URL
https://opencores.org/ocsvn/s1_core/s1_core/trunk
Subversion Repositories s1_core
[/] [s1_core/] [trunk/] [hdl/] [rtl/] [sparc_core/] [tlu_tcl.v] - Rev 113
Compare with Previous | Blame | View Log
// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: tlu_tcl.v // Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. // DO NOT ALTER OR REMOVE COPYRIGHT NOTICES. // // The above named program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public // License version 2 as published by the Free Software Foundation. // // The above named program is distributed in the hope that it will be // useful, but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public // License along with this work; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. // // ========== Copyright Header End ============================================ `ifdef SIMPLY_RISC_TWEAKS `define SIMPLY_RISC_SCANIN .si(0) `else `define SIMPLY_RISC_SCANIN .si() `endif //////////////////////////////////////////////////////////////////// /* // Description: Trap Control Logic */ //////////////////////////////////////////////////////////////////////// // Local header file includes / local defines //////////////////////////////////////////////////////////////////////// `include "tlu.h" module tlu_tcl (/*AUTOARG*/ // Outputs tlu_ifu_trappc_vld_w1, tlu_ifu_trapnpc_vld_w1, tlu_ifu_trap_tid_w1, tlu_trap_hpstate_enb, tsa_wr_tpl, tsa_rd_tid, tsa_rd_tpl, tsa_rd_en, tsa_wr_tid, tsa_wr_vld, tsa_rd_vld_e, tlu_lsu_tl_zero, tlu_restore_pc_sel_w1, tlu_early_flush_pipe_w, tlu_early_flush_pipe2_w, tlu_exu_early_flush_pipe_w, tlu_agp_tid_w2, tsa_tstate_en, tsa_ttype_en, tlu_tl_gt_0_w2, tlu_exu_agp_tid, tlu_true_pc_sel_w, // tlu_retry_inst_m, tlu_done_inst_m, tlu_tick_en_l, tlu_tickcmp_en_l, tlu_stickcmp_en_l, tlu_local_flush_w, tlu_tba_en_l, tlu_thrd_wsel_w2, tlu_thread_wsel_g, tlu_final_ttype_w2, tlu_thread_inst_vld_g, tlu_update_pc_l_w, tlu_htickcmp_en_l, tsa_pc_en, tsa_npc_en, tlu_hyperv_rdpr_sel, tlu_wsr_inst_nq_g, tlu_exu_priv_trap_m, tlu_ibrkpt_trap_w2, tlu_full_flush_pipe_w2, tlu_pstate_din_sel0, tlu_pstate_din_sel1, tlu_pstate_din_sel2, tlu_pstate_din_sel3, tlu_update_pstate_l_w2, tlu_trp_lvl, tlu_pil, tlu_wr_tsa_inst_w2, tlu_trap_cwp_en, // tlu_lsu_priv_trap_w, tlu_exu_cwp_retry_m, tlu_exu_cwpccr_update_m, tlu_lsu_priv_trap_m, tlu_lsu_asi_update_m, tlu_lsu_tid_m, tlu_pc_mxsel_w2, // tlu_lsu_asi_m, tlu_select_tba_w2, tdp_select_tba_w2, tlu_set_sftint_l_g, tlu_clr_sftint_l_g, tlu_wr_sftint_l_g, tlu_sftint_mx_sel, tlu_itag_acc_sel_g, tlu_sftint_en_l_g, tlu_sftint_penc_sel, tlu_sftint_vld, tlu_int_tid_m, tlu_tickcmp_sel, tlu_incr_tick, immu_sfsr_trp_wr, tlu_select_redmode, tlu_isfsr_din_g, // tlu_dsfsr_din_g, tlu_tag_access_ctxt_sel_m, tlu_tick_npt, tlu_thrd_rsel_e, tlu_inst_vld_nq_m, tlu_pic_cnt_en_m, tlu_rdpr_mx1_sel, tlu_rdpr_mx2_sel, tlu_rdpr_mx3_sel, tlu_rdpr_mx4_sel, tlu_rdpr_mx5_sel, tlu_rdpr_mx6_sel, tlu_rdpr_mx7_sel, tlu_lsu_pstate_am, tlu_lsu_redmode_rst_d1, lsu_tlu_rsr_data_mod_e, tlu_addr_msk_g, // added for hypervisor support tlu_dnrtry0_inst_g, tlu_dnrtry1_inst_g, tlu_dnrtry2_inst_g, tlu_dnrtry3_inst_g, tlu_thrd_traps_w2, tlu_tick_ctl_din, tsa_htstate_en, tlu_por_rstint_g, tlu_hintp_vld, tlu_rerr_vld, tlu_final_offset_w1, // tlu_ifu_trapnpc_w2, so, tlu_sscan_tcl_data, tlu_rst, // tlu_ifu_trappc_w2, tlu_rst_l, // Inputs ifu_tlu_sraddr_d, ifu_tlu_rsr_inst_d, lsu_tlu_early_flush_w, ifu_tlu_pc_oor_e, tlu_wsr_data_b63_w, tlu_wsr_data_w, lsu_tlu_ttype_m2, ifu_tlu_flush_fd_w, lsu_tlu_ttype_vld_m2, ifu_tlu_done_inst_d, ifu_tlu_retry_inst_d, ifu_tlu_ttype_m, ifu_tlu_ttype_vld_m, exu_tlu_ttype_m, exu_tlu_ttype_vld_m, exu_tlu_spill, exu_tlu_spill_other, exu_tlu_spill_wtype, exu_tlu_va_oor_m, exu_tlu_spill_tid, ifu_tlu_sir_inst_m, ifu_tlu_inst_vld_m, ifu_tlu_thrid_d, tlu_tckctr_in, ifu_tlu_immu_miss_m, exu_tlu_va_oor_jl_ret_m, ifu_tlu_trap_m, lsu_tlu_wsr_inst_e, exu_tlu_cwp_cmplt, exu_tlu_cwp_retry, exu_tlu_cwp_cmplt_tid, exu_tlu_ue_trap_m, ifu_tlu_rstint_m, ifu_tlu_hwint_m, ifu_tlu_swint_m, pich_wrap_flg, tlu_pic_wrap_e, pich_onebelow_flg, pich_twobelow_flg, pib_picl_wrap, pib_pich_wrap, tlu_tcc_inst_w, int_tlu_rstid_m, tlu_int_pstate_ie, tlu_int_redmode, ifu_npc_w, tlu_pcr_ut, tlu_sftint_id, lsu_tlu_async_ttype_vld_g, lsu_tlu_defr_trp_taken_g, tlu_pcr_st, lsu_tlu_misalign_addr_ldst_atm_m, exu_tlu_misalign_addr_jmpl_rtn_m, lsu_tlu_async_tid_g, lsu_tlu_priv_action_g, lsu_tlu_async_ttype_g, lsu_tlu_wtchpt_trp_g, ifu_tlu_priv_violtn_m, ifu_lsu_memref_d, tlu_pstate_priv, tlu_isfsr_flt_vld, tlu_pstate_am, ffu_tlu_trap_ieee754, ffu_tlu_trap_other, ffu_tlu_trap_ue, ffu_ifu_tid_w2, ffu_tlu_ill_inst_m, ifu_tlu_npc_m, // ifu_tlu_pc_m, lsu_tlu_rsr_data_e, lsu_tlu_squash_va_oor_m, // tlu_restore_npc_w1, spu_tlu_rsrv_illgl_m, // exu_tlu_cwp0, exu_tlu_cwp1, exu_tlu_cwp2, exu_tlu_cwp3, // // added for hypervisor support tlu_hpstate_priv, tlu_htstate_rw_d, tlu_htstate_rw_g, tlu_cwp_no_change_m, tlu_hscpd_dacc_excpt_m, tlu_htickcmp_rw_e, tlu_gl_rw_m, // tlu_gl_rw_g, tlu_hpstate_enb, tlu_cpu_mondo_cmp, tlu_dev_mondo_cmp, tlu_resum_err_cmp, tlu_hintp, tlu_hpstate_tlz, tlu_qtail_dacc_excpt_m, pib_priv_act_trap_m, rclk, arst_l, grst_l, si, se, rst_tri_en, ctu_sscan_tid ); /*AUTOINPUT*/ // Beginning of automatic inputs (from unused autoinst inputs) // End of automatics input [`TLU_ASR_ADDR_WIDTH-1:0] ifu_tlu_sraddr_d; // addr of sr(st/pr) input ifu_tlu_rsr_inst_d; // valid rd sr(st/pr) // input ifu_tlu_wsr_inst_d; // valid wr sr(st/pr) input lsu_tlu_wsr_inst_e; // valid wr sr(st/pr) input tlu_wsr_data_b63_w; // b63 of wsr data // input tlu_wsr_data_b16_w; // b16 of wsr data input [3:0] tlu_wsr_data_w; // pr/st data to irf. input [8:0] lsu_tlu_ttype_m2; // trap type in m2. input lsu_tlu_ttype_vld_m2; // trap is signaled. // added asynchronize trap to handle correctable dmmu parity errors input lsu_tlu_defr_trp_taken_g; // lsu asynchronous trap valid input lsu_tlu_async_ttype_vld_g; // lsu asynchronous trap valid input [6:0] lsu_tlu_async_ttype_g; // lsu asynchronous trap type input [1:0] lsu_tlu_async_tid_g; // asynchronous trap - thread // Removed unused bits // input [1:0] lsu_tlu_ttype_tid_m2; // trapping thread input ifu_tlu_done_inst_d; // done is valid input ifu_tlu_retry_inst_d; // retry is valid input [8:0] ifu_tlu_ttype_m; // trap type in m2. input ifu_tlu_ttype_vld_m; // trap is signaled. input ifu_tlu_trap_m; // trap is signaled. // modified for timing input ifu_tlu_flush_fd_w; // instruction flush signal // input ifu_tlu_flush_m; // instruction flush signal input lsu_tlu_early_flush_w; // early flush with tlb from LSU input [8:0] exu_tlu_ttype_m; // exu src ttype input exu_tlu_ttype_vld_m; // exu src ttype vld input exu_tlu_ue_trap_m; // exu ue ecc trap indicator // // added for timing /* input [2:0] exu_tlu_cwp0; // cwp - thread0 input [2:0] exu_tlu_cwp1; // cwp - thread1 input [2:0] exu_tlu_cwp2; // cwp - thread2 input [2:0] exu_tlu_cwp3; // cwp - thread3 */ // input exu_tlu_spill; // spill trap input [1:0] exu_tlu_spill_tid; // spill trap - thrid input exu_tlu_spill_other; // From exu of sparc_exu.v input [2:0] exu_tlu_spill_wtype; // From exu of sparc_exu.v input exu_tlu_va_oor_m; // ??? - to be used in sfsr input exu_tlu_va_oor_jl_ret_m; // ??? - to be used in sfsr input ifu_tlu_sir_inst_m; // sir instruction executed input ifu_tlu_inst_vld_m; // inst in w-stage of pipe. input ifu_tlu_pc_oor_e; // inst in w-stage of pipe. input [1:0] ifu_tlu_thrid_d; // Thread id. // input lsu_tlu_dmmu_miss_g; // ld/st misses in dtlb. // // modified the stage for timing //input ifu_tlu_immu_miss_e; // i-side page fault input ifu_tlu_immu_miss_m; // i-side page fault input exu_tlu_cwp_cmplt; input exu_tlu_cwp_retry; input [1:0] exu_tlu_cwp_cmplt_tid; input tlu_cwp_no_change_m; // input exu_tlu_cwp_fastcmplt_w; // input moved to tlu_misctl // input [2:0] tsa_rdata_cwp; // input [`TSA_TTYPE_WIDTH-1:0] tsa_rdata_ttype; // input [7:0] tsa_rdata_ccr; // input [7:0] tsa_rdata_asi; input ifu_tlu_rstint_m; // reset interrupt input ifu_tlu_hwint_m; // hw interrupt input ifu_tlu_swint_m; // sw interrupt input [5:0] int_tlu_rstid_m; // reset type input [`TLU_THRD_NUM-1:0] tlu_int_pstate_ie; // interrupt enable input [`TLU_THRD_NUM-1:0] tlu_int_redmode; // redmode // input [`TLU_THRD_NUM-1:0] const_cpuid; input [`TLU_THRD_NUM-1:0] tlu_sftint_id; input [`TLU_THRD_NUM-1:0] pich_wrap_flg; input [`TLU_THRD_NUM-1:0] pich_onebelow_flg; input [`TLU_THRD_NUM-1:0] pich_twobelow_flg; input [`TLU_THRD_NUM-1:0] pib_picl_wrap; // modified for bug 5436: Niagara 2.0 input [`TLU_THRD_NUM-1:0] tlu_pcr_ut; input [`TLU_THRD_NUM-1:0] tlu_pcr_st; // input tlu_pic_wrap_e, tlu_pcr_ut_e, tlu_pcr_st_e; input tlu_pic_wrap_e; // input tlu_tick_match; // match between tick and tick-cmp // input tlu_stick_match; // match between tick and stick-cmp // input [`TLU_THRD_NUM-1:0] pib_pic_wrap; // overflow for the pic registers - lvl15 int // modified for timing support // input [`TLU_THRD_NUM-1:0] pib_priv_act_trap; // access priv violation of the pics input [`TLU_THRD_NUM-1:0] pib_priv_act_trap_m; // access priv violation of the pics input lsu_tlu_misalign_addr_ldst_atm_m;// misaligned addr - ld,st,atomic input exu_tlu_misalign_addr_jmpl_rtn_m;// misaligned addr - jmpl or return addr // input lsu_tlu_priv_violtn_g; // privileged violation trap input lsu_tlu_priv_action_g; // privileged action trap input lsu_tlu_wtchpt_trp_g; // watchpt trap has occurred. input ifu_tlu_priv_violtn_m; input ifu_lsu_memref_d; input [3:0] tlu_pstate_priv; input [3:0] tlu_pstate_am; input [3:0] tlu_isfsr_flt_vld; input ffu_tlu_trap_ieee754; input ffu_tlu_trap_other; input ffu_tlu_trap_ue; input ffu_tlu_ill_inst_m; // illegal instruction trap from ffu input [1:0] ffu_ifu_tid_w2; input [7:0] lsu_tlu_rsr_data_e; input lsu_tlu_squash_va_oor_m; // squash va_oor for mem-op. input spu_tlu_rsrv_illgl_m; // illegal instruction trap from spu input tlu_htstate_rw_d; input tlu_htstate_rw_g; input tlu_htickcmp_rw_e; // input tlu_gl_rw_g; input tlu_gl_rw_m; input [`TLU_THRD_NUM-1:0] tlu_hpstate_priv; input [`TLU_THRD_NUM-1:0] tlu_hpstate_enb; input [`TLU_THRD_NUM-1:0] tlu_hpstate_tlz; input [`TLU_THRD_NUM-1:0] tlu_cpu_mondo_cmp; input [`TLU_THRD_NUM-1:0] tlu_dev_mondo_cmp; input [`TLU_THRD_NUM-1:0] tlu_resum_err_cmp; input [`TLU_THRD_NUM-1:0] tlu_hintp; // input [48:0] ifu_tlu_pc_m; input [48:0] ifu_tlu_npc_m; // input [33:0] tlu_partial_trap_pc_w1; // modified for bug 3017 // logic moved to tlu_misctl input tlu_hscpd_dacc_excpt_m; input tlu_qtail_dacc_excpt_m; // added for timing input [4:0] tlu_hyperv_rdpr_sel; input [1:0] tlu_tckctr_in; input rclk; // clock // sscan tid input [`TLU_THRD_NUM-1:0] ctu_sscan_tid; // // modified to abide to the niagara reset methodology input grst_l; // global reset - active log input arst_l; // global reset - active log input rst_tri_en; // global reset - active log input si; // global scan-in input se; // global scan-out /*autooutput*/ // beginning of automatic outputs (from unused autoinst outputs) // end of automatics output tlu_ifu_trappc_vld_w1; // trap pc or pc on retry. output tlu_ifu_trapnpc_vld_w1;// trap pc or pc on retry. output [1:0] tlu_ifu_trap_tid_w1; // thread id. output tlu_trap_hpstate_enb; output tlu_restore_pc_sel_w1; output [`TLU_THRD_NUM-1:0] pib_pich_wrap; output tlu_tcc_inst_w; output [2:0] tsa_wr_tpl; // trap level for wr. output [1:0] tsa_rd_tid; // thread id for wr. output [2:0] tsa_rd_tpl; // trap level for rd. output [1:0] tsa_wr_tid; // thread id for rd. output [1:0] tsa_wr_vld; // write pointer vld // modified for timing output tsa_rd_vld_e; // read pointer output tsa_rd_en; // read pointer output [3:0] tlu_lsu_tl_zero; // trap level is zero. // output tlu_ifu_flush_pipe_w; // exception related flush // output tlu_flush_pipe_w; // exception related flush - local copy // added for timing // output tlu_flush_all_w2; // exception related flush - local copy // output tlu_flush_all_w; // exception related flush - local copy output tlu_local_flush_w; // exception related flush - local copy output tlu_early_flush_pipe_w; // exception related flush - local copy output tlu_early_flush_pipe2_w; // exception related flush - local copy output tlu_exu_early_flush_pipe_w; // exception related flush - to exu output tlu_full_flush_pipe_w2; // exception related flush - to exu // output [2:0] tlu_exu_agp; // alternate global pointer // output tlu_exu_agp_swap; // switch globals // modified due to timing // output [1:0] tlu_agp_tid_g; // thread that agp refers to output [1:0] tlu_agp_tid_w2; // thread that agp refers to output [1:0] tlu_exu_agp_tid; // thread that agp refers to output tsa_pc_en; // enable write of pc in tsa. output tsa_npc_en; // enable write of npc in tsa. output tsa_tstate_en; // enable write of tstate in tsa. output tsa_htstate_en; // enable write of htstate in tsa. output tsa_ttype_en; // enable write of ttype in tsa. // modified due to timing // output tlu_tl_gt_0_g; // trp lvl gt then 0 output tlu_tl_gt_0_w2; // trp lvl gt then 0 // modified for timing output [2:0] tlu_true_pc_sel_w; // output tlu_retry_inst_m; // valid retry inst // output tlu_done_inst_m; // valid done inst // output tlu_dnrtry_inst_m_l; // valid done/retry inst - g output tlu_tick_en_l; // tick reg write enable output [`TLU_THRD_NUM-1:0] tlu_tickcmp_en_l; // tick compare reg write enable output [`TLU_THRD_NUM-1:0] tlu_stickcmp_en_l; // stick compare reg write enable output [`TLU_THRD_NUM-1:0] tlu_htickcmp_en_l; // update htickcmp register output [`TLU_THRD_NUM-1:0] tlu_tba_en_l; // tba reg write enable output [`TLU_THRD_NUM-1:0] tlu_thrd_wsel_w2; // thread requiring tsa write. output [`TLU_THRD_NUM-1:0] tlu_thread_wsel_g; // thread for instruction fetched output [`TSA_TTYPE_WIDTH-1:0] tlu_final_ttype_w2; // selected ttype - w2 // output tlu_async_trap_taken_g; // async trap taken output [`TLU_THRD_NUM-1:0] tlu_thread_inst_vld_g; // valid inst for a thread // output [`TLU_THRD_NUM-1:0] tlu_thread_inst_vld_w2; // valid inst for a thread // output [`TLU_THRD_NUM-1:0] tlu_update_pc_l_m; // update pc or npc for a thread output [`TLU_THRD_NUM-1:0] tlu_update_pc_l_w; // update pc or npc for a thread // output [`TLU_THRD_NUM-1:0] tlu_thrd_rsel_g; // thread requiring tsa read // modified for bug 1767 // output tlu_select_tle; // tle/cle value on trap // output [1:0] tlu_select_mmodel; // mem. model on trap output tlu_select_redmode; // redmode setting on trap // Modified for bug 1575 // // output [2:0] tlu_pstate_din_sel; // sel source of tsa wdata output [1:0] tlu_pstate_din_sel0; // sel source of tsa wdata output [1:0] tlu_pstate_din_sel1; // sel source of tsa wdata output [1:0] tlu_pstate_din_sel2; // sel source of tsa wdata output [1:0] tlu_pstate_din_sel3; // sel source of tsa wdata // // modified due to timing // output [3:0] tlu_update_pstate_l_g; // pstate write enable output [3:0] tlu_update_pstate_l_w2; // pstate write enable output [2:0] tlu_trp_lvl; // trp lvl - mx'ed output [3:0] tlu_pil; // pil - mx'ed // output tlu_wsr_inst_g; // write state inst // // added for timing output tlu_wsr_inst_nq_g; // write state inst // output tlu_wr_tsa_inst_g; // write state inst output tlu_wr_tsa_inst_w2; // write state inst output tlu_exu_priv_trap_m; // local traps send to exu output tlu_lsu_priv_trap_m; // local traps send to lsu // output tlu_lsu_priv_trap_w; // local traps send to lsu // experiment output tlu_pic_cnt_en_m; // local traps send to exu // output tlu_exu_pic_onebelow_m; // local traps send to exu // output tlu_exu_pic_twobelow_m; // local traps send to exu output tlu_exu_cwp_retry_m; output tlu_exu_cwpccr_update_m; // output moved to tlu_misctl // output [2:0] tlu_exu_cwp_m; // output [7:0] tlu_exu_ccr_m; // output [7:0] tlu_lsu_asi_m; // asi from stack // added for bug3499 output [`TLU_THRD_NUM-1:0] tlu_trap_cwp_en; output tlu_lsu_asi_update_m; // update asi output [1:0] tlu_lsu_tid_m; // thread for asi update // output tlu_assist_boot_rst_g; // use rstvaddr all zeroes // modified due to timing // output tlu_self_boot_rst_g; // use rstvaddr all ones // output tlu_select_tba_g; // use tba // output tlu_select_htba_g; // use htba // modified for one-hot mux problem // output tlu_self_boot_rst_w2; // use rstvaddr all ones // output tlu_select_htba_w2; // use htba output [2:0] tlu_pc_mxsel_w2; output tlu_select_tba_w2; // use tba output tdp_select_tba_w2; // use tba // output tlu_set_sftint_l_g; // set sftint output tlu_clr_sftint_l_g; // clr sftint output tlu_wr_sftint_l_g; // wr to sftin (asr 16) output [`TLU_THRD_NUM-1:0] tlu_sftint_en_l_g; // wr en sftint regs. output [`TLU_THRD_NUM-1:0] tlu_sftint_mx_sel; // mux sel sftint regs. // // removed due to sftint recode // output [3:0] tlu_sftint_lvl14_int; // level 14 sft interrupt output [3:0] tlu_sftint_penc_sel; // select appr. thread for pr. encd. output [3:0] tlu_sftint_vld; // a sftint is valid for a thread output [1:0] tlu_int_tid_m; // thread id output [1:0] tlu_incr_tick; // increment tick reg output [3:0] tlu_tickcmp_sel; // select src for tickcmp output [3:0] immu_sfsr_trp_wr; output tlu_itag_acc_sel_g; output [23:0] tlu_isfsr_din_g; // // removed due to sftint code cleanup output tlu_tick_npt; // npt bit of tick output [3:0] tlu_thrd_rsel_e; // read select for threaded regs output tlu_inst_vld_nq_m; // not qualified inst vld output [3:0] tlu_lsu_pstate_am; // ship to lsu output [2:0] tlu_rdpr_mx1_sel; output [2:0] tlu_rdpr_mx2_sel; output [1:0] tlu_rdpr_mx3_sel; output [1:0] tlu_rdpr_mx4_sel; output [2:0] tlu_rdpr_mx5_sel; output [2:0] tlu_rdpr_mx6_sel; output [3:0] tlu_rdpr_mx7_sel; // output [`TSA_TTYPE_WIDTH-1:0] tlu_final_offset_w1; // output [3:0] tlu_lsu_redmode; // redmode // output [3:0] tlu_lsu_redmode_rst; // output [`TLU_THRD_NUM-1:0] tlu_lsu_async_ack_w2; output [3:0] tlu_lsu_redmode_rst_d1; output [7:0] lsu_tlu_rsr_data_mod_e; output tlu_addr_msk_g; // address masking active for thread in pipe. // // added for hypervisor support // modified for timing // output tlu_thrd0_traps, tlu_thrd1_traps; // output tlu_thrd2_traps, tlu_thrd3_traps; output [`TLU_THRD_NUM-1:0] tlu_thrd_traps_w2; output tlu_dnrtry0_inst_g, tlu_dnrtry1_inst_g; output tlu_dnrtry2_inst_g, tlu_dnrtry3_inst_g; // output tlu_ibrkpt_trap_g; output tlu_ibrkpt_trap_w2; output tlu_tick_ctl_din; output [`TLU_THRD_NUM-1:0] tlu_por_rstint_g; output [`TLU_THRD_NUM-1:0] tlu_hintp_vld; // From tcl of tlu_tcl.v output [`TLU_THRD_NUM-1:0] tlu_rerr_vld; // From tcl of tlu_tcl.v // modified for bug 3017 // moved to tlu_misctl output [48:0] ifu_npc_w; //ifu_pc_w, // // shadow scan data from tcl tl and ttype output [`TCL_SSCAN_WIDTH-1:0] tlu_sscan_tcl_data; // // added to abide to the niagara reset methodology output tlu_rst; // local unit reset - active high // output tlu_rst_l; // local unit reset - active low output so; // global scan-out /*AUTOWIRE*/ // Beginning of automatic wires (for undeclared instantiated-module outputs) // End of automatics // this signal were added to abide to the niagara reset methodology wire local_rst; wire local_rst_l; wire tlu_rst_l; // local unit reset - active low wire [1:0] tlu_exu_tid_m; wire [3:0] pstate_rmode; // wire select_tba_g; // use tba wire local_select_tba_w2; // use tba wire [1:0] select_tba_element_w2; // use tba // wire select_htba_g; // use htba // // added for early flush timing fix // wire tlu_early_flush_pipe_m; wire local_early_flush_pipe_w; wire local_early_flush_pipe2_w; wire local_early_flush_pipe3_w; wire local_early_flush_pipe4_w; wire lsu_ttype_vld_w, lsu_ttype_vld_w2; wire tlu_flush_all_w; wire tlu_ifu_flush_pipe_w; // exception related flush wire tlu_flush_pipe_w; // exception related flush wire tlu_flush_all_w2; // wire tlu_wr_tsa_inst_g; // write state inst wire tlu_self_boot_rst_g, tlu_self_boot_rst_w2; wire dnrtry_inst_g; wire dnrtry0_inst_g, dnrtry1_inst_g; wire dnrtry2_inst_g, dnrtry3_inst_g; wire [`TLU_THRD_NUM-1:0] dnrtry_inst_w2; wire thrd0_traps,thrd1_traps; wire thrd2_traps,thrd3_traps; // wire [`TLU_THRD_NUM-1:0] async_trap_ack_g; // wire [`TLU_THRD_NUM-1:0] async_trap_ack_w2; wire [2:0] trp_lvl0,trp_lvl0_new; wire [2:0] trp_lvl1,trp_lvl1_new; wire [2:0] trp_lvl2,trp_lvl2_new; wire [2:0] trp_lvl3,trp_lvl3_new; wire tl0_en, tl0_gt_0; wire tl1_en, tl1_gt_0; wire tl2_en, tl2_gt_0; wire tl3_en, tl3_gt_0; wire [1:0] agp_tid_g, agp_tid_w2, agp_tid_w3; // thread that agp refers to // wire tlu_pic_onebelow_e, tlu_pic_twobelow_e; // experiment wire pich_wrap_flg_m, tlu_pich_wrap_flg_m; // pich_wrap_flg_e, wire tlu_picl_wrap_flg_m; // pich_wrap_flg_e, // modified for bug 5436 - Niagara 2.0 wire [`TLU_THRD_NUM-1:0] pic_cnt_en; wire pic_cnt_en_e, pic_cnt_en_m, pic_cnt_en_w, pic_cnt_en_w2; // wire pic_trap_en_e; //wire pcr_ut_e, pcr_st_e; // wire [`TLU_THRD_NUM-1:0] pich_exu_wrap_e; // wire pic_hpstate_enb_e, pic_hpstate_priv_e, pic_pstate_priv_e; // wire [`TLU_THRD_NUM-1:0] tlz_thread_set, tlz_thread_data; wire [`TLU_THRD_NUM-1:0] tlz_thread; wire [`TLU_THRD_NUM-1:0] tlz_trap_m, tlz_exu_trap_m; wire [`TLU_THRD_NUM-1:0] tlz_trap_nq_g, tlz_trap_g; wire [`TLU_THRD_NUM-1:0] ifu_thrd_flush_w; wire [`TLU_THRD_NUM-1:0] tlu_none_priv; wire cpu_mondo_trap_g, dev_mondo_trap_g; wire cpu_mondo_trap_w2, dev_mondo_trap_w2; wire [`TLU_THRD_NUM-1:0] tlu_cpu_mondo_trap; wire [`TLU_THRD_NUM-1:0] tlu_dev_mondo_trap; wire [`TLU_THRD_NUM-1:0] tlu_resum_err_trap; wire [`TLU_THRD_NUM-1:0] tlu_hyper_lite; wire [3:0] local_rdpr_mx6_sel; wire [3:0] local_rdpr_mx5_sel; wire [2:0] local_rdpr_mx4_sel; wire [2:0] local_rdpr_mx3_sel; wire [3:0] local_rdpr_mx2_sel; wire [3:0] local_rdpr_mx1_sel; wire tlu_none_priv_m; wire ibrkpt_trap_m, ibrkpt_trap_g, ibrkpt_trap_w2; wire va_oor_jl_ret_g; wire done_inst_m_tmp; wire retry_inst_m_tmp; wire done_inst_w2; wire retry_inst_w2; wire [2:0] true_pc_sel_m, true_pc_sel_w; // wire dsfsr_flt_vld_g; wire done_inst_e, retry_inst_e; wire done_inst_m, retry_inst_m; wire exu_done_inst_m, exu_retry_inst_m; // logic moved to misctl // wire cwp_no_change_m; // wire [2:0] cwp_xor_m, trap_old_cwp_m; wire done_inst_g, retry_inst_g; wire [1:0] thrid_d, thrid_e, thrid_m, thrid_g; wire [1:0] thrid_w2; // // added for tsa_wr_tid bug // // wire thread0_wtrp_g, thread1_wtrp_g, thread2_wtrp_g, thread3_wtrp_g; wire thread0_wtrp_w2, thread1_wtrp_w2, thread2_wtrp_w2, thread3_wtrp_w2; wire thread0_wsel_g, thread1_wsel_g, thread2_wsel_g, thread3_wsel_g; wire thread0_wsel_w2, thread1_wsel_w2, thread2_wsel_w2, thread3_wsel_w2; wire thread0_rsel_dec_g,thread1_rsel_dec_g; wire thread2_rsel_dec_g,thread3_rsel_dec_g; wire thread0_rsel_d, thread1_rsel_d, thread2_rsel_d, thread3_rsel_d; wire thread0_rsel_m, thread1_rsel_m, thread2_rsel_m, thread3_rsel_m; wire thread0_stg_m, thread1_stg_m, thread2_stg_m, thread3_stg_m; wire thread0_stg_m_buf, thread1_stg_m_buf, thread2_stg_m_buf, thread3_stg_m_buf; wire thread0_rsel_g, thread1_rsel_g, thread2_rsel_g, thread3_rsel_g; wire thread0_rsel_e, thread1_rsel_e, thread2_rsel_e, thread3_rsel_e; wire inst_vld_w2, inst_vld_g, inst_vld_m, inst_vld_nf_g; wire [`TLU_THRD_NUM-1:0] thread_inst_vld_g; wire [`TLU_THRD_NUM-1:0] thread_inst_vld_w2; // wire tlu_inst_vld_m; // qualified inst vld wire exu_ttype_vld_g, ifu_ttype_vld_g, exu_ue_trap_g; wire [8:0] exu_ttype_g, ifu_ttype_tmp_g, ifu_ttype_g; wire [8:0] exu_spill_ttype; // added for timing fix wire spu_ill_inst_m ; // illegal instruction trap from spu wire spu_ill_inst_uf_g ; // illegal instruction trap from spu wire spu_ill_inst_g ; // illegal instruction trap from spu wire pib_priv_act_trap_g ; // privilege action trap from pib wire pib_priv_act_trap_uf_g ; // privilege action trap from pib wire pib_priv_act_early_trap_m ; // privilege action trap from pib wire ffu_ill_inst_uf_g ; // illegal instruction trap from ffu - unflushed wire ffu_ill_inst_g ; // illegal instruction trap from ffu wire ffu_higher_pri_g ; // illegal instruction trap from ffu wire exu_higher_pri_g ; // UE ECC trap from exu // wire lsu_ill_inst_uf_g ; // illegal instruction trap from lsu - unflushed // wire lsu_ill_inst_g ; // illegal instruction trap from lsu // wire [`TLU_THRD_NUM-1:0] lsu_defr_thrd_g; wire lsu_defr_trap_g, lsu_defr_trap_w2 ; // deferred trap from lsu wire local_lsu_async_ttype_vld_w; // deferred trap from lsu // wire local_lsu_defr_trp_taken_g; // deferred trap from lsu wire [`TLU_THRD_NUM-1:0] lsu_defr_trp_taken_w2; // wire lsu_tlu_defr_trp_taken_w2 ; // deferred trap from lsu - signled in g for w2 // trap need to sync up with lsu_tlu_async_ttype_vld_g wire htrap_ill_inst_m ; // illegal instruction trap from htrap wire htrap_ill_inst_uf_g ; // illegal instruction trap from htrap - unflushed wire htrap_ill_inst_g ; // illegal instruction trap