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[/] [sparc64soc/] [trunk/] [T1-CPU/] [ifu/] [sparc_ifu_ifqctl.v] - Rev 7
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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: sparc_ifu_ifqctl.v // Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. // DO NOT ALTER OR REMOVE COPYRIGHT NOTICES. // // The above named program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public // License version 2 as published by the Free Software Foundation. // // The above named program is distributed in the hope that it will be // useful, but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public // License along with this work; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. // // ========== Copyright Header End ============================================ //////////////////////////////////////////////////////////////////////// /* // Module Name: sparc_ifu_ifqctl // Description: // Contains the control logic for the ifq and mil. */ //////////////////////////////////////////////////////////////////////// // Global header file includes //////////////////////////////////////////////////////////////////////// `include "iop.h" `include "ifu.h" module sparc_ifu_ifqctl(/*AUTOARG*/ // Outputs ifu_lsu_inv_clear, ifu_lsu_ibuf_busy, ifu_lsu_asi_ack, ifu_lsu_ldxa_illgl_va_w2, ifu_lsu_fwd_wr_ack, ifu_lsu_pcxreq_d, ifu_lsu_destid_s, ifu_tlu_l2imiss, ifq_fcl_stallreq, ifq_swl_stallreq, ifq_fcl_flush_sonly_e, ifq_fcl_wrreq_bf, ifq_fcl_rdreq_bf, ifq_fcl_icd_wrreq_bf, ifq_fcl_ictv_wrreq_bf, ifq_erb_fwdrd_bf, ifq_erb_rdtag_f, ifq_erb_rdinst_f, ifq_erb_asi_erren_i2, ifq_erb_asi_errstat_i2, ifq_erb_asi_errinj_i2, ifq_erb_asi_erraddr_i2, ifq_erb_asi_imask_i2, ifq_erb_asiwr_i2, ifq_fcl_asird_bf, ifq_fcl_asi_tid_bf, ifq_erb_ue_rep, ifq_erb_ce_rep, ifq_erb_l2_ue, ifq_erb_io_ue, ifq_erb_ifet_ce, ifq_erb_l2err_tid, ifq_icv_wrdata_bf, ifq_icd_worden_bf, ifq_fcl_fill_thr, ifq_dtu_thrrdy, ifq_dtu_pred_rdy, ifc_ifd_filladdr4_i2, ifc_ifd_reqvalid_e, ifc_ifd_idx_sel_fwd_i2, ifc_ifd_errinv_e, ifc_ifd_uncached_e, ifc_ifd_thrid_e, ifc_ifd_pcxline_adj_d, ifc_inv_asireq_i2, ifc_ifd_repway_s, ifq_sscan_data, ifc_ifd_milfill_sel_i2_l, ifc_ifd_finst_sel_l, ifc_ifd_milreq_sel_d_l, ifc_ifd_ifqbyp_sel_fwd_l, ifc_ifd_ifqbyp_sel_inq_l, ifc_ifd_ifqbyp_sel_asi_l, ifc_ifd_ifqbyp_sel_lsu_l, ifc_ifd_ifqbyp_en_l, ifc_ifd_addr_sel_bist_i2_l, ifc_ifd_addr_sel_asi_i2_l, ifc_ifd_addr_sel_old_i2_l, ifc_ifd_addr_sel_fill_i2_l, ifq_icd_data_sel_bist_i2, ifq_icd_data_sel_fill_i2, ifq_icd_data_sel_old_i2, ifc_ifd_ldmil_sel_new, ifc_ifd_ld_inq_i1, ifc_inv_ifqadv_i2, so, // Inputs lsu_ifu_cpxpkt_wayvld_i1, ifd_ifc_milhit_s, ifd_ifc_instoffset0, ifd_ifc_instoffset1, ifd_ifc_instoffset2, ifd_ifc_instoffset3, ifd_ifc_cpxvalid_i1, ifd_ifc_cpxreq_i1, ifd_ifc_cpxreq_nxt, ifd_ifc_cpxthr_nxt, ifd_ifc_cpxvld_i2, ifd_ifc_iobpkt_i2, ifd_ifc_4bpkt_i2, ifd_ifc_cpxnc_i2, ifd_ifc_fwd2ic_i2, ifd_ifc_cpxce_i2, ifd_ifc_cpxue_i2, ifd_ifc_cpxms_i2, ifd_ifc_miladdr4_i2, ifd_ifc_asiaddr_i2, ifd_ifc_asi_vachklo_i2, ifd_ifc_destid0, ifd_ifc_destid1, ifd_ifc_destid2, ifd_ifc_destid3, ifd_ifc_newdestid_s, ifd_ifc_pcxline_d, inv_ifc_inv_pending, fcl_ifq_icmiss_s1, fcl_ifq_rdreq_s1, fcl_ifq_thr_s1, fcl_ifq_canthr, fcl_ifq_grant_bf, dtu_ifq_kill_latest_d, erb_ifq_ifeterr_d1, erb_ifq_itlberr_s1, lsu_ifu_pcxpkt_ack_d, lsu_ifu_direct_map_l1, lsu_ifu_asi_vld, lsu_ifu_asi_state, lsu_ifu_asi_load, lsu_ifu_asi_thrid, fcl_ifq_icache_en_s_l, mbist_ifq_run_bist, mbist_icache_write, mbist_icache_read, ctu_sscan_tid, rclk, se, si, gdbginit_l, arst_l, grst_l, rst_tri_en, sehold ); input lsu_ifu_cpxpkt_wayvld_i1; input [3:0] ifd_ifc_milhit_s; // if an Imiss hits in MIL input [1:0] ifd_ifc_instoffset0; // to select inst to TIR input [1:0] ifd_ifc_instoffset1; // to select inst to TIR input [1:0] ifd_ifc_instoffset2; // to select inst to TIR input [1:0] ifd_ifc_instoffset3; // to select inst to TIR input ifd_ifc_cpxvalid_i1; input [`CPX_RQ_SIZE:0] ifd_ifc_cpxreq_i1; input [3:0] ifd_ifc_cpxreq_nxt; input [1:0] ifd_ifc_cpxthr_nxt; input ifd_ifc_cpxvld_i2; input ifd_ifc_iobpkt_i2; input ifd_ifc_4bpkt_i2; input ifd_ifc_cpxnc_i2; input ifd_ifc_fwd2ic_i2; input ifd_ifc_cpxce_i2, ifd_ifc_cpxue_i2, ifd_ifc_cpxms_i2; input [3:0] ifd_ifc_miladdr4_i2; input [3:2] ifd_ifc_asiaddr_i2; input ifd_ifc_asi_vachklo_i2; input [2:0] ifd_ifc_destid0, ifd_ifc_destid1, ifd_ifc_destid2, ifd_ifc_destid3, ifd_ifc_newdestid_s; input [4:2] ifd_ifc_pcxline_d; // input [7:0] ifd_ifc_mil_repway_s; input inv_ifc_inv_pending; input fcl_ifq_icmiss_s1; // icache miss input fcl_ifq_rdreq_s1; input [1:0] fcl_ifq_thr_s1; input [3:0] fcl_ifq_canthr; // cancel the imiss reqs to // these threads input fcl_ifq_grant_bf; input dtu_ifq_kill_latest_d; input erb_ifq_ifeterr_d1; input erb_ifq_itlberr_s1; input lsu_ifu_pcxpkt_ack_d; input lsu_ifu_direct_map_l1; input lsu_ifu_asi_vld; input [7:0] lsu_ifu_asi_state; input lsu_ifu_asi_load; input [1:0] lsu_ifu_asi_thrid; input fcl_ifq_icache_en_s_l; input mbist_ifq_run_bist, mbist_icache_write, mbist_icache_read; input [3:0] ctu_sscan_tid; input rclk, se, si, gdbginit_l, arst_l, grst_l; input rst_tri_en; input sehold; // outputs output ifu_lsu_inv_clear; output ifu_lsu_ibuf_busy; output ifu_lsu_asi_ack; output ifu_lsu_ldxa_illgl_va_w2; output ifu_lsu_fwd_wr_ack; output ifu_lsu_pcxreq_d; output [2:0] ifu_lsu_destid_s; output [3:0] ifu_tlu_l2imiss; output ifq_fcl_stallreq; output ifq_swl_stallreq; output ifq_fcl_flush_sonly_e; output ifq_fcl_wrreq_bf; output ifq_fcl_rdreq_bf; output ifq_fcl_icd_wrreq_bf, ifq_fcl_ictv_wrreq_bf; output ifq_erb_fwdrd_bf; output ifq_erb_rdtag_f; output ifq_erb_rdinst_f; output ifq_erb_asi_erren_i2; output ifq_erb_asi_errstat_i2; output ifq_erb_asi_errinj_i2; output ifq_erb_asi_erraddr_i2; output ifq_erb_asi_imask_i2; output ifq_erb_asiwr_i2; output ifq_fcl_asird_bf; output [1:0] ifq_fcl_asi_tid_bf; output ifq_erb_ue_rep; output ifq_erb_ce_rep; output ifq_erb_l2_ue; output ifq_erb_io_ue; output ifq_erb_ifet_ce; output [1:0] ifq_erb_l2err_tid; output ifq_icv_wrdata_bf; output [3:0] ifq_icd_worden_bf; output [3:0] ifq_fcl_fill_thr; // should be same stage as // fill_inst output [3:0] ifq_dtu_thrrdy; output [3:0] ifq_dtu_pred_rdy; output ifc_ifd_filladdr4_i2; output ifc_ifd_reqvalid_e; output ifc_ifd_idx_sel_fwd_i2; output ifc_ifd_errinv_e; output ifc_ifd_uncached_e; output [1:0] ifc_ifd_thrid_e; output [4:2] ifc_ifd_pcxline_adj_d; output ifc_inv_asireq_i2; output [1:0] ifc_ifd_repway_s; output [3:0] ifq_sscan_data; // mux selects output [3:0] ifc_ifd_milfill_sel_i2_l; output [3:0] ifc_ifd_finst_sel_l; output [3:0] ifc_ifd_milreq_sel_d_l; output ifc_ifd_ifqbyp_sel_fwd_l, // select next input to ifq pipe ifc_ifd_ifqbyp_sel_inq_l, ifc_ifd_ifqbyp_sel_asi_l, ifc_ifd_ifqbyp_sel_lsu_l; output ifc_ifd_ifqbyp_en_l; output ifc_ifd_addr_sel_bist_i2_l, ifc_ifd_addr_sel_asi_i2_l, ifc_ifd_addr_sel_old_i2_l, ifc_ifd_addr_sel_fill_i2_l; output ifq_icd_data_sel_bist_i2, ifq_icd_data_sel_fill_i2, ifq_icd_data_sel_old_i2; // 2:1 mux selects output [3:0] ifc_ifd_ldmil_sel_new; // mil load enable output ifc_ifd_ld_inq_i1; output ifc_inv_ifqadv_i2; // move a new op from ifq // pipe to icache output so; //---------------------------------------------------------------------- // Declarations //---------------------------------------------------------------------- // local signals wire [3:0] thr_s1, // s1 thread which missed in I$ thr_d1, thr_e1, dfthr_f, // thread currently being filled in I$ dfthr_next_i2, dfthr_i2, // next thread to be filled from CPX milfthr_i2, dpcxthr_s, dpcxthr_d; // thread being transmitted to lsu wire [1:0] thrid_d, thrid_e; wire [3:0] pcx_accept_d; wire req_pending_d, // req_pending_e, req_accept_d, // can_pcx_d, pcxreq_vbit_d; wire [3:0] comp_valid_s, mil_valid_s, mil_cancel; wire [3:0] finst_i2, finst0, finst1, finst2, finst3; wire [2:0] milchld0, milchld1, milchld2, milchld3, next_milchld, milchld_d1; wire milchld_vld_f, next_milchld_i2, milchld_vld_i2; wire [3:0] mil0_state, mil1_state, mil2_state, mil3_state; wire [2:0] i2out; // state machine output in i2 stage wire any_milhit_qual_s, // hit in MIL any_qualhit_or_io_s, icmiss_qual_s, // reqq_empty, // no pending requests in MIL oldreq_valid, next_wrreq_i2, wrreq_f; wire block_fetch_s1, block_fetch_d1; wire [3:0] mil_thr_ready, all_retry_rdy_e1, all_retry_rdy_m1; wire retry_rdy_final_d1, retry_rdy_e1; wire rst_starv_ctr_l; wire starv_alert; wire [3:0] milhit_vec_s; wire any_milhit_s; wire [1:0] rand_repway_s; // wire [1:0] mil_repway_s; wire [3:0] errthr_d1, err_vec_d1, err_req; wire errinv_d1; wire ifeterr_qual_d1, ifeterr_e1; wire thr_match_d1e1; wire ifqadv_i1; wire ifqadvi2_nxt, ifqadv_i2_ff; wire access_grant_l; wire addrbit4_i2; wire addrbit4_nxt_i2; wire [3:0] cpxreq_i2; wire [1:0] cpxthr_i2; wire uncached_i2, uncached_s, mil_vld_i2, mil_uncan_i2, mil_nc_i2, mil_nc_e, mil_nc_d, uncached_fill_i2, uncached_f; wire [3:0] mil_nc_vec, mil_nc_vec_nxt; wire [3:0] pcxreq_s, // req bit from MIL pcxreq_qual_s, // newpcxreq_s, // valid new request from latest miss // oldpcxreq_s, rr_gnt, // round robin grant signal fill_addr4_i2; // fill address bit 4 - determines // which 16B of the 32B line gets // written. Assume 0 first then 1 wire newreq_valid, // latest S stage miss creates request. nextreq_valid_s, // if either a new req from i$ or old // req from MIL is made in this cycle. req_valid_d; // req to LSU is valid wire inq_vld, inq_vld_nxt; wire ic_pkt_i1; // wire fill_this16b; wire [1:0] filltid_i2, next_filltid_i2, filltid_f; wire imissrtn_i2, // input cpx is ifill return imissrtn_next_i2, imissrtn_f, imissrtn_i1; // pkt in inq is ifill ret wire invalidate_i1; wire [3:0] icmiss_thr_s, icmiss_thr_d; wire icmiss_d1, icmiss_qual_d1; wire canthr_s1, canthr_d1, canthr_s1_del1; wire itlberr_d1; wire [2:0] old_destid_s; wire destid_iob_s, destid_iob_d; wire iosp_d1_l, n763; wire [3:0] wrt_tir; wire [3:0] wr_complete_f; wire [3:0] pred_rdy_i2; wire [3:0] fill_retn_thr_i2; wire filladdr4_f; wire [3:0] milhit_to_thr_s, icmiss_for_milchk, qualhit_pe_s, qualhit_or_io_s; // milhit_qual_s; wire l2_ue_i2, l2_ce_i2, io_ue_i2; wire l2_miss_i2, l2_miss_f; // wire [3:0] l2ms_thr; wire ce_rep_i2, ue_rep_i2; wire fwdreq_i2, fwdreq_i3, fwd_stall, fwdwr_i3, fwdrd_i3; wire cpxnc_i3; wire stallreq_d0, stallreq_d1; wire ifu_asireq_i1, ifu_asireq_i0, byp_sel_asi_l, asird_i1, asireq_i2, asireq_i2_l, asi_load_i1, asi_load_i2, asi_vld_next, asi_vld_i0, asi_vld_qual_i0; wire [7:0] asi_state_i1; wire asi_ic_data_i1, asi_ic_data_i2, asi_ic_tag_i1, asi_ic_tag_i2; wire asi_erren_i1, asi_errstat_i1, asi_errinj_i1, asi_erraddr_i1, asi_imask_i1; wire asi_ic_data_unchk_i1, asi_ic_tag_unchk_i1; wire asi_erren_unchk_i1, asi_errstat_unchk_i1, asi_errinj_unchk_i1, asi_erraddr_unchk_i1, asi_imask_unchk_i1; wire illva_i0, illva_i1, illva_i2, illva_f, illva_s, illva_w2; wire [3:0] word_sel_i2; wire bist_op; wire rdinst_bf, rd_tag_bf; wire errpkt_i1; wire stpkt_i1, strmack_i1, ldpkt_i1, evpkt_i1, errpkt_i2; wire icv_wrdata_i2, icv_wbit_i2, icv_wrdata_f; wire rst_way_lfsr; wire inq_wayvld_i1; wire inq_wayvld_i1_nxt; wire ldinv_i1; wire ldinv_i2_nxt; wire ldinv_i2; wire ifq_reset, rnd_reset, ifq_reset_l; wire clk; //---------------------------------------------------------------------- // Code start here //---------------------------------------------------------------------- assign clk = rclk; // reset buffer dffrl_async rstff(.din (grst_l), .q (ifq_reset_l), .clk (clk), .se(se), .si(), .so(), .rst_l (arst_l)); assign ifq_reset = ~ifq_reset_l; //--------- // MIL fsm //--------- sparc_ifu_milfsm mil0( .ifc_fsm_can_thisthr (fcl_ifq_canthr[0]), // .ifc_fsm_orphan_thisthr (orphan_thr_d1[0]), .ifc_fsm_fill_thisthr_i2 (fill_retn_thr_i2[0]), .ifc_fsm_wr_complete_f (wr_complete_f[0]), .ifqadv_i2 (ifc_inv_ifqadv_i2), .ifd_ifc_4bpkt_i2 (ifd_ifc_4bpkt_i2), .fcl_ifq_thr_s1 (fcl_ifq_thr_s1), .ifc_fsm_imiss_thisthr_s (icmiss_thr_s[0]), .ifc_fsm_milhit_s (any_milhit_qual_s), .ifc_fsm_hiton_thismil_s (milhit_to_thr_s[0]), .ifc_fsm_pcxaccept_thisthr(pcx_accept_d[0]), .ifc_fsm_miladdr4 (ifd_ifc_miladdr4_i2[0]), .clk (clk), .se (se), .si (si), .reset (ifq_reset), .so (), .ifc_fsm_err_thisthr (errthr_d1[0]), // outputs .fsm_ifc_errreq (err_req[0]), .fsm_ifc_wrt_tir (wrt_tir[0]), .fsm_ifc_comp_valid (comp_valid_s[0]), .fsm_ifc_mil_valid (mil_valid_s[0]), .fsm_ifc_mil_cancel (mil_cancel[0]), .fsm_ifc_milstate (mil0_state[3:0]), .fsm_ifc_thr_ready (mil_thr_ready[0]), .fsm_ifc_pred_rdy (pred_rdy_i2[0]), .fsm_ifc_pcxreq (pcxreq_s[0]), .fsm_ifc_addrbit4_i2 (fill_addr4_i2[0]), .fsm_ifc_milchld (milchld0[2:0])); sparc_ifu_milfsm mil1( .ifc_fsm_can_thisthr (fcl_ifq_canthr[1]), // .ifc_fsm_orphan_thisthr (orphan_thr_d1[1]), .ifc_fsm_fill_thisthr_i2 (fill_retn_thr_i2[1]), .ifc_fsm_wr_complete_f (wr_complete_f[1]), .ifqadv_i2 (ifc_inv_ifqadv_i2), .ifd_ifc_4bpkt_i2 (ifd_ifc_4bpkt_i2), .fcl_ifq_thr_s1 (fcl_ifq_thr_s1), .ifc_fsm_milhit_s (any_milhit_qual_s), .ifc_fsm_hiton_thismil_s (milhit_to_thr_s[1]), .ifc_fsm_imiss_thisthr_s (icmiss_thr_s[1]), .ifc_fsm_pcxaccept_thisthr (pcx_accept_d[1]), // .ifc_fsm_reqq_empty (reqq_empty), .ifc_fsm_miladdr4 (ifd_ifc_miladdr4_i2[1]), .clk (clk), .se (se), .si (si), .reset (ifq_reset), .ifc_fsm_err_thisthr (errthr_d1[1]), // outputs .fsm_ifc_errreq (err_req[1]), .fsm_ifc_wrt_tir (wrt_tir[1]), .so (), // .fsm_ifc_cm_pending (can_miss_pending[1]), // .fsm_ifc_delay_mil (delay_mil[1]), .fsm_ifc_comp_valid (comp_valid_s[1]), .fsm_ifc_mil_valid (mil_valid_s[1]), .fsm_ifc_mil_cancel (mil_cancel[1]), .fsm_ifc_milstate (mil1_state[3:0]), .fsm_ifc_pcxreq (pcxreq_s[1]), .fsm_ifc_thr_ready (mil_thr_ready[1]), .fsm_ifc_pred_rdy (pred_rdy_i2[1]), .fsm_ifc_addrbit4_i2 (fill_addr4_i2[1]), .fsm_ifc_milchld (milchld1[2:0])); sparc_ifu_milfsm mil2( .ifc_fsm_can_thisthr (fcl_ifq_canthr[2]), // .ifc_fsm_orphan_thisthr (orphan_thr_d1[2]), .ifc_fsm_fill_thisthr_i2 (fill_retn_thr_i2[2]), .ifc_fsm_wr_complete_f (wr_complete_f[2]), .ifqadv_i2 (ifc_inv_ifqadv_i2), .ifd_ifc_4bpkt_i2 (ifd_ifc_4bpkt_i2), .fcl_ifq_thr_s1 (fcl_ifq_thr_s1), .ifc_fsm_milhit_s (any_milhit_qual_s), .ifc_fsm_hiton_thismil_s (milhit_to_thr_s[2]), .ifc_fsm_imiss_thisthr_s (icmiss_thr_s[2]), .ifc_fsm_pcxaccept_thisthr(pcx_accept_d[2]), // .ifc_fsm_reqq_empty (reqq_empty), .ifc_fsm_miladdr4 (ifd_ifc_miladdr4_i2[2]), .clk (clk), .se (se), .si (si), .reset (ifq_reset), .ifc_fsm_err_thisthr (errthr_d1[2]), // outputs .fsm_ifc_errreq (err_req[2]), .so (), // .fsm_ifc_cm_pending (can_miss_pending[2]), // .fsm_ifc_delay_mil (delay_mil[2]), .fsm_ifc_wrt_tir (wrt_tir[2]), .fsm_ifc_comp_valid (comp_valid_s[2]), .fsm_ifc_mil_valid (mil_valid_s[2]), .fsm_ifc_mil_cancel (mil_cancel[2]), .fsm_ifc_milstate (mil2_state[3:0]), .fsm_ifc_pcxreq (pcxreq_s[2]), .fsm_ifc_thr_ready (mil_thr_ready[2]), .fsm_ifc_pred_rdy (pred_rdy_i2[2]), .fsm_ifc_addrbit4_i2 (fill_addr4_i2[2]), .fsm_ifc_milchld (milchld2[2:0])); sparc_ifu_milfsm mil3( .ifc_fsm_can_thisthr (fcl_ifq_canthr[3]), // .ifc_fsm_orphan_thisthr (orphan_thr_d1[3]), .ifc_fsm_fill_thisthr_i2 (fill_retn_thr_i2[3]), .ifc_fsm_wr_complete_f (wr_complete_f[3]), .ifqadv_i2 (ifc_inv_ifqadv_i2), .ifd_ifc_4bpkt_i2 (ifd_ifc_4bpkt_i2), .fcl_ifq_thr_s1 (fcl_ifq_thr_s1), .ifc_fsm_milhit_s (any_milhit_qual_s), .ifc_fsm_hiton_thismil_s (milhit_to_thr_s[3]), .ifc_fsm_imiss_thisthr_s (icmiss_thr_s[3]), .ifc_fsm_pcxaccept_thisthr(pcx_accept_d[3]), // .ifc_fsm_reqq_empty (reqq_empty), .ifc_fsm_miladdr4 (ifd_ifc_miladdr4_i2[3]), .clk (clk), .se (se), .si (si), .reset (ifq_reset), .ifc_fsm_err_thisthr (errthr_d1[3]), // outputs .fsm_ifc_errreq (err_req[3]), .so (), // .fsm_ifc_cm_pending (can_miss_pending[3]), // .fsm_ifc_delay_mil (delay_mil[3]), .fsm_ifc_wrt_tir (wrt_tir[3]), .fsm_ifc_comp_valid (comp_valid_s[3]), .fsm_ifc_mil_valid (mil_valid_s[3]), .fsm_ifc_mil_cancel (mil_cancel[3]), .fsm_ifc_milstate (mil3_state[3:0]), .fsm_ifc_pcxreq (pcxreq_s[3]), .fsm_ifc_thr_ready (mil_thr_ready[3]), .fsm_ifc_pred_rdy (pred_rdy_i2[3]), .fsm_ifc_addrbit4_i2 (fill_addr4_i2[3]), .fsm_ifc_milchld (milchld3[2:0])); //------------------------------------------- // Fill Return Control (IFU interfac to CPX) //------------------------------------------- // use soffm2 for lower setup dffe_s #(4) cpxreq_reg(.din (ifd_ifc_cpxreq_nxt), .q (cpxreq_i2), .en (ifqadv_i1), .clk (clk), .se(se), .si(), .so()); dffe_s #(2) cpxthr_reg(.din (ifd_ifc_cpxthr_nxt), .q (cpxthr_i2), .en (ifqadv_i1), .clk (clk), .se(se), .si(), .so()); // Decode CPX request assign imissrtn_i1 = (ifd_ifc_cpxreq_i1 == `CPX_IFILLPKT) ? 1'b1 : 1'b0; assign imissrtn_i2 = (cpxreq_i2 == `IFILL_RET) ? ifd_ifc_cpxvld_i2 : 1'b0; assign imissrtn_next_i2 = ifc_inv_ifqadv_i2 ? imissrtn_i2 : imissrtn_f; dff_s #(1) imsf_ff(.din (imissrtn_next_i2), .q (imissrtn_f), .clk (clk), .se (se), .si(), .so()); // Determine if this is an IFILL RET to one of the threads assign fill_retn_thr_i2 = dfthr_i2 & {4{imissrtn_i2}}; // decode current icache fill thread assign dfthr_f[0] = ~filltid_f[1] & ~filltid_f[0]; assign dfthr_f[1] = ~filltid_f[1] & filltid_f[0]; assign dfthr_f[2] = filltid_f[1] & ~filltid_f[0]; assign dfthr_f[3] = filltid_f[1] & filltid_f[0]; //`ifdef IFU_SAT // assign ifc_ifd_uncached_s = fcl_ifq_icache_en_s_l; //`else //`endif assign uncached_s = ifd_ifc_newdestid_s[2] | fcl_ifq_icache_en_s_l; // timing fix: keep nc bit locally instead of in DP assign mil_nc_vec_nxt = ({4{uncached_s & fcl_ifq_rdreq_s1}} & thr_s1 & ~errthr_d1 | mil_nc_vec & (mil_valid_s | errthr_d1)); dff_s #(4) nc_reg(.din (mil_nc_vec_nxt), .q (mil_nc_vec), .clk (clk), .se(se), .si(), .so()); assign mil_nc_i2 = (dfthr_i2[0] & mil_nc_vec[0] | dfthr_i2[1] & mil_nc_vec[1] | dfthr_i2[2] & mil_nc_vec[2] | dfthr_i2[3] & mil_nc_vec[3]); assign mil_nc_d = (dpcxthr_d[0] & mil_nc_vec[0] | dpcxthr_d[1] & mil_nc_vec[1] | dpcxthr_d[2] & mil_nc_vec[2] | dpcxthr_d[3] & mil_nc_vec[3]); dff_s #(1) nce_ff(.din (mil_nc_d), .q (mil_nc_e), .clk (clk), .se(se), .si(), .so()); assign ifc_ifd_uncached_e = mil_nc_e; // assign uncached_fill_i2 = ifd_ifc_uncached_i2 | ifd_ifc_cpxnc_i2; assign uncached_fill_i2 = mil_nc_i2 | ifd_ifc_cpxnc_i2; // uncached fill -- do not write to icache assign uncached_i2 = ifc_inv_ifqadv_i2 ? uncached_fill_i2 : uncached_f; dff_s unc_ff(.din (uncached_i2), .q (uncached_f), .clk (clk), .se (se), .si(), .so()); // Determine if Icache write is done or // if none is necessary (i.e. if this is a child process or NC) assign wr_complete_f = dfthr_f & {4{(wrreq_f & ifc_inv_ifqadv_i2 | milchld_vld_f | uncached_f) & imissrtn_f}}; // State Machine Outputs // One of these has to be chosen for I2 stage operation mux4ds #(3) i2out_mux(.dout (i2out), .in0 (milchld0), .in1 (milchld1), .in2 (milchld2), .in3 (milchld3), .sel0 (dfthr_i2[0]), .sel1 (dfthr_i2[1]), .sel2 (dfthr_i2[2]), .sel3 (dfthr_i2[3])); assign mil_vld_i2 = (mil_valid_s[0] & dfthr_i2[0] | mil_valid_s[1] & dfthr_i2[1] | mil_valid_s[2] & dfthr_i2[2] | mil_valid_s[3] & dfthr_i2[3]); assign mil_uncan_i2 = (mil_valid_s[0] & ~mil_cancel[0] & dfthr_i2[0] | mil_valid_s[1] & ~mil_cancel[1] & dfthr_i2[1] | mil_valid_s[2] & ~mil_cancel[2] & dfthr_i2[2] | mil_valid_s[3] & ~mil_cancel[3] & dfthr_i2[3]); // Don't make