcxpkt[`PCX_NC] = 1'b0 ; //tlu_lsu_pcxpkt[12:8] is the 5 bit interrupt destination thread id, //so [12:10] is the cpu id, and [9:8] is the thread id. assign intrpt_full_pcxpkt[`PCX_CP_HI:`PCX_CP_LO] = tlu_lsu_pcxpkt[12:10]; // or should thread-id be 19:18 ? assign intrpt_full_pcxpkt[`PCX_TH_HI:`PCX_TH_LO] = tlu_lsu_pcxpkt[19:18] ; // May actually make undriven fields x. assign intrpt_full_pcxpkt[`PCX_BF_HI:`PCX_BF_LO] = 3'b000; assign intrpt_full_pcxpkt[`PCX_WY_HI:`PCX_WY_LO] = 2'b00 ; assign intrpt_full_pcxpkt[`PCX_SZ_HI:`PCX_SZ_LO] = 3'b000 ; assign intrpt_full_pcxpkt[`PCX_AD_HI:`PCX_AD_LO] = 40'd0 ; assign intrpt_full_pcxpkt[`PCX_DA_HI:`PCX_DA_LO] = {46'd0,tlu_lsu_pcxpkt[17:0]} ; // Format fpop_full_pcxpkt. assign fpop_full_pcxpkt[`PCX_VLD] = ffu_lsu_data[80] ; assign fpop_full_pcxpkt[`PCX_RQ_HI:`PCX_RQ_LO] = {4'b0101,ffu_lsu_data[78]} ; assign fpop_full_pcxpkt[`PCX_NC] = 1'b0 ; assign fpop_full_pcxpkt[`PCX_CP_HI:`PCX_CP_LO] = const_cpuid[2:0] ; assign fpop_full_pcxpkt[`PCX_TH_HI:`PCX_TH_LO] = ffu_lsu_data[77:76] ; assign fpop_full_pcxpkt[`PCX_BF_HI:`PCX_SZ_LO] = 8'd0 ; assign fpop_full_pcxpkt[`PCX_AD_HI:`PCX_AD_LO+16] = 24'd0 ; assign fpop_full_pcxpkt[`PCX_AD_LO+15:`PCX_AD_LO+8] = ffu_lsu_data[75:68]; // 79:72 assign fpop_full_pcxpkt[`PCX_AD_LO+7:`PCX_AD_LO+4] = 4'b0000; // 71:68 assign fpop_full_pcxpkt[`PCX_AD_LO+3:`PCX_AD_LO] = ffu_lsu_data[67:64] ; // 67:64 assign fpop_full_pcxpkt[`PCX_DA_HI:`PCX_DA_LO] = ffu_lsu_data[63:0] ; // RAMTest Data Merging. wire cacherd_clk; `ifdef FPGA_SYN_CLK_EN `else clken_buf cacherd_clkbuf ( .rclk (clk), .enb_l (~lsu_ramtest_rd_w), .tmb_l (~se), .clk (cacherd_clk) ) ; `endif wire [63:0] cache_rdata_w,cache_rdata_w2 ; mux2ds #(64) cacherd_sel ( .in0 (ifu_lsu_ldxa_data_w2[63:0]), .in1 (lsu_dcache_rdata_w[63:0]), .sel0 (~lsu_dcache_iob_rd_w), .sel1 (lsu_dcache_iob_rd_w), .dout (cache_rdata_w[63:0]) ); `ifdef FPGA_SYN_CLK_DFF dffe_s #(64) cachedata ( .din (cache_rdata_w[63:0]), .q (cache_rdata_w2[63:0]), // references dcache rd staging .en (~(~lsu_ramtest_rd_w)), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(64) cachedata ( .din (cache_rdata_w[63:0]), .q (cache_rdata_w2[63:0]), // references dcache rd staging .clk (cacherd_clk), .se (1'b0), .si (), .so () ); `endif assign fwd_full_pcxpkt[`PCX_VLD] = 1'b1 ; assign fwd_full_pcxpkt[`PCX_RQ_HI:`PCX_RQ_LO] = {3'b011,lsu_pcx_fwd_reply,~lsu_pcx_fwd_reply} ; assign fwd_full_pcxpkt[`PCX_NC] = lsu_pcx_fwd_pkt[107] ; assign