from htrap wire [`TLU_ASR_ADDR_WIDTH-1:0] sraddr; wire [`TLU_ASR_ADDR_WIDTH-1:0] sraddr2; // modified due to timing // wire wsr_inst_d; wire asr_hyperp, asr_priv; wire tpc_rw_d, tnpc_rw_d, tstate_rw_d, ttype_rw_d; wire tick_rw_d, tickcmp_rw_d, tick_npriv_r_d; wire pcr_rsr_d, pic_rsr_d; wire pcr_rsr_e, pic_rsr_e; wire tlu_gl_rw_g; // // added for hypervisor support wire maxtl_wr_sel; wire [3:0] maxstl_wr_sel; wire [2:0] wsr_trp_lvl0_data_w, wsr_trp_lvl1_data_w; wire [2:0] wsr_trp_lvl2_data_w, wsr_trp_lvl3_data_w; wire [2:0] wsr_trp_lvl0_data_w2, wsr_trp_lvl1_data_w2; wire [2:0] wsr_trp_lvl2_data_w2, wsr_trp_lvl3_data_w2; wire stick_rw_d, stickcmp_rw_d, stickcmp_rw_e; wire stickcmp_rw_m, stickcmp_rw_g; // wire [3:0] stickcmp_int; // interrupt caused by stick_ticktmp // wire [3:0] stick_intclr; // use to clear the stick_int bit wire tba_rw_d, pstate_rw_d, pil_rw_d, tl_rw_d; wire tsa_wr_tid_sel_g, tsa_wr_tid_sel_tim_g, tsa_wr_tid_sel_w2; wire immu_miss_g; wire trap_taken_g, trap_taken_w2; wire [1:0] trap_tid_g; // wire [1:0] tsa_wr_tid_g; wire [1:0] pend_trap_tid_g, pend_trap_tid_w2; wire [`TSA_TTYPE_WIDTH-1:0] final_ttype_w2; wire [`TSA_TTYPE_WIDTH-1:0] tba_ttype_w1; wire [`TSA_TTYPE_WIDTH-1:0] final_offset_w1; wire tsa_rd_vld; // modified for bug 3017 // logic moved to tlu_misctl // wire [48:0] normal_trap_pc_w1, normal_trap_npc_w1; // wire [48:0] trap_pc_w1, trap_npc_w1; // wire [48:0] trap_pc_w2, trap_npc_w2; // wire tsa_rd_vld_e, tsa_rd_vld_m; wire [`TLU_THRD_NUM-1:0] sscan_tid_sel; // logic moved to tlu_misctl /* wire [`TLU_THRD_NUM-1:0] sscan_ttype_en; wire [`TLU_THRD_NUM-1:0] sscan_tt_rd_sel; wire [`TLU_THRD_NUM-1:0] sscan_tt_wr_sel; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt0_data; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt1_data; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt2_data; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt3_data; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt0_din; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt1_din; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt2_din; wire [`TSA_TTYPE_WIDTH-1:0] sscan_tt3_din; wire [`TSA_TTYPE_WIDTH-1:0] tsa_rdata_ttype_m; */ wire [`TCL_SSCAN_WIDTH-1:0] tcl_sscan_test_data; wire tba_ttype_sel_w2; wire [3:0] final_ttype_sel_g, final_ttype_sel_w2; // modified due to one-hot mux bug wire [1:0] final_offset_en_g, final_offset_en_w1; wire [2:0] final_offset_sel_w1; wire restore_pc_sel_g, restore_pc_sel_w1; // removed for timing // wire [`TSA_TTYPE_WIDTH-1:0] sync_ttype_g; // added to support lsu dferred traps wire priority_trap_sel0, priority_trap_sel1, priority_trap_sel2; wire sync_trap_taken_g, sync_trap_taken_w2; // added for timing fix wire sync_trap_taken_m ; wire ifu_ttype_early_vld_m ; // wire [3:0] tickcmp_int; // interrupt caused by tick_ticktmp wire fp_trap_thrd0,fp_trap_thrd1,fp_trap_thrd2,fp_trap_thrd3; wire [`TSA_TTYPE_WIDTH-1:0] ffu_async_ttype; wire spill_thrd0,spill_thrd1,spill_thrd2,spill_thrd3; wire [`TLU_THRD_NUM-1:0] trap_cwp_enb; wire [`TLU_THRD_NUM-1:0] lsu_async_vld_en_g, lsu_async_vld_en_w2; wire dmmu_async_thrd0, dmmu_async_thrd1; wire dmmu_async_thrd2, dmmu_async_thrd3; wire [`TSA_TTYPE_WIDTH-1:0] dmmu_async_ttype; wire pend_to_thrd0_en, pend_to_thrd1_en; wire pend_to_thrd2_en, pend_to_thrd3_en; wire pend_to_thrd0_reset, pend_to_thrd1_reset; wire pend_to_thrd2_reset, pend_to_thrd3_reset; wire tlu_pich_cnt_hld; wire [`TLU_THRD_NUM-1:0] pich_cnt_hld_rst_g; wire [`TLU_THRD_NUM-1:0] pich_cnt_hld_rst_w2; wire [`TLU_THRD_NUM-1:0] pend_pich_cnt_hld; wire [`TLU_THRD_NUM-1:0] pend_pich_cnt_hld_q; wire [`TLU_THRD_NUM-1:0] pend_pich_cnt_hld_noqual; wire [`TLU_THRD_NUM-1:0] pend_pich_cnt_hld_early; wire [`TLU_THRD_NUM-1:0] pend_pich_cnt_adj; wire [`TLU_THRD_NUM-1:0] cwp_en_thrd_reset; // wire pend_to_thrd0_taken, pend_to_thrd1_taken; // wire pend_to_thrd2_taken, pend_to_thrd3_taken; wire [`TSA_TTYPE_WIDTH-1:0] pend_ttype0,pend_ttype1,pend_ttype2,pend_ttype3; wire pending_trap0,pending_trap1,pending_trap2,pending_trap3; wire [`TSA_TTYPE_WIDTH-1:0] pending_ttype0,pending_ttype1,pending_ttype2,pending_ttype3; wire [`TSA_TTYPE_WIDTH-1:0] pending_ttype, pending_ttype_w2; // // Added for bug 1575 wire agp_tid_sel; // modified due to timing // wire update_pstate0_g,update_pstate1_g; // wire update_pstate2_g,update_pstate3_g; // wire [`TLU_THRD_NUM-1:0] update_pstate_g;, wire [`TLU_THRD_NUM-1:0] update_pstate_w2; wire thrd0_traps_w2, thrd1_traps_w2; wire thrd2_traps_w2, thrd3_traps_w2; wire ifu_ttype_vld_tmp_g; // // added for timing, move qualification from ifu to tlu wire ifu_ttype_vld_m; wire cwp_cmplt0,cwp_cmplt1,cwp_cmplt2,cwp_cmplt3; wire cwp_cmplt_w2, cwp_cmplt_g; wire cwp_cmplt_rtry_w2, cwp_cmplt_rtry_g; wire cwp_fastcmplt_w2; wire cwp_cmplt0_pending, cwp_cmplt1_pending; wire cwp_cmplt2_pending, cwp_cmplt3_pending; wire cwp_retry0,cwp_retry1,cwp_retry2,cwp_retry3; wire pending_thrd0_event_taken, pending_thrd1_event_taken; wire pending_thrd2_event_taken, pending_thrd3_event_taken; // wire pending_thrd0_event_taken_w2, pending_thrd1_event_taken_w2; // wire pending_thrd2_event_taken_w2, pending_thrd3_event_taken_w2; wire cwp_fastcmplt_m, cwp_fastcmplt_uq_g, cwp_fastcmplt_g; wire pending_dntry0_taken, pending_dntry1_taken; wire pending_dntry2_taken, pending_dntry3_taken; wire rstint_g,hwint_g,swint_g; wire [2:0] early_ttype_sel; // wire [2:0] rst_ttype_sel; wire [1:0] rst_ttype_sel; wire rst_hwint_sel_w2; // modified for timing // wire [3:0] rst_hwdr_ttype_sel; wire rst_hwdr_ttype_sel_w2; wire onehot_pending_ttype_sel; wire early_priv_traps_g, exu_hyper_traps_g; wire exu_pib_priv_act_trap_m; wire [`TLU_THRD_NUM-1:0] pib_wrap_m; wire [`TLU_THRD_NUM-1:0] pib_pich_wrap_m; wire pib_wrap_trap_nq_g, pib_wrap_trap_g, pib_wrap_trap_m; wire [`TLU_THRD_NUM-1:0] pib_trap_en; wire [`TLU_THRD_NUM-1:0] picl_wrap_pend; // // added for timing; moved qualification from IFU to TLU wire ifu_rstint_m,ifu_hwint_m,ifu_swint_m; // swint_nq_g; wire sftint_penc_update; wire sftint_user_update_g, sftint_user_update_w2; wire penc_sel_user_update; wire [5:0] rstid_g; wire trp_lvl0_incr_w2, trp_lvl1_incr_w2; wire trp_lvl2_incr_w2, trp_lvl3_incr_w2; wire rstint_taken,hwint_taken,swint_taken; // wire swint_thrd0_taken, swint_thrd1_taken; // wire swint_thrd2_taken, swint_thrd3_taken; wire sirint_taken; // wire [`TLU_THRD_NUM-2:0] swint_thrd_g; wire [`TLU_THRD_NUM-2:0] sftint_penc_thrd; wire por_rstint_g, xir_rstint_g; wire por_rstint0_g, por_rstint1_g; wire por_rstint2_g, por_rstint3_g; wire por_rstint_w2; wire por_rstint0_w2, por_rstint1_w2; wire por_rstint2_w2, por_rstint3_w2; wire trp_lvl0_at_maxtl,trp_lvl1_at_maxtl; wire trp_lvl2_at_maxtl,trp_lvl3_at_maxtl; wire internal_wdr; wire [`TLU_THRD_NUM-1:0] internal_wdr_trap; // added for hypervispor support wire [`TLU_THRD_NUM-1:0] pil_cmp_en; wire [`TLU_THRD_NUM-1:0] sftint_only_vld; wire [`TLU_THRD_NUM-1:0] tlu_int_sftint_pend; wire [`TLU_THRD_NUM-1:0] sftint_pend_wait; wire [`TLU_THRD_NUM-1:0] sftint_wait_rst; // wire [3:0] true_pil0, true_pil1; wire [3:0] true_pil2, true_pil3; wire pil0_en,pil1_en,pil2_en,pil3_en; wire set_sftint_d, clr_sftint_d, sftint_rg_rw_d; // modified for timing and bug 5117 wire [6:0] final_swint_id_w2; // wire [6:0] final_swint_id; // wire [6:0] final_swint0_id, final_swint1_id; // wire [6:0] final_swint2_id, final_swint3_id; // modified for bug 3705 // wire [6:0] tlz_swint_ttype; // wire [6:0] hwint_swint_ttype; wire [6:0] wrap_tlz_ttype; wire [3:0] sftint0_id,sftint1_id,sftint2_id,sftint3_id; wire [3:0] sftint_id_w2; // wire [6:0] sftint_ttype; wire done_inst_g_tmp, retry_inst_g_tmp; wire immu_va_oor_brnchetc_m; wire pstate_am;// pstate_priv pstate_priv_g; wire memref_e, memref_m; wire [2:0] isfsr_ftype_sel; wire [6:0] isfsr_ftype_m,isfsr_ftype_g; wire isfsr_flt_vld_m,isfsr_flt_vld_g; wire isfsr_trp_wr_m,isfsr_trp_wr_g; wire itag_acc_sel_g; // wire flsh_inst_m, flsh_inst_g; // wire pstate_cle; // wire [2:0] dsfsr_asi_sel_m, dsfsr_asi_sel_g; // wire [1:0] dsfsr_asi_sel_m, // dsfsr_asi_sel_g; wire dmmu_va_oor_m, dmmu_va_oor_g; // wire ldst_xslate_g; // wire [2:0] dsfsr_ctxt_sel; // wire dsfsr_wr_op_g; // wire dsfsr_flt_vld_m; // // logic moved to lsu_expctl due to timing /* wire dsfsr_ftype_zero; wire [1:0] dsfsr_ctxt_g, wire [7:0] dsfsr_asi_g; // wire [6:0] dsfsr_ftype_g, dsfsr_pe_ftype_g; wire dsfsr_side_effect_g; wire dsfsr_trp_wr_g; */ wire [1:0] isfsr_ctxt_g; wire [`TLU_THRD_NUM-1:0] tick_en; wire local_sync_trap_m, local_sync_trap_g; wire dside_sync_trap_g, early_dside_trap_g; wire true_hscpd_dacc_excpt_m; wire true_qtail_dacc_excpt_m; // wire lsu_higher_priority; // wire dside_higher_priority; wire [`TSA_TTYPE_WIDTH-1:0] local_sync_ttype_g; wire local_higher_ttype_flg; // wire [`TSA_TTYPE_WIDTH-1:0] dside_sync_ttype_pre_g; // wire [`TSA_TTYPE_WIDTH-1:0] dside_sync_ttype_g; wire [`TSA_TTYPE_WIDTH-1:0] early_sync_ttype_g, early_sync_ttype_w2; wire [`TSA_TTYPE_WIDTH-1:0] adj_lsu_ttype_w2; wire [`TSA_TTYPE_WIDTH-1:0] lsu_tlu_ttype_w2; // wire [`TSA_TTYPE_WIDTH-3:0] lsu_tlu_async_ttype_w2; // wire [`TSA_TTYPE_WIDTH-3:0] rst_ttype_g; wire [`TSA_TTYPE_WIDTH-3:0] rst_hwint_ttype_g, rst_hwint_ttype_w2; wire [`TSA_TTYPE_WIDTH-3:0] rst_ttype_w2, rst_hwdr_ttype_w2; wire [`TSA_TTYPE_WIDTH-1:0] early_ttype_g; wire trp_lvl0_at_maxtlless1,trp_lvl1_at_maxtlless1; wire trp_lvl2_at_maxtlless1,trp_lvl3_at_maxtlless1; wire trp_lvl_at_maxtlless1; wire [`TLU_THRD_NUM-1:0] tpl_maxless1; wire redmode_insertion, redmode_insertion_w2; wire [`TLU_THRD_NUM-1:0] tlu_lsu_redmode_rst; wire trap_to_redmode; wire pending_thrd_event_taken; // added or modified for timing wire [`TLU_THRD_NUM-2:0] thrd_rsel_g; wire [`TLU_THRD_NUM-2:0] thrd_rsel_w2; wire va_oor_inst_acc_excp_g; // qualified va_oor_jl_ret trap wire va_oor_data_acc_excp_g, va_oor_data_acc_excp_w2; // qualified exu_tlu_va_oor_m trap wire sir_inst_g; wire [`TLU_THRD_NUM-1:0] pending_trap_sel; // // modified to support lsu_deferred traps; modified for timing wire reset_sel_g, reset_sel_w2; wire [2:0] reset_id_g; wire tick_npt0,tick_npt1,tick_npt2,tick_npt3; wire tick_ctl_din; // modified due to early_flush_pipe timing fix // wire tlu_tick_npt_priv_act; wire tick_npt_priv_act_g; wire tick_npt_priv_act_m; wire exu_tick_npt_priv_act_m; // // moved the tick_indis and stick_intdis logic to tlu_tdp // wire tick_intdis0,tick_intdis1,tick_intdis2,tick_intdis3; // wire stick_intdis0,stick_intdis1,stick_intdis2,stick_intdis3; // wire [`TLU_THRD_NUM-1:0] tick_intrpt; // wire [`TLU_THRD_NUM-1:0] tick_intclr; // use to clear the tick_int bit // wire wsr_tick_intclr_g; // clear the tick_int through asr write // wire wsr_tick_intset_g; // set the tick_int through asr write // add and/or modified for hypervisor support // wire [1:0] cwp_cmplt_tid_w2, cwp_cmplt_tid_g; // wire wsr_illeg_globals_g; // mutual exclusiveness of the pstate globals // wire wsr_stick_intclr_g; // clear the stick_int through asr write // wire wsr_stick_intset_g; // set the stick_int through asr write // wire [`TLU_THRD_NUM-1:0] stick_intrpt; // wire [`TLU_THRD_NUM-1:0] stick_int_en, stick_int_din; // wire [`TLU_THRD_NUM-1:0] tick_int_en, tick_int_din; // // wire [1:0] cwp_cmplt_tid_g; wire [1:0] true_trap_tid_g; wire [1:0] early_trap_tid_g; wire [1:0] true_trap_tid_w2; wire trp_lvl_zero; wire misalign_addr_jmpl_rtn_g,misalign_addr_ldst_atm_g; wire tt_init_en; wire [`TLU_THRD_NUM-1:0] tt_init_rst; wire [`TLU_THRD_NUM-1:0] tt_unwritten; wire ttype_written; wire ttype_unwritten_sel; wire reset_d1; wire thread_tl_zero; // wire iside_trap; wire [7:0] isfsr_asi_g; wire thread_tl_zero_m,thread_tl_zero_g; wire tlu_trap_to_hyper_g, tlu_trap_to_hyper_w2; // wire hyper_wdr_trap; wire hyper_wdr_early_trap_g, hyper_wdr_early_trap_w2, hyper_wdr_trap_w2; wire tlu_priv_traps_w2; wire [2:0] tlu_early_priv_element_g; wire [2:0] tlu_early_priv_element_w2; wire [`TLU_THRD_NUM-1:0] trp_lvl_gte_maxstl; wire [`TLU_THRD_NUM-1:0] trp_lvl_at_maxstl; // This section was modified to abide to the Niagara synthesis methodology // //reg tpc_rw_e, tpc_rw_m, tpc_rw_g; //reg tnpc_rw_e, tnpc_rw_m, tnpc_rw_g; //reg tstate_rw_e, tstate_rw_m, tstate_rw_g, tstate_rw_w2; //reg ttype_rw_e, ttype_rw_m, ttype_rw_g, ttype_rw_w2; //reg tick_rw_e, tick_rw_m, tick_rw_g; //reg tick_npriv_r_e, tick_npriv_r_m, tick_npriv_r_g; //reg tickcmp_rw_e, tickcmp_rw_m, tickcmp_rw_g; //reg tba_rw_e, tba_rw_m, tba_rw_g; //reg pstate_rw_e, pstate_rw_m, pstate_rw_g; //reg pil_rw_e, pil_rw_m, pil_rw_g; //reg tl_rw_e, tl_rw_m, tl_rw_g; //reg wsr_inst_e, wsr_inst_m, wsr_inst_g_unflushed; //reg set_sftint_e, clr_sftint_e, sftint_rg_rw_e; //reg set_sftint_m, clr_sftint_m, sftint_rg_rw_m; //reg set_sftint_g, clr_sftint_g, sftint_rg_rw_g; // wire tpc_rw_e, tpc_rw_m, tpc_rw_g, tpc_rw_w2; wire tnpc_rw_e, tnpc_rw_m, tnpc_rw_g, tnpc_rw_w2; wire tstate_rw_e, tstate_rw_m, tstate_rw_g, tstate_rw_w2; wire ttype_rw_e, ttype_rw_m, ttype_rw_g, ttype_rw_w2; wire htstate_rw_w2; wire tick_rw_e, tick_rw_m, tick_rw_g; wire tick_npriv_r_e, tick_npriv_r_m, tick_npriv_r_g; wire tickcmp_rw_e, tickcmp_rw_m, tickcmp_rw_g; wire tba_rw_e, tba_rw_m, tba_rw_g; wire pstate_rw_e, pstate_rw_m, pstate_rw_g, pstate_rw_w2; wire pil_rw_e, pil_rw_m, pil_rw_g; wire tl_rw_e, tl_rw_m, tl_rw_g, tl_rw_w2; wire htickcmp_rw_m, htickcmp_rw_g; wire wsr_inst_e, wsr_inst_m, wsr_inst_g_unflushed; wire set_sftint_e, clr_sftint_e, sftint_rg_rw_e; wire set_sftint_m, clr_sftint_m, sftint_rg_rw_m; wire set_sftint_g, clr_sftint_g, sftint_rg_rw_g; // wire wsr_inst_g, wsr_inst_w2; wire inst_ifu_flush_w; wire inst_ifu_flush2_w; wire clk; //========================================================================================= //========================================================================================= //========================================================================================= wire [3:0] tlu_pstate_priv_buf; assign tlu_pstate_priv_buf[3:0] = tlu_pstate_priv[3:0]; //========================================================================================= //========================================================================================= //========================================================================================= // reset //========================================================================================= dffrl_async dffrl_local_rst_l( .din (grst_l), .clk (clk), .rst_l(arst_l), .q (local_rst_l), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_rst = ~tlu_rst_l; assign local_rst = ~tlu_rst_l; assign tlu_rst_l = local_rst_l; //========================================================================================= // Rename //========================================================================================= // assign tlu_lsu_redmode[3:0] = tlu_int_redmode[3:0]; assign clk = rclk; //========================================================================================= // Misc. TDP Control //========================================================================================= // // modified for bug 5436: Niagara 2.0 /* assign pcr_ut_e = (tlu_thrd_rsel_e[0]) ? tlu_pcr_ut[0]: (tlu_thrd_rsel_e[1]) ? tlu_pcr_ut[1]: (tlu_thrd_rsel_e[2]) ? tlu_pcr_ut[2]: tlu_pcr_ut[3]; assign pcr_st_e = (tlu_thrd_rsel_e[0]) ? tlu_pcr_st[0]: (tlu_thrd_rsel_e[1]) ? tlu_pcr_st[1]: (tlu_thrd_rsel_e[2]) ? tlu_pcr_st[2]: tlu_pcr_st[3]; */ assign tlu_thread_inst_vld_g[0] = inst_vld_g & thread0_rsel_g & ~pend_pich_cnt_hld[0]; assign tlu_thread_inst_vld_g[1] = inst_vld_g & thread1_rsel_g & ~pend_pich_cnt_hld[1]; assign tlu_thread_inst_vld_g[2] = inst_vld_g & thread2_rsel_g & ~pend_pich_cnt_hld[2]; assign tlu_thread_inst_vld_g[3] = inst_vld_g & thread3_rsel_g & ~pend_pich_cnt_hld[3]; assign thread_inst_vld_w2[0] = inst_vld_w2 & thread0_wsel_w2; assign thread_inst_vld_w2[1] = inst_vld_w2 & thread1_wsel_w2; assign thread_inst_vld_w2[2] = inst_vld_w2 & thread2_wsel_w2; assign thread_inst_vld_w2[3] = inst_vld_w2 & thread3_wsel_w2; assign thread_inst_vld_g[0] = inst_vld_g & thread0_rsel_g; assign thread_inst_vld_g[1] = inst_vld_g & thread1_rsel_g; assign thread_inst_vld_g[2] = inst_vld_g & thread2_rsel_g; assign thread_inst_vld_g[3] = inst_vld_g & thread3_rsel_g; // added for timing // assign tlu_trp_lvl[2:0] = thread0_rsel_e ? trp_lvl0[2:0] : thread1_rsel_e ? trp_lvl1[2:0] : thread2_rsel_e ? trp_lvl2[2:0] : thread3_rsel_e ? trp_lvl3[2:0] : 3'bxxx; assign tlu_pil[3:0] = thread0_rsel_e ? true_pil0[3:0] : thread1_rsel_e ? true_pil1[3:0] : thread2_rsel_e ? true_pil2[3:0] : thread3_rsel_e ? true_pil3[3:0] : 4'bxxx; assign tlu_tba_en_l[0] = ~(tba_rw_g & wsr_inst_g & thread0_wsel_g); assign tlu_tba_en_l[1] = ~(tba_rw_g & wsr_inst_g & thread1_wsel_g); assign tlu_tba_en_l[2] = ~(tba_rw_g & wsr_inst_g & thread2_wsel_g); assign tlu_tba_en_l[3] = ~(tba_rw_g & wsr_inst_g & thread3_wsel_g); assign tlu_tick_en_l = ~(tick_rw_g & wsr_inst_g); // the logic equations can be made common (grape) // reset may not have to be factored in !!! assign tick_en[0] = (tick_rw_g & wsr_inst_g & thread0_wsel_g) | local_rst | por_rstint0_g; assign tick_en[1] = (tick_rw_g & wsr_inst_g & thread1_wsel_g) | local_rst | por_rstint1_g; assign tick_en[2] = (tick_rw_g & wsr_inst_g & thread2_wsel_g) | local_rst | por_rstint2_g; assign tick_en[3] = (tick_rw_g & wsr_inst_g & thread3_wsel_g) | local_rst | por_rstint3_g; // modified for bug 4763 assign tlu_tickcmp_en_l[0] = ~((tickcmp_rw_g & wsr_inst_g & thread0_wsel_g)); assign tlu_tickcmp_en_l[1] = ~((tickcmp_rw_g & wsr_inst_g & thread1_wsel_g)); assign tlu_tickcmp_en_l[2] = ~((tickcmp_rw_g & wsr_inst_g & thread2_wsel_g)); assign tlu_tickcmp_en_l[3] = ~((tickcmp_rw_g & wsr_inst_g & thread3_wsel_g)); // // modified for bug 4763 assign tlu_stickcmp_en_l[0] = ~((stickcmp_rw_g & wsr_inst_g & thread0_wsel_g)); assign tlu_stickcmp_en_l[1] = ~((stickcmp_rw_g & wsr_inst_g & thread1_wsel_g)); assign tlu_stickcmp_en_l[2] = ~((stickcmp_rw_g & wsr_inst_g & thread2_wsel_g)); assign tlu_stickcmp_en_l[3] = ~((stickcmp_rw_g & wsr_inst_g & thread3_wsel_g)); // // modified for bug 4763 assign tlu_htickcmp_en_l[0] = ~((htickcmp_rw_g & wsr_inst_g & thread0_wsel_g)); assign tlu_htickcmp_en_l[1] = ~((htickcmp_rw_g & wsr_inst_g & thread1_wsel_g)); assign tlu_htickcmp_en_l[2] = ~((htickcmp_rw_g & wsr_inst_g & thread2_wsel_g)); assign tlu_htickcmp_en_l[3] = ~((htickcmp_rw_g & wsr_inst_g & thread3_wsel_g)); // modified for bug 1266 and 1264 dff_s dff_stgg_va_oor_jl_ret_g ( .din (exu_tlu_va_oor_jl_ret_m), .q (va_oor_jl_ret_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // This may have to be changed as all lsu traps may not use mmu globals // ffu traps may have to be factored in once round-robin selection in place. // factor in ldst related mem-address exceptions. // // modified for bug 1264 and 1266 // prioritize the exu_tlu_va_oor_jl_ret_m trap; if no higher traps are happening initiate the trap // assign va_oor_inst_acc_excp_g = va_oor_jl_ret_g & inst_vld_g & ~(exu_ttype_vld_g | ifu_ttype_vld_g | lsu_tlu_priv_action_g | local_sync_trap_g); // // added for bug 1316 // prioritize the exu_tlu_va_oor_jl_ret_m trap; if no higher traps are happening initiate the trap // modified for bug 3464 and bug 4873 assign va_oor_data_acc_excp_g = (dmmu_va_oor_g & inst_vld_g) & ~(exu_ttype_vld_g | ifu_ttype_vld_g | lsu_tlu_priv_action_g | misalign_addr_ldst_atm_g | lsu_tlu_wtchpt_trp_g); // // added for timing dffr_s dffr_va_oor_data_acc_excp_w2 ( .din (va_oor_data_acc_excp_g), .q (va_oor_data_acc_excp_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // exu should qualify with priv bit. Assume ttype vld is asserted. dff_s #(1) dff_stgg_sir_g ( .din (ifu_tlu_sir_inst_m), .q (sir_inst_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign pstate_rmode[3:0] = tlu_int_redmode[3:0]; wire intrpt_taken; // recoded for bug 2644 // assign intrpt_taken = rstint_taken | hwint_taken | swint_taken; assign intrpt_taken = rstint_taken | hwint_taken | sirint_taken; // // modified for bug 4906 assign trp_lvl_at_maxtlless1 = tpl_maxless1[0] | tpl_maxless1[1] | tpl_maxless1[2] | tpl_maxless1[3]; assign tpl_maxless1[0] = (trp_lvl0_at_maxtlless1 | pstate_rmode[0]) & thrd0_traps; assign tpl_maxless1[1] = (trp_lvl1_at_maxtlless1 | pstate_rmode[1]) & thrd1_traps; assign tpl_maxless1[2] = (trp_lvl2_at_maxtlless1 | pstate_rmode[2]) & thrd2_traps; assign tpl_maxless1[3] = (trp_lvl3_at_maxtlless1 | pstate_rmode[3]) & thrd3_traps; // thread enters redstate // modified for bug 3919 // assign trap_to_redmode = trp_lvl_at_maxtlless1 & ~intrpt_taken; assign trap_to_redmode = trp_lvl_at_maxtlless1 & ~(rstint_taken | sirint_taken); assign tlu_lsu_redmode_rst[0] = ((rstint_taken | sirint_taken) & thread0_rsel_g) | tpl_maxless1[0] | internal_wdr_trap[0] | local_rst ; assign tlu_lsu_redmode_rst[1] = ((rstint_taken | sirint_taken) & thread1_rsel_g) | tpl_maxless1[1] | internal_wdr_trap[1] | local_rst ; assign tlu_lsu_redmode_rst[2] = ((rstint_taken | sirint_taken) & thread2_rsel_g) | tpl_maxless1[2] | internal_wdr_trap[2] | local_rst ; assign tlu_lsu_redmode_rst[3] = ((rstint_taken | sirint_taken) & thread3_rsel_g) | tpl_maxless1[3] | internal_wdr_trap[3] | local_rst ; dff_s #(`TLU_THRD_NUM) dff_tlu_lsu_redmode_rst_d1 ( .din (tlu_lsu_redmode_rst[`TLU_THRD_NUM-1:0]), .q (tlu_lsu_redmode_rst_d1[`TLU_THRD_NUM-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign redmode_insertion = local_rst | rstint_taken | trap_to_redmode | internal_wdr | sirint_taken; // sir_inst_g; // sigm inst in priv mode // // added for timing dff_s dff_redmode_insertion_w2 ( .din (redmode_insertion), .q (redmode_insertion_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_select_redmode = redmode_insertion_w2; // added for bug 2808 assign ibrkpt_trap_m = (ifu_tlu_ttype_m[8:0]== 9'h076) & ifu_tlu_ttype_vld_m; dffr_s dffr_ibrkpt_trap_g ( .din (ibrkpt_trap_m), .q (ibrkpt_trap_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_ibrkpt_trap_w2 ( .din (ibrkpt_trap_g), .q (ibrkpt_trap_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // assign tlu_ibrkpt_trap_g = ibrkpt_trap_g; assign tlu_ibrkpt_trap_w2 = ibrkpt_trap_w2; // modified for bug 1575 // assign tlu_pstate_din_sel[2] = ~(tlu_pstate_din_sel[0] | tlu_pstate_din_sel[1]); // the selection pstate by thread // modified for the hypervisory support assign tlu_pstate_din_sel0[0] = dnrtry_inst_w2[0] & ~rst_tri_en; assign tlu_pstate_din_sel0[1] = (pstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_pstate_din_sel0[0] & thread0_wsel_w2; assign tlu_pstate_din_sel1[0] = dnrtry_inst_w2[1] & ~rst_tri_en; assign tlu_pstate_din_sel1[1] = (pstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_pstate_din_sel1[0] & thread1_wsel_w2; assign tlu_pstate_din_sel2[0] = dnrtry_inst_w2[2] & ~rst_tri_en; assign tlu_pstate_din_sel2[1] = (pstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_pstate_din_sel2[0] & thread2_wsel_w2; assign tlu_pstate_din_sel3[0] = dnrtry_inst_w2[3] & ~rst_tri_en; assign tlu_pstate_din_sel3[1] = (pstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_pstate_din_sel3[0] & thread3_wsel_w2; assign restore_pc_sel_g = (dnrtry_inst_g & cwp_fastcmplt_g) | cwp_cmplt_g; // dffr_s dffr_restore_pc_sel_w1 ( .din (restore_pc_sel_g), .q (restore_pc_sel_w1), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_restore_pc_sel_w1 = restore_pc_sel_w1; // // modified for the hypervisor support and timing assign update_pstate_w2[0] = thrd0_traps_w2 | dnrtry_inst_w2[0] | ((pstate_rw_w2 & wsr_inst_w2) & thread0_wsel_w2); assign update_pstate_w2[1] = thrd1_traps_w2 | dnrtry_inst_w2[1] | ((pstate_rw_w2 & wsr_inst_w2) & thread1_wsel_w2); assign update_pstate_w2[2] = thrd2_traps_w2 | dnrtry_inst_w2[2] | ((pstate_rw_w2 & wsr_inst_w2) & thread2_wsel_w2); assign update_pstate_w2[3] = thrd3_traps_w2 | dnrtry_inst_w2[3] | ((pstate_rw_w2 & wsr_inst_w2) & thread3_wsel_w2); // recoded for timing // modified for bug 4284 assign tlu_update_pc_l_w[0] = ~(inst_vld_g & thread0_rsel_g); assign tlu_update_pc_l_w[1] = ~(inst_vld_g & thread1_rsel_g); assign tlu_update_pc_l_w[2] = ~(inst_vld_g & thread2_rsel_g); assign tlu_update_pc_l_w[3] = ~(inst_vld_g & thread3_rsel_g); // // modified for timing assign tlu_thrd_wsel_w2[`TLU_THRD_NUM-1:0] = {thread3_wtrp_w2, thread2_wtrp_w2, thread1_wtrp_w2, thread0_wtrp_w2}; //wire pending_thrd_event_taken_w2; assign pending_thrd_event_taken = pending_thrd0_event_taken | pending_thrd1_event_taken | pending_thrd2_event_taken | pending_thrd3_event_taken; // // modified due to timing assign tlu_tl_gt_0_w2 = thrd_rsel_w2[0] ? tl0_gt_0 : (thrd_rsel_w2[1] ? tl1_gt_0 : (thrd_rsel_w2[2] ? tl2_gt_0 : tl3_gt_0)); assign thrd_rsel_g[0] = (thread0_rsel_g & ~pending_thrd_event_taken) | pending_thrd0_event_taken; assign