a wrreq if this is a child entry. However, if this is // a child and the parent was cancelled, then go ahead and // write... is this really necessary? Not for functionality. // 3/19: parent will write even if cancelled. So never write child assign next_wrreq_i2 = imissrtn_i2 & mil_vld_i2 & ~uncached_fill_i2 & ~milchld_vld_i2 & ~ifd_ifc_4bpkt_i2; // was: iobpkt_i2 assign addrbit4_i2 = (milfthr_i2[0] & fill_addr4_i2[0] | milfthr_i2[1] & fill_addr4_i2[1] | milfthr_i2[2] & fill_addr4_i2[2] | milfthr_i2[3] & fill_addr4_i2[3]); assign addrbit4_nxt_i2= ifc_inv_ifqadv_i2 ? addrbit4_i2 : filladdr4_f; dff_s #(1) ab4_ff(.din (addrbit4_nxt_i2), .q (filladdr4_f), .clk (clk), .se (se), .si(), .so()); assign ifc_ifd_filladdr4_i2 = addrbit4_nxt_i2; assign next_milchld = ifc_inv_ifqadv_i2 ? {(i2out[2] & imissrtn_i2), i2out[1:0]} : milchld_d1; // After the packet is processed, the child entry in the MIL, // pointed to by the reg below is processed next (if valid) dffr_s #(3) milchldd_reg(.din (next_milchld), .clk (clk), .rst (ifq_reset), .q (milchld_d1), .se (se), .si(), .so()); assign milchld_vld_i2 = milchld_d1[2]; assign next_milchld_i2 = ifc_inv_ifqadv_i2 ? milchld_d1[2] : milchld_vld_f; dffr_s #(1) milchldf_ff(.din (next_milchld_i2), .q (milchld_vld_f), .clk (clk), .rst (ifq_reset), .se (se), .si(), .so()); // need this to avoid x's in the simulation // assign cpxthrid_adj_i2 = ifd_ifc_cpxthr_i2 & // {2{ifd_ifc_cpxreq_i2[`CPX_RQ_SIZE]}}; // Determine if we should process the child or a new entry // assign next_thr_sel_milchld_i2 = ifc_inv_ifqadv_i2 & milchld_vld_i2 & // ~errpkt_i2; // assign next_thr_sel_milchld_i2 = milchld_vld_i2 & ~errpkt_i2; // if previous mil entry had a child, process that next // mux2ds #(2) filltid_mux(.dout (filltid_i2), // .in0 (cpxthrid_adj_i2), // .in1 (milchld_d1[1:0]), // .sel0 (~milchld_vld_i2), // .sel1 (milchld_vld_i2)); assign filltid_i2 = milchld_vld_i2 ? milchld_d1[1:0] : cpxthr_i2[1:0]; // decode fill thread (either cpx thread or MIL child thread from above) // need to qual with valid bit to avoid X's in simulation // assign cpxvld_or_milc_i2 = ifd_ifc_cpxreq_i2[`CPX_RQ_SIZE] | milchld_vld_i2; assign dfthr_i2[0] = ~filltid_i2[1] & ~filltid_i2[0]; assign dfthr_i2[1] = ~filltid_i2[1] & filltid_i2[0]; assign dfthr_i2[2] = filltid_i2[1] & ~filltid_i2[0]; assign dfthr_i2[3] = filltid_i2[1] & filltid_i2[0]; dp_mux2es #(2) thren_mux(.dout (next_filltid_i2), .in0 (filltid_f), .in1 (filltid_i2), .sel (ifc_inv_ifqadv_i2)); dff_s #(2) wrthr_reg(.din (next_filltid_i2), .clk (clk), .q (filltid_f), .se (se), .si(), .so()); dp_mux2es #(4) dthren_mux(.dout (dfthr_next_i2), .in0 (dfthr_f), .in1 (dfthr_i2), .sel (ifc_inv_ifqadv_i2)); // Early start of threads // Do we need a control bit to turn this off? // -- do it in SWL assign ifq_dtu_pred_rdy = pred_rdy_i2 & {dfthr_next_i2[3:0]} & {4{imissrtn_next_i2}}; // If timing is a problem resort to: // assign ifq_dtu_pred_rdy = pred_rdy_i2 & {4{ifc_inv_ifqadv_i2}} & // dfthr_i2 & {4{imissrtn_i2}}; // pick 16B half cache line which contains the instruction we want // assign fill_this16b = ~(ifc_ifd_filladdr4_i2 ^ ifd_ifc_missaddr4_i2); // | ifd_ifc_4bpkt_i2; // write to thread instruction register // assign ifq_fcl_fill_thr = wrt_tir & {4{fill_this16b | ifd_ifc_4bpkt_i2}}; // assign ifq_fcl_fill_thr = wrt_tir & {4{fill_this16b}}; assign ifq_fcl_fill_thr = wrt_tir | thr_d1 & {4{itlberr_d1 & ~canthr_d1 & icmiss_d1 & ~canthr_s1_del1}}; // Select instruction to send to TIR // TBD: Need to find out how the inst from boot PROM is aligned -- Done // From kinkee 02/21/03: It is aligned to the correct 4B of the 16B // packet. The other locations are X. assign finst0[0] = ~ifd_ifc_instoffset0[1] & ~ifd_ifc_instoffset0[0]; assign finst0[1] = ~ifd_ifc_instoffset0[1] & ifd_ifc_instoffset0[0]; assign finst0[2] = ifd_ifc_instoffset0[1] & ~ifd_ifc_instoffset0[0]; assign finst0[3] = ifd_ifc_instoffset0[1] & ifd_ifc_instoffset0[0]; assign finst1[0] = ~ifd_ifc_instoffset1[1] & ~ifd_ifc_instoffset1[0]; assign finst1[1] = ~ifd_ifc_instoffset1[1] & ifd_ifc_instoffset1[0]; assign finst1[2] = ifd_ifc_instoffset1[1] & ~ifd_ifc_instoffset1[0]; assign finst1[3] = ifd_ifc_instoffset1[1] & ifd_ifc_instoffset1[0]; assign finst2[0] = ~ifd_ifc_instoffset2[1] & ~ifd_ifc_instoffset2[0]; assign finst2[1] = ~ifd_ifc_instoffset2[1] & ifd_ifc_instoffset2[0]; assign finst2[2] = ifd_ifc_instoffset2[1] & ~ifd_ifc_instoffset2[0]; assign finst2[3] = ifd_ifc_instoffset2[1] & ifd_ifc_instoffset2[0]; assign finst3[0] = ~ifd_ifc_instoffset3[1] & ~ifd_ifc_instoffset3[0]; assign finst3[1] = ~ifd_ifc_instoffset3[1] & ifd_ifc_instoffset3[0]; assign finst3[2] = ifd_ifc_instoffset3[1] & ~ifd_ifc_instoffset3[0]; assign finst3[3] = ifd_ifc_instoffset3[1] & ifd_ifc_instoffset3[0]; // mux4ds #(4) finst_mx(.dout (finst_i2), // .in0 (finst0), // .in1 (finst1), // .in2 (finst2), // .in3 (finst3), // .sel0 (dfthr_i2[0]), // .sel1 (dfthr_i2[1]), // .sel2 (dfthr_i2[2]), // .sel3 (dfthr_i2[3])); wire [3:0] finst_ev, finst_od, finst_i2_l; wire [1:0] filltid_i2_l; bw_u1_inv_10x UZsize_ftid_bf0(.z (filltid_i2_l[0]), .a (filltid_i2[0])); bw_u1_inv_20x UZsize_ftid_bf1(.z (filltid_i2_l[1]), .a (filltid_i2[1])); // use bw_u1_muxi21_4x assign finst_ev = filltid_i2_l[1] ? finst0 : finst2; assign finst_od = filltid_i2_l[1] ? finst1 : finst3; assign finst_i2_l = filltid_i2_l[0] ? (~finst_ev) : (~finst_od); assign finst_i2 = ~finst_i2_l; assign ifc_ifd_finst_sel_l = ~finst_i2; // pick MIL entry corresponding to current thread assign milfthr_i2[0] = ~cpxthr_i2[1] & ~cpxthr_i2[0]; assign milfthr_i2[1] = ~cpxthr_i2[1] & cpxthr_i2[0]; assign milfthr_i2[2] = cpxthr_i2[1] & ~cpxthr_i2[0]; assign milfthr_i2[3] = cpxthr_i2[1] & cpxthr_i2[0]; assign ifc_ifd_milfill_sel_i2_l = ~milfthr_i2; // write request // assign ifq_fcl_wrreq_bf = ifc_inv_ifqadv_i2 ? next_wrreq_i2 : wrreq_f; // assign ifq_fcl_wrreq_bf = ~ifc_inv_ifqadv_i2 | next_wrreq_i2; assign ifq_fcl_wrreq_bf = wrreq_f & ~ifc_inv_ifqadv_i2 | next_wrreq_i2; dffr_s #(1) wrreq_ff(.din (ifq_fcl_wrreq_bf), .clk (clk), .q (wrreq_f), .rst (ifq_reset), .se (se), .si(), .so()); // starvation check // if a write is not granted for 24 cycles, sound the alarm sparc_ifu_ctr5 starv_ctr( // Outputs .limit (starv_alert), .so (so), // Inputs .clk (clk), .se (se), .si (si), .rst_ctr_l (rst_starv_ctr_l)); assign rst_starv_ctr_l = ~ifq_reset & wrreq_f; // advance in i2 when a write ack is received or if not a fill // Can help timing of this signal by doing // ifqadv_nxt = ~ifq_fcl_wrreq_bf | fcl_icd_index_sel_ifq_bf assign access_grant_l = ~fcl_ifq_grant_bf; bw_u1_nand2_2x UZsize_acc_n2(.z (ifqadvi2_nxt), .a (ifq_fcl_wrreq_bf), .b (access_grant_l)); dff_s #(1) qadv_ff(.din (ifqadvi2_nxt), .q (ifqadv_i2_ff), .clk (clk), .se(se), .si(), .so()); assign ifc_inv_ifqadv_i2 = ifqadv_i2_ff; // advance in i1 when a write ack is received AND there are no // child threads to be taken care of assign ifqadv_i1 = (ifc_inv_ifqadv_i2 & ~next_milchld[2] & ~fwd_stall) | ifq_reset; //----------------------------------- // Errors and Error Packet //----------------------------------- assign errpkt_i1 = (ifd_ifc_cpxreq_i1 == `CPX_ERRPKT) ? 