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[/] [sparc64soc/] [trunk/] [T1-CPU/] [tlu/] [tlu_hyperv.v] - Rev 5
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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: tlu_hyperv.v // Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. // DO NOT ALTER OR REMOVE COPYRIGHT NOTICES. // // The above named program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public // License version 2 as published by the Free Software Foundation. // // The above named program is distributed in the hope that it will be // useful, but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public // License along with this work; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. // // ========== Copyright Header End ============================================ //////////////////////////////////////////////////////////////////////// /* // Description: Block that contain most of the Hypervisor support // additions */ //////////////////////////////////////////////////////////////////////// // Global header file includes //////////////////////////////////////////////////////////////////////// `include "sys.h" // system level definition file which contains the // time scale definition `include "tlu.h" //////////////////////////////////////////////////////////////////////// // Local header file includes / local defines //////////////////////////////////////////////////////////////////////// module tlu_hyperv (/*AUTOARG*/ // outputs tlu_htickcmp_rw_e, tlu_gl_rw_m, tlu_hpstate_din_sel0, tlu_hpstate_din_sel1, tlu_hpstate_din_sel2, tlu_hpstate_din_sel3, tlu_update_hpstate_l_w2, tlu_htickcmp_intdis, tlu_gl_lvl0, tlu_gl_lvl1, tlu_gl_lvl2, tlu_gl_lvl3, tlu_htstate_rw_d, tlu_wr_hintp_g, tlu_htstate_rw_g, tlu_set_hintp_sel_g, tlu_htba_en_l, tlu_scpd_wr_addr_g, tlu_scpd_wr_vld_g, tlu_scpd_rd_vld_m, tlu_scpd_rd_addr_m, tlu_hscpd_dacc_excpt_m, tlu_hyperv_rdpr_sel, tlu_exu_agp_swap, tlu_exu_agp, tlu_cpu_mondo_cmp, tlu_dev_mondo_cmp, tlu_resum_err_cmp, tlu_asi_queue_rd_vld_g, tlu_asi_queue_data_g, tlu_ld_data_vld_g, tlu_va_ill_g, tlu_asi_queue_rdata_g, tlu_qtail_dacc_excpt_m, tlu_asi_write_g, so, inc_ind_asi_wr_indr, inc_ind_asi_wr_inrr, inc_ind_asi_rd_invr, tlu_local_thrid_g, // inputs ifu_tlu_thrid_d, ifu_tlu_sraddr_d, tlu_wsr_data_w_global, tlu_tickcmp_sel, tlu_thrd_traps_w2, tlu_wsr_inst_nq_g, tlu_dnrtry0_inst_g, tlu_dnrtry1_inst_g, tlu_dnrtry2_inst_g, tlu_dnrtry3_inst_g, tlu_dnrtry_global_g, tlu_tick_ctl_din, tlu_pstate_priv, tlu_select_tba_w2, tlu_hpstate_priv, tlu_hpstate_enb, tlu_asi_state_e, ifu_lsu_alt_space_e, ifu_lsu_ld_inst_e, ifu_lsu_st_inst_e, lsu_tlu_early_flush_w, tlu_por_rstint_g, tlu_agp_tid_w2, // exu_lsu_ldst_va_e, tlu_local_flush_w, ifu_tlu_flush_fd_w, tlu_inst_vld_m, tlu_lsu_int_ldxa_vld_w2, tlu_asi_data_nf_vld_w2, lsu_tlu_ldst_va_m, arst_l, grst_l, rst_tri_en, si, se, rclk); //================================================= // output //================================================= // mux select to tdp to access the hyper-privileged ASR registers output tlu_htickcmp_rw_e; output tlu_gl_rw_m; // output tlu_gl_rw_g; // global switch indicator - used to be in tlu_tcl output [1:0] tlu_exu_agp; // output [1:0] tlu_exu_agp_tid; output tlu_exu_agp_swap; // // global register outputs output [`TSA_GLOBAL_WIDTH-1:0] tlu_gl_lvl0; // global register value t0 output [`TSA_GLOBAL_WIDTH-1:0] tlu_gl_lvl1; // global register value t1 output [`TSA_GLOBAL_WIDTH-1:0] tlu_gl_lvl2; // global register value t2 output [`TSA_GLOBAL_WIDTH-1:0] tlu_gl_lvl3; // global register value t3 // mux selects