thrd_rsel_g[1] = (thread1_rsel_g & ~pending_thrd_event_taken) | pending_thrd1_event_taken; assign thrd_rsel_g[2] = (thread2_rsel_g & ~pending_thrd_event_taken) | pending_thrd2_event_taken; dff_s #(`TLU_THRD_NUM-1) dff_thrd_rsel_w2 ( .din (thrd_rsel_g[`TLU_THRD_NUM-2:0]), .q (thrd_rsel_w2[`TLU_THRD_NUM-2:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for the tsa_wdata bug (tlu_tdp) // // assign tlu_wr_tsa_inst_g = tsa_wr_tid_sel_g; // // added for timing assign tlu_wr_tsa_inst_w2 = (wsr_inst_w2 & (tstate_rw_w2 | tpc_rw_w2 | tnpc_rw_w2 | ttype_rw_w2 | htstate_rw_w2)) & ~sync_trap_taken_w2; // assign tlu_wsr_inst_g = wsr_inst_g; // // modified for timing /* assign tlu_update_pstate_l_g[0] = ~(update_pstate_g[0] | local_rst); assign tlu_update_pstate_l_g[1] = ~(update_pstate_g[1] | local_rst); assign tlu_update_pstate_l_g[2] = ~(update_pstate_g[2] | local_rst); assign tlu_update_pstate_l_g[3] = ~(update_pstate_g[3] | local_rst); */ assign tlu_update_pstate_l_w2[0] = ~(update_pstate_w2[0] | local_rst); assign tlu_update_pstate_l_w2[1] = ~(update_pstate_w2[1] | local_rst); assign tlu_update_pstate_l_w2[2] = ~(update_pstate_w2[2] | local_rst); assign tlu_update_pstate_l_w2[3] = ~(update_pstate_w2[3] | local_rst); //========================================================================================= // rdpr mux selects - recoded due to timing //========================================================================================= // modified for bug 1352 - added the non-privedged term in the read select // // modified for bug 1859 // assign tlu_rdpr_mx1_sel[0] = tpc_rw_e; // assign tlu_rdpr_mx1_sel[1] = tnpc_rw_e; // assign tlu_rdpr_mx1_sel[2] = tick_rw_e | tick_npriv_r_e; // assign tlu_rdpr_mx1_sel[3] = tickcmp_rw_e; // assign tlu_rdpr_mx2_sel[0] = tstate_rw_e; // assign tlu_rdpr_mx2_sel[1] = tba_rw_e; // assign tlu_rdpr_mx2_sel[2] = sftint_rg_rw_e; // assign tlu_rdpr_mx3_sel[0] = ttype_rw_e; // assign tlu_rdpr_mx3_sel[2] = tl_rw_e; // assign tlu_rdpr_mx3_sel[3] = pil_rw_e; // assign tlu_rdpr_mx4_sel[0] = (|tlu_rdpr_mx2_sel[`RDPR_MX2_SEL_WIDTH-1:0]) | tlu_htba_mx2_sel; // assign tlu_rdpr_mx4_sel[1] = (ttype_rw_e & ttype_written) | pstate_rw_e | tl_rw_e | pil_rw_e; // assign tlu_rdpr_mx4_sel[2] = tlu_rdpr_mx5_active; // assign tlu_rdpr_mx6_sel[0] = (|tlu_rdpr_mx1_sel[3:0]); // assign tlu_rdpr_mx6_sel[1] = stickcmp_rw_e; // assign tlu_rdpr_mx6_sel[2] = tlu_htickcmp_rw_e; // assign tlu_rdpr_mx7_sel[0] = |(tlu_rdpr_mx4_sel[2:0]); // assign tlu_rdpr_mx7_sel[1] = |(tlu_rdpr_mx6_sel[2:0]); // assign tlu_rdpr_mx7_sel[2] = ttype_unwritten_sel; assign local_rdpr_mx1_sel[0] = tick_rw_e | tick_npriv_r_e; assign local_rdpr_mx1_sel[1] = tickcmp_rw_e; assign local_rdpr_mx1_sel[2] = stickcmp_rw_e; assign local_rdpr_mx1_sel[3] = tlu_htickcmp_rw_e; // assign tlu_rdpr_mx1_sel[0] = local_rdpr_mx1_sel[1] & ~rst_tri_en; assign tlu_rdpr_mx1_sel[1] = local_rdpr_mx1_sel[2] & ~rst_tri_en; assign tlu_rdpr_mx1_sel[2] = local_rdpr_mx1_sel[3] & ~rst_tri_en; // assign local_rdpr_mx2_sel[0] = tlu_hyperv_rdpr_sel[0]; assign local_rdpr_mx2_sel[1] = tlu_hyperv_rdpr_sel[1]; assign local_rdpr_mx2_sel[2] = tl_rw_e; assign local_rdpr_mx2_sel[3] = pil_rw_e; // assign tlu_rdpr_mx2_sel[0] = local_rdpr_mx2_sel[1] & ~rst_tri_en; assign tlu_rdpr_mx2_sel[1] = local_rdpr_mx2_sel[2] & ~rst_tri_en; assign tlu_rdpr_mx2_sel[2] = local_rdpr_mx2_sel[3] & ~rst_tri_en; // assign local_rdpr_mx3_sel[0] = sftint_rg_rw_e; assign local_rdpr_mx3_sel[1] = pstate_rw_e; assign local_rdpr_mx3_sel[2] = tlu_hyperv_rdpr_sel[2]; // assign tlu_rdpr_mx3_sel[0] = local_rdpr_mx3_sel[1] & ~rst_tri_en; assign tlu_rdpr_mx3_sel[1] = local_rdpr_mx3_sel[2] & ~rst_tri_en; // assign local_rdpr_mx4_sel[0] = tpc_rw_e; assign local_rdpr_mx4_sel[1] = tnpc_rw_e; assign local_rdpr_mx4_sel[2] = tstate_rw_e; // assign tlu_rdpr_mx4_sel[0] = local_rdpr_mx4_sel[1] & ~rst_tri_en; assign tlu_rdpr_mx4_sel[1] = local_rdpr_mx4_sel[2] & ~rst_tri_en; // // modified for rte failures assign local_rdpr_mx5_sel[0] = tba_rw_e; assign local_rdpr_mx5_sel[1] = tlu_hyperv_rdpr_sel[4] & ~rst_tri_en; assign local_rdpr_mx5_sel[2] = (|local_rdpr_mx1_sel[3:0]) & ~rst_tri_en; assign local_rdpr_mx5_sel[3] = (pcr_rsr_e | pic_rsr_e) & ~rst_tri_en; // assign tlu_rdpr_mx5_sel[0] = local_rdpr_mx5_sel[1]; assign tlu_rdpr_mx5_sel[1] = local_rdpr_mx5_sel[2]; assign tlu_rdpr_mx5_sel[2] = local_rdpr_mx5_sel[3]; // assign tlu_rdpr_mx6_sel[0] = local_rdpr_mx6_sel[1]; assign tlu_rdpr_mx6_sel[1] = local_rdpr_mx6_sel[2]; assign tlu_rdpr_mx6_sel[2] = local_rdpr_mx6_sel[3]; // assign local_rdpr_mx6_sel[0] = ttype_rw_e; assign local_rdpr_mx6_sel[1] = tlu_hyperv_rdpr_sel[3] & ~rst_tri_en; assign local_rdpr_mx6_sel[2] = (|local_rdpr_mx2_sel[3:0]) & ~rst_tri_en; assign local_rdpr_mx6_sel[3] = (|local_rdpr_mx3_sel[2:0]) & ~rst_tri_en; // assign tlu_rdpr_mx7_sel[0] = (|local_rdpr_mx4_sel[2:0]) & ~rst_tri_en; assign tlu_rdpr_mx7_sel[1] = (|local_rdpr_mx5_sel[3:0]) & ~rst_tri_en; assign tlu_rdpr_mx7_sel[2] = (|local_rdpr_mx6_sel[3:0]) & ~rst_tri_en; assign tlu_rdpr_mx7_sel[3] = ~(|tlu_rdpr_mx7_sel[2:0]); //========================================================================================= assign ttype_written = (thread0_rsel_e & ~tt_unwritten[0]) | (thread1_rsel_e & ~tt_unwritten[1]) | (thread2_rsel_e & ~tt_unwritten[2]) | (thread3_rsel_e & ~tt_unwritten[3]); assign ttype_unwritten_sel = ttype_rw_e & ~ttype_written; // // constructing the mux select for rdpr 7 in tdp // //========================================================================================= dff_s #(2) dff_stgdntry_m ( .din ({done_inst_e,retry_inst_e}), .q ({done_inst_m_tmp,retry_inst_m_tmp}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); wire trap_on_dnrtry_m; // priv opcode, illegal inst trap on done/retry. assign trap_on_dnrtry_m = ifu_ttype_vld_m ; // qualification done with previous instruction's flush pipe // the inst_vld may have to be sent earlier to avoid the critical path. // modified for bug 4074 and 4561 assign done_inst_m = done_inst_m_tmp & ~(((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_ifu_flush_pipe_w) | trap_on_dnrtry_m); /* done_inst_m_tmp & ~(((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_ifu_flush_pipe_w) | ((thrid_w2[1:0] == tlu_exu_tid_m[1:0]) & lsu_defr_trap_g) | trap_on_dnrtry_m); */ assign retry_inst_m = retry_inst_m_tmp & ~(((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_ifu_flush_pipe_w) | trap_on_dnrtry_m); /* retry_inst_m_tmp & ~(((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_ifu_flush_pipe_w) | ((thrid_w2[1:0] == tlu_exu_tid_m[1:0]) & lsu_defr_trap_g) | trap_on_dnrtry_m); */ /* // logic moved to tlu_misctl // modified/added for timing violations // moved the logic from exu to tlu due to timing violations mux4ds #(3) mux_trap_old_cwp_m( .in0(exu_tlu_cwp0[2:0]), .in1(exu_tlu_cwp1[2:0]), .in2(exu_tlu_cwp2[2:0]), .in3(exu_tlu_cwp3[2:0]), .sel0(thread0_rsel_m), .sel1(thread1_rsel_m), .sel2(thread2_rsel_m), .sel3(thread3_rsel_m), .dout(trap_old_cwp_m[2:0]) ); assign cwp_xor_m[2:0] = trap_old_cwp_m[2:0] ^ tlu_exu_cwp_m[2:0]; assign cwp_no_change_m = ~|(cwp_xor_m[2:0]); */ assign cwp_fastcmplt_m = tlu_exu_cwpccr_update_m & tlu_cwp_no_change_m; dffr_s dffr_cwp_fastcmplt_uq_g ( .din (cwp_fastcmplt_m), .q (cwp_fastcmplt_uq_g), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // assign tlu_exu_cwpccr_update_m = done_inst_m | retry_inst_m; assign tlu_exu_cwpccr_update_m = exu_done_inst_m | exu_retry_inst_m; assign exu_done_inst_m = done_inst_m_tmp; // & ~(ifu_tlu_ttype_vld_m & ifu_tlu_inst_vld_m); assign exu_retry_inst_m = retry_inst_m_tmp;// & ~(ifu_tlu_ttype_vld_m & ifu_tlu_inst_vld_m); // // modified due timing problems // assign tlu_exu_cwp_retry_m = retry_inst_m; assign tlu_exu_cwp_retry_m = exu_retry_inst_m; // qualify with flush ? // modified for timing and bug4658 // modified for timing and added the omitted tlz trap qualification assign true_pc_sel_m[0] = retry_inst_m_tmp & ~ifu_tlu_trap_m & ifu_tlu_inst_vld_m & ~(pib_wrap_trap_m | (|tlz_trap_m[`TLU_THRD_NUM-1:0])); assign true_pc_sel_m[1] = done_inst_m_tmp & ~ifu_tlu_trap_m & ifu_tlu_inst_vld_m & ~(pib_wrap_trap_m | (|tlz_trap_m[`TLU_THRD_NUM-1:0])) ; assign true_pc_sel_m[2] = ~(|true_pc_sel_m[1:0]); dffr_s #(3) dff_true_pc_sel_w ( .din (true_pc_sel_m[2:0]), .q (true_pc_sel_w[2:0]), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(49) dff_ifu_npc_w ( .din (ifu_tlu_npc_m[48:0]), .q (ifu_npc_w[48:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_true_pc_sel_w[2:0] = true_pc_sel_w[2:0]; dff_s #(2) dff_stgdntry_g ( .din ({done_inst_m,retry_inst_m}), .q ({done_inst_g_tmp,retry_inst_g_tmp}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign done_inst_g = done_inst_g_tmp & inst_vld_g; assign retry_inst_g = retry_inst_g_tmp & inst_vld_g; //assign tlu_retry_inst_g = retry_inst_g; //assign tlu_done_inst_g = done_inst_g; // // threaded dnrtry_inst_g signal // modified for timing // assign dnrtry0_inst_g = (done_inst_g | retry_inst_g) & ~(inst_ifu_flush2_w | local_early_flush_pipe_w) & thread0_rsel_g; assign dnrtry1_inst_g = (done_inst_g | retry_inst_g) & ~(inst_ifu_flush2_w | local_early_flush_pipe_w) & thread1_rsel_g; assign dnrtry2_inst_g = (done_inst_g | retry_inst_g) & ~(inst_ifu_flush2_w | local_early_flush_pipe_w) & thread2_rsel_g; assign dnrtry3_inst_g = (done_inst_g | retry_inst_g) & ~(inst_ifu_flush2_w | local_early_flush_pipe_w) & thread3_rsel_g; // // added for timing dffr_s #(`TLU_THRD_NUM) dffr_dnrtry_inst_w2 ( .din ({dnrtry3_inst_g,dnrtry2_inst_g,dnrtry1_inst_g,dnrtry0_inst_g}), .q (dnrtry_inst_w2[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_dnrtry0_inst_g = dnrtry0_inst_g; assign tlu_dnrtry1_inst_g = dnrtry1_inst_g; assign tlu_dnrtry2_inst_g = dnrtry2_inst_g; assign tlu_dnrtry3_inst_g = dnrtry3_inst_g; // flush needed for done/retry with tl=0 // modified for timing // assign dnrtry_inst_g = (done_inst_g | retry_inst_g) & ~tlu_flush_pipe_w; // assign dnrtry_inst_g = (done_inst_g | retry_inst_g) & ~(inst_ifu_flush_w | local_early_flush_pipe_w); dff_s #(2) dff_stgdntry_e ( .din ({ifu_tlu_done_inst_d,ifu_tlu_retry_inst_d}), .q ({done_inst_e,retry_inst_e}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign thrid_d[1:0] = ifu_tlu_thrid_d[1:0]; assign thread0_rsel_d = ~thrid_d[1] & ~thrid_d[0]; assign thread1_rsel_d = ~thrid_d[1] & thrid_d[0]; assign thread2_rsel_d = thrid_d[1] & ~thrid_d[0]; assign thread3_rsel_d = thrid_d[1] & thrid_d[0]; // // modified due to rte failure dff_s #(2) dff_thrid_e ( .din (thrid_d[1:0]), .q (thrid_e[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(2) dff_thrid_m ( .din (thrid_e[1:0]), .q (thrid_m[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(2) dff_thrid_g ( .din (thrid_m[1:0]), .q (thrid_g[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign thread0_rsel_e = ~(|thrid_e[1:0]); assign thread1_rsel_e = ~thrid_e[1] & thrid_e[0]; assign thread2_rsel_e = thrid_e[1] & ~thrid_e[0]; assign thread3_rsel_e = (&thrid_e[1:0]); assign tlu_thrd_rsel_e[0] = thread0_rsel_e; assign tlu_thrd_rsel_e[1] = thread1_rsel_e; assign tlu_thrd_rsel_e[2] = thread2_rsel_e; assign tlu_thrd_rsel_e[3] = thread3_rsel_e; // // added for timing dff_s #(`TLU_THRD_NUM) dff_thread_stg_m ( .din ({thread3_rsel_e, thread2_rsel_e, thread1_rsel_e, thread0_rsel_e}), .q ({thread3_stg_m, thread2_stg_m, thread1_stg_m, thread0_stg_m}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign thread0_stg_m_buf = thread0_stg_m; assign thread1_stg_m_buf = thread1_stg_m; assign thread2_stg_m_buf = thread2_stg_m; assign thread3_stg_m_buf = thread3_stg_m; assign thread0_rsel_m = ~(|thrid_m[1:0]); assign thread1_rsel_m = ~thrid_m[1] & thrid_m[0]; assign thread2_rsel_m = thrid_m[1] & ~thrid_m[0]; assign thread3_rsel_m = (&thrid_m[1:0]); assign thread0_rsel_dec_g = ~(|thrid_g[1:0]); assign thread1_rsel_dec_g = ~thrid_g[1] & thrid_g[0]; assign thread2_rsel_dec_g = thrid_g[1] & ~thrid_g[0]; assign thread3_rsel_dec_g = (&thrid_g[1:0]); dff_s #(`TLU_THRD_NUM) dff_thread_rsel_g ( .din ({thread3_rsel_m, thread2_rsel_m, thread1_rsel_m, thread0_rsel_m}), .q ({thread3_rsel_g, thread2_rsel_g, thread1_rsel_g, thread0_rsel_g}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(`TLU_THRD_NUM) dff_thread_wsel_g ( .din ({thread3_rsel_m, thread2_rsel_m, thread1_rsel_m, thread0_rsel_m}), .q ({thread3_wsel_g, thread2_wsel_g, thread1_wsel_g, thread0_wsel_g}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // timing -fix: load redistribution /* assign thread0_rsel_g = thread0_rsel_dec_g; assign thread1_rsel_g = thread1_rsel_dec_g; assign thread2_rsel_g = thread2_rsel_dec_g; assign thread3_rsel_g = thread3_rsel_dec_g; */ // dff_s #(2) dff_stgdntry_w2 ( .din ({done_inst_g,retry_inst_g}), .q ({done_inst_w2,retry_inst_w2}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for bug 4561 assign inst_vld_m = ifu_tlu_inst_vld_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & (tlu_flush_pipe_w | inst_ifu_flush_w)); /* assign inst_vld_m = ifu_tlu_inst_vld_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & (tlu_flush_pipe_w | inst_ifu_flush_w)) & ~((thrid_w2[1:0] == tlu_exu_tid_m[1:0]) & lsu_defr_trap_g); */ // assign tlu_inst_vld_nq_m = ifu_tlu_inst_vld_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_flush_all_w); dff_s dff_stgivld_g ( .din (inst_vld_m), .q (inst_vld_nf_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for timing /* dffr_s dffr_inst_ifu_flush_w ( .din (ifu_tlu_flush_m), .q (inst_ifu_flush_w), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ assign inst_ifu_flush_w = ifu_tlu_flush_fd_w; assign inst_ifu_flush2_w = ifu_tlu_flush_fd_w; // added for bug 2133 assign inst_vld_g = inst_vld_nf_g & ~(inst_ifu_flush_w | lsu_tlu_defr_trp_taken_g); // modified for bug 4561 // inst_vld_nf_g & ~(inst_ifu_flush_w | lsu_tlu_defr_trp_taken_g | // ((thrid_w2[1:0] == thrid_g[1:0]) & lsu_defr_trap_g)); dff_s dff_stgivld_w2 ( .din (inst_vld_g), .q (inst_vld_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified due to timing // assign cwp_fastcmplt_g = cwp_fastcmplt_w & inst_vld_g; assign cwp_fastcmplt_g = cwp_fastcmplt_uq_g & inst_vld_g; dff_s dff_stgfcmplt_w2 ( .din (cwp_fastcmplt_g), .q (cwp_fastcmplt_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // The stage name assignment may have to be changed !! // done/retry qualified with inst_vld as it could be flushed. assign tlu_ifu_trappc_vld_w1 = ((retry_inst_w2 | done_inst_w2) & inst_vld_w2 & cwp_fastcmplt_w2) | thrd0_traps_w2 | thrd1_traps_w2 | thrd2_traps_w2 | thrd3_traps_w2 | cwp_cmplt_w2; //thrd2_traps_w2 | thrd3_traps_w2) & inst_vld_w2 | cwp_cmplt_w2; assign tlu_ifu_trapnpc_vld_w1 = (retry_inst_w2 & inst_vld_w2 & cwp_fastcmplt_w2) | thrd0_traps_w2 | thrd1_traps_w2 | thrd2_traps_w2 | thrd3_traps_w2 | cwp_cmplt_rtry_w2; //) & inst_vld_w2 | cwp_cmplt_w2; // // modified for hypervisor support // assign tlu_ifu_trap_tid_w1[1:0]= cwp_cmplt_w2 ? cwp_cmplt_tid_w2[1:0] : trap_tid_w2[1:0]; // // recoded for timing // assign true_trap_tid_g[1:0] = cwp_cmplt_g ? cwp_cmplt_tid_g[1:0] : trap_tid_g[1:0]; // modified for bug 4091 and 4491 /* assign early_trap_tid_g[1:0] = (((hwint_g | pib_wrap_trap_g| local_early_flush_pipe_w) & ~(ifu_tlu_flush_fd_w | local_lsu_defr_trp_taken_g)) | (dnrtry_inst_g & cwp_fastcmplt_g) | rstint_g) ? thrid_g[1:0] : pend_trap_tid_g[1:0]; */ assign early_trap_tid_g[1:0] = (((hwint_g | pib_wrap_trap_g| local_early_flush_pipe_w) & ~ifu_tlu_flush_fd_w) | (dnrtry_inst_g & cwp_fastcmplt_g) | rstint_g) ? thrid_g[1:0] : pend_trap_tid_g[1:0]; // // modified for bug 4561 assign true_trap_tid_g[1:0] = // (lsu_defr_trap_g) ? thrid_w2[1:0] : (dside_sync_trap_g | lsu_defr_trap_g) ? thrid_g[1:0] : early_trap_tid_g[1:0]; dff_s #(2) dff_true_trap_tid_w2 ( .din (true_trap_tid_g[1:0]), .q (true_trap_tid_w2[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_ifu_trap_tid_w1[1:0] = true_trap_tid_w2[1:0]; // determine the mode of operation for the trapped thread // modified for timing /* assign tlu_trap_hpstate_enb = (~(|true_trap_tid_g[1:0]))? tlu_hpstate_enb[0]: ((~true_trap_tid_g[1] & true_trap_tid_g[0])? tlu_hpstate_enb[1]: ((true_trap_tid_g[1] & ~true_trap_tid_g[0])? tlu_hpstate_enb[2]: tlu_hpstate_enb[3])); */ assign tlu_trap_hpstate_enb = (~(|true_trap_tid_w2[1:0]))? tlu_hpstate_enb[0]: ((~true_trap_tid_w2[1] & true_trap_tid_w2[0])? tlu_hpstate_enb[1]: ((true_trap_tid_w2[1] & ~true_trap_tid_w2[0])? tlu_hpstate_enb[2]: tlu_hpstate_enb[3])); //========================================================================================= // Local Exceptions within TLU/MMU //========================================================================================= // These are to be merged with lsu reported exceptions. // // modified due to early_flush timing fix // assign local_sync_trap_g = tlu_mmu_sync_data_excp_g; // // modified for hypervisor support // modified for timing assign local_sync_trap_m = (true_hscpd_dacc_excpt_m | true_qtail_dacc_excpt_m) & inst_vld_m; // // added for dsfsr bug assign tlu_lsu_priv_trap_m = (true_hscpd_dacc_excpt_m | true_qtail_dacc_excpt_m); // /* // added for timing dffr_s dffr_tlu_lsu_priv_trap_w ( .din (tlu_lsu_priv_trap_m), .q (tlu_lsu_priv_trap_w), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // */ // added for timing // modified for bug 3618 assign true_hscpd_dacc_excpt_m = tlu_hscpd_dacc_excpt_m & ((thread0_stg_m_buf & ~tlu_hyper_lite[0]) | (thread1_stg_m_buf & ~tlu_hyper_lite[1]) | (thread2_stg_m_buf & ~tlu_hyper_lite[2]) | (thread3_stg_m_buf & ~tlu_hyper_lite[3])); assign true_qtail_dacc_excpt_m = ((thread0_stg_m_buf & tlu_hpstate_enb[0] & ~tlu_hpstate_priv[0] & tlu_pstate_priv_buf[0]) | (thread1_stg_m_buf & tlu_hpstate_enb[1] & ~tlu_hpstate_priv[1] & tlu_pstate_priv_buf[1]) | (thread2_stg_m_buf & tlu_hpstate_enb[2] & ~tlu_hpstate_priv[2] & tlu_pstate_priv_buf[2]) | (thread3_stg_m_buf & tlu_hpstate_enb[3] & ~tlu_hpstate_priv[3] & tlu_pstate_priv_buf[3])) & tlu_qtail_dacc_excpt_m; dffr_s dffr_local_sync_trap_g ( .din (local_sync_trap_m), .q (local_sync_trap_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // Queuing traps //========================================================================================= // For current instr, prioritize traps across pipe. There are 3 synchronous sources : // ifu,exu,lsu. Assume ifu traps have highest priority so compare has to be done // only between exu and lsu traps. // added for timing; moved qualification from IFU to TLU assign ifu_rstint_m = ifu_tlu_rstint_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_flush_all_w) & inst_vld_m; assign ifu_hwint_m = ifu_tlu_hwint_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_flush_all_w) & inst_vld_m; assign ifu_swint_m = ifu_tlu_swint_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_flush_all_w) & inst_vld_m; // generate the thread specific ifu flush signal - added for bug 2133 assign ifu_thrd_flush_w[0] = inst_ifu_flush2_w & thread0_rsel_dec_g; assign ifu_thrd_flush_w[1] = inst_ifu_flush2_w & thread1_rsel_dec_g; assign ifu_thrd_flush_w[2] = inst_ifu_flush2_w & thread2_rsel_dec_g; assign ifu_thrd_flush_w[3] = inst_ifu_flush2_w & thread3_rsel_dec_g; // INTERRUPT dff_s #(9) dff_stgint_g ( .din ({ifu_rstint_m,ifu_hwint_m,ifu_swint_m,int_tlu_rstid_m[5:0]}), .q ({rstint_g,hwint_g,swint_g,rstid_g[5:0]}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // Determine type of reset. Type of reset determines what state gets updated. // This is the same as wrm reset !!! Can we then turn off writes to TNPC, TPC ??? assign por_rstint_g = ((rstid_g[5:0] == 6'h01) & rstint_g); assign por_rstint0_g = por_rstint_g & thread0_rsel_g; assign por_rstint1_g = por_rstint_g & thread1_rsel_g; assign por_rstint2_g = por_rstint_g & thread2_rsel_g; assign por_rstint3_g = por_rstint_g & thread3_rsel_g; // // added for bug 4749 assign xir_rstint_g = ((rstid_g[5:0] == 6'h03) & rstint_g); dff_s dff_por_rstint_w2 ( .din (por_rstint_g), .q (por_rstint_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign por_rstint0_w2 = por_rstint_w2 & thread0_wsel_w2; assign por_rstint1_w2 = por_rstint_w2 & thread1_wsel_w2; assign por_rstint2_w2 = por_rstint_w2 & thread2_wsel_w2; assign por_rstint3_w2 = por_rstint_w2 & thread3_wsel_w2; assign tlu_por_rstint_g[0] = por_rstint0_g; assign tlu_por_rstint_g[1] = por_rstint1_g; assign tlu_por_rstint_g[2] = por_rstint2_g; assign tlu_por_rstint_g[3] = por_rstint3_g; assign rstint_taken = rstint_g & inst_vld_g; // hwint needs to be requalified with pstate.ie. IFU will replay hwint in // case dropped. IFU needs to source thread id in the form of ifu_tlu_thrid_d. assign hwint_taken = hwint_g & inst_vld_g; // // modified for bug 5127 // assign sirint_taken = sir_inst_g & inst_vld_g; assign sirint_taken = sir_inst_g & inst_vld_g & ~(pib_wrap_trap_nq_g | lsu_tlu_defr_trp_taken_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0])); assign swint_taken = swint_g & inst_vld_g; /* assign swint_thrd0_taken = swint_taken & thread0_rsel_g & tlu_int_pstate_ie[0]; assign swint_thrd1_taken = swint_taken & thread1_rsel_g & tlu_int_pstate_ie[1]; assign swint_thrd2_taken = swint_taken & thread2_rsel_g & tlu_int_pstate_ie[2]; assign swint_thrd3_taken = swint_taken & thread3_rsel_g & tlu_int_pstate_ie[3]; // //modified for hypervisor support assign swint_id[3:0] = swint_thrd0_taken ? sftint0_id[3:0] : swint_thrd1_taken ? sftint1_id[3:0] : swint_thrd2_taken ? sftint2_id[3:0] : swint_thrd3_taken ? sftint3_id[3:0] : 4'bxxxx; */ // //added for timing dffr_s #(`TLU_THRD_NUM) dffr_tlu_cpu_mondo_trap ( .din (tlu_cpu_mondo_cmp[`TLU_THRD_NUM-1:0]), .q (tlu_cpu_mondo_trap[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // dffr_s #(`TLU_THRD_NUM) dffr_tlu_dev_mondo_trap ( .din (tlu_dev_mondo_cmp[`TLU_THRD_NUM-1:0]), .q (tlu_dev_mondo_trap[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s #(`TLU_THRD_NUM) dffr_tlu_resum_err_trap ( .din (tlu_resum_err_cmp[`TLU_THRD_NUM-1:0]), .q (tlu_resum_err_trap[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // assign cpu_mondo_trap_g = (thread0_wsel_g)? tlu_cpu_mondo_trap[0]: (thread1_wsel_g)? tlu_cpu_mondo_trap[1]: (thread2_wsel_g)? tlu_cpu_mondo_trap[2]: tlu_cpu_mondo_trap[3]; assign dev_mondo_trap_g = (thread0_wsel_g)? tlu_dev_mondo_trap[0]: (thread1_wsel_g)? tlu_dev_mondo_trap[1]: (thread2_wsel_g)? tlu_dev_mondo_trap[2]: tlu_dev_mondo_trap[3]; assign sftint_id_w2[3:0] = (thread0_wsel_w2)? sftint0_id[3:0]: (thread1_wsel_w2)? sftint1_id[3:0]: (thread2_wsel_w2)? sftint2_id[3:0]: sftint3_id[3:0]; dffr_s dffr_cpu_mondo_trap_w2 ( .din (cpu_mondo_trap_g), .q (cpu_mondo_trap_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_dev_mondo_trap_w2 ( .din (dev_mondo_trap_g), .q (dev_mondo_trap_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign final_swint_id_w2[6:0] = (cpu_mondo_trap_w2)? `CPU_MONDO_TRAP : (dev_mondo_trap_w2)? `DEV_MONDO_TRAP : {3'b100, sftint_id_w2[3:0]}; // recoded for timing for bug 5117 /* assign final_swint0_id[6:0] = tlu_cpu_mondo_trap[0] ? `CPU_MONDO_TRAP : ((tlu_dev_mondo_trap[0] & ~tlu_cpu_mondo_trap[0]) ? `DEV_MONDO_TRAP : {3'b100, sftint0_id[3:0]}); assign final_swint1_id[6:0] = tlu_cpu_mondo_trap[1] ? `CPU_MONDO_TRAP : ((tlu_dev_mondo_trap[1] & ~tlu_cpu_mondo_trap[1]) ? `DEV_MONDO_TRAP : {3'b100, sftint1_id[3:0]}); assign final_swint2_id[6:0] = tlu_cpu_mondo_trap[2] ? `CPU_MONDO_TRAP : ((tlu_dev_mondo_trap[2] & ~tlu_cpu_mondo_trap[2]) ? `DEV_MONDO_TRAP : {3'b100, sftint2_id[3:0]}); assign final_swint3_id[6:0] = tlu_cpu_mondo_trap[3] ? `CPU_MONDO_TRAP : ((tlu_dev_mondo_trap[3] & ~tlu_cpu_mondo_trap[3]) ? `DEV_MONDO_TRAP : {3'b100, sftint3_id[3:0]}); assign final_swint_id[6:0] = swint_thrd0_taken ? final_swint0_id[6:0] : swint_thrd1_taken ? final_swint1_id[6:0] : swint_thrd2_taken ? final_swint2_id[6:0] : swint_thrd3_taken ? final_swint3_id[6:0] : 7'bxxxxxxx; */ // Assume rstid(interrupt/reset vector) is the same as trap type. // Need to confirm !!!! // sftware sir is generated by ifu decode. // ttype for internal wdr is tt of trap itself. // sir inst at maxtl can result entry to error state and thus wdr // modified for bug 4749 and 4906 assign internal_wdr_trap[0] = (thrd0_traps & trp_lvl0_at_maxtl) & ~((por_rstint_g | xir_rstint_g) & thread0_rsel_g); assign internal_wdr_trap[1] = (thrd1_traps & trp_lvl1_at_maxtl) & ~((por_rstint_g | xir_rstint_g) & thread1_rsel_g); assign internal_wdr_trap[2] = (thrd2_traps & trp_lvl2_at_maxtl) & ~((por_rstint_g | xir_rstint_g) & thread2_rsel_g); assign internal_wdr_trap[3] = (thrd3_traps & trp_lvl3_at_maxtl) & ~((por_rstint_g | xir_rstint_g) & thread3_rsel_g); assign internal_wdr = internal_wdr_trap[0] | internal_wdr_trap[1] | internal_wdr_trap[2] | internal_wdr_trap[3]; /* assign internal_wdr = ((thrd0_traps & trp_lvl0_at_maxtl) | (thrd1_traps & trp_lvl1_at_maxtl) | (thrd2_traps & trp_lvl2_at_maxtl) | (thrd3_traps & trp_lvl3_at_maxtl)) & ~(por_rstint_g | xir_rstint_g); */ // // modified for bug 4640 and bug5127 assign tlu_self_boot_rst_g = rstint_g | internal_wdr | (sir_inst_g & ~(lsu_defr_trap_g | pib_wrap_trap_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0]))) | trap_to_redmode; // (rstint_g | internal_wdr | (sir_inst_g & ~lsu_defr_trap_g) | // // added for timing; moved qualification from IFU to TLU // modified for bug 4561 assign ifu_ttype_vld_m = ifu_tlu_ttype_vld_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_flush_pipe_w); /* assign ifu_ttype_vld_m = ifu_tlu_ttype_vld_m & ~((thrid_g[1:0] == tlu_exu_tid_m[1:0]) & tlu_flush_pipe_w) & ~((thrid_w2[1:0] == tlu_exu_tid_m[1:0]) & lsu_defr_trap_g); */ // REGULAR TRAP dff_s #(20) dff_stgeftt_g ( .din ({exu_tlu_ttype_m[8:0],exu_tlu_ttype_vld_m,ifu_tlu_ttype_m[8:0],ifu_ttype_vld_m}), .q ({exu_ttype_g[8:0],exu_ttype_vld_g,ifu_ttype_tmp_g[8:0],ifu_ttype_vld_tmp_g}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // added for bug 1293 // added spu_tlu_rsrv_illgl_m2 to account for the new illeg_instr from spu // // modified for the hypervisor support - wsr_illeg_globals_g is no longer necessary // modified for pib support and timing fixes /* assign ifu_ttype_g[8:0] = //((wsr_illeg_globals_g | spu_tlu_rsrv_illgl_m2) & (spu_tlu_rsrv_illgl_m2 & ~(ifu_ttype_tmp_g & (ifu_ttype_tmp_g < 9'h012)) & ~immu_miss_g) ? 