1'b1 : 1'b0; assign errpkt_i2 = (cpxreq_i2 == `ERR_RET) ? ifd_ifc_cpxvld_i2 : 1'b0; // Reported Errors are not logged in ERB assign ce_rep_i2 = ifd_ifc_cpxce_i2 & ~ifd_ifc_cpxue_i2 & errpkt_i2 & ifc_inv_ifqadv_i2; assign ue_rep_i2 = ifd_ifc_cpxue_i2 & errpkt_i2 & ifc_inv_ifqadv_i2; dff_s #(1) cerep_ff(.din (ce_rep_i2), .q (ifq_erb_ce_rep), .clk (clk), .se(se), .si(), .so()); dff_s #(1) uerep_ff(.din (ue_rep_i2), .q (ifq_erb_ue_rep), .clk (clk), .se(se), .si(), .so()); // dff #(2) ertid_reg(.din (filltid_i2), // .q (ifq_erb_l2err_tid), // .clk (clk), .se(se), .si(), .so()); // send thread id one cycle earlier to help crit path assign ifq_erb_l2err_tid = filltid_i2; // Ifetch Errors are logged in ERB assign l2_ce_i2 = ifd_ifc_cpxce_i2 & ~ifd_ifc_cpxue_i2 & imissrtn_i2 & ifc_inv_ifqadv_i2 & mil_uncan_i2; assign l2_ue_i2 = ifd_ifc_cpxue_i2 & imissrtn_i2 & ~ifd_ifc_iobpkt_i2 & ifc_inv_ifqadv_i2 & mil_uncan_i2; assign io_ue_i2 = ifd_ifc_cpxue_i2 & imissrtn_i2 & ifd_ifc_iobpkt_i2 & ifc_inv_ifqadv_i2 & mil_uncan_i2; dff_s #(1) l2ce_ff(.din (l2_ce_i2), .q (ifq_erb_ifet_ce), .clk (clk), .se(se), .si(), .so()); dff_s #(1) l2ue_ff(.din (l2_ue_i2), .q (ifq_erb_l2_ue), .clk (clk), .se(se), .si(), .so()); dff_s #(1) ioue_ff(.din (io_ue_i2), .q (ifq_erb_io_ue), .clk (clk), .se(se), .si(), .so()); assign l2_miss_i2 = ifd_ifc_cpxms_i2 & imissrtn_i2 & ifc_inv_ifqadv_i2; dff_s #(1) l2ms_ff(.din (l2_miss_i2), .q (l2_miss_f), .clk (clk), .se(se), .si(), .so()); assign ifu_tlu_l2imiss = dfthr_f & {4{l2_miss_f}}; //-------------------------------------------- // Miss Request Control (IFU interface to PCX) //-------------------------------------------- // decode imiss thread assign thr_s1[0] = ~fcl_ifq_thr_s1[0] & ~fcl_ifq_thr_s1[1]; assign thr_s1[1] = fcl_ifq_thr_s1[0] & ~fcl_ifq_thr_s1[1]; assign thr_s1[2] = ~fcl_ifq_thr_s1[0] & fcl_ifq_thr_s1[1]; assign thr_s1[3] = fcl_ifq_thr_s1[0] & fcl_ifq_thr_s1[1]; // signal ic miss to thread MIL state machines assign icmiss_thr_s = {4{fcl_ifq_icmiss_s1 & ~block_fetch_s1}} & thr_s1 & ~icmiss_thr_d; // dff #(4) icmsreg(.din (icmiss_thr_s), // .clk (clk), // .q (icmiss_thr_d), // .se (se), .si(), .so()); dff_s #(1) icmsd_ff(.din (fcl_ifq_icmiss_s1), .clk (clk), .q (icmiss_d1), .se (se), .si(), .so()); assign icmiss_qual_d1 = icmiss_d1 & ~(thr_match_d1e1 & ifeterr_e1); // bug 5926 assign n763 = ~ifd_ifc_newdestid_s[2]; dff_s #(1) iosp_ff(.din (n763), .q (iosp_d1_l), .clk (clk), .se(se), .si(), .so()); assign icmiss_thr_d = {4{icmiss_d1 | erb_ifq_ifeterr_d1 & iosp_d1_l}} & thr_d1 | {4{ifeterr_e1}} & thr_e1; dff_s #(4) thrdreg(.din (thr_s1), .clk (clk), .q (thr_d1), .se (se), .si(), .so()); dff_s #(4) threreg(.din (thr_d1), .clk (clk), .q (thr_e1), .se (se), .si(), .so()); dff_s #(1) erre_ff(.din (ifeterr_qual_d1), .q (ifeterr_e1), .clk (clk), .se(se), .si(), .so()); assign thr_match_d1e1 = (thr_d1[0] & thr_e1[0] | thr_d1[1] & thr_e1[1] | thr_d1[2] & thr_e1[2] | thr_d1[3] & thr_e1[3]); // assign ifeterr_qual_d1 = ~(thr_match_d1e1 & ifeterr_e1) & ~canthr_d1 & // erb_ifq_ifeterr_d1; assign ifeterr_qual_d1 = ~(thr_match_d1e1 & ifeterr_e1) & erb_ifq_ifeterr_d1 & iosp_d1_l; assign errthr_d1 = (thr_d1 & {4{ifeterr_qual_d1 & ~block_fetch_d1}}); // If misses to same thread, (in successive cycles), ignore assign ifc_ifd_ldmil_sel_new = (thr_s1 & {4{fcl_ifq_rdreq_s1}} & ~errthr_d1 & ~mil_valid_s); // Check hit in MIL -- a thread cannot hit // 1. its own MIL // 2. an MIL that is being filled // 3. if it is to an IOB line assign qualhit_or_io_s = ifd_ifc_milhit_s & comp_valid_s & ~thr_s1 & ~fill_retn_thr_i2 & {4{~ifd_ifc_newdestid_s[2]}}; assign any_qualhit_or_io_s = (qualhit_or_io_s[0] | qualhit_or_io_s[1] | qualhit_or_io_s[2] | qualhit_or_io_s[3]); // assign milhit_qual_s = ifd_ifc_milhit_s & comp_valid_s & // ~thr_s1 & // ~fill_retn_thr_i2 & // {4{~ifd_ifc_newdestid_s[2]}}; // assign any_milhit_qual_s = any_qualhit_or_io_s & ~ifd_ifc_newdestid_s[2]; assign any_milhit_qual_s = any_qualhit_or_io_s; // Generate Replacement Way // Make sure a req doesn't go out to a different way than // what is pending assign milhit_vec_s = ifd_ifc_milhit_s & (mil_valid_s | errthr_d1); assign any_milhit_s = (|milhit_vec_s[3:0]); // assign mil_repway_s = (ifd_ifc_mil_repway_s[7:6] & {2{milhit_vec_s[3]}} | // ifd_ifc_mil_repway_s[5:4] & {2{milhit_vec_s[2]}} | // ifd_ifc_mil_repway_s[3:2] & {2{milhit_vec_s[1]}} | // ifd_ifc_mil_repway_s[1:0] & {2{milhit_vec_s[0]}}); // assign ifc_ifd_repway_s = any_milhit_s ? mil_repway_s : rand_repway_s; assign ifc_ifd_repway_s = rand_repway_s; // pick any way at random // reset with dbg_init as well sparc_ifu_lfsr5 lfsr(.out (rand_repway_s), .clk (clk), .advance (fcl_ifq_icmiss_s1), .reset (rst_way_lfsr), .se (se), .si (si), .so (so)); assign rst_way_lfsr = ifq_reset | lsu_ifu_direct_map_l1 | ~gdbginit_l; // check if miss req is valid in a given pipe stage assign canthr_s1 = (fcl_ifq_canthr[0] & thr_s1[0] | fcl_ifq_canthr[1] & thr_s1[1] | fcl_ifq_canthr[2] & thr_s1[2] | fcl_ifq_canthr[3] & thr_s1[3]); assign canthr_d1 = (fcl_ifq_canthr[0] & thr_d1[0] | fcl_ifq_canthr[1] & thr_d1[1] | fcl_ifq_canthr[2] & thr_d1[2] | fcl_ifq_canthr[3] & thr_d1[3]); // retry a fetch if the imiss occurs while it is being filled // assign block_fetch_s1 = any_milhit_s & // ~(any_qualhit_or_io_s | ifd_ifc_newdestid_s[2]) | // dtu_ifq_kill_latest_d; assign block_fetch_s1 = any_milhit_s & ~ifd_ifc_newdestid_s[2] & ~any_qualhit_or_io_s | dtu_ifq_kill_latest_d | erb_ifq_itlberr_s1; dff_s #(1) bfd_ff(.din (block_fetch_s1), .q (block_fetch_d1), .clk (clk), .se(se), .si(), .so()); dff_s #(1) tlbe_ff(.din (erb_ifq_itlberr_s1), .q (itlberr_d1), .clk (clk), .se(se), .si(), .so()); // assign retry_rdy_s1 = block_fetch_s1 & fcl_ifq_icmiss_s1; // dff #(1) retrd_ff(.din (retry_rdy_s1), // .q (retry_rdy_d1), // .clk (clk), .se(se), .si(), .so()); assign retry_rdy_final_d1 = block_fetch_d1 & (icmiss_qual_d1 | ifeterr_qual_d1); dff_s #(1) retre_ff(.din (retry_rdy_final_d1), .q (retry_rdy_e1), .clk (clk), .se(se), .si(), .so()); assign all_retry_rdy_e1 = {4{retry_rdy_e1}} & thr_e1; dff_s #(4) retrm_reg(.din (all_retry_rdy_e1), .q (all_retry_rdy_m1), .clk (clk), .se(se), .si(), .so()); assign ifq_dtu_thrrdy = mil_thr_ready | all_retry_rdy_m1; // assign retry_fetch_s1 = block_fetch_s1 & fcl_ifq_icmiss_s1 & // ~canthr_s1; dff_s #(1) cans_ff(.din (canthr_s1), .q (canthr_s1_del1), .clk (clk), .se(se), .si(), .so()); assign ifq_fcl_flush_sonly_e = (block_fetch_d1 & (icmiss_qual_d1 & ~canthr_s1_del1 | ifeterr_qual_d1) & ~canthr_d1 & ~itlberr_d1); // Determine which thread's MIL was hit, if at all // first check if this really was an imiss assign icmiss_for_milchk = thr_s1 & ~icmiss_thr_d & ~errthr_d1; assign icmiss_qual_s = (|icmiss_for_milchk[3:0]) & fcl_ifq_icmiss_s1 & ~dtu_ifq_kill_latest_d & ~erb_ifq_itlberr_s1; // since multiple requests can be outstanding when an error is // encountered, need to prioritise the mil hits. // TBD: there must be a cleaner way to do this! assign qualhit_pe_s[0] = qualhit_or_io_s[0]; assign qualhit_pe_s[1] = ~qualhit_or_io_s[0] & qualhit_or_io_s[1]; assign qualhit_pe_s[2] = ~qualhit_or_io_s[0] & ~qualhit_or_io_s[1] & qualhit_or_io_s[2]; assign qualhit_pe_s[3] = ~qualhit_or_io_s[0] & ~qualhit_or_io_s[1] & ~qualhit_or_io_s[2] & qualhit_or_io_s[3]; // A thread cannot hit on an MIL to the IOB assign milhit_to_thr_s = qualhit_pe_s & {4{icmiss_qual_s & ~ifd_ifc_newdestid_s[2]}}; // Make Request to PCX if miss in Icache and MIL // determine if we need to send req to L2 // assign newpcxreq_s = icmiss_for_milchk & ~fcl_ifq_canthr; // assign newreq_valid = fcl_ifq_icmiss_s1 & ~dtu_ifq_kill_latest_d & // (newpcxreq_s[0] | // newpcxreq_s[1] | // newpcxreq_s[2] | // newpcxreq_s[3]) & // (~any_milhit_s | ifd_ifc_newdestid_s[2]); assign newreq_valid = icmiss_qual_s & (~any_milhit_s | ifd_ifc_newdestid_s[2]); // check if there are any old requests outstanding, that are not // current in the D stage. assign pcxreq_qual_s = pcxreq_s & ~(dpcxthr_d & {4{req_valid_d}}); // assign reqq_empty = ~(|pcxreq_qual_s[3:0]); // assign oldpcxreq_s = pcxreq_qual_s & rr_gnt & ~fcl_ifq_canthr; // assign oldreq_valid = (|oldpcxreq_s); // assign oldpcxreq_s = pcxreq_qual_s & rr_gnt; assign oldreq_valid = (|pcxreq_qual_s); // Send out PCX request in round robin order if there are other // reqests pending. If the request queue is empty send this req // assign nextreq_valid_s = ~reqq_empty | newreq_valid; assign nextreq_valid_s = oldreq_valid | newreq_valid | req_pending_d; assign rnd_reset = ifq_reset | ~gdbginit_l; // round robin assignment to pcx sparc_ifu_rndrob pcxrndrob(.req_vec (pcxreq_qual_s), .grant_vec (rr_gnt), .advance (req_accept_d), .rst_tri_enable (rst_tri_en), .clk (clk), .reset (rnd_reset), .se (se), .si (si), .so ()); // if req queue is empty forward the new request to pcx // if not store it in the MIL assign dpcxthr_s = req_pending_d ? dpcxthr_d : ~oldreq_valid ? thr_s1 : rr_gnt; dff_s #(4) pcxthr_ff(.din (dpcxthr_s), .clk (clk), .q (dpcxthr_d), .se (se), .si(), .so()); assign thrid_d[0] = dpcxthr_d[3] | dpcxthr_d[1]; assign thrid_d[1] = dpcxthr_d[3] | dpcxthr_d[2]; dff_s #(2) tide_reg(.din (thrid_d), .q (thrid_e), .clk (clk), .se(se), .si(), .so()); assign ifc_ifd_thrid_e = thrid_e; // Determine the destination to which the request is made: mux4ds #(3) dest_mux(.dout (old_destid_s), .in0 (ifd_ifc_destid0[2:0]), .in1 (ifd_ifc_destid1[2:0]), .in2 (ifd_ifc_destid2[2:0]), .in3 (ifd_ifc_destid3[2:0]), .sel0 (rr_gnt[0]), .sel1 (rr_gnt[1]), .sel2 (rr_gnt[2]), .sel3 (rr_gnt[3])); // mux2ds #(3) fdest_mux(.dout (destid_s), // .in0 (ifd_ifc_newdestid_s), // .in1 (old_destid_s), // .sel0 (~oldreq_valid), // .sel1 (oldreq_valid)); // assign destid_s = req_pending_d ? ifu_lsu_destid_d : // ~oldreq_valid ? ifd_ifc_newdestid_s : // old_destid_s; assign ifu_lsu_destid_s = oldreq_valid ? old_destid_s : ifd_ifc_newdestid_s; // remove this assign destid_iob_s = req_pending_d ? destid_iob_d : ifu_lsu_destid_s[2]; dff_s #(1) destd_reg(.din (destid_iob_s), .q (destid_iob_d), .clk (clk), .se(se), .si(), .so()); // If this is going to any L2 bank, zero out the line address // for Rams assign ifc_ifd_pcxline_adj_d[4:2] = ifd_ifc_pcxline_d[4:2] & {3{destid_iob_d}}; // advace req dffr_s #(1) pcxreqvd_ff(.din (nextreq_valid_s), .clk (clk), .rst (ifq_reset), .q (req_valid_d), .se (se), .si(), .so()); assign ifu_lsu_pcxreq_d = req_valid_d; // assign req_pending_d = req_valid_d & ~can_pcx_d & ~lsu_ifu_pcxpkt_ack_d; assign req_pending_d = req_valid_d & ~(lsu_ifu_pcxpkt_ack_d & ~errinv_d1); assign req_accept_d = req_valid_d & lsu_ifu_pcxpkt_ack_d; // assign rr_advance_d = req_accept_d & ~errinv_d1 // Signal to FSM if pcx request has been accepted by LSU assign pcx_accept_d = dpcxthr_d & {4{req_accept_d}}; // Alternate implementation with canthr delayed by a cycle // assign pcxreq_vbit_d = req_valid_d & ~can_pcx_d; // assign pcx_accept_d = dpcxthr_d & {4{req_accept_d}} & ~fcl_ifq_canthr; // check if there was an error to this thread assign err_vec_d1 = dpcxthr_d & (errthr_d1 | err_req); assign errinv_d1 = (|err_vec_d1[3:0]); dff_s #(1) errinv_ff(.din (errinv_d1), .q (ifc_ifd_errinv_e), .clk (clk), .se(se), .si(), .so()); assign pcxreq_vbit_d = req_valid_d; dff_s #(1) pcxreqve_ff(.din (pcxreq_vbit_d), // same as ifu_lsu_pcxreq_d .clk (clk), .q (ifc_ifd_reqvalid_e), .se (se), .si(), .so()); // dff #(1) pcxreqpe_ff(.din (req_pending_d), // .clk (clk), // .q (req_pending_e), // .se (se), .si(), .so()); // advance pcx request if there is no prev request pending // the data is deliberately held valid for one extra cycle. this // is legacy stuff. LSU guarantees that the data is picked up // minimum 1 cycle after request is made. // assign ifc_ifd_nxtpcx_sel_new_d = ~req_pending_e; // assign ifc_ifd_nxtpcx_sel_new_d = 1'b1; // Select which MIL request to send out to PCX assign ifc_ifd_milreq_sel_d_l[0] = ~dpcxthr_d[0] & ~rst_tri_en; assign ifc_ifd_milreq_sel_d_l[1] = ~dpcxthr_d[1] | rst_tri_en; assign ifc_ifd_milreq_sel_d_l[2] = ~dpcxthr_d[2] | rst_tri_en; assign ifc_ifd_milreq_sel_d_l[3] = ~dpcxthr_d[3] | rst_tri_en; //----------------------------- // Invalidate Controls //---------------------------- assign stpkt_i1 = (ifd_ifc_cpxreq_i1 == `CPX_STRPKT) ? 