fwd_full_pcxpkt[`PCX_CP_HI:`PCX_CP_LO] = lsu_pcx_fwd_pkt[106:104] ; assign fwd_full_pcxpkt[`PCX_TH_HI:`PCX_TH_LO] = 2'b00 ; assign fwd_full_pcxpkt[`PCX_BF_HI:`PCX_SZ_LO] = {6'b000000,lsu_fwd_rply_sz1_unc,1'b1} ; // All address bits should not be required !!! assign fwd_full_pcxpkt[`PCX_AD_HI:`PCX_AD_LO] = lsu_pcx_fwd_pkt[103:64] ; // Mux sources of TAP request data - margin,pc,defeature/debug/bist. // Be careful about pc - could be a critical path. // ** Assume read-data stays constant at output latches of dcache ** //assign fwd_full_pcxpkt[`PCX_DA_HI:`PCX_DA_LO] = //lsu_iobrdge_rply_data_sel[0] ? {20'd0,lsu_iobrdge_rd_data[43:0]} : // lsu_iobrdge_rply_data_sel[1] ? cache_rdata_w2[63:0] : // lsu_iobrdge_rply_data_sel[2] ? lsu_pcx_fwd_pkt[63:0] : // 64'hxxxx_xxxx_xxxx_xxxx ; mux3ds #(64) mx_fwd_full_pcxpkt ( .in0 ({20'd0,lsu_iobrdge_rd_data[43:0]}), .in1 (cache_rdata_w2[63:0]), .in2 (lsu_pcx_fwd_pkt[63:0]), .sel0(lsu_iobrdge_rply_data_sel[0]), .sel1(lsu_iobrdge_rply_data_sel[1]), .sel2(lsu_iobrdge_rply_data_sel[2]), .dout(fwd_full_pcxpkt[`PCX_DA_HI:`PCX_DA_LO])); wire [`PCX_WIDTH-1:0] spu_lsu_ldst_pckt_d1 ; dff_s #(`PCX_WIDTH) ff_spu_lsu_ldst_pckt_d1 ( .din (spu_lsu_ldst_pckt[`PCX_WIDTH-1:0]), .q (spu_lsu_ldst_pckt_d1[`PCX_WIDTH-1:0]), .clk (clk), .se (1'b0), .si (), .so () ); assign imiss_strm_pcx_pkt[`PCX_WIDTH-1:0] = imiss_pcx_mx_sel ? ifu_full_pcx_pkt_e[`PCX_WIDTH-1:0] : spu_lsu_ldst_pckt_d1[`PCX_WIDTH-1:0] ; wire [`PCX_WIDTH-1:0] fwd_int_fp_pcx_pkt ; mux3ds #(`PCX_WIDTH) mux_fwd_int_fp_pcx_pkt ( .in0 (fwd_full_pcxpkt[`PCX_WIDTH-1:0]), .in1 (intrpt_full_pcxpkt[`PCX_WIDTH-1:0]), .in2 (fpop_full_pcxpkt[`PCX_WIDTH-1:0]), .sel0 (fwd_int_fp_pcx_mx_sel[0]), .sel1 (fwd_int_fp_pcx_mx_sel[1]), .sel2 (fwd_int_fp_pcx_mx_sel[2]), .dout (fwd_int_fp_pcx_pkt [`PCX_WIDTH-1:0]) ); //================================================================================================= // PCX PKT SELECTION //================================================================================================= assign stb_pcx_pkt[`STB_PCX_VLD] = lsu_stb_pcx_rvld_d1 ; // Valid // Support stores for now. assign stb_pcx_pkt[`STB_PCX_RQ_HI:`STB_PCX_RQ_LO] = stb_rdata_ramd[74:72] ; // Rq-type assign stb_pcx_pkt[`STB_PCX_NC] = // Mina the OR gate has been extended to a 3 input gate stb_rdata_ramd[74] | stb_rdata_ramd[73] | // atomics stb_rdata_ramd[71] ; // flush inst // cpu-id will be inserted on way out of core. assign stb_pcx_pkt[`STB_PCX_TH_HI:`STB_PCX_TH_LO] = lsu_stb_rd_tid[1:0] ; // TID // bf-id is not required. // mux will have to be placed elsewhere. (grape) assign stb_pcx_pkt[`STB_PCX_FLSH] = stb_rdata_ramd[71] ; // flush assign stb_pcx_pkt[`STB_PCX_FLSH-1] = 1'b0 ; //assign stb_pcx_pkt[`STB_PCX_WY_HI:`STB_PCX_WY_LO] = 2'b00 ; //bug 2511 assign stb_pcx_pkt[`STB_PCX_SZ_HI:`STB_PCX_SZ_LO] = stb_rdata_ramd[69:68]; // Size //assign stb_pcx_pkt[`STB_PCX_AD_HI:`STB_PCX_AD_LO] = stb_pcx_pkt[`STB_PCX_FLSH] ? 40'b0 : // {stb_rdata_ramc[44:9],stb_rdata_ramd[67:64]} ;// Addr assign stb_pcx_pkt[`STB_PCX_AD_HI:`STB_PCX_AD_LO] = {stb_rdata_ramc[44:9],stb_rdata_ramd[67:64]} ;// Addr assign stb_pcx_pkt[`STB_PCX_DA_HI:`STB_PCX_DA_LO] = stb_rdata_ramd[63:0]; // Data assign store_pcx_pkt[`STB_PCX_WIDTH-1:0] = stb_pcx_pkt[`STB_PCX_WIDTH-1:0] ; // bld addr select. wire [1:0] bld_addr_b54 ; assign bld_addr_b54[1:0] = lsu_bld_pcx_rq ? lsu_bld_rq_addr[1:0] : load_pcx_pkt[`LMQ_AD_LO+5:`LMQ_AD_LO+4] ; // Select between load and store outbound pkt. // *** cpu-id currently hardwired in pkt // *** Thrd id currently hardwired. mux4ds #(124) pcx_pkt_src ( .in0 ({load_pcx_pkt[`LMQ_VLD],2'b00, load_pcx_pkt[`LMQ_RQ_HI: `LMQ_RQ_LO], load_pcx_pkt[`LMQ_NC],const_cpuid[2:0], ld_pcx_thrd[1:0],lsu_pcx_ld_dtag_perror_w2, load_pcx_pkt[`LMQ_PREF],load_pcx_pkt[`LMQ_DFLUSH], load_pcx_pkt[`LMQ_WY_HI:`LMQ_WY_LO],lsu_pcx_rq_sz_b3, //load_pcx_pkt[`LMQ_WY_HI:`LMQ_WY_LO],1'b0, //load_pcx_pkt[`LMQ_SZ_HI:0],cas_pkt2_data[63:0]}), // load load_pcx_pkt[`LMQ_SZ_HI:`LMQ_AD_LO+6], bld_addr_b54[1:0], load_pcx_pkt[`LMQ_AD_LO+3:`LMQ_AD_LO],cas_pkt2_data[63:0]}), // load .in1 ({store_pcx_pkt[`STB_PCX_VLD],1'b0, store_pcx_pkt[`STB_PCX_FLSH], // turn into interrupt request. store_pcx_pkt[`STB_PCX_RQ_HI:`STB_PCX_RQ_LO], store_pcx_pkt[`STB_PCX_NC], const_cpuid[2:0], store_pcx_pkt[`STB_PCX_TH_HI:`STB_PCX_TH_LO], 1'b0, stb_rdata_ramd[70], // blk-st : Bug 3395 stb_rdata_ramd[75], 2'b00, //store_pcx_pkt[`STB_PCX_WY_HI:`STB_PCX_WY_LO], 1'b0,store_pcx_pkt[`STB_PCX_SZ_HI:0]}), // store .in2 (imiss_strm_pcx_pkt[`PCX_WIDTH-1:0]), // alt src : imiss,stream. .in3 (fwd_int_fp_pcx_pkt[`PCX_WIDTH-1:0]), // fwd, interrupt, fpop .sel0 (pcx_pkt_src_sel[0]), .sel1 (pcx_pkt_src_sel[1]), .sel2 (pcx_pkt_src_sel[2]), .sel3 (pcx_pkt_src_sel[3]), .dout (pcx_pkt_data[`PCX_WIDTH-1:0]) ); dff_s #(124) pcx_xmit_ff ( .din (pcx_pkt_data[`PCX_WIDTH-1:0]), .q (spc_pcx_data_pa[`PCX_WIDTH-1:0]), .clk (clk), .se (1'b0), .si (), .so () ); // Stage to avoid critical path /*assign lsu_ifu_ld_icache_index[11:5] = pcx_pkt_data[`PCX_AD_LO+11:`PCX_AD_LO+5] ; assign lsu_ifu_ld_pcxpkt_tid[1:0] = pcx_pkt_data[`PCX_TH_HI:`PCX_TH_LO] ;*/ dff_s #(9) stg_icindx ( .din ({pcx_pkt_data[`PCX_AD_LO+11:`PCX_AD_LO+5],pcx_pkt_data[`PCX_TH_HI:`PCX_TH_LO]}), .q ({lsu_ifu_ld_icache_index[11:5],lsu_ifu_ld_pcxpkt_tid[1:0]}), .clk (clk), .se (1'b0), .si (), .so () ); //========================================================================================= // VA Watchpt Reg per thread //========================================================================================= //VA_watchpoint_thread0 wire va_wtchpt0_clk ; wire [47:3] va_wtchpt0_addr; `ifdef FPGA_SYN_CLK_EN `else clken_buf clkbf_va_wtchpt0 ( .rclk (clk), .enb_l (lsu_va_wtchpt0_wr_en_l), .tmb_l (~se), .clk (va_wtchpt0_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(45) va_wtchpt0_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt0_addr[47:3]), .en (~(lsu_va_wtchpt0_wr_en_l)), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(45) va_wtchpt0_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt0_addr[47:3]), .clk (va_wtchpt0_clk), .se (1'b0), .si (), .so () ); `endif //VA_watchpoint_thread1 wire va_wtchpt1_clk ; wire [47:3] va_wtchpt1_addr; `ifdef FPGA_SYN_CLK_EN `else clken_buf clkbf_va_wtchpt1 ( .rclk (clk), .enb_l (lsu_va_wtchpt1_wr_en_l), .tmb_l (~se), .clk (va_wtchpt1_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(45) va_wtchpt1_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt1_addr[47:3]), .en (~(lsu_va_wtchpt1_wr_en_l)), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(45) va_wtchpt1_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt1_addr[47:3]), .clk (va_wtchpt1_clk), .se (1'b0), .si (), .so () ); `endif //VA_watchpoint_thread2 wire va_wtchpt2_clk ; wire [47:3] va_wtchpt2_addr; `ifdef FPGA_SYN_CLK_EN `else clken_buf clkbf_va_wtchpt2 ( .rclk (clk), .enb_l (lsu_va_wtchpt2_wr_en_l), .tmb_l (~se), .clk (va_wtchpt2_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(45) va_wtchpt2_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt2_addr[47:3]), .en (~(lsu_va_wtchpt2_wr_en_l)), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(45) va_wtchpt2_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt2_addr[47:3]), .clk (va_wtchpt2_clk), .se (1'b0), .si (), .so () ); `endif //VA_watchpoint_thread3 wire va_wtchpt3_clk ; wire [47:3] va_wtchpt3_addr; `ifdef FPGA_SYN_CLK_EN `else clken_buf clkbf_va_wtchpt3 ( .rclk (clk), .enb_l (lsu_va_wtchpt3_wr_en_l), .tmb_l (~se), .clk (va_wtchpt3_clk) ) ; `endif `ifdef FPGA_SYN_CLK_DFF dffe_s #(45) va_wtchpt3_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt3_addr[47:3]), .en (~(lsu_va_wtchpt3_wr_en_l)), .clk(clk), .se (1'b0), .si (), .so () ); `else dff_s #(45) va_wtchpt3_ff ( .din (lsu_tlu_st_rs3_data_g[47:3]), .q (va_wtchpt3_addr[47:3]), .clk (va_wtchpt3_clk), .se (1'b0), .si (), .so () ); `endif wire [47:3] va_wtchpt_addr; mux4ds #(45) va_wtchpt_mx_m ( .in0 (va_wtchpt0_addr[47:3]), .in1 (va_wtchpt1_addr[47:3]), .in2 (va_wtchpt2_addr[47:3]), .in3 (va_wtchpt3_addr[47:3]), .sel0 (thread0_m), .sel1 (thread1_m), .sel2 (thread2_m), .sel3 (thread3_m), .dout (va_wtchpt_addr[47:3]) ); mux4ds #(45) va_wtchpt_mx_g ( .in0 (va_wtchpt0_addr[47:3]), .in1 (va_wtchpt1_addr[47:3]), .in2 (va_wtchpt2_addr[47:3]), .in3 (va_wtchpt3_addr[47:3]), .sel0 (thread0_g), .sel1 (thread1_g), .sel2 (thread2_g), .sel3 (thread3_g), .dout (lsu_va_wtchpt_addr[47:3]) ); //VA wtchpt comparison at M stage //assign lsu_va_match_m = (lsu_ldst_va_m[47:3] == va_wtchpt_addr[47:3]); //bug6480/eco6623 assign lsu_va_match_b47_b32_m = (lsu_ldst_va_m[47:32] == va_wtchpt_addr[47:32]); assign lsu_va_match_b31_b3_m = (lsu_ldst_va_m[31:3 ] == va_wtchpt_addr[31:3 ]); //==================================================================== //dc_fill CP wire [63:0] l2fill_data_m; //dff #(64) stgm_l2fd ( // .din (lsu_l2fill_data[63:0]), // .q (l2fill_data_m[63:0]), // .clk (clk), // .se (se), .si (), .so () // ); assign l2fill_data_m[63:0] = lsu_l2fill_data[63:0]; wire [63:0] ld_byp_data_m; `ifdef FPGA_SYN_1THREAD assign ld_byp_data_m[63:0] = lmq0_bypass_data[63:0]; `else mux4ds #(64) ld_byp_mx ( .in0 (lmq0_bypass_data[63:0]), .in1 (lmq1_bypass_data[63:0]), .in2 (lmq2_bypass_data[63:0]), .in3 (lmq3_bypass_data[63:0]), .sel0 (ld_thrd_byp_sel_m[0]), .sel1 (ld_thrd_byp_sel_m[1]), .sel2 (ld_thrd_byp_sel_m[2]), .sel3 (ld_thrd_byp_sel_m[3]), .dout (ld_byp_data_m[63:0]) ); `endif assign dcache_alt_data_w0_m[63:0] = l2fill_vld_m ? l2fill_data_m[63:0] : ld_byp_data_m[63:0]; //assign lsu_l2fill_or_byp_msb_m[7:0] // = {lsu_l2fill_or_byp_data_m[63], // lsu_l2fill_or_byp_data_m[55], // lsu_l2fill_or_byp_data_m[47], // lsu_l2fill_or_byp_data_m[39], // lsu_l2fill_or_byp_data_m[31], // lsu_l2fill_or_byp_data_m[23], // lsu_l2fill_or_byp_data_m[15], // lsu_l2fill_or_byp_data_m[07]} ; //==================================================================== endmodule