9'h010 : ((tlu_tick_npt_priv_act) ? 9'h037 : ifu_ttype_tmp_g); */ // // determine whether the processor is in user mode assign tlu_none_priv[0] = ~(tlu_hpstate_priv[0] | tlu_pstate_priv_buf[0]); assign tlu_none_priv[1] = ~(tlu_hpstate_priv[1] | tlu_pstate_priv_buf[1]); assign tlu_none_priv[2] = ~(tlu_hpstate_priv[2] | tlu_pstate_priv_buf[2]); assign tlu_none_priv[3] = ~(tlu_hpstate_priv[3] | tlu_pstate_priv_buf[3]); assign tlu_hyper_lite[0] = tlu_hpstate_priv[0]| (~tlu_hpstate_enb[0] & tlu_pstate_priv_buf[0]); assign tlu_hyper_lite[1] = tlu_hpstate_priv[1]| (~tlu_hpstate_enb[1] & tlu_pstate_priv_buf[1]); assign tlu_hyper_lite[2] = tlu_hpstate_priv[2]| (~tlu_hpstate_enb[2] & tlu_pstate_priv_buf[2]); assign tlu_hyper_lite[3] = tlu_hpstate_priv[3]| (~tlu_hpstate_enb[3] & tlu_pstate_priv_buf[3]); // // htrap instruction illegal instruction trap // this trap is taken only in hypervisor mode and not in hyper-lite // mode assign tlu_none_priv_m = (tlu_none_priv[0] & tlu_hpstate_enb[0] & thread0_rsel_m) | (tlu_none_priv[1] & tlu_hpstate_enb[1] & thread1_rsel_m) | (tlu_none_priv[2] & tlu_hpstate_enb[2] & thread2_rsel_m) | (tlu_none_priv[3] & tlu_hpstate_enb[3] & thread3_rsel_m); assign htrap_ill_inst_m = (exu_tlu_ttype_vld_m & exu_tlu_ttype_m[8] & exu_tlu_ttype_m[7]) & tlu_none_priv_m; dffr_s dffr_htrap_ill_inst_uf_g ( .din (htrap_ill_inst_m), .q (htrap_ill_inst_uf_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign htrap_ill_inst_g = htrap_ill_inst_uf_g & ~inst_ifu_flush_w; // // added for timing fix assign spu_ill_inst_m = spu_tlu_rsrv_illgl_m & inst_vld_m; dffr_s dffr_spu_ill_inst_uf_g ( .din (spu_ill_inst_m), // modified for bug 2133 // .q (spu_ill_inst_g), .q (spu_ill_inst_uf_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for bug 2133 // modified at Farnad's request for bug 3599 // modified back to the old behavior (pre bug 3599) due to bug 4698 assign spu_ill_inst_g = // spu_ill_inst_uf_g & ~(inst_ifu_flush_w); // fix for bug 5863. Only a stxa to asi=40 with opcode-rsvd should cause an illgl_va spu_ill_inst_uf_g & ~(inst_ifu_flush_w | lsu_tlu_early_flush_w); assign ffu_higher_pri_g = ffu_ill_inst_g & (ifu_ttype_vld_tmp_g & (ifu_ttype_tmp_g == 9'h020)); // assign ifu_ttype_g[8:0] = (((spu_ill_inst_g | ffu_ill_inst_g | htrap_ill_inst_g) & ~(ifu_ttype_vld_tmp_g & (ifu_ttype_tmp_g < 9'h012)) & ~immu_miss_g) | ffu_higher_pri_g) ? 9'h010 : ((tick_npt_priv_act_g | (pib_priv_act_trap_g & ~ifu_ttype_vld_tmp_g)) ? 9'h037 : ifu_ttype_tmp_g); // // added for timing fix assign pib_priv_act_early_trap_m = ((pib_priv_act_trap_m[0] & inst_vld_m & thread0_rsel_m) & ~(tlu_pstate_priv_buf[0] | tlu_hpstate_priv[0])) | ((pib_priv_act_trap_m[1] & inst_vld_m & thread1_rsel_m) & ~(tlu_pstate_priv_buf[1] | tlu_hpstate_priv[1])) | ((pib_priv_act_trap_m[2] & inst_vld_m & thread2_rsel_m) & ~(tlu_pstate_priv_buf[2] | tlu_hpstate_priv[2])) | ((pib_priv_act_trap_m[3] & inst_vld_m & thread3_rsel_m) & ~(tlu_pstate_priv_buf[3] | tlu_hpstate_priv[3])); // // recoded the following for timing: /* assign exu_pib_priv_act_trap_m = ((pib_priv_act_trap_m[0] & thread0_rsel_m) & ~(tlu_pstate_priv[0] | tlu_hpstate_priv[0])) | ((pib_priv_act_trap_m[1] & thread1_rsel_m) & ~(tlu_pstate_priv[1] | tlu_hpstate_priv[1])) | ((pib_priv_act_trap_m[2] & thread2_rsel_m) & ~(tlu_pstate_priv[2] | tlu_hpstate_priv[2])) | ((pib_priv_act_trap_m[3] & thread3_rsel_m) & ~(tlu_pstate_priv[3] | tlu_hpstate_priv[3])); */ wire [3:0] pib_priv_act_trap_thrd_qual_m; wire [3:0] pib_priv_act_trap_thrd_hpstatepriv_qual_m; wire [3:0] pib_priv_act_trap_thrd_hpstatepriv_pstatepriv_m; assign pib_priv_act_trap_thrd_qual_m[0] = pib_priv_act_trap_m[0] & thread0_rsel_m ; assign pib_priv_act_trap_thrd_qual_m[1] = pib_priv_act_trap_m[1] & thread1_rsel_m ; assign pib_priv_act_trap_thrd_qual_m[2] = pib_priv_act_trap_m[2] & thread2_rsel_m ; assign pib_priv_act_trap_thrd_qual_m[3] = pib_priv_act_trap_m[3] & thread3_rsel_m ; assign pib_priv_act_trap_thrd_hpstatepriv_qual_m[0] = pib_priv_act_trap_thrd_qual_m[0] & ~tlu_hpstate_priv[0]; assign pib_priv_act_trap_thrd_hpstatepriv_qual_m[1] = pib_priv_act_trap_thrd_qual_m[1] & ~tlu_hpstate_priv[1]; assign pib_priv_act_trap_thrd_hpstatepriv_qual_m[2] = pib_priv_act_trap_thrd_qual_m[2] & ~tlu_hpstate_priv[2]; assign pib_priv_act_trap_thrd_hpstatepriv_qual_m[3] = pib_priv_act_trap_thrd_qual_m[3] & ~tlu_hpstate_priv[3]; assign pib_priv_act_trap_thrd_hpstatepriv_pstatepriv_m[0] = pib_priv_act_trap_thrd_hpstatepriv_qual_m[0] & ~tlu_pstate_priv[0]; assign pib_priv_act_trap_thrd_hpstatepriv_pstatepriv_m[1] = pib_priv_act_trap_thrd_hpstatepriv_qual_m[1] & ~tlu_pstate_priv[1]; assign pib_priv_act_trap_thrd_hpstatepriv_pstatepriv_m[2] = pib_priv_act_trap_thrd_hpstatepriv_qual_m[2] & ~tlu_pstate_priv[2]; assign pib_priv_act_trap_thrd_hpstatepriv_pstatepriv_m[3] = pib_priv_act_trap_thrd_hpstatepriv_qual_m[3] & ~tlu_pstate_priv[3]; assign exu_pib_priv_act_trap_m = (|pib_priv_act_trap_thrd_hpstatepriv_pstatepriv_m[3:0]); // // added for make pib overflow trap precise assign pib_trap_en[0] = tlu_int_pstate_ie[0] & (true_pil0[3:0] < 4'hf); assign pib_trap_en[1] = tlu_int_pstate_ie[1] & (true_pil1[3:0] < 4'hf); assign pib_trap_en[2] = tlu_int_pstate_ie[2] & (true_pil2[3:0] < 4'hf); assign pib_trap_en[3] = tlu_int_pstate_ie[3] & (true_pil3[3:0] < 4'hf); // // added for bug 5017 dffr_s dffr_picl_wrap_pend_0 ( .din (pib_picl_wrap[0]), .q (picl_wrap_pend[0]), .rst (local_rst | (thread_inst_vld_w2[0] & ~pib_picl_wrap[0] & ~tlu_full_flush_pipe_w2)), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_picl_wrap_pend_1 ( .din (pib_picl_wrap[1]), .q (picl_wrap_pend[1]), .rst (local_rst | (thread_inst_vld_w2[1] & ~pib_picl_wrap[1] & ~tlu_full_flush_pipe_w2)), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_picl_wrap_pend_2 ( .din (pib_picl_wrap[2]), .q (picl_wrap_pend[2]), .rst (local_rst | (thread_inst_vld_w2[2] & ~pib_picl_wrap[2] & ~tlu_full_flush_pipe_w2)), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_picl_wrap_pend_3 ( .din (pib_picl_wrap[3]), .q (picl_wrap_pend[3]), .rst (local_rst | (thread_inst_vld_w2[3] & ~pib_picl_wrap[3] & ~tlu_full_flush_pipe_w2)), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_picl_wrap_flg_m = (picl_wrap_pend[0] & thread0_stg_m_buf) | (picl_wrap_pend[1] & thread1_stg_m_buf) | (picl_wrap_pend[2] & thread2_stg_m_buf) | (picl_wrap_pend[3] & thread3_stg_m_buf); // modified for bug 4086, 4206, 4246 and 4314 // modified for bug 5033, 5083 and 5017 // modified for bug 5436 - Niagara 2.0 // changed pend_pich_cnt_hld to pend_pich_cnt_hld_noqual as per bug5436(reopened 9/17/04). assign pib_wrap_m[0] = // (pib_picl_wrap[0] | ((picl_wrap_pend[0] & thread0_rsel_m) | (pich_wrap_flg[0] & inst_vld_m & thread0_rsel_m) | (pich_onebelow_flg[0] & (inst_vld_m & thread0_rsel_m) & ((inst_vld_g & thread0_rsel_g) | (inst_vld_w2 & thread0_wsel_w2))) | (pich_twobelow_flg[0] & (inst_vld_m & thread0_rsel_m) & (inst_vld_g & thread0_rsel_g) & (inst_vld_w2 & thread0_wsel_w2))) & pib_trap_en[0] & ~(tlu_flush_pipe_w & thread0_rsel_g) & ~pend_pich_cnt_hld_noqual[0]; assign pib_wrap_m[1] = // (pib_picl_wrap[1] | ((picl_wrap_pend[1] & thread1_rsel_m) | (pich_wrap_flg[1] & inst_vld_m & thread1_rsel_m) | (pich_onebelow_flg[1] & (inst_vld_m & thread1_rsel_m) & ((inst_vld_g & thread1_rsel_g) | (inst_vld_w2 & thread1_wsel_w2))) | (pich_twobelow_flg[1] & (inst_vld_m & thread1_rsel_m) & (inst_vld_g & thread1_rsel_g) & (inst_vld_w2 & thread1_wsel_w2))) & pib_trap_en[1] & ~(tlu_flush_pipe_w & thread1_rsel_g) & ~pend_pich_cnt_hld_noqual[1]; assign pib_wrap_m[2] = // (pib_picl_wrap[2] | ((picl_wrap_pend[2] & thread2_rsel_m) | (pich_wrap_flg[2] & inst_vld_m & thread2_rsel_m) | (pich_onebelow_flg[2] & (inst_vld_m & thread2_rsel_m) & ((inst_vld_g & thread2_rsel_g) | (inst_vld_w2 & thread2_wsel_w2))) | (pich_twobelow_flg[2] & (inst_vld_m & thread2_rsel_m) & (inst_vld_g & thread2_rsel_g) & (inst_vld_w2 & thread2_wsel_w2))) & pib_trap_en[2] & ~(tlu_flush_pipe_w & thread2_rsel_g) & ~pend_pich_cnt_hld_noqual[2]; assign pib_wrap_m[3] = // (pib_picl_wrap[3] | ((picl_wrap_pend[3] & thread3_rsel_m) | (pich_wrap_flg[3] & inst_vld_m & thread3_rsel_m) | (pich_onebelow_flg[3] & (inst_vld_m & thread3_rsel_m) & ((inst_vld_g & thread3_rsel_g) | (inst_vld_w2 & thread3_wsel_w2))) | (pich_twobelow_flg[3] & (inst_vld_m & thread3_rsel_m) & (inst_vld_g & thread3_rsel_g) & (inst_vld_w2 & thread3_wsel_w2))) & pib_trap_en[3] & ~(tlu_flush_pipe_w & thread3_rsel_g) & ~pend_pich_cnt_hld_noqual[3]; // modified for timing and bug 4314 and 5017 // added for bug 5436 - Niagara 2.0 // removed qualification with ~pend_pich_cnt_hld from the following logics and pushed // the qulaification to G stage only for software interupt bit15 setting. The above // logic stay the same and no precise trap will be taken in the case of b2b valid // instruction as indicated in bug5436(reopened 9/16/04) assign pib_pich_wrap_m[0] = // (pib_picl_wrap[0] | ((picl_wrap_pend[0] & thread0_rsel_m) | (pich_wrap_flg[0] & inst_vld_m & thread0_rsel_m) | (pich_onebelow_flg[0] & (inst_vld_m & thread0_rsel_m) & ((inst_vld_g & thread0_rsel_g) | (inst_vld_w2 & thread0_wsel_w2))) | (pich_twobelow_flg[0] & (inst_vld_m & thread0_rsel_m) & (inst_vld_g & thread0_rsel_g) & (inst_vld_w2 & thread0_wsel_w2))) & ~(tlu_flush_pipe_w & thread0_rsel_g) ; assign pib_pich_wrap_m[1] = // (pib_picl_wrap[1] | ((picl_wrap_pend[1] & thread1_rsel_m) | (pich_wrap_flg[1] & inst_vld_m & thread1_rsel_m) | (pich_onebelow_flg[1] & (inst_vld_m & thread1_rsel_m) & ((inst_vld_g & thread1_rsel_g) | (inst_vld_w2 & thread1_wsel_w2))) | (pich_twobelow_flg[1] & (inst_vld_m & thread1_rsel_m) & (inst_vld_g & thread1_rsel_g) & (inst_vld_w2 & thread1_wsel_w2))) & ~(tlu_flush_pipe_w & thread1_rsel_g) ; assign pib_pich_wrap_m[2] = // (pib_picl_wrap[2] | ((picl_wrap_pend[2] & thread2_rsel_m) | (pich_wrap_flg[2] & inst_vld_m & thread2_rsel_m) | (pich_onebelow_flg[2] & (inst_vld_m & thread2_rsel_m) & ((inst_vld_g & thread2_rsel_g) | (inst_vld_w2 & thread2_wsel_w2))) | (pich_twobelow_flg[2] & (inst_vld_m & thread2_rsel_m) & (inst_vld_g & thread2_rsel_g) & (inst_vld_w2 & thread2_wsel_w2))) & ~(tlu_flush_pipe_w & thread2_rsel_g) ; assign pib_pich_wrap_m[3] = // (pib_picl_wrap[3] | ((picl_wrap_pend[3] & thread3_rsel_m) | (pich_wrap_flg[3] & inst_vld_m & thread3_rsel_m) | (pich_onebelow_flg[3] & (inst_vld_m & thread3_rsel_m) & ((inst_vld_g & thread3_rsel_g) | (inst_vld_w2 & thread3_wsel_w2))) | (pich_twobelow_flg[3] & (inst_vld_m & thread3_rsel_m) & (inst_vld_g & thread3_rsel_g) & (inst_vld_w2 & thread3_wsel_w2))) & ~(tlu_flush_pipe_w & thread3_rsel_g) ; /* assign pib_wrap_m[0] = (pib_picl_wrap[0] | (pich_wrap_flg[0] & inst_vld_m & thread0_rsel_m) | (pich_onebelow_flg[0] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread0_rsel_m & (thread0_wsel_w2 | thread0_rsel_g)) | (pich_twobelow_flg[0] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread0_rsel_g & thread0_rsel_m & thread0_wsel_w2)) & pib_trap_en[0] & ~(tlu_flush_pipe_w & thread0_rsel_g); assign pib_wrap_m[1] = (pib_picl_wrap[1] | (pich_wrap_flg[1] & inst_vld_m & thread1_rsel_m) | (pich_onebelow_flg[1] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread1_rsel_m & (thread1_wsel_w2 | thread1_rsel_g)) | (pich_twobelow_flg[1] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread1_rsel_g & thread1_rsel_m & thread1_wsel_w2)) & pib_trap_en[1] & ~(tlu_flush_pipe_w & thread1_rsel_g); assign pib_wrap_m[2] = (pib_picl_wrap[2] | (pich_wrap_flg[2] & inst_vld_m & thread2_rsel_m) | (pich_onebelow_flg[2] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread2_rsel_m & (thread2_wsel_w2 | thread2_rsel_g)) | (pich_twobelow_flg[2] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread2_rsel_g & thread2_rsel_m & thread2_wsel_w2)) & pib_trap_en[2] & ~(tlu_flush_pipe_w & thread2_rsel_g); assign pib_wrap_m[3] = (pib_picl_wrap[3] | (pich_wrap_flg[3] & inst_vld_m & thread3_rsel_m) | (pich_onebelow_flg[3] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread3_rsel_m & (thread3_wsel_w2 | thread3_rsel_g)) | (pich_twobelow_flg[3] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread3_rsel_g & thread3_rsel_m & thread3_wsel_w2)) & pib_trap_en[3] & ~(tlu_flush_pipe_w & thread3_rsel_g); // modified for timing and bug 4314 assign pib_pich_wrap_m[0] = (pib_picl_wrap[0] | (pich_wrap_flg[0] & inst_vld_m & thread0_rsel_m) | (pich_onebelow_flg[0] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread0_rsel_m & (thread0_wsel_w2 | thread0_rsel_g)) | (pich_twobelow_flg[0] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread0_rsel_g & thread0_rsel_m & thread0_wsel_w2)) & ~(tlu_flush_pipe_w & thread0_rsel_g); assign pib_pich_wrap_m[1] = (pib_picl_wrap[1] | (pich_wrap_flg[1] & inst_vld_m & thread1_rsel_m) | (pich_onebelow_flg[1] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread1_rsel_m & (thread1_wsel_w2 | thread1_rsel_g)) | (pich_twobelow_flg[1] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread1_rsel_g & thread1_rsel_m & thread1_wsel_w2)) & ~(tlu_flush_pipe_w & thread1_rsel_g); assign pib_pich_wrap_m[2] = (pib_picl_wrap[2] | (pich_wrap_flg[2] & inst_vld_m & thread2_rsel_m) | (pich_onebelow_flg[2] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread2_rsel_m & (thread2_wsel_w2 | thread2_rsel_g)) | (pich_twobelow_flg[2] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread2_rsel_g & thread2_rsel_m & thread2_wsel_w2)) & ~(tlu_flush_pipe_w & thread2_rsel_g); assign pib_pich_wrap_m[3] = (pib_picl_wrap[3] | (pich_wrap_flg[3] & inst_vld_m & thread3_rsel_m) | (pich_onebelow_flg[3] & inst_vld_m & (inst_vld_g | inst_vld_w2) & thread3_rsel_m & (thread3_wsel_w2 | thread3_rsel_g)) | (pich_twobelow_flg[3] & inst_vld_m & inst_vld_g & inst_vld_w2 & thread3_rsel_g & thread3_rsel_m & thread3_wsel_w2)) & ~(tlu_flush_pipe_w & thread3_rsel_g); // */ wire [3:0] pib_pich_wrap_q; dffr_s #(`TLU_THRD_NUM) dffr_pib_pich_wrap ( .din (pib_pich_wrap_m[`TLU_THRD_NUM-1:0]), .q (pib_pich_wrap_q[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // added for the bug 5436 reopened on 9/16/2004 by Samy. The following pushes // the qualification by hold signal to G stage.So sofint bit15 is set for signaling // software a overflow has occurred. But the preciese trap will not be taken. assign pib_pich_wrap[3:0] = pib_pich_wrap_q[3:0] & {4{~pend_pich_cnt_hld}}; // // experiment /* assign pich_exu_wrap_e[0] = tlu_thread_inst_vld_w2[0]? pich_onebelow_flg[0]: pich_wrap_flg[0]; assign pich_exu_wrap_e[1] = tlu_thread_inst_vld_w2[1]? pich_onebelow_flg[1]: pich_wrap_flg[1]; assign pich_exu_wrap_e[2] = tlu_thread_inst_vld_w2[2]? pich_onebelow_flg[2]: pich_wrap_flg[2]; assign pich_exu_wrap_e[3] = tlu_thread_inst_vld_w2[3]? pich_onebelow_flg[3]: pich_wrap_flg[3]; assign pich_wrap_flg_e = (tlu_thrd_rsel_e[0]) ? pich_exu_wrap_e[0]: (tlu_thrd_rsel_e[1]) ? pich_exu_wrap_e[1]: (tlu_thrd_rsel_e[2]) ? pich_exu_wrap_e[2]: pich_exu_wrap_e[3]; */ dffr_s dffr_pich_wrap_flg_m ( .din (tlu_pic_wrap_e), .q (pich_wrap_flg_m), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for bug 5436 - Niagara 2.0 assign tlu_pich_wrap_flg_m = pich_wrap_flg_m & tlu_pic_cnt_en_m; /* assign pic_hpstate_priv_e = (tlu_thrd_rsel_e[0]) ? tlu_hpstate_priv[0]: (tlu_thrd_rsel_e[1]) ? tlu_hpstate_priv[1]: (tlu_thrd_rsel_e[2]) ? tlu_hpstate_priv[2]: tlu_hpstate_priv[3]; assign pic_pstate_priv_e = (tlu_thrd_rsel_e[0]) ? tlu_pstate_priv_buf[0]: (tlu_thrd_rsel_e[1]) ? tlu_pstate_priv_buf[1]: (tlu_thrd_rsel_e[2]) ? tlu_pstate_priv_buf[2]: tlu_pstate_priv_buf[3]; assign pic_hpstate_enb_e = (tlu_thrd_rsel_e[0]) ? tlu_hpstate_enb[0]: (tlu_thrd_rsel_e[1]) ? tlu_hpstate_enb[1]: (tlu_thrd_rsel_e[2]) ? tlu_hpstate_enb[2]: tlu_hpstate_enb[3]; assign pic_trap_en_e = (tlu_thrd_rsel_e[0]) ? pib_trap_en[0]: (tlu_thrd_rsel_e[1]) ? pib_trap_en[1]: (tlu_thrd_rsel_e[2]) ? pib_trap_en[2]: pib_trap_en[3]; */ // modified for bug 5436 - Niagara 2.0 assign pic_cnt_en[0] = ((~tlu_hpstate_priv[0] & ~tlu_pstate_priv_buf[0] & tlu_pcr_ut[0]) | (~tlu_hpstate_enb[0] & tlu_hpstate_priv[0] & tlu_pcr_st[0]) | (tlu_hpstate_enb[0] & tlu_pstate_priv_buf[0] & ~tlu_hpstate_priv[0] & //tlu_pcr_st[0])) & pib_trap_en[0]; tlu_pcr_st[0])) ; assign pic_cnt_en[1] = ((~tlu_hpstate_priv[1] & ~tlu_pstate_priv_buf[1] & tlu_pcr_ut[1]) | (~tlu_hpstate_enb[1] & tlu_hpstate_priv[1] & tlu_pcr_st[1]) | (tlu_hpstate_enb[1] & tlu_pstate_priv_buf[1] & ~tlu_hpstate_priv[1] & //tlu_pcr_st[1])) & pib_trap_en[1]; tlu_pcr_st[1])) ; assign pic_cnt_en[2] = ((~tlu_hpstate_priv[2] & ~tlu_pstate_priv_buf[2] & tlu_pcr_ut[2]) | (~tlu_hpstate_enb[2] & tlu_hpstate_priv[2] & tlu_pcr_st[2]) | (tlu_hpstate_enb[2] & tlu_pstate_priv_buf[2] & ~tlu_hpstate_priv[2] & //tlu_pcr_st[2])) & pib_trap_en[2]; tlu_pcr_st[2])) ; assign pic_cnt_en[3] = ((~tlu_hpstate_priv[3] & ~tlu_pstate_priv_buf[3] & tlu_pcr_ut[3]) | (~tlu_hpstate_enb[3] & tlu_hpstate_priv[3] & tlu_pcr_st[3]) | (tlu_hpstate_enb[3] & tlu_pstate_priv_buf[3] & ~tlu_hpstate_priv[3] & //tlu_pcr_st[3])) & pib_trap_en[3]; tlu_pcr_st[3])) ; assign pic_cnt_en_e = (tlu_thrd_rsel_e[0]) ? pic_cnt_en[0]: (tlu_thrd_rsel_e[1]) ? pic_cnt_en[1]: (tlu_thrd_rsel_e[2]) ? pic_cnt_en[2]: pic_cnt_en[3]; /* assign pic_cnt_en_e = ((~pic_hpstate_priv_e & ~pic_pstate_priv_e & pcr_ut_e) | (~pic_hpstate_enb_e & pic_hpstate_priv_e & pcr_st_e) | (pic_hpstate_enb_e & pic_pstate_priv_e & ~pic_hpstate_priv_e & pcr_st_e)) & pic_trap_en_e; */ dffr_s dffr_tlu_pic_cnt_en_m ( .din (pic_cnt_en_e), .q (pic_cnt_en_m), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); /**** replaced the following with and-or for better synthesis interms of timing assign tlu_pich_cnt_hld = (thread0_rsel_m) ? pend_pich_cnt_hld[0]: (thread1_rsel_m) ? pend_pich_cnt_hld[1]: (thread2_rsel_m) ? pend_pich_cnt_hld[2]: pend_pich_cnt_hld[3]; ************/ assign tlu_pich_cnt_hld = (thread0_stg_m & pend_pich_cnt_hld_early[0]) | (thread1_stg_m & pend_pich_cnt_hld_early[1]) | (thread2_stg_m & pend_pich_cnt_hld_early[2]) | (thread3_stg_m & pend_pich_cnt_hld_early[3]) ; // added the follwoing since we still want to qualify with pib_trap_en for the trap signal going // to exu, i.e. tlu_pic_cnt_en_m is used to generate tlu_exu_pic_onebelow_m in tlu_misctl.v wire pic_trap_en_e = (tlu_thrd_rsel_e[0]) ? pib_trap_en[0]: (tlu_thrd_rsel_e[1]) ? pib_trap_en[1]: (tlu_thrd_rsel_e[2]) ? pib_trap_en[2]: pib_trap_en[3]; wire pic_trap_en_m; dffr_s dffr_pic_trap_en_m ( .din (pic_trap_en_e), .q (pic_trap_en_m), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so ()); wire tlu_pic_cnt_en_m_prequal = pic_cnt_en_m & pic_trap_en_m; assign tlu_pic_cnt_en_m = tlu_pic_cnt_en_m_prequal & ~tlu_pich_cnt_hld; // // added for bug 5436 - Niagara 2.0 dffr_s dffr_pic_cnt_en_w ( .din (pic_cnt_en_m), .q (pic_cnt_en_w), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_pic_cnt_en_w2 ( .din (pic_cnt_en_w), .q (pic_cnt_en_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); /* // added for bug 4785 assign tlu_pic_onebelow_e = (thread0_rsel_e) ? pich_onebelow_flg[0] : (thread1_rsel_e) ? pich_onebelow_flg[1] : (thread2_rsel_e) ? pich_onebelow_flg[2] : pich_onebelow_flg[3]; dffr_s dffr_tlu_exu_pic_onebelow_m ( .din (tlu_pic_onebelow_e), .q (tlu_exu_pic_onebelow_m), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_pic_twobelow_e = (thread0_rsel_e) ? pich_twobelow_flg[0] : (thread1_rsel_e) ? pich_twobelow_flg[1] : (thread2_rsel_e) ? pich_twobelow_flg[2] : pich_twobelow_flg[3]; dffr_s dffr_tlu_exu_pic_twobelow_m ( .din (tlu_pic_twobelow_e), .q (tlu_exu_pic_twobelow_m), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ // // added for bug 4395 dffr_s dffr_tlu_tcc_inst_w ( .din (exu_tlu_ttype_m[8]), .q (tlu_tcc_inst_w), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // assign pib_wrap_trap_m = (|pib_wrap_m[`TLU_THRD_NUM-1:0]); // // modified for bug 4342 // pib wrap precise trap dffr_s dffr_pib_wrap_trap_nq_g ( .din (pib_wrap_trap_m), .q (pib_wrap_trap_nq_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // modified for bug 4916 assign pib_wrap_trap_g = pib_wrap_trap_nq_g & ~lsu_tlu_defr_trp_taken_g; // // modified for bug 2955 assign tlu_exu_priv_trap_m = exu_pib_priv_act_trap_m | exu_tick_npt_priv_act_m | (|tlz_exu_trap_m[`TLU_THRD_NUM-1:0]) | tlu_pich_wrap_flg_m | tlu_picl_wrap_flg_m; // // illegal instruction from ffu dffr_s dffr_ffu_ill_inst_uf_g ( .din (ffu_tlu_ill_inst_m), .q (ffu_ill_inst_uf_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign ffu_ill_inst_g = ffu_ill_inst_uf_g & ~inst_ifu_flush_w; /* dffr_s dffr_lsu_ill_inst_uf_g ( .din (lsu_tlu_ill_inst_m), .q (lsu_ill_inst_uf_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign lsu_ill_inst_g = lsu_ill_inst_uf_g & ~inst_ifu_flush_w; // */ // added for bug 4074 and modified for bug 4715 /* dffr_s dffr_lsu_tlu_defr_trp_taken_w2 ( .din (lsu_tlu_defr_trp_taken_g), .q (lsu_tlu_defr_trp_taken_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ assign lsu_defr_trp_taken_w2[0] = lsu_defr_trap_w2 & thread0_wsel_w2; assign lsu_defr_trp_taken_w2[1] = lsu_defr_trap_w2 & thread1_wsel_w2; assign lsu_defr_trp_taken_w2[2] = lsu_defr_trap_w2 & thread2_wsel_w2; assign lsu_defr_trp_taken_w2[3] = lsu_defr_trap_w2 & thread3_wsel_w2; // added for the lsu deferred trap - bug 3060 // modified for bug 4074, 4561 and 4916 assign lsu_defr_trap_g = lsu_tlu_defr_trp_taken_g & ~ifu_tlu_flush_fd_w; // assign lsu_defr_trap_g = lsu_tlu_defr_trp_taken_g; assign local_lsu_async_ttype_vld_w = lsu_tlu_async_ttype_vld_g; // // modified for bug 4443 and 4561 // added for timing dffr_s dffr_lsu_defr_trap_w2 ( .din (lsu_defr_trap_g), .q (lsu_defr_trap_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // privilege action trap of the PIB registers dffr_s dffr_pib_priv_act_trap_g ( .din (pib_priv_act_early_trap_m), .q (pib_priv_act_trap_uf_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for bug 2133 assign pib_priv_act_trap_g = pib_priv_act_trap_uf_g & ~inst_ifu_flush_w; // assign ifu_ttype_vld_g = ifu_ttype_vld_tmp_g | spu_ill_inst_g | immu_miss_g | tick_npt_priv_act_g | ffu_ill_inst_g | pib_priv_act_trap_g | htrap_ill_inst_g; // // added and modified for timing fix assign ifu_ttype_early_vld_m = (ifu_ttype_vld_m | pib_priv_act_early_trap_m | spu_ill_inst_m | tick_npt_priv_act_m | ffu_tlu_ill_inst_m | htrap_ill_inst_m); assign early_dside_trap_g = (local_sync_trap_g & ~inst_ifu_flush2_w) | va_oor_inst_acc_excp_g | va_oor_data_acc_excp_g; // assign dside_sync_trap_g = lsu_ttype_vld_w | early_dside_trap_g; // // The sync ttype is being recoded for timing // Merge with lsu traps. // mux2ds #(`TSA_TTYPE_WIDTH) mx_local_sync_ttype ( .in0 (`INST_ACC_EXC), .in1 (`DATA_ACC_EXC), .sel0 (va_oor_inst_acc_excp_g), .sel1 (~va_oor_inst_acc_excp_g), .dout (local_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0]) ); // Need 9b comparator. // assign dside_higher_priority = (dside_sync_ttype_g[8:0] > exu_ttype_g[8:0]); assign local_higher_ttype_flg = (local_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0] > exu_ttype_g[`TSA_TTYPE_WIDTH-1:0]); // added for bug 3977 dffr_s dffr_exu_ue_trap_g ( .din (exu_tlu_ue_trap_m), .q (exu_ue_trap_g), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign exu_higher_pri_g = exu_ue_trap_g & exu_ttype_vld_g & ~immu_miss_g; // Is the prioritization needed or is this handled