1'b1 : 1'b0; assign strmack_i1 = (ifd_ifc_cpxreq_i1 == `CPX_STRMACK) ? 1'b1 : 1'b0; assign evpkt_i1 = (ifd_ifc_cpxreq_i1 == `CPX_EVPKT) ? 1'b1 : 1'b0; assign ldpkt_i1 = (ifd_ifc_cpxreq_i1 == `CPX_LDPKT) ? 1'b1 : 1'b0; assign invalidate_i1 = (stpkt_i1 | strmack_i1 | evpkt_i1 | ldpkt_i1); assign ifu_lsu_inv_clear = ~(invalidate_i1 | inv_ifc_inv_pending); // assign ifc_inv_wrreq_i2 = (imissrtn_i2 | // asireq_i2 & asi_ic_tag_i2 & ~asi_load_i2 | // mbist_icache_write); // assign wrt_en_wd0_i2 = inv_ifc_word0_inv_i2 & (stpkt_i2 | evpkt_i2) | // ldinv_i2 & ~ifd_ifc_ldaddr5_i2 | // (imissrtn_i2 | // asireq_i2 & asi_ic_tag_i2 & ~asi_load_i2 | // mbist_icache_write) & // ~ifd_ifc_missaddr5_i2; // // assign wrt_en_wd1_i2 = inv_ifc_word1_inv_i2 & (stpkt_i2 | evpkt_i2) | // ldinv_i2 & ifd_ifc_ldaddr5_i2 | // (imissrtn_i2 | // asireq_i2 & asi_ic_tag_i2 & ~asi_load_i2 | // mbist_icache_write) & // ifd_ifc_missaddr5_i2; // calculate the ICV write data assign icv_wbit_i2 = imissrtn_i2 & ifc_ifd_filladdr4_i2 | asireq_i2 & asi_ic_tag_i2 & ~asi_load_i2 & cpxreq_i2[2]; assign icv_wrdata_i2 = ifc_inv_ifqadv_i2 ? icv_wbit_i2 : icv_wrdata_f; // mux2ds #(2) icv_damux(.dout (icv_wrdata_i2), // .in0 (icv_wrdata_f), // .in1 (icv_wbit_i2), // .sel0 (~ifc_inv_ifqadv_i2), // .sel1 (ifc_inv_ifqadv_i2)); dff_s #(1) icv_daff(.din (icv_wrdata_i2), .q (icv_wrdata_f), .clk (clk), .se (se), .si(), .so()); assign ifq_icv_wrdata_bf = icv_wrdata_i2; // Begin ECO7010 dp_mux2es #(1) wayvld_mux (.dout (inq_wayvld_i1_nxt), //done .in0 (lsu_ifu_cpxpkt_wayvld_i1), .in1 (inq_wayvld_i1), .sel(inq_vld)); dff_s #(1) wayvld_ff (.din (inq_wayvld_i1_nxt), //done .q (inq_wayvld_i1), .clk (clk), .se(se), .si(), .so()); assign ldinv_i1 = ldpkt_i1 & inq_wayvld_i1; //done dp_mux2es #(1) ldinv_i2_mux (.dout (ldinv_i2_nxt), //done .in0 (ldinv_i1), .in1 (ldinv_i2), .sel(ifc_ifd_ifqbyp_en_l)); dff_s #(1) ldinv_i2_ff (.din (ldinv_i2_nxt), //done .q (ldinv_i2), .clk (clk), .se(se), .si(), .so()); //End ECO7010 //------------------------------------------------ // Fwd Request to read/write Icache //------------------------------------------------ // is this a fwd req to the L1I? assign fwdreq_i2 = (cpxreq_i2 == `FWD_RQ_RET) ? (ifd_ifc_fwd2ic_i2 & ifd_ifc_4bpkt_i2 & ifd_ifc_cpxvld_i2) : 1'b0; // detect first cycle of fwdpkt and stall assign fwd_stall = fwdreq_i2 & ~fwdreq_i3; dff_s #(1) freq_ff(.din (fwd_stall), .q (fwdreq_i3), .clk (clk), .se(se), .si(), .so()); dff_s #(1) cpx3_ff(.din (ifd_ifc_cpxnc_i2), .q (cpxnc_i3), .clk (clk), .se(se), .si(), .so()); // NC bit is also R/W_bar bit assign fwdrd_i3 = fwdreq_i3 & cpxnc_i3; assign fwdwr_i3 = fwdreq_i3 & ~cpxnc_i3; // ack back to the LSU to send fwd reply assign ifu_lsu_fwd_wr_ack = fwdwr_i3; assign ifc_ifd_idx_sel_fwd_i2 = fwdreq_i2; // let errctl know a fwd packet is coming assign ifq_erb_fwdrd_bf = fwdrd_i3; //---------------------------------- // INQ controls -- now ibuf controls //---------------------------------- // INQ removed 2/13/02 // Is the pkt in the inq a pkt that affects the icache? assign ic_pkt_i1 = invalidate_i1 | imissrtn_i1 | errpkt_i1; // assign inq_vld_nxt = ~inq_vld & ifd_ifc_cpxvalid_i1 & // (~ifqadv_i1 | asireq_i1) | // inq_vld & ((~ifqadv_i1 | asireq_i1) & ic_pkt_i1 | // ifd_ifc_cpxvalid_i1); // cut this down to 1 aoi gate assign inq_vld_nxt = (ifd_ifc_cpxvalid_i1 | inq_vld & ic_pkt_i1) & (~ifqadv_i1 | ifu_asireq_i1); dffr_s #(1) inqv_ff(.din (inq_vld_nxt), .q (inq_vld), .rst (ifq_reset), .clk (clk), .se(se), .si(), .so()); assign ifc_ifd_ifqbyp_en_l = ~(ifqadv_i1 | fwd_stall); assign ifc_ifd_ifqbyp_sel_fwd_l = ~(fwd_stall & ~ifq_reset); assign ifc_ifd_ifqbyp_sel_asi_l = ~(~fwd_stall & ~ifq_reset & ifu_asireq_i1); assign ifc_ifd_ifqbyp_sel_inq_l = ~(~fwd_stall & ~ifq_reset & ~ifu_asireq_i1 & inq_vld); assign ifc_ifd_ifqbyp_sel_lsu_l = ~(~fwd_stall & ~ifu_asireq_i1 & ~inq_vld | ifq_reset); assign byp_sel_asi_l = ~(ifqadv_i1 & ifu_asireq_i1); // assign ifu_lsu_ibuf_busy = inq_vld & (~ifqadv_i1 | asireq_i1); // assign ifc_ifd_ld_inq_i1 = ~inq_vld | ifqadv_i1 & ~asireq_i1; assign ifu_lsu_ibuf_busy = inq_vld; assign ifc_ifd_ld_inq_i1 = ~inq_vld; //----------------------------------------- // ASI access controls //----------------------------------------- // need this to help with timing // - asi_vld is asserted only if the asi transaction is to an IFU asi // register AND that register is not in the IMMU. // - it is held valid until an ack is signalled . // - the ack is not signalled for atleast 2 cycles assign asi_vld_next = lsu_ifu_asi_vld & byp_sel_asi_l & ~asireq_i2 & ~illva_i2; // not when ack is sent dff_s #(1) asiv0_ff(.din (asi_vld_next), .q (asi_vld_i0), .clk (clk), .se(se), .si(), .so()); assign asi_vld_qual_i0 = asi_vld_i0 & ~asireq_i2 & ~illva_i2 & byp_sel_asi_l & ~illva_i1 & lsu_ifu_asi_vld; dff_s #(8) asi_reg(.din (lsu_ifu_asi_state[7:0]), .q (asi_state_i1), .clk (clk), .se(se), .si(), .so()); dff_s #(2) asi_tid_reg(.din (lsu_ifu_asi_thrid[1:0]), .q (ifq_fcl_asi_tid_bf[1:0]), .clk (clk), .se(se), .si(), .so()); // assign ifu_lsu_asi_ack = ~byp_sel_asi_l; // Decided to wait one more cycle before sending the ack. assign ifu_lsu_asi_ack = asireq_i2 | illva_i2; // ifu ASIs // icache data = 0x66 assign asi_ic_data_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & asi_state_i1[5] & ~asi_state_i1[4] & ~asi_state_i1[3] & asi_state_i1[2] & asi_state_i1[1] & ~asi_state_i1[0]; assign asi_ic_data_i1 = asi_ic_data_unchk_i1; // icache tags = 0x67 // writing to tag also writes to vbits assign asi_ic_tag_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & asi_state_i1[5] & ~asi_state_i1[4] & ~asi_state_i1[3] & asi_state_i1[2] & asi_state_i1[1] & asi_state_i1[0]; assign asi_ic_tag_i1 = asi_ic_tag_unchk_i1; // error enable 0x4B assign asi_erren_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & ~asi_state_i1[5] & ~asi_state_i1[4] & asi_state_i1[3] & ~asi_state_i1[2] & asi_state_i1[1] & asi_state_i1[0]; assign asi_erren_i1 = asi_erren_unchk_i1 & ~ifd_ifc_asi_vachklo_i2 & ~ifd_ifc_asiaddr_i2[2]; // error status 0x4C assign asi_errstat_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & ~asi_state_i1[5] & ~asi_state_i1[4] & asi_state_i1[3] & asi_state_i1[2] & ~asi_state_i1[1] & ~asi_state_i1[0]; assign