among the units themselves ? // modified for bug 3977 assign priority_trap_sel0 = ifu_ttype_vld_g & ~((|tlz_trap_g[`TLU_THRD_NUM-1:0]) | lsu_defr_trap_g | exu_higher_pri_g); // // modified for support to lsu deferred traps // modified for bug 3977 assign priority_trap_sel1 = ~((|tlz_trap_g[`TLU_THRD_NUM-1:0]) | lsu_defr_trap_g) & ~(ifu_ttype_vld_g & ~exu_higher_pri_g) & ((exu_ttype_vld_g & ~early_dside_trap_g) | ((exu_ttype_vld_g & early_dside_trap_g) & ~local_higher_ttype_flg)); // // modified for bug 3634 assign priority_trap_sel2 = ~(priority_trap_sel0 | priority_trap_sel1); // // recoded for timing // Prioritized ttype for thread available. /* mux4ds #(9) finaltt_sel ( .in0 ({2'b00,`TLZ_TRAP}), .in1 (ifu_ttype_g[8:0]), .in2 (exu_ttype_g[8:0]), .in3 (dside_sync_ttype_g[8:0]), .sel0 (|tlz_trap_g[`TLU_THRD_NUM-1:0]), .sel1 (priority_trap_sel0), .sel2 (priority_trap_sel1), .sel3 (priority_trap_sel2), .dout (sync_ttype_g[8:0]) ); */ // // modified for bug 3634 // modified for bug 3977 mux3ds #(`TSA_TTYPE_WIDTH) mx_early_sync_ttype ( // .in0 ({2'b00,`TLZ_TRAP}), .in0 (ifu_ttype_g[8:0]), .in1 (exu_ttype_g[8:0]), .in2 (local_sync_ttype_g[8:0]), .sel0 (priority_trap_sel0), .sel1 (priority_trap_sel1), .sel2 (priority_trap_sel2), .dout (early_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0]) ); // // added for timing dff_s #(`TSA_TTYPE_WIDTH) dff_early_sync_ttype_w2 ( .din (early_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0]), .q (early_sync_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // Now pend Div and Spill/Fill traps if necessary. These traps are always pended // even if there is no concurrent synchronous trap. They are pended by thread. // Include fp traps // modified for bug 4857 assign sync_trap_taken_g = ((ifu_ttype_vld_g | exu_ttype_vld_g | lsu_tlu_ttype_vld_m2 | early_dside_trap_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0]) | pib_wrap_trap_g) & inst_vld_g) | intrpt_taken | swint_taken | lsu_defr_trap_g; // (|tlz_trap_g[`TLU_THRD_NUM-1:0])) & inst_vld_g) | intrpt_taken | swint_taken | // lsu_defr_trap_g | pib_wrap_trap_g; // // added for timing dff_s dff_sync_trap_taken_w2 ( .din (sync_trap_taken_g), .q (sync_trap_taken_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for timing fix // modified for bug 3653, bug 4758 and bug 5169 assign sync_trap_taken_m = (exu_tlu_va_oor_jl_ret_m | exu_tlu_ttype_vld_m | ifu_ttype_early_vld_m | (|tlz_trap_m[`TLU_THRD_NUM-1:0]) | true_hscpd_dacc_excpt_m | true_qtail_dacc_excpt_m | dmmu_va_oor_m | exu_tlu_va_oor_jl_ret_m | pib_wrap_trap_m | ifu_swint_m | ifu_hwint_m | ifu_rstint_m) & inst_vld_m; /* assign sync_trap_taken_m = ((exu_tlu_va_oor_jl_ret_m | exu_tlu_ttype_vld_m | ifu_ttype_early_vld_m | (|tlz_trap_m[`TLU_THRD_NUM-1:0]) | true_hscpd_dacc_excpt_m | true_qtail_dacc_excpt_m | dmmu_va_oor_m | exu_tlu_va_oor_jl_ret_m) & inst_vld_m) | pib_wrap_trap_m | ifu_swint_m | ifu_hwint_m | ifu_rstint_m; */ assign fp_trap_thrd0 = ~ffu_ifu_tid_w2[1] & ~ffu_ifu_tid_w2[0]; assign fp_trap_thrd1 = ~ffu_ifu_tid_w2[1] & ffu_ifu_tid_w2[0]; assign fp_trap_thrd2 = ffu_ifu_tid_w2[1] & ~ffu_ifu_tid_w2[0]; assign fp_trap_thrd3 = ffu_ifu_tid_w2[1] & ffu_ifu_tid_w2[0]; // assign div_zero_thrd0 = ~exu_tlu_div_tid[1] & ~exu_tlu_div_tid[0]; // assign div_zero_thrd1 = ~exu_tlu_div_tid[1] & exu_tlu_div_tid[0]; // assign div_zero_thrd2 = exu_tlu_div_tid[1] & ~exu_tlu_div_tid[0]; // assign div_zero_thrd3 = exu_tlu_div_tid[1] & exu_tlu_div_tid[0]; assign spill_thrd0 = ~exu_tlu_spill_tid[1] & ~exu_tlu_spill_tid[0]; assign spill_thrd1 = ~exu_tlu_spill_tid[1] & exu_tlu_spill_tid[0]; assign spill_thrd2 = exu_tlu_spill_tid[1] & ~exu_tlu_spill_tid[0]; assign spill_thrd3 = exu_tlu_spill_tid[1] & exu_tlu_spill_tid[0]; // // added for bug 3499 dff_s #(`TLU_THRD_NUM) dff_cwp_en_thrd_reset ( .din ({pend_to_thrd3_reset, pend_to_thrd2_reset, pend_to_thrd1_reset, pend_to_thrd0_reset}), .q (cwp_en_thrd_reset[`TLU_THRD_NUM-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_trap_cwp0_enb ( .din (spill_thrd0), .q (trap_cwp_enb[0]), .rst (cwp_en_thrd_reset[0]), .en (exu_tlu_spill & spill_thrd0), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_trap_cwp1_enb ( .din (spill_thrd1), .q (trap_cwp_enb[1]), .rst (cwp_en_thrd_reset[1]), .en (exu_tlu_spill & spill_thrd1), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_trap_cwp2_enb ( .din (spill_thrd2), .q (trap_cwp_enb[2]), .rst (cwp_en_thrd_reset[2]), .en (exu_tlu_spill & spill_thrd2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_trap_cwp3_enb ( .din (spill_thrd3), .q (trap_cwp_enb[3]), .rst (cwp_en_thrd_reset[3]), .en (exu_tlu_spill & spill_thrd3), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_trap_cwp_en[`TLU_THRD_NUM-1:0] = ~(trap_cwp_enb[`TLU_THRD_NUM-1:0]); // // added for asynchronize dmmu traps (correctable parity error) assign dmmu_async_thrd0 = ~lsu_tlu_async_tid_g[1] & ~lsu_tlu_async_tid_g[0]; assign dmmu_async_thrd1 = ~lsu_tlu_async_tid_g[1] & lsu_tlu_async_tid_g[0]; assign dmmu_async_thrd2 = lsu_tlu_async_tid_g[1] & ~lsu_tlu_async_tid_g[0]; assign dmmu_async_thrd3 = lsu_tlu_async_tid_g[1] & lsu_tlu_async_tid_g[0]; // // modified for bug 4074 assign lsu_async_vld_en_g[0] = // local_lsu_async_ttype_vld_w & dmmu_async_thrd0 & ~lsu_tlu_defr_trp_taken_g; local_lsu_async_ttype_vld_w & dmmu_async_thrd0 & ~lsu_defr_trp_taken_w2[0]; assign lsu_async_vld_en_g[1] = // local_lsu_async_ttype_vld_w & dmmu_async_thrd1 & ~lsu_tlu_defr_trp_taken_g; local_lsu_async_ttype_vld_w & dmmu_async_thrd1 & ~lsu_defr_trp_taken_w2[1]; assign lsu_async_vld_en_g[2] = // local_lsu_async_ttype_vld_w & dmmu_async_thrd2 & ~lsu_tlu_defr_trp_taken_g; local_lsu_async_ttype_vld_w & dmmu_async_thrd2 & ~lsu_defr_trp_taken_w2[2]; assign lsu_async_vld_en_g[3] = // local_lsu_async_ttype_vld_w & dmmu_async_thrd3 & ~lsu_tlu_defr_trp_taken_g; local_lsu_async_ttype_vld_w & dmmu_async_thrd3 & ~lsu_defr_trp_taken_w2[3]; // dffre_s dffre_lsu_async_vld_en_w2_0 ( .din (lsu_async_vld_en_g[0]), .q (lsu_async_vld_en_w2[0]), .rst (pend_to_thrd0_reset), .en (lsu_async_vld_en_g[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_lsu_async_vld_en_w2_1 ( .din (lsu_async_vld_en_g[1]), .q (lsu_async_vld_en_w2[1]), .rst (pend_to_thrd1_reset), .en (lsu_async_vld_en_g[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_lsu_async_vld_en_w2_2 ( .din (lsu_async_vld_en_g[2]), .q (lsu_async_vld_en_w2[2]), .rst (pend_to_thrd2_reset), .en (lsu_async_vld_en_g[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_lsu_async_vld_en_w2_3 ( .din (lsu_async_vld_en_g[3]), .q (lsu_async_vld_en_w2[3]), .rst (pend_to_thrd3_reset), .en (lsu_async_vld_en_g[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // assign trap type base on information send assign dmmu_async_ttype[`TSA_TTYPE_WIDTH-1:0] = {2'b0, lsu_tlu_async_ttype_g[6:0]}; // // derived the spill ttype assign exu_spill_ttype[`TSA_TTYPE_WIDTH-1:0] = {3'b010,exu_tlu_spill_other,exu_tlu_spill_wtype[2:0], 2'b00}; // // derived ffu_asynchronous ttype // modified for bug 4084 - new ffu asynchronous trap type: 0x29 assign ffu_async_ttype[`TSA_TTYPE_WIDTH-1:0] = (ffu_tlu_trap_ue) ? 9'h029: ({7'b0001000, ffu_tlu_trap_other, ffu_tlu_trap_ieee754}); // // // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_ttype0[`TSA_TTYPE_WIDTH-1:0] = (exu_tlu_spill & spill_thrd0) ? exu_spill_ttype[`TSA_TTYPE_WIDTH-1:0] : (((ffu_tlu_trap_other | ffu_tlu_trap_ieee754 | ffu_tlu_trap_ue) & fp_trap_thrd0) ? ffu_async_ttype[`TSA_TTYPE_WIDTH-1:0] : dmmu_async_ttype[`TSA_TTYPE_WIDTH-1:0]); // always flop if selected for thread. // THREAD0 // added support for dmmu_async_traps // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_to_thrd0_en = (exu_tlu_spill & spill_thrd0) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd0) | (lsu_async_vld_en_g[0] & ~lsu_async_vld_en_w2[0]) | cwp_cmplt0; // cwp completion always pended. // // added for bug 5436 - Niagara 2.0 assign pend_pich_cnt_adj[0] = ((exu_tlu_spill & spill_thrd0) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd0) | (lsu_async_vld_en_g[0] & ~lsu_async_vld_en_w2[0])) & pic_cnt_en[0]; // If there is no sync trap in a cycle, then the pending trap is taken. assign pend_to_thrd0_reset = local_rst | pending_thrd0_event_taken; // Choose pending traps in round-robin order. tlu_rrobin_picker ptrap_rrobin ( .events ({pending_trap3,pending_trap2,pending_trap1,pending_trap0}), .pick_one_hot (pending_trap_sel[3:0]), // // this siganl was modified to abide to the Niagara reset methodology .tlu_rst_l (tlu_rst_l), .clk (clk) ); // modified to arbitrate between wsr instruction and asynchronous events // due to there is only one write port to tsa // also modified for bug 1672 // modified for bug 3827 assign pending_thrd0_event_taken = pending_trap_sel[0] & ~(sync_trap_taken_g | dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[0] | (tlu_gl_rw_g & wsr_inst_g)); dffre_s #(12) dffre_pendthrd0 ( .din ({pend_to_thrd0_en,pend_ttype0[8:0],cwp_cmplt0,exu_tlu_cwp_retry}), .q ({pending_trap0,pending_ttype0[8:0],cwp_cmplt0_pending,cwp_retry0}), .rst (pend_to_thrd0_reset), .en (pend_to_thrd0_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // THREAD1 // added support for dmmu_async_traps // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_to_thrd1_en = (exu_tlu_spill & spill_thrd1) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd1) | (lsu_async_vld_en_g[1] & ~lsu_async_vld_en_w2[1]) | cwp_cmplt1; // cwp completion always pended. // // added for bug 5436 - Niagara 2.0 assign pend_pich_cnt_adj[1] = ((exu_tlu_spill & spill_thrd1) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd1) | (lsu_async_vld_en_g[1] & ~lsu_async_vld_en_w2[1])) & pic_cnt_en[1]; assign pend_to_thrd1_reset = local_rst | pending_thrd1_event_taken; // modified to arbitrate between wsr instruction and asynchronous events // due to there is only one write port to tsa // // modified for bug 3827 assign pending_thrd1_event_taken = pending_trap_sel[1] & ~(sync_trap_taken_g | dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[1] | (tlu_gl_rw_g & wsr_inst_g)); // // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_ttype1[`TSA_TTYPE_WIDTH-1:0] = (exu_tlu_spill & spill_thrd1) ? exu_spill_ttype[`TSA_TTYPE_WIDTH-1:0] : (((ffu_tlu_trap_other | ffu_tlu_trap_ieee754 | ffu_tlu_trap_ue) & fp_trap_thrd1) ? ffu_async_ttype[`TSA_TTYPE_WIDTH-1:0] : dmmu_async_ttype[`TSA_TTYPE_WIDTH-1:0]); dffre_s #(12) dffre_pendthrd1 ( .din ({pend_to_thrd1_en,pend_ttype1[8:0],cwp_cmplt1,exu_tlu_cwp_retry}), .q ({pending_trap1,pending_ttype1[8:0],cwp_cmplt1_pending,cwp_retry1}), .rst (pend_to_thrd1_reset), .en (pend_to_thrd1_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // THREAD2 // added support for dmmu_async_traps // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_to_thrd2_en = (exu_tlu_spill & spill_thrd2) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd2) | (lsu_async_vld_en_g[2] & ~lsu_async_vld_en_w2[2]) | cwp_cmplt2; // cwp completion always pended. // // added for bug 5436 - Niagara 2.0 assign pend_pich_cnt_adj[2] = ((exu_tlu_spill & spill_thrd2) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd2) | (lsu_async_vld_en_g[2] & ~lsu_async_vld_en_w2[2])) & pic_cnt_en[2]; assign pend_to_thrd2_reset = local_rst | pending_thrd2_event_taken; // modified to arbitrate between wsr instruction and asynchronous events // due to there is only one write port to tsa // // modified for bug 3827 assign pending_thrd2_event_taken = pending_trap_sel[2] & ~(sync_trap_taken_g | dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[2] | (tlu_gl_rw_g & wsr_inst_g)); // // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_ttype2[`TSA_TTYPE_WIDTH-1:0] = (exu_tlu_spill & spill_thrd2) ? exu_spill_ttype[`TSA_TTYPE_WIDTH-1:0] : (((ffu_tlu_trap_other | ffu_tlu_trap_ieee754 | ffu_tlu_trap_ue) & fp_trap_thrd2) ? ffu_async_ttype[`TSA_TTYPE_WIDTH-1:0] : dmmu_async_ttype[`TSA_TTYPE_WIDTH-1:0]); dffre_s #(12) dffre_pendthrd2 ( .din ({pend_to_thrd2_en,pend_ttype2[8:0],cwp_cmplt2,exu_tlu_cwp_retry}), .q ({pending_trap2,pending_ttype2[8:0],cwp_cmplt2_pending,cwp_retry2}), .rst (pend_to_thrd2_reset), .en (pend_to_thrd2_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // THREAD3 // added support for dmmu_async_traps // modified for bug 4084 - new ffu_tlu_trap_ue assign pend_to_thrd3_en = (exu_tlu_spill & spill_thrd3) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd3) | (lsu_async_vld_en_g[3] & ~lsu_async_vld_en_w2[3]) | cwp_cmplt3; // cwp completion always pended. // // added for bug 5436 - Niagara 2.0 assign pend_pich_cnt_adj[3] = ((exu_tlu_spill & spill_thrd3) | ((ffu_tlu_trap_ieee754 | ffu_tlu_trap_other | ffu_tlu_trap_ue) & fp_trap_thrd3) | (lsu_async_vld_en_g[3] & ~lsu_async_vld_en_w2[3])) & pic_cnt_en[3]; assign pend_to_thrd3_reset = local_rst | pending_thrd3_event_taken; // modified to arbitrate between wsr instruction and asynchronous events // due to there is only one write port to tsa // modified for bug 3827 assign pending_thrd3_event_taken = pending_trap_sel[3] & ~(sync_trap_taken_g | dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[3] | (tlu_gl_rw_g & wsr_inst_g)); // assign pend_ttype3[`TSA_TTYPE_WIDTH-1:0] = (exu_tlu_spill & spill_thrd3) ? exu_spill_ttype[`TSA_TTYPE_WIDTH-1:0] : (((ffu_tlu_trap_other | ffu_tlu_trap_ieee754 | ffu_tlu_trap_ue) & fp_trap_thrd3) ? ffu_async_ttype[`TSA_TTYPE_WIDTH-1:0] : dmmu_async_ttype[`TSA_TTYPE_WIDTH-1:0]); // dffre_s #(12) dffre_pendthrd3 ( .din ({pend_to_thrd3_en,pend_ttype3[8:0],cwp_cmplt3,exu_tlu_cwp_retry}), .q ({pending_trap3,pending_ttype3[8:0],cwp_cmplt3_pending,cwp_retry3}), .rst (pend_to_thrd3_reset), .en (pend_to_thrd3_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for bug 5436 - Niagara 2.0 //assign pich_cnt_hld_rst[`TLU_THRD_NUM-1:0] = // (thread_inst_vld_w2[`TLU_THRD_NUM-1:0] & {4{pic_cnt_en_w2}} | // {4{local_rst}}); // fix for 5436 for reopend bugs(9/8/2004) related to flushed inst reseting the hold // and b2b valid instruction; the 1st one reseting the hold, but the 2nd not incrementing // since the hold was not reset early to allow the 2nd inst to incr_pich. assign pich_cnt_hld_rst_g[3:0] = (thread_inst_vld_g[3:0] & {4{pic_cnt_en_w}}) & {4{~(lsu_ttype_vld_w | tlu_flush_all_w)}}; dff_s #(4) dff_pich_cnt_hld_rst_g ( .din (pich_cnt_hld_rst_g[3:0]), .q (pich_cnt_hld_rst_w2[3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign pend_pich_cnt_hld_early[3:0] = pend_pich_cnt_hld_q[3:0] & ~pich_cnt_hld_rst_w2[3:0]; assign pend_pich_cnt_hld[3:0] = pend_pich_cnt_hld_early[3:0]; // following is used in pib_wrap_m logic as per bug5436(reopened 9/17/04). assign pend_pich_cnt_hld_noqual[3:0] = pend_pich_cnt_hld_q[3:0]; dffre_s dffre_pend_pich_cnt_adj_0 ( .din (pend_pich_cnt_adj[0]), .q (pend_pich_cnt_hld_q[0]), .rst (local_rst | pich_cnt_hld_rst_w2[0]), .en (pend_pich_cnt_adj[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_pend_pich_cnt_adj_1 ( .din (pend_pich_cnt_adj[1]), .q (pend_pich_cnt_hld_q[1]), .rst (local_rst | pich_cnt_hld_rst_w2[1]), .en (pend_pich_cnt_adj[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_pend_pich_cnt_adj_2 ( .din (pend_pich_cnt_adj[2]), .q (pend_pich_cnt_hld_q[2]), .rst (local_rst | pich_cnt_hld_rst_w2[2]), .en (pend_pich_cnt_adj[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_pend_pich_cnt_adj_3 ( .din (pend_pich_cnt_adj[3]), .q (pend_pich_cnt_hld_q[3]), .rst (local_rst | pich_cnt_hld_rst_w2[3]), .en (pend_pich_cnt_adj[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign trap_taken_g = thrd0_traps | thrd1_traps | thrd2_traps | thrd3_traps; // // added for timing dff_s dff_trap_taken_w2 ( .din (trap_taken_g), .q (trap_taken_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // Selection of traps should be round-robin. assign trap_tid_g[1:0] = // lsu_defr_trap_g ? thrid_w2[1:0] : ((sync_trap_taken_g) | (dnrtry_inst_g & cwp_fastcmplt_g)) ? thrid_g[1:0] : (pending_trap_sel[0] ? 2'b00 : (pending_trap_sel[1] ? 2'b01 : (pending_trap_sel[2] ? 2'b10 : 2'b11))); assign pend_trap_tid_g[1:0] = pending_trap_sel[0] ? 2'b00 : (pending_trap_sel[1] ? 2'b01 : (pending_trap_sel[2] ? 2'b10 : 2'b11)); dff_s #(2) dff_pend_trap_tid_w2 ( .din (pend_trap_tid_g[1:0]), .q (pend_trap_tid_w2[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // Assume fixed priority for now. Should change to round-robin selection !!! // modified for bug 1806 // modified to support lsu deferred traps - modified for timing // modified for bug 4640 and 5127 // assign reset_sel_g = rstint_g | (sir_inst_g & ~(lsu_defr_trap_g | pib_wrap_trap_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0]))) | rst_tri_en; // rstint_g | (sir_inst_g & ~lsu_defr_trap_g) | rst_tri_en; // // added for timing dffr_s dffr_reset_sel_w2 ( .din (reset_sel_g), .q (reset_sel_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for timing // assign reset_defr_id_g[6:0] = assign reset_id_g[2:0] = local_rst ? 3'b001 : rstint_g ? rstid_g[2:0] : sir_inst_g ? 3'b100 : 3'bxxx; // recoded for timing // // construct the tba_ttype to determine the tba // the trap is hypervisor or supervisor traps // modified for bug 3634 and timing assign tba_ttype_sel_w2 = final_ttype_sel_w2[0] | (hyper_wdr_trap_w2 & ~lsu_defr_trap_w2); mux2ds #(`TSA_TTYPE_WIDTH) mx_tba_ttype_w2 ( .sel0 (tba_ttype_sel_w2), .sel1 (~tba_ttype_sel_w2), .in0 ({2'b0,rst_hwdr_ttype_w2[`TSA_TTYPE_WIDTH-3:0]}), .in1 (final_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .dout (tba_ttype_w1[`TSA_TTYPE_WIDTH-1:0]) ); /* assign tba_ttype_sel_g[0] = (rstint_g | rst_tri_en | ((hwint_g | swint_g | hyper_wdr_trap | (|tlz_trap_g[`TLU_THRD_NUM-1:0] | sir_inst_g) | pib_wrap_trap_g) & inst_vld_g & ~lsu_defr_trap_g); assign tba_ttype_sel_g[1] = (((ifu_ttype_vld_g | exu_ttype_vld_g | va_oor_inst_acc_excp_g) | (local_sync_trap_g & ~(lsu_tlu_priv_action_g | misalign_addr_ldst_atm_g))) & ~(reset_sel_g | hwint_g | swint_g | hyper_wdr_trap | (|tlz_trap_g[`TLU_THRD_NUM-1:0])) & inst_vld_g) & ~lsu_defr_trap_g & ~pib_wrap_trap_g; assign tba_ttype_sel_g[2] = (((lsu_tlu_ttype_vld_m2 & inst_vld_g) | va_oor_data_acc_excp_g) & ~(|tba_ttype_sel_g[1:0])) | (lsu_defr_trap_g & ~(rstint_g | rst_tri_en)); assign tba_ttype_sel_g[3] = ~(|tba_ttype_sel_g[2:0]); // added for timing dffr_s #(4) dffr_tba_ttype_sel_w2 ( .din (tba_ttype_sel_g[3:0]), .q (tba_ttype_sel_w2[3:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // mux4ds #(`TSA_TTYPE_WIDTH) mx_tba_ttype_w2 ( .sel0 (tba_ttype_sel_w2[0]), .sel1 (tba_ttype_sel_w2[1]), .sel2 (tba_ttype_sel_w2[2]), .sel3 (tba_ttype_sel_w2[3]), .in0 ({2'b0,rst_hwdr_ttype_w2[`TSA_TTYPE_WIDTH-3:0]}), .in1 (early_sync_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .in2 (adj_lsu_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .in3 (pending_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .dout (tba_ttype_w1[`TSA_TTYPE_WIDTH-1:0]) ); dff_s #(`TSA_TTYPE_WIDTH) dff_tba_ttype_w1 ( .din (tba_ttype_g[`TSA_TTYPE_WIDTH-1:0]), .q (tba_ttype_w1[`TSA_TTYPE_WIDTH-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ // // construct the final_ttype to be written into the trap stack // modified for bug 3634, 4640 and timing assign final_ttype_sel_g[0] = (rstint_g | rst_tri_en) | ((hwint_g | swint_g | sir_inst_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0]) | pib_wrap_trap_g) & inst_vld_g & ~lsu_defr_trap_g); // reset_sel_g | ((hwint_g | swint_g | // (|tlz_trap_g[`TLU_THRD_NUM-1:0]) | pib_wrap_trap_g) & inst_vld_g & // ~lsu_defr_trap_g); assign final_ttype_sel_g[1] = (((ifu_ttype_vld_g | exu_ttype_vld_g | va_oor_inst_acc_excp_g) | (local_sync_trap_g & ~(lsu_tlu_priv_action_g | misalign_addr_ldst_atm_g))) & ~(rstint_g | sir_inst_g | hwint_g | swint_g | rst_tri_en | (|tlz_trap_g[`TLU_THRD_NUM-1:0])) & inst_vld_g) & ~lsu_defr_trap_g & ~pib_wrap_trap_g; assign final_ttype_sel_g[2] = ((lsu_tlu_ttype_vld_m2 & inst_vld_g) | va_oor_data_acc_excp_g) & ~(|final_ttype_sel_g[1:0]) | (lsu_defr_trap_g & ~(rst_tri_en | rstint_g)); assign final_ttype_sel_g[3] = ~(|final_ttype_sel_g[2:0]); // // added for timing dffr_s #(4) dffr_final_ttype_sel_w2 ( .din (final_ttype_sel_g[3:0]), .q (final_ttype_sel_w2[3:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for timing /* mux3ds #(`TSA_TTYPE_WIDTH) mx_adj_lsu_ttype_m2 ( .sel0 (lsu_defr_trap_g), .sel1 (va_oor_data_acc_excp_g & ~lsu_defr_trap_g), .sel2 (~(va_oor_data_acc_excp_g | lsu_defr_trap_g)), .in0 ({2'b0, lsu_tlu_async_ttype_g[6:0]}), .in1 (9'h030), .in2 (lsu_tlu_ttype_m2), .dout (adj_lsu_ttype_m2[`TSA_TTYPE_WIDTH-1:0]) ); */ // added for timing dff_s #(`TSA_TTYPE_WIDTH) dff_lsu_tlu_ttype_w2 ( .din (lsu_tlu_ttype_m2[`TSA_TTYPE_WIDTH-1:0]), .q (lsu_tlu_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // /* dff_s #(`TSA_TTYPE_WIDTH-2) dff_lsu_tlu_async_ttype_w2 ( .din (lsu_tlu_async_ttype_g[`TSA_TTYPE_WIDTH-3:0]), .q (lsu_tlu_async_ttype_w2[`TSA_TTYPE_WIDTH-3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ mux3ds #(`TSA_TTYPE_WIDTH) mx_adj_lsu_ttype_w2 ( .sel0 (lsu_defr_trap_w2), .sel1 (va_oor_data_acc_excp_w2 & ~lsu_defr_trap_w2), .sel2 (~(va_oor_data_acc_excp_w2 | lsu_defr_trap_w2)), // modified for bug 4561 // .in0 ({2'b0, lsu_tlu_async_ttype_w2[6:0]}), .in0 (9'h032), .in1 (9'h030), .in2 (lsu_tlu_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .dout (adj_lsu_ttype_w2[`TSA_TTYPE_WIDTH-1:0]) ); // // modified for timing mux4ds #(`TSA_TTYPE_WIDTH) mx_final_ttype_w2 ( .sel0 (final_ttype_sel_w2[0]), .sel1 (final_ttype_sel_w2[1]), .sel2 (final_ttype_sel_w2[2]), .sel3 (final_ttype_sel_w2[3]), .in0 ({2'b0,rst_ttype_w2[`TSA_TTYPE_WIDTH-3:0]}), .in1 (early_sync_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .in2 (adj_lsu_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .in3 (pending_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .dout (final_ttype_w2[`TSA_TTYPE_WIDTH-1:0]) ); // // modified for timing /* dff_s #(`TSA_TTYPE_WIDTH) dff_tlu_final_ttype_w2 ( .din (final_ttype_g[`TSA_TTYPE_WIDTH-1:0]), .q (final_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ assign tlu_final_ttype_w2[`TSA_TTYPE_WIDTH-1:0] = final_ttype_w2[`TSA_TTYPE_WIDTH-1:0]; // // added for timing // pending trap type assign onehot_pending_ttype_sel = ~(|pending_trap_sel[2:0]); // mux4ds #(`TSA_TTYPE_WIDTH) mx_pending_ttype ( .sel0 (pending_trap_sel[0]), .sel1 (pending_trap_sel[1]), .sel2 (pending_trap_sel[2]), .sel3 (onehot_pending_ttype_sel), .in0 (pending_ttype0[`TSA_TTYPE_WIDTH-1:0]), .in1 (pending_ttype1[`TSA_TTYPE_WIDTH-1:0]), .in2 (pending_ttype2[`TSA_TTYPE_WIDTH-1:0]), .in3 (pending_ttype3[`TSA_TTYPE_WIDTH-1:0]), .dout (pending_ttype[`TSA_TTYPE_WIDTH-1:0]) ); // // added for timing dff_s #(`TSA_TTYPE_WIDTH) dff_pending_ttype_w2 ( .din (pending_ttype[`TSA_TTYPE_WIDTH-1:0]), .q (pending_ttype_w2[`TSA_TTYPE_WIDTH-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for timing and bug 5117 assign rst_ttype_sel[0] = reset_sel_g; // modified for bug 5127 assign rst_ttype_sel[1] = ((|tlz_trap_g[`TLU_THRD_NUM-1:0]) | pib_wrap_trap_g); // ~(rstint_g | rst_tri_en); // ((|tlz_trap_g[`TLU_THRD_NUM-1:0]) | pib_wrap_trap_g) & ~reset_sel_g; // assign rst_ttype_sel[2] = ~(|rst_ttype_sel[1:0]); // reset ttype // modified for bug 3634 and bug 3705 // modified for timing and bug 5117 assign rst_hwint_ttype_g[`TSA_TTYPE_WIDTH-3:0] = (rst_ttype_sel[0])? {4'b00,reset_id_g[2:0]}: ((rst_ttype_sel[1])? wrap_tlz_ttype[6:0]: `HWINT_INT); dff_s #(`TSA_TTYPE_WIDTH-2) dff_rst_hwint_ttype_w2 ( .din (rst_hwint_ttype_g[`TSA_TTYPE_WIDTH-3:0]), .q (rst_hwint_ttype_w2[`TSA_TTYPE_WIDTH-3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_rst_hwint_sel_w2 ( .din ((|rst_ttype_sel[1:0]) | hwint_g), .q (rst_hwint_sel_w2), .clk (clk), .se (se), .rst (local_rst), `SIMPLY_RISC_SCANIN, .so () ); assign rst_ttype_w2[`TSA_TTYPE_WIDTH-3:0] = (rst_hwint_sel_w2)? rst_hwint_ttype_w2[`TSA_TTYPE_WIDTH-3:0]: final_swint_id_w2[`TSA_TTYPE_WIDTH-3:0]; /* mux3ds #(`TSA_TTYPE_WIDTH-2) mx_rst_ttype_g ( .sel0 (rst_ttype_sel[0]), .sel1 (rst_ttype_sel[1]), .sel2 (rst_ttype_sel[2]), .in0 ({4'b00,reset_id_g[2:0]}), .in1 (wrap_tlz_ttype[6:0]), .in2 (hwint_swint_ttype[6:0]), .dout (rst_ttype_g[`TSA_TTYPE_WIDTH-3:0]) ); // // added for timing dff_s #(`TSA_TTYPE_WIDTH-2) dff_rst_ttype_w2 ( .din (rst_ttype_g[`TSA_TTYPE_WIDTH-3:0]), .q (rst_ttype_w2[`TSA_TTYPE_WIDTH-3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // modified for timing assign rst_hwdr_ttype_sel[0] = reset_sel_g; assign rst_hwdr_ttype_sel[1] = hyper_wdr_trap & ~reset_sel_g; assign rst_hwdr_ttype_sel[2] = ((|tlz_trap_g[`TLU_THRD_NUM-1:0]) | pib_wrap_trap_g) & ~(|rst_hwdr_ttype_sel[1:0]); assign rst_hwdr_ttype_sel[3] = ~(|rst_hwdr_ttype_sel[2:0]); mux2ds #(`TSA_TTYPE_WIDTH-2) mx_hwint_swint_ttype ( .sel0 (hwint_g), .sel1 (~hwint_g), .in0 (`HWINT_INT), .in1 (final_swint_id[6:0]), .dout (hwint_swint_ttype[6:0]) ); */ mux2ds #(`TSA_TTYPE_WIDTH-2) mx_wrap_tlz_ttype ( .sel0 (|tlz_trap_g[`TLU_THRD_NUM-1:0]), .sel1 (~(|tlz_trap_g[`TLU_THRD_NUM-1:0])), .in0 (`TLZ_TRAP), .in1 (`PIB_OVERFLOW_TTYPE), .dout (wrap_tlz_ttype[6:0]) ); // // modified for timing assign rst_hwdr_ttype_sel_w2 = hyper_wdr_trap_w2 & ~reset_sel_w2; mux2ds #(`TSA_TTYPE_WIDTH-2) mx_rst_hwdr_ttype_w2 ( .sel0 (rst_hwdr_ttype_sel_w2), .sel1 (~rst_hwdr_ttype_sel_w2), .in0 ({7'b0000010}), .in1 (rst_ttype_w2[`TSA_TTYPE_WIDTH-3:0]), .dout (rst_hwdr_ttype_w2[`TSA_TTYPE_WIDTH-3:0]) ); // /* mux4ds #(`TSA_TTYPE_WIDTH-2) mx_rst_hwdr_ttype ( .sel0 (rst_hwdr_ttype_sel[0]), .sel1 (rst_hwdr_ttype_sel[1]), .sel2 (rst_hwdr_ttype_sel[2]), .sel3 (rst_hwdr_ttype_sel[3]), .in0 ({4'b00,reset_id_g[2:0]}), .in1 ({7'b0000010}), .in2 (wrap_tlz_ttype[6:0]), .in3 (hwint_swint_ttype[6:0]), .dout (rst_hwdr_ttype_g[`TSA_TTYPE_WIDTH-3:0]) ); // // added for timing dff_s #(`TSA_TTYPE_WIDTH-2) dff_rst_hwdr_ttype_w2 ( .din (rst_hwdr_ttype_g[`TSA_TTYPE_WIDTH-3:0]), .q (rst_hwdr_ttype_w2[`TSA_TTYPE_WIDTH-3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ // // construct the early_ttype_g for timing to determine whether // the trap is hypervisor or supervisor traps // modified for bug 3646, 5117 and timing assign early_ttype_sel[0] = reset_sel_g | hwint_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0]); // reset_sel_g | hwint_g | swint_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0]); assign early_ttype_sel[1] = local_early_flush_pipe_w; // local_early_flush_pipe_w & ~(reset_sel_g | hwint_g | swint_g | // (|tlz_trap_g[`TLU_THRD_NUM-1:0])); assign early_ttype_sel[2] = ~inst_vld_nf_g | inst_ifu_flush_w | ~(|early_ttype_sel[1:0]); assign early_ttype_g[`TSA_TTYPE_WIDTH-1:0] = (early_ttype_sel[2])? pending_ttype[`TSA_TTYPE_WIDTH-1:0]: (early_ttype_sel[0])? {2'b0,rst_hwint_ttype_g[`TSA_TTYPE_WIDTH-3:0]}: // (early_ttype_sel[0])? {2'b0,rst_ttype_g[`TSA_TTYPE_WIDTH-3:0]}: early_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0]; /* assign early_ttype_sel[0] = reset_sel_g | ((hwint_g | swint_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0])) & inst_vld_g) ; assign early_ttype_sel[1] = (local_early_flush_pipe_w & ~ifu_tlu_flush_fd_w) & ~rst_tri_en & ~((reset_sel_g | hwint_g | swint_g | (|tlz_trap_g[`TLU_THRD_NUM-1:0])) & inst_vld_g); assign early_ttype_sel[2] = ~(|early_ttype_sel[1:0]); // mux3ds #(`TSA_TTYPE_WIDTH) mx_early_ttype ( .sel0 (early_ttype_sel[0]), .sel1 (early_ttype_sel[1]), .sel2 (early_ttype_sel[2]), .in0 ({2'b0,rst_ttype_g[`TSA_TTYPE_WIDTH-3:0]}), .in1 (early_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0]), .in2 (pending_ttype[`TSA_TTYPE_WIDTH-1:0]), .dout (early_ttype_g[`TSA_TTYPE_WIDTH-1:0]) ); */ // // recoded for timing assign final_offset_en_g[0] = trap_to_redmode & ~(sir_inst_g | internal_wdr); assign final_offset_en_g[1] = internal_wdr & ~final_offset_en_g[0]; // modified due to one-hot mux bug // assign final_offset_en_g[2] = ~(|final_offset_en_g[1:0]); dffr_s #(2) dffr_final_offset_en_w1 ( .din (final_offset_en_g[1:0]), .q (final_offset_en_w1[1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign final_offset_sel_w1[2] = ~(|final_offset_sel_w1[1:0]); assign final_offset_sel_w1[1] = final_offset_en_w1[1] & ~rst_tri_en; assign final_offset_sel_w1[0] = final_offset_en_w1[0] & ~rst_tri_en; mux3ds #(`TSA_TTYPE_WIDTH) mx_final_offset_w1 ( .sel0 (final_offset_sel_w1[0]), .sel1 (final_offset_sel_w1[1]), .sel2 (final_offset_sel_w1[2]), .in0 (9'b000000101), .in1 (9'b000000010), .in2 (tba_ttype_w1[`TSA_TTYPE_WIDTH-1:0]), .dout (final_offset_w1[`TSA_TTYPE_WIDTH-1:0]) ); assign tlu_final_offset_w1[`TSA_TTYPE_WIDTH-1:0] = final_offset_w1[`TSA_TTYPE_WIDTH-1:0]; // // generating the trap pc and trap npc // This section has been modified due to bug 3017 // pc and npc has been changed from 48 -> 49 bits // added for one-hot mux problem assign tlu_pc_mxsel_w2[0] = tlu_self_boot_rst_w2 | rst_tri_en; // modified for bug 3710 assign tlu_pc_mxsel_w2[1] = local_select_tba_w2 & ~(rst_tri_en | tlu_self_boot_rst_w2); assign tlu_pc_mxsel_w2[2] = ~(|tlu_pc_mxsel_w2[1:0]); // /* logic moved to tlu_misctl assign normal_trap_pc_w1 [48:0] = {1'b0, tlu_partial_trap_pc_w1[33:0],final_offset_w1[`TSA_TTYPE_WIDTH-1:0], 5'b00000}; assign normal_trap_npc_w1[48:0] = {1'b0, tlu_partial_trap_pc_w1[33:0],final_offset_w1[`TSA_TTYPE_WIDTH-1:0], 5'b00100}; // // code moved from tlu_tdp mux2ds #(49) mx_trap_pc_w1 ( .in0 (normal_trap_pc_w1[48:0]), .in1 (tlu_restore_pc_w1[48:0]), .sel0 (~restore_pc_sel_w1), .sel1 (restore_pc_sel_w1), .dout (trap_pc_w1[48:0]) ); // dff_s #(49) dff_trap_pc_w2 ( .din (trap_pc_w1[48:0]), .q (trap_pc_w2[48:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_ifu_trappc_w2[48:0] = trap_pc_w2[48:0]; mux2ds #(49) mx_trap_npc_w1 ( .in0 (normal_trap_npc_w1[48:0]), .in1 (tlu_restore_npc_w1[48:0]), .sel0 (~restore_pc_sel_w1), .sel1 (restore_pc_sel_w1), .dout (trap_npc_w1[48:0]) ); // dff_s #(49) dff_trap_npc_w2 ( .din (trap_npc_w1[48:0]), .q (trap_npc_w2[48:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_ifu_trapnpc_w2[48:0] = trap_npc_w2[48:0]; */ // determine whether to generate a watch-dog reset using htba as the // trap base address instead of the watch-dog reset vector // added for bug 1894 and modified for bug 1964 // modified for timing assign hyper_wdr_early_trap_g = ((true_trap_tid_g[1:0] == 2'b00) ? (tlu_hpstate_enb[0] & ~tlu_hpstate_priv[0] & trp_lvl_at_maxstl[0]): ((true_trap_tid_g[1:0] == 2'b01) ? (tlu_hpstate_enb[1] & ~tlu_hpstate_priv[1] & trp_lvl_at_maxstl[1]): ((true_trap_tid_g[1:0] == 2'b10) ? (tlu_hpstate_enb[2] & ~tlu_hpstate_priv[2] & trp_lvl_at_maxstl[2]): (tlu_hpstate_enb[3] & ~tlu_hpstate_priv[3] & trp_lvl_at_maxstl[3])))); dffr_s dffr_hyper_wdr_early_trap_w2 ( .din (hyper_wdr_early_trap_g), .q (hyper_wdr_early_trap_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign hyper_wdr_trap_w2 = hyper_wdr_early_trap_w2 & (tlu_priv_traps_w2 & ~lsu_defr_trap_w2); // // detetermine whehter the trapping thread is in hyperlite mode or is at // maxstl // modified for timing and bug 4779 /* assign tlu_trap_to_hyper_g = (true_trap_tid_g[1:0] == 2'b00) ? (~tlu_hpstate_enb[0] | tlu_hpstate_priv[0] | trp_lvl_gte_maxstl[0]): ((true_trap_tid_g[1:0] == 2'b01) ? (~tlu_hpstate_enb[1] | tlu_hpstate_priv[1] | trp_lvl_gte_maxstl[1]): ((true_trap_tid_g[1:0] == 2'b10) ? (~tlu_hpstate_enb[2] | tlu_hpstate_priv[2] | trp_lvl_gte_maxstl[2]): (~tlu_hpstate_enb[3] | tlu_hpstate_priv[3] | trp_lvl_gte_maxstl[3]))); */ // assign tlu_trap_to_hyper_g = (true_trap_tid_g[1:0] == 2'b00) ? (~tlu_hpstate_enb[0] | tlu_hpstate_priv[0] | trp_lvl_gte_maxstl[0] | (tlz_trap_g[0] & inst_vld_g)): ((true_trap_tid_g[1:0] == 2'b01) ? (~tlu_hpstate_enb[1] | tlu_hpstate_priv[1] | trp_lvl_gte_maxstl[1] | (tlz_trap_g[1] & inst_vld_g)): ((true_trap_tid_g[1:0] == 2'b10) ? (~tlu_hpstate_enb[2] | tlu_hpstate_priv[2] | trp_lvl_gte_maxstl[2] | (tlz_trap_g[2] & inst_vld_g)): (~tlu_hpstate_enb[3] | tlu_hpstate_priv[3] | trp_lvl_gte_maxstl[3] | (tlz_trap_g[3] & inst_vld_g)))); // added for timing dffr_s dffr_tlu_tlu_trap_to_hyper_w2 ( .din (tlu_trap_to_hyper_g), .q (tlu_trap_to_hyper_w2), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // recoded for timing assign select_tba_element_w2[0] = ~(tlu_trap_to_hyper_w2 | lsu_defr_trap_w2) & tlu_early_priv_element_w2[0]; assign select_tba_element_w2[1] = ~tlu_trap_to_hyper_w2 & (|tlu_early_priv_element_w2[2:1]) & ~lsu_defr_trap_w2; assign local_select_tba_w2 = ~tlu_trap_to_hyper_w2 & (tlu_priv_traps_w2 & ~lsu_defr_trap_w2); assign tdp_select_tba_w2 = local_select_tba_w2; assign tlu_select_tba_w2 = select_tba_element_w2[1] | (select_tba_element_w2[0] & ~lsu_ttype_vld_w2); /* dffr_s dffr_tlu_select_tba_w2 ( .din (select_tba_g), .q (tlu_select_tba_w2), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ // // added for bug 2064 and modified for bug 2165 // modified for bug3719 assign early_priv_traps_g = ((early_ttype_g[8:4] == 5'b00001) & (|early_ttype_g[3:0])) | ((early_ttype_g[8:4] == 5'b00100) & (|early_ttype_g[3:0])) | ((early_ttype_g[8:4] == 5'b00010) & ~(early_ttype_g[3] & early_ttype_g[0]))| ((early_ttype_g[8:2] == 7'b0011000) & (early_ttype_g[1] ^ early_ttype_g[0])) | ((early_ttype_g[8:4] == 5'b00111) & (early_ttype_g[3:2]== 2'b11)) | (early_ttype_g[8] & ~early_ttype_g[7]) | (early_ttype_g[7] & ~early_ttype_g[8]) | (pib_wrap_trap_g & ~(|tlz_trap_g[`TLU_THRD_NUM-1:0]) & inst_vld_g) | (swint_g & ~(|tlz_trap_g[`TLU_THRD_NUM-1:0]) & inst_vld_g); assign exu_hyper_traps_g = exu_ttype_vld_g & ((early_ttype_g[8:0] == 9'h029) | (early_ttype_g[8:0] == 9'h034)); // // modified for timing assign tlu_early_priv_element_g[0] = early_priv_traps_g & early_ttype_sel[2]; assign tlu_early_priv_element_g[1] = early_priv_traps_g & ~early_ttype_sel[2]; // modified for bug 4431, 4443 assign tlu_early_priv_element_g[2] = lsu_tlu_wtchpt_trp_g & ~(misalign_addr_jmpl_rtn_g | misalign_addr_ldst_atm_g | ifu_ttype_vld_g | exu_hyper_traps_g | lsu_tlu_priv_action_g); // lsu_tlu_wtchpt_trp_g & ~(lsu_tlu_priv_violtn_g | misalign_addr_jmpl_rtn_g | // // modified for added for timing dffr_s #(3) dffr_tlu_early_priv_element_w2 ( .din (tlu_early_priv_element_g[2:0]), .q (tlu_early_priv_element_w2[2:0]), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_priv_traps_w2 = tlu_early_priv_element_w2[0] & ~lsu_ttype_vld_w2 | tlu_early_priv_element_w2[1] | tlu_early_priv_element_w2[2]; dffr_s dffr_tlu_self_boot_rst_w2 ( .din (tlu_self_boot_rst_g), .q (tlu_self_boot_rst_w2), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // Generate TSA Control and Data //========================================================================================= // MODIFY : keep 2b tid // added for tsa_wr_tid bug // modified for hypervisor support and logic loop // modified for timing // assign tsa_wr_tid_sel_g = wsr_inst_g_unflushed & inst_vld_g & (tstate_rw_g | tpc_rw_g | tnpc_rw_g | ttype_rw_g | tlu_htstate_rw_g); // added for timing assign tsa_wr_tid_sel_tim_g = (((wsr_inst_g & (tstate_rw_g | tpc_rw_g | tnpc_rw_g | ttype_rw_g | tlu_htstate_rw_g)) | ((retry_inst_g | done_inst_g) & cwp_fastcmplt_g)) & inst_vld_g) | sync_trap_taken_g ; dffr_s dffr_tsa_wr_tid_sel_w2 ( .din (tsa_wr_tid_sel_tim_g), .q (tsa_wr_tid_sel_w2), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); /* assign tsa_wr_tid_sel_w2 = (((wsr_inst_w2 & (tstate_rw_w2 | tpc_rw_w2 | tnpc_rw_w2 | ttype_rw_w2 | htstate_rw_w2)) | ((retry_inst_w2 | done_inst_w2) & cwp_fastcmplt_w2)) & inst_vld_w2) | sync_trap_taken_w2 ; */ // // added for timing assign thrid_w2[0] = thread1_wsel_w2 | thread3_wsel_w2; assign thrid_w2[1] = thread2_wsel_w2 | thread3_wsel_w2; // // // modified for bug 4403 /* mux2ds #(2) mx_tsa_wr_tid ( .in0 (pend_trap_tid_w2[1:0]), .in1 (thrid_w2[1:0]), .sel0 (~tsa_wr_tid_sel_w2), .sel1 (tsa_wr_tid_sel_w2), .dout (tsa_wr_tid[1:0]) ); */ // modified for bug 4403 dn 4443 assign tsa_wr_tid[1:0] = (tsa_wr_tid_sel_w2 & lsu_defr_trap_w2) ? true_trap_tid_w2[1:0]: ((tsa_wr_tid_sel_w2 & ~lsu_defr_trap_w2)? thrid_w2[1:0] : pend_trap_tid_w2[1:0]); // tsa should not be written by certain resets. May have to extend to wrm etc. !!! // modified due to the swap of memory from tlu_tsa -> bw_r_rf32x144 -> 2x bw_r_rf32x80 // modified for bug 3384 assign tsa_wr_vld[0] = trap_taken_w2 | local_rst | // a thread traps ((tpc_rw_w2 | tstate_rw_w2) & wsr_inst_w2); // wrpr-tsa assign tsa_wr_vld[1] = trap_taken_w2 | local_rst | // a thread traps ((tnpc_rw_w2 | ttype_rw_w2 | htstate_rw_w2) & wsr_inst_w2); // wrpr-tsa // // modified due to timing all w stage signals have been moved to w2 assign tsa_pc_en = tpc_rw_w2 | trap_taken_w2; assign tsa_npc_en = tnpc_rw_w2 | trap_taken_w2; assign tsa_tstate_en = tstate_rw_w2 | trap_taken_w2; assign tsa_ttype_en = ttype_rw_w2 | trap_taken_w2 | local_rst; // // added for hypervisor support assign tsa_htstate_en = htstate_rw_w2 | trap_taken_w2; // Should all these regs enable a read of the tsa ? assign tsa_rd_vld = ifu_tlu_done_inst_d | ifu_tlu_retry_inst_d | // done/retry (tpc_rw_d | tnpc_rw_d | tstate_rw_d | ttype_rw_d | // tick_rw_d | tba_rw_d | pstate_rw_d | tl_rw_d | tlu_htstate_rw_d) & ifu_tlu_rsr_inst_d; // rdpr-tsa // // added for timing dff_s dff_tsa_rd_vld_e ( .din (tsa_rd_vld), .q (tsa_rd_vld_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for timing assign tsa_rd_en = ifu_tlu_done_inst_d | ifu_tlu_retry_inst_d | // done/retry (~(|sraddr2[4:2]) & ifu_tlu_rsr_inst_d); // rdpr-tsa // dff_s #(`TLU_THRD_NUM) dff_thread_wsel_w2 ( .din ({thread3_wsel_g, thread2_wsel_g, thread1_wsel_g, thread0_wsel_g}), .q ({thread3_wsel_w2, thread2_wsel_w2, thread1_wsel_w2, thread0_wsel_w2}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_thread_wsel_g[0] = thread0_rsel_dec_g; assign tlu_thread_wsel_g[1] = thread1_rsel_dec_g; assign tlu_thread_wsel_g[2] = thread2_rsel_dec_g; assign tlu_thread_wsel_g[3] = thread3_rsel_dec_g; // // Added for tsa_wr_tid bug // assign thread0_wtrp_w2 = ~tsa_wr_tid[1] & ~tsa_wr_tid[0]; assign thread1_wtrp_w2 = ~tsa_wr_tid[1] & tsa_wr_tid[0]; assign thread2_wtrp_w2 = tsa_wr_tid[1] & ~tsa_wr_tid[0]; assign thread3_wtrp_w2 = tsa_wr_tid[1] & tsa_wr_tid[0]; // write uses trp-lvl after increment. mux4ds #(3) tsawthrd ( .in0 (trp_lvl0_new[2:0]), .in1 (trp_lvl1_new[2:0]), .in2 (trp_lvl2_new[2:0]), .in3 (trp_lvl3_new[2:0]), .sel0 (thread0_wtrp_w2), .sel1 (thread1_wtrp_w2), .sel2 (thread2_wtrp_w2), .sel3 (thread3_wtrp_w2), .dout (tsa_wr_tpl[2:0]) ); // rd use trp-lvl prior to decrement. mux4ds #(3) tsarthrd ( .in0 (trp_lvl0[2:0]), .in1 (trp_lvl1[2:0]), .in2 (trp_lvl2[2:0]), .in3 (trp_lvl3[2:0]), .sel0 (thread0_rsel_d), .sel1 (thread1_rsel_d), .sel2 (thread2_rsel_d), .sel3 (thread3_rsel_d), .dout (tsa_rd_tpl[2:0]) ); assign tsa_rd_tid[1:0] = thrid_d[1:0]; //========================================================================================= // TT initial state //========================================================================================= // The initial state of TT should be 1 on por. Since this is required for 4 thread, // it will be difficult to do this thru a write to the tsa while reset is occuring. // Instead a bit will be used to mark whether the tt for a thread has been written to. // If it hasn't then a '1' has to be inserted into the dff_s dff_rst_d1 ( .din (local_rst), .q (reset_d1), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tt_init_en = reset_d1 & tlu_rst_l; // // modified for timing all g stage signals have been move to w2 assign tt_init_rst[0] = local_rst | (tsa_ttype_en & (|tsa_wr_vld[1:0]) & thread0_wtrp_w2); assign tt_init_rst[1] = local_rst | (tsa_ttype_en & (|tsa_wr_vld[1:0]) & thread1_wtrp_w2); assign tt_init_rst[2] = local_rst | (tsa_ttype_en & (|tsa_wr_vld[1:0]) & thread2_wtrp_w2); assign tt_init_rst[3] = local_rst | (tsa_ttype_en & (|tsa_wr_vld[1:0]) & thread3_wtrp_w2); assign lsu_tlu_rsr_data_mod_e[7:0] = ttype_unwritten_sel ? 8'b0000_0001 : lsu_tlu_rsr_data_e[7:0]; dffre_s dffre_tt_init0 ( .din (tt_init_en), .q (tt_unwritten[0]), .rst (tt_init_rst[0]), .en (tt_init_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_tt_init1 ( .din (tt_init_en), .q (tt_unwritten[1]), .rst (tt_init_rst[1]), .en (tt_init_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_tt_init2 ( .din (tt_init_en), .q (tt_unwritten[2]), .rst (tt_init_rst[2]), .en (tt_init_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffre_tt_init3 ( .din (tt_init_en), .q (tt_unwritten[3]), .rst (tt_init_rst[3]), .en (tt_init_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // Decode SR Addr //========================================================================================= // **Exceptions for Write/Reads of Privileged/State Register** // WRPR: // - Access to reserved rd fields will cause exception. Done by IFU. // - A write to TPC, TNPC, TT or TSTATE when the trap level is zero // (TL=0) causes an illegal_instruction exception. // - privileged opcode. Use privilege bit in sraddr for exception. // WRSR : // - privileged opcode. wrasr only - implementation dependent. // - illegal inst - done by IFU. // RDPR : // - A read from TPC, TNPC, TT or TSTATE when the trap level is zero // (TL=0) causes an illegal_instruction exception. // - Access to reserved rs1 fields causes an illegal_inst exception. // - privileged opcode. // RDSR : // - privileged opcode. rdasr only - implementation dependent. // - Access to reserved rs1 fields causes an illegal_inst exception. assign sraddr[`TLU_ASR_ADDR_WIDTH-1:0] = ifu_tlu_sraddr_d[`TLU_ASR_ADDR_WIDTH-1:0]; assign sraddr2[`TLU_ASR_ADDR_WIDTH-1:0] = sraddr[`TLU_ASR_ADDR_WIDTH-1:0]; // // added for hypervisor support assign asr_hyperp = sraddr2[6]; assign asr_priv = sraddr2[5]; assign stickcmp_rw_d = sraddr2[4] & sraddr2[3] & ~sraddr2[2] & ~sraddr2[1] & sraddr2[0] & ~asr_priv; // assign stick_rw_d = sraddr2[4] & sraddr2[3] & ~sraddr2[2] & ~sraddr2[1] & ~sraddr2[0]; assign tpc_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & ~sraddr[1] & ~sraddr[0] & asr_priv; // =1 ; privileged. assign tnpc_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & ~sraddr[1] & sraddr[0] & asr_priv; // =1 ; privileged. assign tstate_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & sraddr[1] & ~sraddr[0] & asr_priv; // =1 ; privileged. assign ttype_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & sraddr[1] & sraddr[0] & asr_priv; // =1 ; privileged. // stick and tick are refering to the same register. // - privileged action - rdtick only. assign tick_rw_d = ((~sraddr2[4] & ~sraddr2[3] & sraddr2[2] & ~sraddr2[1] & ~sraddr2[0]) | stick_rw_d) & ~asr_hyperp; // =1 ; privileged. // // modified for bug 1293 // qualified with the rsr read assign tick_npriv_r_d = (~sraddr2[4] & ~sraddr2[3] & sraddr2[2] & ~sraddr2[1] & ~sraddr2[0] | stick_rw_d) & ~asr_priv & ifu_tlu_rsr_inst_d; // =0; non-privileged. assign tickcmp_rw_d = sraddr2[4] & ~sraddr2[3] & sraddr2[2] & sraddr2[1] & sraddr2[0] & ~asr_priv; // assign tba_rw_d = ~sraddr[4] & ~sraddr[3] & sraddr[2] & ~sraddr[1] & sraddr[0] & asr_priv; // =1 ; privileged. assign pstate_rw_d = ~sraddr[4] & ~sraddr[3] & sraddr[2] & sraddr[1] & ~sraddr[0] & asr_priv; // =1 ; privileged. assign tl_rw_d = ~sraddr[4] & ~sraddr[3] & sraddr[2] & sraddr[1] & sraddr[0] & asr_priv; // =1 ; privileged. assign pil_rw_d = ~sraddr2[4] & sraddr2[3] & ~sraddr2[2] & ~sraddr2[1] & ~sraddr2[0] & asr_priv; // =1 ; privileged. assign set_sftint_d = sraddr2[4] & ~sraddr2[3] & sraddr2[2] & ~sraddr2[1] & ~sraddr2[0] & ~(asr_priv | asr_hyperp); assign clr_sftint_d = sraddr2[4] & ~sraddr2[3] & sraddr2[2] & ~sraddr2[1] & sraddr2[0] & ~(asr_priv | asr_hyperp); assign sftint_rg_rw_d = sraddr2[4] & ~sraddr2[3] & sraddr2[2] & sraddr2[1] & ~sraddr2[0] & ~(asr_priv | asr_hyperp); // // pib register decodes assign pcr_rsr_d = (sraddr[`TLU_ASR_ADDR_WIDTH-1:0] == `PCR_ASR_ADDR); assign pic_rsr_d = ((sraddr[`TLU_ASR_ADDR_WIDTH-1:0] == `PIC_ASR_PRIV_ADDR) | (sraddr[`TLU_ASR_ADDR_WIDTH-1:0] == `PIC_ASR_NPRIV_ADDR)); // Bug 818 fix: The qualification to sraddr[5] is removed due to the sftint and tick_cmp registers // are priveledged write state registers and not priveledged registers, therefore, the sraddr[5] is // not asserted for these // modified due to timing // assign wsr_inst_d = ifu_tlu_wsr_inst_d; // // added for bug 1293 // Stage to E1. dff_s dff_tpc_rw_e ( .din (tpc_rw_d), .q (tpc_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tnpc_rw_e ( .din (tnpc_rw_d), .q (tnpc_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tstate_rw_e ( .din (tstate_rw_d), .q (tstate_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_ttype_rw_e ( .din (ttype_rw_d), .q (ttype_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tick_rw_e ( .din (tick_rw_d), .q (tick_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tick_npriv_r_e ( .din (tick_npriv_r_d), .q (tick_npriv_r_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tickcmp_rw_e ( .din (tickcmp_rw_d), .q (tickcmp_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tba_rw_e ( .din (tba_rw_d), .q (tba_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pstate_rw_e ( .din (pstate_rw_d), .q (pstate_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tl_rw_d_e ( .din (tl_rw_d), .q (tl_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pil_rw_d_e ( .din (pil_rw_d), .q (pil_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_set_sftint_e ( .din (set_sftint_d), .q (set_sftint_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_clr_sftint_e ( .din (clr_sftint_d), .q (clr_sftint_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_sftint_rg_rw_e ( .din (sftint_rg_rw_d), .q (sftint_rg_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pcr_rsr_e ( .din (pcr_rsr_d), .q (pcr_rsr_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pic_rsr_e ( .din (pic_rsr_d), .q (pic_rsr_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified due to timing /* dff_s dff_wsr_inst_d_e ( .din (wsr_inst_d), .q (wsr_inst_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ assign wsr_inst_e = lsu_tlu_wsr_inst_e; dff_s dff_stickcmp_rw_e ( .din (stickcmp_rw_d), .q (stickcmp_rw_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // Stage to E2. dff_s dff_tpc_rw_m ( .din (tpc_rw_e), .q (tpc_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tnpc_rw_m ( .din (tnpc_rw_e), .q (tnpc_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tstate_rw_m ( .din (tstate_rw_e), .q (tstate_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_ttype_rw_m ( .din (ttype_rw_e), .q (ttype_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tick_rw_m ( .din (tick_rw_e), .q (tick_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tick_npriv_r_m ( .din (tick_npriv_r_e), .q (tick_npriv_r_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tickcmp_rw_m ( .din (tickcmp_rw_e), .q (tickcmp_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for timing - moved from hypervisor dff_s dff_htickcmp_rw_m_m ( .din (tlu_htickcmp_rw_e), .q (htickcmp_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tba_rw_m ( .din (tba_rw_e), .q (tba_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pstate_rw_m ( .din (pstate_rw_e), .q (pstate_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tl_rw_m ( .din (tl_rw_e), .q (tl_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pil_rw_m ( .din (pil_rw_e), .q (pil_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_set_sftint_m ( .din (set_sftint_e), .q (set_sftint_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_clr_sftint_m ( .din (clr_sftint_e), .q (clr_sftint_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_sftint_rg_rw_m ( .din (sftint_rg_rw_e), .q (sftint_rg_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_wsr_inst_m ( .din (wsr_inst_e), .q (wsr_inst_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for hypervisor support dff_s dff_stickcmp_rw_m ( .din (stickcmp_rw_e), .q (stickcmp_rw_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tpc_rw_g ( .din (tpc_rw_m), .q (tpc_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tnpc_rw_g ( .din (tnpc_rw_m), .q (tnpc_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tstate_rw_g ( .din (tstate_rw_m), .q (tstate_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_ttype_rw_g ( .din (ttype_rw_m), .q (ttype_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tick_rw_g ( .din (tick_rw_m), .q (tick_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tick_npriv_r_g ( .din (tick_npriv_r_m), .q (tick_npriv_r_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tickcmp_rw_g ( .din (tickcmp_rw_m), .q (tickcmp_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for timing - moved form hyperv dff_s dff_htickcmp_rw_m_g ( .din (htickcmp_rw_m), .q (htickcmp_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tba_rw_g ( .din (tba_rw_m), .q (tba_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pstate_rw_g ( .din (pstate_rw_m), .q (pstate_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pstate_rw_w2 ( .din (pstate_rw_g), .q (pstate_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tl_rw_g ( .din (tl_rw_m), .q (tl_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tl_rw_w2 ( .din (tl_rw_g), .q (tl_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_pil_rw_g ( .din (pil_rw_m), .q (pil_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tpc_rw_w2 ( .din (tpc_rw_g), .q (tpc_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tnpc_rw_w2 ( .din (tnpc_rw_g), .q (tnpc_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tstate_rw_w2 ( .din (tstate_rw_g), .q (tstate_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_ttype_rw_w2 ( .din (ttype_rw_g), .q (ttype_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_htstate_rw_w2 ( .din (tlu_htstate_rw_g), .q (htstate_rw_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_set_sftint_g ( .din (set_sftint_m), .q (set_sftint_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_clr_sftint_g ( .din (clr_sftint_m), .q (clr_sftint_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_sftint_rg_rw_g ( .din (sftint_rg_rw_m), .q (sftint_rg_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_wsr_inst_g ( .din (wsr_inst_m), .q (wsr_inst_g_unflushed), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_wsr_inst_w2 ( .din (wsr_inst_g), .q (wsr_inst_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tlu_gl_rw_g ( .din (tlu_gl_rw_m), .q (tlu_gl_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for hypervisor support dff_s dff_stickcmp_rw_g ( .din (stickcmp_rw_m), .q (stickcmp_rw_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // modified due to timing violations // assign wsr_inst_g = wsr_inst_g_unflushed & ~tlu_ifu_flush_pipe_w & inst_vld_g; assign wsr_inst_g = wsr_inst_g_unflushed & ~local_early_flush_pipe_w & inst_vld_g; assign tlu_wsr_inst_nq_g = wsr_inst_g_unflushed & ~local_early_flush_pipe_w & inst_vld_nf_g; //========================================================================================= // TICK/TICK-CMP RELATED //========================================================================================= wire [1:0] tckctr; wire [1:0] tckctr_in; // modified due to swapping in the incr64 soft macro // assign tckctr_incr = tckctr + 1; assign tckctr_in[1:0] = tlu_tckctr_in[1:0]; assign tlu_incr_tick[1:0] = tckctr[1:0]; dffr_s #(2) dffr_tckctr_cnt ( .din (tckctr_in[1:0]), .q (tckctr[1:0]), .rst (local_rst | ~tlu_tick_en_l), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // 3rd cycle, increment tick reg. // assign tlu_incr_tick = tckctr[1] & tckctr[0]; assign tlu_tickcmp_sel[0] = ~tckctr[1] & ~tckctr[0]; assign tlu_tickcmp_sel[1] = ~tckctr[1] & tckctr[0]; assign tlu_tickcmp_sel[2] = tckctr[1] & ~tckctr[0]; assign tlu_tickcmp_sel[3] = tckctr[1] & tckctr[0]; // TICK.NPT // reset should not be needed in this equation !!! assign tick_ctl_din = tlu_wsr_data_b63_w | local_rst | por_rstint_g; assign tlu_tick_ctl_din = tick_ctl_din; dffe_s dffe_npt0 ( .din (tick_ctl_din), .q (tick_npt0), .en (tick_en[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s dffe_npt1 ( .din (tick_ctl_din), .q (tick_npt1), .en (tick_en[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s dffe_npt2 ( .din (tick_ctl_din), .q (tick_npt2), .en (tick_en[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s dffe_npt3 ( .din (tick_ctl_din), .q (tick_npt3), .en (tick_en[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_tick_npt = (thread0_rsel_e & tick_npt0) | (thread1_rsel_e & tick_npt1) | (thread2_rsel_e & tick_npt2) | (thread3_rsel_e & tick_npt3); assign tick_npt_priv_act_g = (tick_npriv_r_g & ~ifu_ttype_vld_tmp_g) & ((tick_npt0 & thread0_rsel_g & tlu_none_priv[0]) | (tick_npt1 & thread1_rsel_g & tlu_none_priv[1]) | (tick_npt2 & thread2_rsel_g & tlu_none_priv[2]) | (tick_npt3 & thread3_rsel_g & tlu_none_priv[3])); // // added for timing fix assign tick_npt_priv_act_m = (tick_npriv_r_m & ~ifu_ttype_vld_m) & ((tick_npt0 & thread0_rsel_m & tlu_none_priv[0]) | (tick_npt1 & thread1_rsel_m & tlu_none_priv[1]) | (tick_npt2 & thread2_rsel_m & tlu_none_priv[2]) | (tick_npt3 & thread3_rsel_m & tlu_none_priv[3])); assign exu_tick_npt_priv_act_m = tick_npriv_r_m & ((tick_npt0 & thread0_stg_m_buf & tlu_none_priv[0]) | (tick_npt1 & thread1_stg_m_buf & tlu_none_priv[1]) | (tick_npt2 & thread2_stg_m_buf & tlu_none_priv[2]) | (tick_npt3 & thread3_stg_m_buf & tlu_none_priv[3])); //========================================================================================= // Soft Interrupt Control //========================================================================================= wire [1:0] sftintctr; wire [1:0] sftintctr_incr; assign sftintctr_incr[1:0] = sftintctr[1:0] + 2'b01; dffr_s #(2) dffr_sftint_cnt ( .din (sftintctr_incr[1:0]), .q (sftintctr[1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified for bug 4626 and 5117 /* assign swint_nq_g = swint_g; assign swint_thrd_g[0]= swint_nq_g & thread0_rsel_g & tlu_int_pstate_ie[0]; assign swint_thrd_g[1]= swint_nq_g & thread1_rsel_g & tlu_int_pstate_ie[1]; assign swint_thrd_g[2]= swint_nq_g & thread2_rsel_g & tlu_int_pstate_ie[2]; // assign swint_thrd_g[3]= swint_nq_g & thread3_rsel_g & tlu_int_pstate_ie[3]; */ assign sftint_user_update_g = clr_sftint_g | sftint_rg_rw_g; dffr_s dffr_sftint_user_update_w2 ( .din (sftint_user_update_g), .q (sftint_user_update_w2), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign penc_sel_user_update = sftint_user_update_w2 & ~swint_g; assign sftint_penc_update = sftint_user_update_w2 | swint_g; assign sftint_penc_thrd[0]= (swint_g & thread0_rsel_g) | (penc_sel_user_update & thread0_wsel_w2); assign sftint_penc_thrd[1]= (swint_g & thread1_rsel_g) | (penc_sel_user_update & thread1_wsel_w2); assign sftint_penc_thrd[2]= (swint_g & thread2_rsel_g) | (penc_sel_user_update & thread2_wsel_w2); assign tlu_sftint_penc_sel[0] = ((~sftintctr[1] & ~sftintctr[0] & ~sftint_penc_update) | sftint_penc_thrd[0]) & ~rst_tri_en; assign tlu_sftint_penc_sel[1] = ((~sftintctr[1] & sftintctr[0] & ~sftint_penc_update) | sftint_penc_thrd[1]) & ~rst_tri_en; assign tlu_sftint_penc_sel[2] = (( sftintctr[1] & ~sftintctr[0] & ~sftint_penc_update) | sftint_penc_thrd[2]) & ~rst_tri_en; // // added for bug 5117 assign sftint_wait_rst[0] = sftint_pend_wait[0] & tlu_sftint_penc_sel[0]; assign sftint_wait_rst[1] = sftint_pend_wait[1] & tlu_sftint_penc_sel[1]; assign sftint_wait_rst[2] = sftint_pend_wait[2] & tlu_sftint_penc_sel[2]; assign sftint_wait_rst[3] = sftint_pend_wait[3] & tlu_sftint_penc_sel[3]; dffr_s dffr_sftint_pend_wait_0 ( .din (sftint_user_update_g & thread0_rsel_dec_g), .q (sftint_pend_wait[0]), .clk (clk), .rst (local_rst | sftint_wait_rst[0]), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_sftint_pend_wait_1 ( .din (sftint_user_update_g & thread1_rsel_dec_g), .q (sftint_pend_wait[1]), .clk (clk), .rst (local_rst | sftint_wait_rst[1]), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_sftint_pend_wait_2 ( .din (sftint_user_update_g & thread2_rsel_dec_g), .q (sftint_pend_wait[2]), .clk (clk), .rst (local_rst | sftint_wait_rst[2]), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_sftint_pend_wait_3 ( .din (sftint_user_update_g & thread3_rsel_dec_g), .q (sftint_pend_wait[3]), .clk (clk), .rst (local_rst | sftint_wait_rst[3]), .se (se), `SIMPLY_RISC_SCANIN, .so () ); /* assign tlu_sftint_penc_sel[0] = (~sftintctr[1] & ~sftintctr[0] & ~swint_nq_g) | swint_thrd_g[0]; assign tlu_sftint_penc_sel[1] = (~sftintctr[1] & sftintctr[0] & ~swint_nq_g) | swint_thrd_g[1]; assign tlu_sftint_penc_sel[2] = ( sftintctr[1] & ~sftintctr[0] & ~swint_nq_g) | swint_thrd_g[2]; // */ // // modified for one-hot problem assign tlu_sftint_penc_sel[3] = ~(|tlu_sftint_penc_sel[2:0]); // assign tlu_sftint_penc_sel[3] = // ( sftintctr[1] & sftintctr[0] & ~swint_nq_g) | swint_thrd_g[3]; /* assign tlu_sftint_penc_sel[0] = ~sftintctr[1] & ~sftintctr[0]; assign tlu_sftint_penc_sel[1] = ~sftintctr[1] & sftintctr[0]; assign tlu_sftint_penc_sel[2] = sftintctr[1] & ~sftintctr[0]; assign tlu_sftint_penc_sel[3] = sftintctr[1] & sftintctr[0]; */ // Flop sftint values on a per thread basis. dffe_s #(4) dffe_sftint_id0 ( .din (tlu_sftint_id[3:0]), .q (sftint0_id[3:0]), .en (tlu_sftint_penc_sel[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s #(4) dffe_sftint_id1 ( .din (tlu_sftint_id[3:0]), .q (sftint1_id[3:0]), .en (tlu_sftint_penc_sel[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s #(4) dffe_sftint_id2 ( .din (tlu_sftint_id[3:0]), .q (sftint2_id[3:0]), .en (tlu_sftint_penc_sel[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s #(4) dffe_sftint_id3 ( .din (tlu_sftint_id[3:0]), .q (sftint3_id[3:0]), .en (tlu_sftint_penc_sel[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // Soft Int Control // modified to fix one-hot problem assign tlu_set_sftint_l_g = ~(set_sftint_g) | rst_tri_en; assign tlu_clr_sftint_l_g = ~(clr_sftint_g) | rst_tri_en; assign tlu_wr_sftint_l_g = ~(sftint_rg_rw_g) | rst_tri_en; // modified for timing /* assign tlu_set_sftint_l_g = ~(set_sftint_g & wsr_inst_g); assign tlu_clr_sftint_l_g = ~(clr_sftint_g & wsr_inst_g); assign tlu_wr_sftint_l_g = ~(sftint_rg_rw_g & wsr_inst_g); */ // modified for pib support // assign tlu_sftint_en_l_g[0] = ~((set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & wsr_inst_g & thread0_rsel_dec_g) & tlu_rst_l; assign tlu_sftint_en_l_g[1] = ~((set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & wsr_inst_g & thread1_rsel_dec_g) & tlu_rst_l; assign tlu_sftint_en_l_g[2] = ~((set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & wsr_inst_g & thread2_rsel_dec_g) & tlu_rst_l; assign tlu_sftint_en_l_g[3] = ~((set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & wsr_inst_g & thread3_rsel_dec_g) & tlu_rst_l; // added for one-hot mux bug // modified for timing assign tlu_sftint_mx_sel[0] = ~(|tlu_sftint_mx_sel[3:1]); assign tlu_sftint_mx_sel[1] = (set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & thread1_rsel_dec_g & ~rst_tri_en; assign tlu_sftint_mx_sel[2] = (set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & thread2_rsel_dec_g & ~rst_tri_en; assign tlu_sftint_mx_sel[3] = (set_sftint_g | clr_sftint_g | sftint_rg_rw_g) & thread3_rsel_dec_g & ~rst_tri_en; // // determine whether there is a pending sftint interrupt for each thread // assign tlu_int_sftint_pend[0] = |(sftint0_id[3:0]) & ~sftint_pend_wait[0]; assign tlu_int_sftint_pend[1] = |(sftint1_id[3:0]) & ~sftint_pend_wait[1]; assign tlu_int_sftint_pend[2] = |(sftint2_id[3:0]) & ~sftint_pend_wait[2]; assign tlu_int_sftint_pend[3] = |(sftint3_id[3:0]) & ~sftint_pend_wait[3]; // if there is no existing sft interrupt, then sftint_id = 0, and vld would never be asserted. // this is why a 15b vector has been encoded as a 16b vector. // modified for hypervisor support // fix for bug 7027 /* assign sftint_only_vld[0] = (tlu_int_sftint_pend[0]) ? (sftint0_id[3:0] > true_pil0[3:0]) & pil_cmp_en[0] : 1'b0; assign sftint_only_vld[1] = (tlu_int_sftint_pend[1]) ? (sftint1_id[3:0] > true_pil1[3:0]) & pil_cmp_en[1] : 1'b0; assign sftint_only_vld[2] = (tlu_int_sftint_pend[2]) ? (sftint2_id[3:0] > true_pil2[3:0]) & pil_cmp_en[2] : 1'b0; assign sftint_only_vld[3] = (tlu_int_sftint_pend[3]) ? (sftint3_id[3:0] > true_pil3[3:0]) & pil_cmp_en[3] : 1'b0; */ assign sftint_only_vld[0] = (tlu_int_sftint_pend[0]) ? (sftint0_id[3:0] > true_pil0[3:0]) : 1'b0; assign sftint_only_vld[1] = (tlu_int_sftint_pend[1]) ? (sftint1_id[3:0] > true_pil1[3:0]) : 1'b0; assign sftint_only_vld[2] = (tlu_int_sftint_pend[2]) ? (sftint2_id[3:0] > true_pil2[3:0]) : 1'b0; assign sftint_only_vld[3] = (tlu_int_sftint_pend[3]) ? (sftint3_id[3:0] > true_pil3[3:0]) : 1'b0; // swint // removed the qualification of the tlu_int_pstate_ie - otherwise, IFU might never wakeup // after the thread has been suspended. // // modified for timing assign tlu_sftint_vld[0] = (tlu_cpu_mondo_trap[0] | tlu_dev_mondo_trap[0] | sftint_only_vld[0]); assign tlu_sftint_vld[1] = (tlu_cpu_mondo_trap[1] | tlu_dev_mondo_trap[1] | sftint_only_vld[1]); assign tlu_sftint_vld[2] = (tlu_cpu_mondo_trap[2] | tlu_dev_mondo_trap[2] | sftint_only_vld[2]); assign tlu_sftint_vld[3] = (tlu_cpu_mondo_trap[3] | tlu_dev_mondo_trap[3] | sftint_only_vld[3]); // // added for hypervisor support // htick_match traps // fix for bug 7027 /* assign tlu_hintp_vld[0] = tlu_hintp[0] & (~tlu_hpstate_priv[0] | (tlu_hpstate_priv[0] & tlu_int_pstate_ie[0])); assign tlu_hintp_vld[1] = tlu_hintp[1] & (~tlu_hpstate_priv[1] | (tlu_hpstate_priv[1] & tlu_int_pstate_ie[1])); assign tlu_hintp_vld[2] = tlu_hintp[2] & (~tlu_hpstate_priv[2] | (tlu_hpstate_priv[2] & tlu_int_pstate_ie[2])); assign tlu_hintp_vld[3] = tlu_hintp[3] & (~tlu_hpstate_priv[3] | (tlu_hpstate_priv[3] & tlu_int_pstate_ie[3])); */ assign tlu_hintp_vld[0] = tlu_hintp[0]; assign tlu_hintp_vld[1] = tlu_hintp[1]; assign tlu_hintp_vld[2] = tlu_hintp[2]; assign tlu_hintp_vld[3] = tlu_hintp[3]; // // resum_err traps // modified for timing // fix for bug 7027 /* assign tlu_rerr_vld[0] = tlu_resum_err_trap[0] & tlu_int_pstate_ie[0]; assign tlu_rerr_vld[1] = tlu_resum_err_trap[1] & tlu_int_pstate_ie[1]; assign tlu_rerr_vld[2] = tlu_resum_err_trap[2] & tlu_int_pstate_ie[2]; assign tlu_rerr_vld[3] = tlu_resum_err_trap[3] & tlu_int_pstate_ie[3]; */ assign tlu_rerr_vld[0] = tlu_resum_err_trap[0]; assign tlu_rerr_vld[1] = tlu_resum_err_trap[1]; assign tlu_rerr_vld[2] = tlu_resum_err_trap[2]; assign tlu_rerr_vld[3] = tlu_resum_err_trap[3]; assign pil_cmp_en[0] = ~(tlu_hpstate_priv[0] & tlu_hpstate_enb[0]); assign pil_cmp_en[1] = ~(tlu_hpstate_priv[1] & tlu_hpstate_enb[1]); assign pil_cmp_en[2] = ~(tlu_hpstate_priv[2] & tlu_hpstate_enb[2]); assign pil_cmp_en[3] = ~(tlu_hpstate_priv[3] & tlu_hpstate_enb[3]); // TLU.TICK_INT - The tick and stick interrupt logic has been moved to tlu_tdp // the interrupt will be report back to tlu_tcl via the softint settings /* assign wsr_tick_intclr_g = (tlu_clr_sftint_l_g | ~tlu_wsr_data_w[0]) & (tlu_wr_sftint_l_g | tlu_wsr_data_w[0]); assign wsr_tick_intset_g = ~(tlu_set_sftint_l_g & tlu_wr_sftint_l_g) & tlu_wsr_data_w[0]; // // added for hypervisor suppor for tlu_stck_int assign wsr_stick_intclr_g = (tlu_clr_sftint_l_g | ~tlu_wsr_data_b16_w) & (tlu_wr_sftint_l_g | tlu_wsr_data_b16_w); assign wsr_stick_intset_g = ~(tlu_set_sftint_l_g & tlu_wr_sftint_l_g) & tlu_wsr_data_b16_w; */ // The following code has been moved to tlu_tdp /* assign tick_intclr[0] = tlu_tick_int[0] & wsr_tick_intclr_g; assign tick_intclr[1] = tlu_tick_int[1] & wsr_tick_intclr_g; assign tick_intclr[2] = tlu_tick_int[2] & wsr_tick_intclr_g; assign tick_intclr[3] = tlu_tick_int[3] & wsr_tick_intclr_g; // assign tickcmp_int[0] = tlu_tick_match & ~tick_intdis0 & tlu_tickcmp_sel[0]; assign tickcmp_int[1] = tlu_tick_match & ~tick_intdis1 & tlu_tickcmp_sel[1]; assign tickcmp_int[2] = tlu_tick_match & ~tick_intdis2 & tlu_tickcmp_sel[2]; assign tickcmp_int[3] = tlu_tick_match & ~tick_intdis3 & tlu_tickcmp_sel[3]; assign tick_intrpt[0] = tickcmp_int[0] | tick_intclr[0]; assign tick_intrpt[1] = tickcmp_int[1] | tick_intclr[1]; assign tick_intrpt[2] = tickcmp_int[2] | tick_intclr[2]; assign tick_intrpt[3] = tickcmp_int[3] | tick_intclr[3]; // modified for bug 1022 // qualified tlu_set_sftint with wsr_data_w[0] // assign tick_int_en[0] = ~tlu_sftint_en_l_g[0] | tick_intrpt[0]; assign tick_int_din[0] = (tick_intrpt[0] | wsr_tick_intset_g) ? 1'b1 : 1'b0; assign tick_int_en[1] = ~tlu_sftint_en_l_g[1] | tick_intrpt[1]; assign tick_int_din[1] = (tick_intrpt[1] | wsr_tick_intset_g) ? 1'b1 : 1'b0; assign tick_int_en[2] = ~tlu_sftint_en_l_g[2] | tick_intrpt[2]; assign tick_int_din[2] = (tick_intrpt[2] | wsr_tick_intset_g) ? 1'b1 : 1'b0; assign tick_int_en[3] = ~tlu_sftint_en_l_g[3] | tick_intrpt[3]; assign tick_int_din[3] = (tick_intrpt[3] | wsr_tick_intset_g) ? 1'b1 : 1'b0; // // recoded tlu_tick_int for bug 818 dffre_s dffre_tick_int0 ( .din (tick_int_din[0]), .q (tlu_tick_int[0]), .rst (local_rst), .en (tick_int_en[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // recoded tlu_tick_int for bug 818 dffre_s dffre_tick_int1 ( .din (tick_int_din[1]), .q (tlu_tick_int[1]), .rst (local_rst), .en (tick_int_en[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // recoded tlu_tick_int for bug 818 // dffre_s dffre_tick_int2 ( .din (tick_int_din[2]), .q (tlu_tick_int[2]), .rst (local_rst), .en (tick_int_en[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // recoded tlu_tick_int for bug 818 dffre_s dffre_tick_int3 ( .din (tick_int_din[3]), .q (tlu_tick_int[3]), .rst (local_rst), .en (tick_int_en[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ // // added and/or modified for hypervisor support // the following logic has been moved to tlu_tdp /* assign stick_intclr[0] = tlu_stick_int[0] & wsr_stick_intclr_g; assign stick_intclr[1] = tlu_stick_int[1] & wsr_stick_intclr_g; assign stick_intclr[2] = tlu_stick_int[2] & wsr_stick_intclr_g; assign stick_intclr[3] = tlu_stick_int[3] & wsr_stick_intclr_g; // assign stickcmp_int[0] = tlu_stick_match & ~stick_intdis0 & tlu_tickcmp_sel[0]; assign stickcmp_int[1] = tlu_stick_match & ~stick_intdis1 & tlu_tickcmp_sel[1]; assign stickcmp_int[2] = tlu_stick_match & ~stick_intdis2 & tlu_tickcmp_sel[2]; assign stickcmp_int[3] = tlu_stick_match & ~stick_intdis3 & tlu_tickcmp_sel[3]; // assign stick_intrpt[0] = stickcmp_int[0] | stick_intclr[0]; assign stick_intrpt[1] = stickcmp_int[1] | stick_intclr[1]; assign stick_intrpt[2] = stickcmp_int[2] | stick_intclr[2]; assign stick_intrpt[3] = stickcmp_int[3] | stick_intclr[3]; // // modified for bug 1022 // qualified tlu_set_sftint with wsr_data_w[16] // assign stick_int_en[0] = ~tlu_sftint_en_l_g[0] | stick_intrpt[0]; assign stick_int_din[0] = (stick_intrpt[0] | wsr_stick_intset_g) ? 1'b1 : 1'b0; assign stick_int_en[1] = ~tlu_sftint_en_l_g[1] | stick_intrpt[1]; assign stick_int_din[1] = (stick_intrpt[1] | wsr_stick_intset_g) ? 1'b1 : 1'b0; assign stick_int_en[2] = ~tlu_sftint_en_l_g[2] | stick_intrpt[2]; assign stick_int_din[2] = (stick_intrpt[2] | wsr_stick_intset_g) ? 1'b1 : 1'b0; assign stick_int_en[3] = ~tlu_sftint_en_l_g[3] | stick_intrpt[3]; assign stick_int_din[3] = (stick_intrpt[3] | wsr_stick_intset_g) ? 1'b1 : 1'b0; // recoded tlu_tick_int for bug 818 // dffre_s dffre_stick_int0 ( .din (stick_int_din[0]), .q (tlu_stick_int[0]), .rst (local_rst), .en (stick_int_en[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // dffre_s dffre_stick_int1 ( .din (stick_int_din[1]), .q (tlu_stick_int[1]), .rst (local_rst), .en (stick_int_en[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // dffre_s dffre_stick_int2 ( .din (stick_int_din[2]), .q (tlu_stick_int[2]), .rst (local_rst), .en (stick_int_en[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // dffre_s dffre_stick_int3 ( .din (stick_int_din[3]), .q (tlu_stick_int[3]), .rst (local_rst), .en (stick_int_en[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // modified for hypervisor support // assign tlu_sftint_lvl14_all[0] = tlu_sftint_lvl14[0] | tlu_tick_int[0] | tlu_stick_int[0]; assign tlu_sftint_lvl14_all[1] = tlu_sftint_lvl14[1] | tlu_tick_int[1] | tlu_stick_int[1]; assign tlu_sftint_lvl14_all[2] = tlu_sftint_lvl14[2] | tlu_tick_int[2] | tlu_stick_int[2]; assign tlu_sftint_lvl14_all[3] = tlu_sftint_lvl14[3] | tlu_tick_int[3] | tlu_stick_int[3]; // assign tlu_sftint_lvl14_int[0] = tickcmp_int[0] | stickcmp_int[0]; assign tlu_sftint_lvl14_int[1] = tickcmp_int[1] | stickcmp_int[1]; assign tlu_sftint_lvl14_int[2] = tickcmp_int[2] | stickcmp_int[2]; assign tlu_sftint_lvl14_int[3] = tickcmp_int[3] | stickcmp_int[3]; */ //========================================================================================= // PIL for Threads //========================================================================================= assign pil0_en = pil_rw_g & wsr_inst_g & thread0_wsel_g; assign pil1_en = pil_rw_g & wsr_inst_g & thread1_wsel_g; assign pil2_en = pil_rw_g & wsr_inst_g & thread2_wsel_g; assign pil3_en = pil_rw_g & wsr_inst_g & thread3_wsel_g; // THREAD 0 dffe_s #(4) dffe_pil0 ( .din (tlu_wsr_data_w[3:0]), .q (true_pil0[3:0]), .en (pil0_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // THREAD 1 dffe_s #(4) dffe_pil1 ( .din (tlu_wsr_data_w[3:0]), .q (true_pil1[3:0]), .en (pil1_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // THREAD 2 dffe_s #(4) dffe_pil2 ( .din (tlu_wsr_data_w[3:0]), .q (true_pil2[3:0]), .en (pil2_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // THREAD 3 dffe_s #(4) dffe_pil3 ( .din (tlu_wsr_data_w[3:0]), .q (true_pil3[3:0]), .en (pil3_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // TL for Threads //========================================================================================= // dff_s dff_stgim_g ( .din (ifu_tlu_immu_miss_m), .q (immu_miss_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // wrpr supplies new value else increment on trap. // wrpr %tl when tl=0 will cause a trap. // trap in MAXTL-1 enters RED_MODE. // added for hypervisor support // capped the tl value by supervisor write at MAXSTL // assign maxstl_wr_sel[0] = ~tlu_hyper_lite[0] & (tlu_wsr_data_w[2:0] > `MAXSTL); assign maxstl_wr_sel[1] = ~tlu_hyper_lite[1] & (tlu_wsr_data_w[2:0] > `MAXSTL); assign maxstl_wr_sel[2] = ~tlu_hyper_lite[2] & (tlu_wsr_data_w[2:0] > `MAXSTL); assign maxstl_wr_sel[3] = ~tlu_hyper_lite[3] & (tlu_wsr_data_w[2:0] > `MAXSTL); assign maxtl_wr_sel = (tlu_wsr_data_w[2:0] == 3'b111); // THREAD0 // Use to signal page fault for now. // sync_trap_taken_g already qualified with inst_vld_g. // long-latency sparc traps have to be killed in own pipeline // hwint interrupts are qualified elsewhere // modified due to timing // modified for bug 4561 assign thrd0_traps = (sync_trap_taken_g & thread0_rsel_g) | (pending_trap_sel[0] & ~(dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[0] | cwp_cmplt0_pending | sync_trap_taken_g | (tlu_gl_rw_g & wsr_inst_g))); // // trap level will get updated next cycle. dff_s #(1) dff_stgw2_0 ( .din (thrd0_traps), .q (thrd0_traps_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_thrd_traps_w2[0] = thrd0_traps_w2; assign trp_lvl0_at_maxtl = (trp_lvl0[2:0] == `MAXTL); assign trp_lvl0_at_maxtlless1 = (trp_lvl0[2:0] == `MAXTL_LESSONE); // // added for modified for hypervisor support assign trp_lvl_at_maxstl[0] = (trp_lvl0[2:0] == `MAXSTL); assign trp_lvl_gte_maxstl[0] = (trp_lvl0[2:0] > `MAXSTL) | trp_lvl_at_maxstl[0]; assign wsr_trp_lvl0_data_w[2:0] = (maxstl_wr_sel[0])? `MAXSTL_TL: ((maxtl_wr_sel)? `MAXTL: tlu_wsr_data_w[2:0]); // // added for timing dff_s #(3) dff_wsr_trp_lvl0_data_w2 ( .din (wsr_trp_lvl0_data_w[2:0]), .q (wsr_trp_lvl0_data_w2[2:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // The following section has been recoded due to timing //========================================================================================= // trap level to be incremented if thread not at MAXTL and not in redmode assign trp_lvl0_incr_w2 = thrd0_traps_w2 & ~trp_lvl0_at_maxtl; assign trp_lvl0_new[2:0] = (tl_rw_w2 & wsr_inst_w2 & thread0_wsel_w2) ? wsr_trp_lvl0_data_w2[2:0] : (local_rst | por_rstint0_w2) ? `MAXTL : (dnrtry_inst_w2[0]) ? trp_lvl0[2:0] - 3'b001:// done/retry decrements trp_lvl0[2:0] + {2'b00,trp_lvl0_incr_w2};// trap increments assign tl0_en = (tl_rw_w2 & wsr_inst_w2 & thread0_wsel_w2) | trp_lvl0_incr_w2| local_rst | por_rstint0_w2 | dnrtry_inst_w2[0]; // Reset required as processor will start out at tl0 after reset. // tl has to be correctly defined for all conditions !!! dffe_s #(3) dffe_tl0 ( .din (trp_lvl0_new[2:0]), .q (trp_lvl0[2:0]), .en (tl0_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_lsu_tl_zero[0] = ~trp_lvl0[2] & ~trp_lvl0[1] & ~trp_lvl0[0]; assign tl0_gt_0 = trp_lvl0[2] | trp_lvl0[1] | trp_lvl0[0]; // // THREAD1 // Use to signal page fault for now. // sync_trap_taken_g already qualified with inst_vld_g. // long-latency sparc traps have to be killed in own pipeline // hwint interrupts are qualified elsewhere // modified due to timing assign thrd1_traps = (sync_trap_taken_g & thread1_rsel_g ) | (pending_trap_sel[1] & ~(dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[1] | cwp_cmplt1_pending | sync_trap_taken_g | (tlu_gl_rw_g & wsr_inst_g))); // // trap level will get updated next cycle. dff_s #(1) dff_stgw2_1 ( .din (thrd1_traps), .q (thrd1_traps_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_thrd_traps_w2[1] = thrd1_traps_w2; assign trp_lvl1_at_maxtl = (trp_lvl1[2:0] == `MAXTL); assign trp_lvl1_at_maxtlless1 = (trp_lvl1[2:0] == `MAXTL_LESSONE); // // added for modified for hypervisor support assign trp_lvl_at_maxstl[1] = (trp_lvl1[2:0] == `MAXSTL); assign trp_lvl_gte_maxstl[1] = (trp_lvl1[2:0] > `MAXSTL) | trp_lvl_at_maxstl[1]; assign wsr_trp_lvl1_data_w[2:0] = (maxstl_wr_sel[1])? `MAXSTL_TL: ((maxtl_wr_sel)? `MAXTL: tlu_wsr_data_w[2:0]); // // added for timing dff_s #(3) dff_wsr_trp_lvl1_data_w2 ( .din (wsr_trp_lvl1_data_w[2:0]), .q (wsr_trp_lvl1_data_w2[2:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // The following section has been recoded due to timing //========================================================================================= // trap level to be incremented if thread not at MAXTL and not in redmode assign trp_lvl1_incr_w2 = thrd1_traps_w2 & ~trp_lvl1_at_maxtl; assign trp_lvl1_new[2:0] = (tl_rw_w2 & wsr_inst_w2 & thread1_wsel_w2) ? wsr_trp_lvl1_data_w2[2:0] : (local_rst | por_rstint1_w2) ? `MAXTL : (dnrtry_inst_w2[1]) ? trp_lvl1[2:0] - 3'b001:// done/retry decrements trp_lvl1[2:0] + {2'b00,trp_lvl1_incr_w2};// trap increments assign tl1_en = (tl_rw_w2 & wsr_inst_w2 & thread1_wsel_w2) | trp_lvl1_incr_w2| local_rst | por_rstint1_w2 | dnrtry_inst_w2[1]; // Reset required as processor will start out at tl1 after reset. // tl has to be correctly defined for all conditions !!! dffe_s #(3) dffe_tl1 ( .din (trp_lvl1_new[2:0]), .q (trp_lvl1[2:0]), .en (tl1_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_lsu_tl_zero[1] = ~trp_lvl1[2] & ~trp_lvl1[1] & ~trp_lvl1[0]; assign tl1_gt_0 = trp_lvl1[2] | trp_lvl1[1] | trp_lvl1[0]; // // THREAD2 // Use to signal page fault for now. // sync_trap_taken_g already qualified with inst_vld_g. // long-latency sparc traps have to be killed in own pipeline // hwint interrupts are qualified elsewhere // modified due to timing // modified for bug 3827 assign thrd2_traps = (sync_trap_taken_g & thread2_rsel_g) | (pending_trap_sel[2] & ~(dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[2] | cwp_cmplt2_pending | sync_trap_taken_g | (tlu_gl_rw_g & wsr_inst_g))); // trap level will get updated next cycle. dff_s #(1) dff_stgw2_2 ( .din (thrd2_traps), .q (thrd2_traps_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_thrd_traps_w2[2] = thrd2_traps_w2; assign trp_lvl2_at_maxtl = (trp_lvl2[2:0] == `MAXTL); assign trp_lvl2_at_maxtlless1 = (trp_lvl2[2:0] == `MAXTL_LESSONE); // // added or modified for hypervisor support assign trp_lvl_at_maxstl[2] = (trp_lvl2[2:0] == `MAXSTL); assign trp_lvl_gte_maxstl[2] = (trp_lvl2[2:0] > `MAXSTL) | trp_lvl_at_maxstl[2]; assign wsr_trp_lvl2_data_w[2:0] = (maxstl_wr_sel[2])? `MAXSTL_TL: ((maxtl_wr_sel)? `MAXTL: tlu_wsr_data_w[2:0]); // // added for timing dff_s #(3) dff_wsr_trp_lvl2_data_w2 ( .din (wsr_trp_lvl2_data_w[2:0]), .q (wsr_trp_lvl2_data_w2[2:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // The following section has been recoded due to timing //========================================================================================= // trap level to be incremented if thread not at MAXTL and not in redmode assign trp_lvl2_incr_w2 = thrd2_traps_w2 & ~trp_lvl2_at_maxtl; assign trp_lvl2_new[2:0] = (tl_rw_w2 & wsr_inst_w2 & thread2_wsel_w2) ? wsr_trp_lvl2_data_w2[2:0] : (local_rst | por_rstint2_w2) ? `MAXTL : (dnrtry_inst_w2[2]) ? trp_lvl2[2:0] - 3'b001:// done/retry decrements trp_lvl2[2:0] + {2'b00,trp_lvl2_incr_w2};// trap increments assign tl2_en = (tl_rw_w2 & wsr_inst_w2 & thread2_wsel_w2) | trp_lvl2_incr_w2| local_rst | por_rstint2_w2 | dnrtry_inst_w2[2]; // Reset required as processor will start out at tl1 after reset. // tl has to be correctly defined for all conditions !!! dffe_s #(3) dffe_tl2 ( .din (trp_lvl2_new[2:0]), .q (trp_lvl2[2:0]), .en (tl2_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_lsu_tl_zero[2] = ~trp_lvl2[2] & ~trp_lvl2[1] & ~trp_lvl2[0]; assign tl2_gt_0 = trp_lvl2[2] | trp_lvl2[1] | trp_lvl2[0]; // // THREAD3 // Use to signal page fault for now. // sync_trap_taken_g already qualified with inst_vld_g. // long-latency sparc traps have to be killed in own pipeline // hwint interrupts are qualified elsewhere // modified due to timing assign thrd3_traps = (sync_trap_taken_g & thread3_rsel_g) | (pending_trap_sel[3] & ~(dnrtry_inst_g | tsa_wr_tid_sel_g | ifu_thrd_flush_w[3] | cwp_cmplt3_pending | sync_trap_taken_g | (tlu_gl_rw_g & wsr_inst_g))); // trap level will get updated next cycle. dff_s #(1) dff_stgw2_3 ( .din (thrd3_traps), .q (thrd3_traps_w2), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_thrd_traps_w2[3] = thrd3_traps_w2; assign trp_lvl3_at_maxtl = (trp_lvl3[2:0] == `MAXTL); assign trp_lvl3_at_maxtlless1 = (trp_lvl3[2:0] == `MAXTL_LESSONE); // // added for modified for hypervisor support assign trp_lvl_at_maxstl[3] = (trp_lvl3[2:0] == `MAXSTL); assign trp_lvl_gte_maxstl[3] = (trp_lvl3[2:0] > `MAXSTL) | trp_lvl_at_maxstl[3]; assign wsr_trp_lvl3_data_w[2:0] = (maxstl_wr_sel[3])? `MAXSTL_TL: ((maxtl_wr_sel)? `MAXTL: tlu_wsr_data_w[2:0]); // // added for timing dff_s #(3) dff_wsr_trp_lvl3_data_w2 ( .din (wsr_trp_lvl3_data_w[2:0]), .q (wsr_trp_lvl3_data_w2[2:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // The following section has been recoded due to timing //========================================================================================= // trap level to be incremented if thread not at MAXTL and not in redmode assign trp_lvl3_incr_w2 = thrd3_traps_w2 & ~trp_lvl3_at_maxtl; assign trp_lvl3_new[2:0] = (tl_rw_w2 & wsr_inst_w2 & thread3_wsel_w2) ? wsr_trp_lvl3_data_w2[2:0] : (local_rst | por_rstint3_w2) ? `MAXTL : (dnrtry_inst_w2[3]) ? trp_lvl3[2:0] - 3'b001:// done/retry decrements trp_lvl3[2:0] + {2'b00,trp_lvl3_incr_w2};// trap increments assign tl3_en = (tl_rw_w2 & wsr_inst_w2 & thread3_wsel_w2) | trp_lvl3_incr_w2| local_rst | por_rstint3_w2 | dnrtry_inst_w2[3]; // Reset required as processor will start out at tl1 after reset. dffe_s #(3) dffe_tl3 ( .din (trp_lvl3_new[2:0]), .q (trp_lvl3[2:0]), .en (tl3_en), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_lsu_tl_zero[3] = ~trp_lvl3[2] & ~trp_lvl3[1] & ~trp_lvl3[0]; assign tl3_gt_0 = trp_lvl3[2] | trp_lvl3[1] | trp_lvl3[0]; // // added for hypervisor support - TLZ trap // detection of transition of trap-level from <> 0 to 0 // modified for bug 3192 assign tlz_thread_set[0] = ~(tlu_lsu_tl_zero[0] | (|(trp_lvl0_new[2:0]))) & tl0_en; assign tlz_thread_set[1] = ~(tlu_lsu_tl_zero[1] | (|(trp_lvl1_new[2:0]))) & tl1_en; assign tlz_thread_set[2] = ~(tlu_lsu_tl_zero[2] | (|(trp_lvl2_new[2:0]))) & tl2_en; assign tlz_thread_set[3] = ~(tlu_lsu_tl_zero[3] | (|(trp_lvl3_new[2:0]))) & tl3_en; dff_s #(`TLU_THRD_NUM) dff_tlz_thread_data ( .din (tlz_thread_set[`TLU_THRD_NUM-1:0]), .q (tlz_thread_data[`TLU_THRD_NUM-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // storing the state of the tlz trap to take the trap on the next valid // instruction // modified for bug 3646 dffre_s dffr_tlz_thread_0 ( .din (tlz_thread_data[0]), .q (tlz_thread[0]), .rst (local_rst | tlz_trap_g[0] | thread_inst_vld_g[0]), .en (tlz_thread_data[0] & tlu_hpstate_tlz[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffr_tlz_thread_1 ( .din (tlz_thread_data[1]), .q (tlz_thread[1]), .rst (local_rst | tlz_trap_g[1] | thread_inst_vld_g[1]), .en (tlz_thread_data[1] & tlu_hpstate_tlz[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffr_tlz_thread_2 ( .din (tlz_thread_data[2]), .q (tlz_thread[2]), .rst (local_rst | tlz_trap_g[2] | thread_inst_vld_g[2]), .en (tlz_thread_data[2] & tlu_hpstate_tlz[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffre_s dffr_tlz_thread_3 ( .din (tlz_thread_data[3]), .q (tlz_thread[3]), .rst (local_rst | tlz_trap_g[3] | thread_inst_vld_g[3]), .en (tlz_thread_data[3] & tlu_hpstate_tlz[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // initiate the trap for the appropriate thread // modified for bug 4434 & 4758 assign tlz_trap_m[0] = ~ifu_rstint_m & // ~(ifu_rstint_m | (ifu_hwint_m & tlu_int_pstate_ie[0])) & inst_vld_m & tlu_lsu_tl_zero[0] & thread0_rsel_m & tlz_thread[0] & ~tlu_hpstate_priv[0] & tlu_hpstate_tlz[0]; assign tlz_trap_m[1] = ~ifu_rstint_m & // ~(ifu_rstint_m | (ifu_hwint_m & tlu_int_pstate_ie[1])) & inst_vld_m & tlu_lsu_tl_zero[1] & thread1_rsel_m & tlz_thread[1] & ~tlu_hpstate_priv[1] & tlu_hpstate_tlz[1]; assign tlz_trap_m[2] = ~ifu_rstint_m & // ~(ifu_rstint_m | (ifu_hwint_m & tlu_int_pstate_ie[2])) & inst_vld_m & tlu_lsu_tl_zero[2] & thread2_rsel_m & tlz_thread[2] & ~tlu_hpstate_priv[2] & tlu_hpstate_tlz[2]; assign tlz_trap_m[3] = ~ifu_rstint_m & // ~(ifu_rstint_m | (ifu_hwint_m & tlu_int_pstate_ie[3])) & inst_vld_m & tlu_lsu_tl_zero[3] & thread3_rsel_m & tlz_thread[3] & ~tlu_hpstate_priv[3] & tlu_hpstate_tlz[3]; // // added for timing - modifed to removed the qualification of the interrupts from // IFU assign tlz_exu_trap_m[0] = tlu_lsu_tl_zero[0] & thread0_rsel_m & tlz_thread[0] & ~tlu_hpstate_priv[0] & tlu_hpstate_tlz[0]; assign tlz_exu_trap_m[1] = tlu_lsu_tl_zero[1] & thread1_rsel_m & tlz_thread[1] & ~tlu_hpstate_priv[1] & tlu_hpstate_tlz[1]; assign tlz_exu_trap_m[2] = tlu_lsu_tl_zero[2] & thread2_rsel_m & tlz_thread[2] & ~tlu_hpstate_priv[2] & tlu_hpstate_tlz[2]; assign tlz_exu_trap_m[3] = tlu_lsu_tl_zero[3] & thread3_rsel_m & tlz_thread[3] & ~tlu_hpstate_priv[3] & tlu_hpstate_tlz[3]; // // modified for bug 4862 // indicate that a TLZ trap needs to be taken dffr_s #(`TLU_THRD_NUM) dffr_tlz_trap_g ( .din (tlz_trap_m[`TLU_THRD_NUM-1:0]), .q (tlz_trap_nq_g[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlz_trap_g[0] = tlz_trap_nq_g[0] & ~inst_ifu_flush2_w; assign tlz_trap_g[1] = tlz_trap_nq_g[1] & ~inst_ifu_flush2_w; assign tlz_trap_g[2] = tlz_trap_nq_g[2] & ~inst_ifu_flush2_w; assign tlz_trap_g[3] = tlz_trap_nq_g[3] & ~inst_ifu_flush2_w; //========================================================================================= // EXCEPTION HANDLING //========================================================================================= // modified to test out timing - /* assign tlu_ifu_flush_pipe_w = (thrd0_traps_flush | thrd1_traps_flush | thrd2_traps_flush | thrd3_traps_flush) & inst_vld_g; // assign tlu_ifu_flush_pipe_w = (dside_sync_trap_g & inst_vld_g) | local_early_flush_pipe_w; */ assign tlu_ifu_flush_pipe_w = (early_dside_trap_g & inst_vld_g) | lsu_tlu_defr_trp_taken_g | local_early_flush_pipe_w | lsu_ttype_vld_w; // modified for bug 4561 // (lsu_defr_trap_g & (thrid_g[1:0] == thrid_w2[1:0])) | // // modified for timing fix assign tlu_flush_all_w = inst_ifu_flush_w | local_early_flush_pipe_w | (lsu_tlu_early_flush_w & inst_vld_nf_g); // staging the all flush signal dffr_s dffr_tlu_flush_all_w2 ( .din (tlu_flush_all_w), .q (tlu_flush_all_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for timing assign lsu_ttype_vld_w = lsu_tlu_ttype_vld_m2 & inst_vld_g; // // staging the flush-pipe signal dffr_s dffr_lsu_ttype_vld_w2 ( .din (lsu_ttype_vld_w), .q (lsu_ttype_vld_w2), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_flush_pipe_w = tlu_ifu_flush_pipe_w; // // added for timing assign tlu_full_flush_pipe_w2 = lsu_ttype_vld_w2 | tlu_flush_all_w2; // added for early flush pipe timing fix // assign tlu_early_flush_pipe_m = sync_trap_taken_m; assign tlu_local_flush_w = local_early_flush_pipe_w; assign tlu_early_flush_pipe2_w = local_early_flush_pipe2_w; assign tlu_exu_early_flush_pipe_w = local_early_flush_pipe3_w; assign tlu_early_flush_pipe_w = local_early_flush_pipe4_w; // added local early flush pipe timing fix dffr_s dffr_local_early_flush_pipe_w ( .din (sync_trap_taken_m), .q (local_early_flush_pipe_w), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_local_early_flush_pipe2_w ( .din (sync_trap_taken_m), .q (local_early_flush_pipe2_w), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_local_early_flush_pipe3_w ( .din (sync_trap_taken_m), .q (local_early_flush_pipe3_w), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffr_s dffr_local_early_flush_pipe4_w ( .din (sync_trap_taken_m), .q (local_early_flush_pipe4_w), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // SFSR/SFAR HANDLING //========================================================================================= assign thread_tl_zero = thread0_rsel_e ? tlu_lsu_tl_zero[0] : thread1_rsel_e ? tlu_lsu_tl_zero[1] : thread2_rsel_e ? tlu_lsu_tl_zero[2] : tlu_lsu_tl_zero[3]; // Generate selects for ctxt to be written to tag_access // iside trap meant to cover immu_miss and inst_access_excp // modified for hypervisor support // assign iside_trap = exu_tlu_ttype_vld_m | immu_va_oor_brnchetc_m | exu_tlu_va_oor_jl_ret_m; // removed for timing /* assign iside_trap = ifu_tlu_immu_miss_m | exu_tlu_ttype_vld_m | immu_va_oor_brnchetc_m | exu_tlu_va_oor_jl_ret_m ; assign tlu_tag_access_ctxt_sel_m[0] = iside_trap & thread_tl_zero_m; assign tlu_tag_access_ctxt_sel_m[1] = iside_trap & ~thread_tl_zero_m; assign tlu_tag_access_ctxt_sel_m[2] = ~iside_trap; */ // ISFSR // voor reported for both ifetch and memref - need to distinguish. // va-out-of-range for ldst,branch,call,sequential // modified for bug 4763 // assign immu_va_oor_brnchetc_m // = exu_tlu_va_oor_m & ~pstate_am & ~memref_m; dffr_s dffr_immu_va_oor_brnchetc_m ( .din (ifu_tlu_pc_oor_e), .q (immu_va_oor_brnchetc_m), .rst (local_rst), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_memref_e ( .din (ifu_lsu_memref_d), .q (memref_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_memref_m ( .din (memref_e),// ifu_tlu_flsh_inst_e .q (memref_m),// flsh_inst_m .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign isfsr_flt_vld_m = (thread0_rsel_m & tlu_isfsr_flt_vld[0]) | (thread1_rsel_m & tlu_isfsr_flt_vld[1]) | (thread2_rsel_m & tlu_isfsr_flt_vld[2]) | (thread3_rsel_m & tlu_isfsr_flt_vld[3]); assign tlu_lsu_pstate_am[3:0] = tlu_pstate_am[3:0]; assign pstate_am = (thread0_rsel_m & tlu_pstate_am[0]) | (thread1_rsel_m & tlu_pstate_am[1]) | (thread2_rsel_m & tlu_pstate_am[2]) | (thread3_rsel_m & tlu_pstate_am[3]); dff_s #(1) dff_am_stgg ( .din (pstate_am), .q (tlu_addr_msk_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // logic moved to lsu_expctl due to timing /* assign pstate_priv = (thread0_rsel_m & tlu_pstate_priv[0]) | (thread1_rsel_m & tlu_pstate_priv[1]) | (thread2_rsel_m & tlu_pstate_priv[2]) | (thread3_rsel_m & tlu_pstate_priv[3]); */ assign trp_lvl_zero = (thread0_rsel_g & tlu_lsu_tl_zero[0]) | (thread1_rsel_g & tlu_lsu_tl_zero[1]) | (thread2_rsel_g & tlu_lsu_tl_zero[2]) | (thread3_rsel_g & tlu_lsu_tl_zero[3]); assign isfsr_ftype_sel[0] = ifu_tlu_priv_violtn_m; // The 2 out of range exceptions are mutex as they are based on inst type. assign isfsr_ftype_sel[1] = ~isfsr_ftype_sel[0] & immu_va_oor_brnchetc_m; // modified for bug 4452 assign isfsr_ftype_sel[2] = ~isfsr_ftype_sel[0] & exu_tlu_va_oor_jl_ret_m & ~(exu_tlu_ttype_vld_m | ifu_tlu_ttype_vld_m) & ~pstate_am; assign isfsr_trp_wr_m = |isfsr_ftype_sel[2:0]; dff_s #(1) dff_isfsrw_stgg ( .din (isfsr_trp_wr_m), .q (isfsr_trp_wr_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(1) dff_itag_acc_sel_g ( .din (isfsr_trp_wr_m | ifu_tlu_immu_miss_m), .q (itag_acc_sel_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_itag_acc_sel_g = itag_acc_sel_g; // terms below can be made common. (grape) // recoded for timing - flush qualification moved to mmu_ctl assign immu_sfsr_trp_wr[0] = isfsr_trp_wr_g & inst_vld_nf_g & thread0_rsel_g; assign immu_sfsr_trp_wr[1] = isfsr_trp_wr_g & inst_vld_nf_g & thread1_rsel_g; assign immu_sfsr_trp_wr[2] = isfsr_trp_wr_g & inst_vld_nf_g & thread2_rsel_g; assign immu_sfsr_trp_wr[3] = isfsr_trp_wr_g & inst_vld_nf_g & thread3_rsel_g; assign isfsr_ftype_m[6] = isfsr_ftype_sel[2]; assign isfsr_ftype_m[5] = isfsr_ftype_sel[1]; assign isfsr_ftype_m[4:1] = 4'b0000; assign isfsr_ftype_m[0] = isfsr_ftype_sel[0]; // // modified due to timing dff_s #(8) dff_isfsr_stgg ( .din ({isfsr_ftype_m[6:0],isfsr_flt_vld_m}), // pstate_priv, .q ({isfsr_ftype_g[6:0],isfsr_flt_vld_g}), // pstate_priv_g, .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // Can we remove the excessive bits in isfsr ? // Do jmpl/rtrn define the asi in i or dsfsr ? seems only jmpl_rtrn mem_addr_not_aligned // traps set the asi and that too in the dsfsr // Need to add ctxt !!! assign isfsr_ctxt_g[1:0] = trp_lvl_zero ? 2'b00 : 2'b10; dff_s #(1) dff_thread_tl_zero_m ( .din (thread_tl_zero), .q (thread_tl_zero_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(1) dff_thread_tl_zero_g ( .din (thread_tl_zero_m), .q (thread_tl_zero_g), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign isfsr_asi_g[7:0] = thread_tl_zero_g ? 8'h80 : 8'h04; // // modified for bug 3323 assign tlu_isfsr_din_g[23:0] = {isfsr_asi_g[7:0],2'b0,isfsr_ftype_g[6:0],1'b0,isfsr_ctxt_g[1:0],2'b0,isfsr_flt_vld_g,1'b1}; assign dmmu_va_oor_m = exu_tlu_va_oor_m & ~pstate_am & memref_m & ~lsu_tlu_squash_va_oor_m; dff_s #(3) dff_dsfsr_stgg ( .din ({dmmu_va_oor_m,// memref_m, exu_tlu_misalign_addr_jmpl_rtn_m, lsu_tlu_misalign_addr_ldst_atm_m}), .q ({dmmu_va_oor_g, misalign_addr_jmpl_rtn_g, misalign_addr_ldst_atm_g}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // GLOBAL REGISTER SWITCHING //========================================================================================= // modified for bug 3827 // assign agp_tid_sel = (dnrtry_inst_g) | (tlu_gl_rw_g & wsr_inst_g); assign agp_tid_g[1:0] = agp_tid_sel ? thrid_g[1:0] : trap_tid_g[1:0]; dff_s #(2) dff_tlu_agp_tid_w2 ( .din (agp_tid_g[1:0]), .q (agp_tid_w2[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // added for timing dff_s #(2) dff_agp_tid_w3 ( .din (agp_tid_w2[1:0]), .q (agp_tid_w3[1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_agp_tid_w2[1:0] = agp_tid_w2[1:0]; assign tlu_exu_agp_tid[1:0] = agp_tid_w3[1:0]; //========================================================================================= // CWP/CCR restoration //========================================================================================= // code moved to tlu_misctl /* dff_s #(8) dff_ccr_stgm ( .din (tsa_rdata_ccr[7:0]), .q (tlu_exu_ccr_m[7:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(3) dff_cwp_stgm ( .din (tsa_rdata_cwp[2:0]), .q (tlu_exu_cwp_m[2:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(8) dff_lsu_asi_m ( .din (tsa_rdata_asi[7:0]), .q (tlu_lsu_asi_m[7:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); */ // assign tlu_exu_tid_m[1:0] = thrid_m[1:0]; assign tlu_int_tid_m[1:0] = tlu_exu_tid_m[1:0]; assign tlu_lsu_tid_m[1:0] = tlu_exu_tid_m[1:0]; // modified due to timing violations assign tlu_lsu_asi_update_m = tlu_exu_cwpccr_update_m; // Assumption is that this will be transmitted in the equivalent // of the w-stage from the exu. assign cwp_cmplt0 = ~exu_tlu_cwp_cmplt_tid[1] & ~exu_tlu_cwp_cmplt_tid[0] & exu_tlu_cwp_cmplt; assign cwp_cmplt1 = ~exu_tlu_cwp_cmplt_tid[1] & exu_tlu_cwp_cmplt_tid[0] & exu_tlu_cwp_cmplt; assign cwp_cmplt2 = exu_tlu_cwp_cmplt_tid[1] & ~exu_tlu_cwp_cmplt_tid[0] & exu_tlu_cwp_cmplt; assign cwp_cmplt3 = exu_tlu_cwp_cmplt_tid[1] & exu_tlu_cwp_cmplt_tid[0] & exu_tlu_cwp_cmplt; assign pending_dntry0_taken = cwp_cmplt0_pending & pending_thrd0_event_taken; assign pending_dntry1_taken = cwp_cmplt1_pending & pending_thrd1_event_taken; assign pending_dntry2_taken = cwp_cmplt2_pending & pending_thrd2_event_taken; assign pending_dntry3_taken = cwp_cmplt3_pending & pending_thrd3_event_taken; // Any pending cwp change completes. // ** This equation can be optimized in terms of gate count ** assign cwp_cmplt_g = pending_dntry0_taken | pending_dntry1_taken | pending_dntry2_taken | pending_dntry3_taken; // A cwp change related to retry completes. assign cwp_cmplt_rtry_g = (cwp_cmplt0_pending & pending_thrd0_event_taken & cwp_retry0) | (cwp_cmplt1_pending & pending_thrd1_event_taken & cwp_retry1) | (cwp_cmplt2_pending & pending_thrd2_event_taken & cwp_retry2) | (cwp_cmplt3_pending & pending_thrd3_event_taken & cwp_retry3); // dff_s #(2) dff_ccmplt_stgw2 ( .din ({cwp_cmplt_g,cwp_cmplt_rtry_g}), .q ({cwp_cmplt_w2,cwp_cmplt_rtry_w2}), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); //========================================================================================= // Generate SSCAN data //========================================================================================= // assign sscan_tid_sel[`TLU_THRD_NUM-1:0] = ctu_sscan_tid[`TLU_THRD_NUM-1:0]; /* // logic moved to tlu_misctl // generating write indicators of ttype to the tsa assign sscan_tt_wr_sel[0] = tsa_ttype_en & tsa_wr_vld[1] & thread0_wtrp_w2; assign sscan_tt_wr_sel[1] = tsa_ttype_en & tsa_wr_vld[1] & thread1_wtrp_w2; assign sscan_tt_wr_sel[2] = tsa_ttype_en & tsa_wr_vld[1] & thread2_wtrp_w2; assign sscan_tt_wr_sel[3] = tsa_ttype_en & tsa_wr_vld[1] & thread3_wtrp_w2; // // generating read indicators of ttype from the tsa assign sscan_tt_rd_sel[0] = tsa_rd_vld_m & thread0_rsel_m; assign sscan_tt_rd_sel[1] = tsa_rd_vld_m & thread1_rsel_m; assign sscan_tt_rd_sel[2] = tsa_rd_vld_m & thread2_rsel_m; assign sscan_tt_rd_sel[3] = tsa_rd_vld_m & thread3_rsel_m; assign sscan_ttype_en[0] = sscan_tt_rd_sel[0] | sscan_tt_wr_sel[0]; assign sscan_ttype_en[1] = sscan_tt_rd_sel[1] | sscan_tt_wr_sel[1]; assign sscan_ttype_en[2] = sscan_tt_rd_sel[2] | sscan_tt_wr_sel[2]; assign sscan_ttype_en[3] = sscan_tt_rd_sel[3] | sscan_tt_wr_sel[3]; // assign sscan_tt0_din[`TSA_TTYPE_WIDTH-1:0] = (sscan_tt_wr_sel[0]) ? final_ttype_w2[`TSA_TTYPE_WIDTH-1:0] : tsa_rdata_ttype_m[`TSA_TTYPE_WIDTH-1:0]; assign sscan_tt1_din[`TSA_TTYPE_WIDTH-1:0] = (sscan_tt_wr_sel[1]) ? final_ttype_w2[`TSA_TTYPE_WIDTH-1:0] : tsa_rdata_ttype_m[`TSA_TTYPE_WIDTH-1:0]; assign sscan_tt2_din[`TSA_TTYPE_WIDTH-1:0] = (sscan_tt_wr_sel[2]) ? final_ttype_w2[`TSA_TTYPE_WIDTH-1:0] : tsa_rdata_ttype_m[`TSA_TTYPE_WIDTH-1:0]; assign sscan_tt3_din[`TSA_TTYPE_WIDTH-1:0] = (sscan_tt_wr_sel[3]) ? final_ttype_w2[`TSA_TTYPE_WIDTH-1:0] : tsa_rdata_ttype_m[`TSA_TTYPE_WIDTH-1:0]; // dffe_s #(`TSA_TTYPE_WIDTH) dffe_sscan_tt0_data ( .din (sscan_tt0_din[`TSA_TTYPE_WIDTH-1:0]), .q (sscan_tt0_data[`TSA_TTYPE_WIDTH-1:0]), .en (sscan_ttype_en[0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s #(`TSA_TTYPE_WIDTH) dffe_sscan_tt1_data ( .din (sscan_tt1_din[`TSA_TTYPE_WIDTH-1:0]), .q (sscan_tt1_data[`TSA_TTYPE_WIDTH-1:0]), .en (sscan_ttype_en[1]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s #(`TSA_TTYPE_WIDTH) dffe_sscan_tt2_data ( .din (sscan_tt2_din[`TSA_TTYPE_WIDTH-1:0]), .q (sscan_tt2_data[`TSA_TTYPE_WIDTH-1:0]), .en (sscan_ttype_en[2]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dffe_s #(`TSA_TTYPE_WIDTH) dffe_sscan_tt3_data ( .din (sscan_tt3_din[`TSA_TTYPE_WIDTH-1:0]), .q (sscan_tt3_data[`TSA_TTYPE_WIDTH-1:0]), .en (sscan_ttype_en[3]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s #(`TSA_TTYPE_WIDTH) dff_tsa_rdata_ttype_m ( .din (tsa_rdata_ttype[`TSA_TTYPE_WIDTH-1:0]), .q (tsa_rdata_ttype_m[`TSA_TTYPE_WIDTH-1:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tsa_rd_vld_e ( .din (tsa_rd_vld), .q (tsa_rd_vld_e), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); dff_s dff_tsa_rd_vld_m ( .din (tsa_rd_vld_e), .q (tsa_rd_vld_m), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so () ); // // modified - due to sscan_tt[0-3]_data moved to tlu_misctl mux4ds #(`TCL_SSCAN_WIDTH) mx_sscan_test_data ( .in0 ({trp_lvl0[2:0],sscan_tt0_data[`TSA_TTYPE_WIDTH-1:0]}), .in1 ({trp_lvl1[2:0],sscan_tt1_data[`TSA_TTYPE_WIDTH-1:0]}), .in2 ({trp_lvl2[2:0],sscan_tt2_data[`TSA_TTYPE_WIDTH-1:0]}), .in3 ({trp_lvl3[2:0],sscan_tt3_data[`TSA_TTYPE_WIDTH-1:0]}), .sel0 (sscan_tid_sel[0]), .sel1 (sscan_tid_sel[1]), .sel2 (sscan_tid_sel[2]), .sel3 (sscan_tid_sel[3]), .dout (tcl_sscan_test_data[`TCL_SSCAN_WIDTH-1:0]) ); */ mux4ds #(`TCL_SSCAN_WIDTH) mx_sscan_test_data ( .in0 (trp_lvl0[2:0]), .in1 (trp_lvl1[2:0]), .in2 (trp_lvl2[2:0]), .in3 (trp_lvl3[2:0]), .sel0 (sscan_tid_sel[0]), .sel1 (sscan_tid_sel[1]), .sel2 (sscan_tid_sel[2]), .sel3 (sscan_tid_sel[3]), .dout (tcl_sscan_test_data[`TCL_SSCAN_WIDTH-1:0]) ); assign tlu_sscan_tcl_data[`TCL_SSCAN_WIDTH-1:0] = tcl_sscan_test_data[`TCL_SSCAN_WIDTH-1:0]; //========================================================================================= // Instrumentation signals created for sas //========================================================================================= // // synopsys translate_off wire [`TSA_TTYPE_WIDTH-1:0] sas_final_ttype_g; wire [`TSA_TTYPE_WIDTH-1:0] sas_adj_lsu_ttype_m2; wire [6:0] sas_hwint_swint_ttype; wire [`TSA_TTYPE_WIDTH-3:0] sas_rst_ttype_g; mux4ds #(`TSA_TTYPE_WIDTH) mx_sas_final_ttype_g ( .sel0 (final_ttype_sel_g[0]), .sel1 (final_ttype_sel_g[1]), .sel2 (final_ttype_sel_g[2]), .sel3 (final_ttype_sel_g[3]), .in0 ({2'b0,sas_rst_ttype_g[`TSA_TTYPE_WIDTH-3:0]}), .in1 (early_sync_ttype_g[`TSA_TTYPE_WIDTH-1:0]), .in2 (sas_adj_lsu_ttype_m2[`TSA_TTYPE_WIDTH-1:0]), .in3 (pending_ttype[`TSA_TTYPE_WIDTH-1:0]), .dout (sas_final_ttype_g[`TSA_TTYPE_WIDTH-1:0]) ); mux3ds #(`TSA_TTYPE_WIDTH) mx_sas_adj_lsu_ttype_m2 ( .sel0 (lsu_defr_trap_g), .sel1 (va_oor_data_acc_excp_g & ~lsu_defr_trap_g), .sel2 (~(va_oor_data_acc_excp_g | lsu_defr_trap_g)), .in0 (9'h032), .in1 (9'h030), .in2 (lsu_tlu_ttype_m2), .dout (sas_adj_lsu_ttype_m2[`TSA_TTYPE_WIDTH-1:0]) ); assign sas_hwint_swint_ttype[6:0] = (hwint_g)? `HWINT_INT: (cpu_mondo_trap_g)? `CPU_MONDO_TRAP: (dev_mondo_trap_g)? `DEV_MONDO_TRAP: {3'b100, tlu_sftint_id[3:0]}; assign sas_rst_ttype_g[`TSA_TTYPE_WIDTH-3:0] = (rst_ttype_sel[0])? {4'b00,reset_id_g[2:0]}: (rst_ttype_sel[1])? wrap_tlz_ttype[6:0]: sas_hwint_swint_ttype[6:0]; // synopsys translate_on endmodule