asi_errstat_i1 = asi_errstat_unchk_i1 & ~ifd_ifc_asi_vachklo_i2 & ~ifd_ifc_asiaddr_i2[2]; // error addr 0x4D assign asi_erraddr_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & ~asi_state_i1[5] & ~asi_state_i1[4] & asi_state_i1[3] & asi_state_i1[2] & ~asi_state_i1[1] & asi_state_i1[0]; assign asi_erraddr_i1 = asi_erraddr_unchk_i1 & ~ifd_ifc_asi_vachklo_i2 & ~ifd_ifc_asiaddr_i2[2]; // error inject 0x43 assign asi_errinj_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & ~asi_state_i1[5] & ~asi_state_i1[4] & ~asi_state_i1[3] & ~asi_state_i1[2] & asi_state_i1[1] & asi_state_i1[0]; assign asi_errinj_i1 = asi_errinj_unchk_i1 & ~ifd_ifc_asi_vachklo_i2 & ~ifd_ifc_asiaddr_i2[2]; // imask 0x42, va=0x8 assign asi_imask_unchk_i1 = ~asi_state_i1[7] & asi_state_i1[6] & ~asi_state_i1[5] & ~asi_state_i1[4] & ~asi_state_i1[3] & ~asi_state_i1[2] & asi_state_i1[1] & ~asi_state_i1[0]; assign asi_imask_i1 = asi_imask_unchk_i1 & ~ifd_ifc_asi_vachklo_i2 & ifd_ifc_asiaddr_i2[2]; // this is actually va[3] // illegal va check assign illva_i0 = ((asi_erren_unchk_i1 | asi_errstat_unchk_i1 | asi_errinj_unchk_i1 | asi_erraddr_unchk_i1) & (ifd_ifc_asi_vachklo_i2 | ifd_ifc_asiaddr_i2[2])) & asi_vld_qual_i0; dff_s #(1) illvai1_ff(.din (illva_i0), .q (illva_i1), .clk (clk), .se(se), .si(), .so()); dff_s #(1) illvabf_ff(.din (illva_i1), .q (illva_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) illvaf_ff(.din (illva_i2), .q (illva_f), .clk (clk), .se(se), .si(), .so()); dff_s #(1) illvas_ff(.din (illva_f), .q (illva_s), .clk (clk), .se(se), .si(), .so()); dff_s #(1) illvaw2_ff(.din (illva_s), .q (illva_w2), .clk (clk), .se(se), .si(), .so()); assign ifu_lsu_ldxa_illgl_va_w2 = illva_w2; dff_s #(1) tagasi_ff(.din (asi_ic_tag_i1), .q (asi_ic_tag_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) datasi_ff(.din (asi_ic_data_i1), .q (asi_ic_data_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) asieeni2_ff(.din (asi_erren_i1), .q (ifq_erb_asi_erren_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) asieini2_ff(.din (asi_errinj_i1), .q (ifq_erb_asi_errinj_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) asiesti2_ff(.din (asi_errstat_i1), .q (ifq_erb_asi_errstat_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) asieadi2_ff(.din (asi_erraddr_i1), .q (ifq_erb_asi_erraddr_i2), .clk (clk), .se(se), .si(), .so()); dff_s #(1) imaski2_ff(.din (asi_imask_i1), .q (ifq_erb_asi_imask_i2), .clk (clk), .se(se), .si(), .so()); // All IFU asi requests assign ifu_asireq_i0 = (asi_ic_tag_i1 | asi_ic_data_i1 | asi_erren_i1 | asi_errinj_i1 | asi_errstat_i1 | asi_erraddr_i1 | asi_imask_i1) & asi_vld_qual_i0; dff_s #(1) asireq1_ff(.din (ifu_asireq_i0), .q (ifu_asireq_i1), .clk (clk), .se(se), .si(), .so()); dff_s #(1) asivld_ff(.din (byp_sel_asi_l), .q (asireq_i2_l), .clk (clk), .se(se), .si(), .so()); assign asireq_i2 = ~asireq_i2_l; assign ifc_inv_asireq_i2 = asireq_i2; // Stall if we are doing an asi op or fwdreq assign stallreq_d0 = (ifu_asireq_i0 | ~byp_sel_asi_l | fwdreq_i2) | starv_alert | mbist_ifq_run_bist | ldinv_i1 & ~ifqadv_i1 | //ECO 7010 ldinv_i2 & ~ifc_inv_ifqadv_i2; //ECO 7010 dff_s #(1) stal_ff(.din (stallreq_d0), .q (stallreq_d1), .clk (clk), .se(se), .si(), .so()); // split into two to save repeater assign ifq_fcl_stallreq = stallreq_d1; assign ifq_swl_stallreq = stallreq_d1; dff_s #(1) asil1_ff(.din (lsu_ifu_asi_load), .q (asi_load_i1), .clk (clk), .se(se), .si(), .so()); dff_s #(1) asil2_ff(.din (asi_load_i1), .q (asi_load_i2), .clk (clk), .se(se), .si(), .so()); // insert parity error in data and/or tag // Don't need to qualify with asireq and imissrtn... // -- moved this to the DP since the qual is not necessary // assign ifc_ifd_insert_pe = (asireq_i2 | imissrtn_i2) & // ifd_ifc_cpxue_i2; // decode asi // generate word selects // can use finst instead of word_sel_i2, but it screws up timing assign word_sel_i2[0] = ~ifd_ifc_asiaddr_i2[3] & ~ifd_ifc_asiaddr_i2[2]; assign word_sel_i2[1] = ~ifd_ifc_asiaddr_i2[3] & ifd_ifc_asiaddr_i2[2]; assign word_sel_i2[2] = ifd_ifc_asiaddr_i2[3] & ~ifd_ifc_asiaddr_i2[2]; assign word_sel_i2[3] = ifd_ifc_asiaddr_i2[3] & ifd_ifc_asiaddr_i2[2]; // this assumes asi requests are never stalled assign ifq_icd_worden_bf = (word_sel_i2 | {4{~asireq_i2 & ~fwdwr_i3 | // ~ifc_inv_ifqadv_i2 | mbist_icache_write}}); // & (mbist_icache_worden | {4{~bist_op}}); // choose where the ic address should come from // assign bist_op = (mbist_icache_read | mbist_icache_write); dff_s #(1) bist_run_ff(.din (mbist_ifq_run_bist), .q (bist_op), .clk (clk), .se(se), .si(), .so()); assign ifc_ifd_addr_sel_bist_i2_l = ~bist_op | sehold; assign ifc_ifd_addr_sel_old_i2_l = (bist_op | ifc_inv_ifqadv_i2) & ~sehold; assign ifc_ifd_addr_sel_asi_i2_l = bist_op | ~ifc_inv_ifqadv_i2 | sehold | ~(asireq_i2 | fwdreq_i3); assign ifc_ifd_addr_sel_fill_i2_l = bist_op | ~ifc_inv_ifqadv_i2 | sehold | asireq_i2 | fwdreq_i3; // choose where the data should come from assign ifq_icd_data_sel_bist_i2 = mbist_icache_write & ~sehold; assign ifq_icd_data_sel_fill_i2 = ~mbist_icache_write & ifc_inv_ifqadv_i2 & ~sehold; assign ifq_icd_data_sel_old_i2 = ~mbist_icache_write & ~ifc_inv_ifqadv_i2 | sehold; // generate icache controls assign ifq_fcl_rdreq_bf = asireq_i2 & asi_load_i2 & (asi_ic_data_i2 | asi_ic_tag_i2) | mbist_icache_read | fwdrd_i3; assign ifq_fcl_icd_wrreq_bf = asi_ic_data_i2 & asireq_i2 & ~asi_load_i2 | mbist_icache_write | fwdwr_i3; assign ifq_fcl_ictv_wrreq_bf = asi_ic_tag_i2 & asireq_i2 & ~asi_load_i2; assign rd_tag_bf = asi_ic_tag_i2 & asi_load_i2; dff_s #(1) asi_srcf_ff(.din (rd_tag_bf), .q (ifq_erb_rdtag_f), .clk (clk), .se(se), .si(), .so()); assign rdinst_bf = asi_ic_data_i2 & asi_load_i2; dff_s #(1) asi_inst_ff(.din (rdinst_bf), .q (ifq_erb_rdinst_f), .clk (clk), .se(se), .si(), .so()); assign asird_i1 = asi_load_i1 & (~byp_sel_asi_l | illva_i1); dff_s #(1) asirdq_ff(.din (asird_i1), .q (ifq_fcl_asird_bf), .clk (clk), .se(se), .si(), .so()); assign ifq_erb_asiwr_i2 = ~asi_load_i2 & asireq_i2; // Shadow scan mux mux4ds #(4) milss_mux(.dout (ifq_sscan_data[3:0]), .in0 (mil0_state), .in1 (mil1_state), .in2 (mil2_state), .in3 (mil3_state), .sel0 (ctu_sscan_tid[0]), .sel1 (ctu_sscan_tid[1]), .sel2 (ctu_sscan_tid[2]), .sel3 (ctu_sscan_tid[3])); endmodule // sparc_ifu_ifqctl
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