to choose source of data to store in the hpstate regs output [1:0] tlu_hpstate_din_sel0; output [1:0] tlu_hpstate_din_sel1; output [1:0] tlu_hpstate_din_sel2; output [1:0] tlu_hpstate_din_sel3; // // mux selects to read out the ASR registers // output [3:0] tlu_rdpr_mx5_sel; output [4:0] tlu_hyperv_rdpr_sel; // signal indicating mx5 is used // output tlu_rdpr_mx5_active; // // hpstate write enable // modified for timing // output [`TLU_THRD_NUM-1:0] tlu_update_hpstate_l_g; output [`TLU_THRD_NUM-1:0] tlu_update_hpstate_l_w2; // // htick compare reg write enable // output [`TLU_THRD_NUM-1:0] htickcmp_intdis_en; // htick compare interrupt disable output tlu_htickcmp_intdis; // clock enable for hintp regs. // output [`TLU_THRD_NUM-1:0] tlu_hintp_en_l_g; // wr control for hintp regs. output [`TLU_THRD_NUM-1:0] tlu_wr_hintp_g; // set control for hintp regs. // output [`TLU_THRD_NUM-1:0] tlu_set_hintp_g; output [`TLU_THRD_NUM-1:0] tlu_set_hintp_sel_g; // // update enable for the htba registers output [`TLU_THRD_NUM-1:0] tlu_htba_en_l; // // hypervisor lite indicator // output [`TLU_THRD_NUM-1:0] tlu_hyper_lite; // // hyper-privileged scratch-pad data access exception output tlu_hscpd_dacc_excpt_m; // // store instruction to alt space output tlu_asi_write_g; output [`TLU_THRD_NUM-1:0] inc_ind_asi_wr_indr; output [`TLU_THRD_NUM-1:0] inc_ind_asi_wr_inrr; output [`TLU_THRD_NUM-1:0] inc_ind_asi_rd_invr; output [`TLU_THRD_NUM-1:0] tlu_local_thrid_g; // read and write valids for the scratch-pad output tlu_scpd_rd_vld_m, tlu_scpd_wr_vld_g; output [`SCPD_RW_ADDR_WIDTH-1:0] tlu_scpd_wr_addr_g; output [`SCPD_RW_ADDR_WIDTH-1:0] tlu_scpd_rd_addr_m; // // decode of the htstate register write/read output tlu_htstate_rw_d; output tlu_htstate_rw_g; // // select for rdpr read in tlu_tdp // output tlu_htba_rsr_sel; // // output [`TLU_THRD_NUM-1:0] tlu_cpu_mondo_cmp; output [`TLU_THRD_NUM-1:0] tlu_dev_mondo_cmp; output [`TLU_THRD_NUM-1:0] tlu_resum_err_cmp; output tlu_qtail_dacc_excpt_m; // // asi queue rdata output output [`TLU_ASI_QUE_WIDTH-1:0] tlu_asi_queue_rdata_g; output tlu_asi_queue_rd_vld_g; output tlu_ld_data_vld_g; // output tlu_scpd_rd_vld_g; output tlu_va_ill_g; // output tlu_va_all_zero_g; output tlu_lsu_int_ldxa_vld_w2; // // global nets output so; //================================================= // input //================================================= // non-thread specific por reset indicator // modified for timing // input [1:0] ifu_tlu_thrid_e; input [1:0] ifu_tlu_thrid_d; // // staged write asr instruction // modified for timing // input tlu_wsr_inst_g; input tlu_wsr_inst_nq_g; // non-threaded por instruciton input [`TLU_THRD_NUM-1:0] tlu_por_rstint_g; // // addr of sr(st/pr) input [`TLU_ASR_ADDR_WIDTH-1:0] ifu_tlu_sraddr_d; // // staged pr/st data from irf. input [`TLU_GLOBAL_WIDTH-1:0] tlu_wsr_data_w_global; // restored global value for done/retry instructions input [`TSA_GLOBAL_WIDTH-1:0] tlu_dnrtry_global_g; // thread specific done and retry signals input tlu_dnrtry0_inst_g, tlu_dnrtry1_inst_g; input tlu_dnrtry2_inst_g, tlu_dnrtry3_inst_g; // // thread specific trap assetion signals // modified due to timing // input tlu_thrd0_traps, tlu_thrd1_traps; // input tlu_thrd2_traps, tlu_thrd3_traps; input [`TLU_THRD_NUM-1:0] tlu_thrd_traps_w2; // // indicating whether the trap is supervisor or hypervisor // added for bug 2889 // modified due to timing // input tlu_select_tba_g; input tlu_select_tba_w2; // input tlu_tick_ctl_din; // htick compare match // input tlu_htick_match; // // select src for tickcmp input [`TLU_THRD_NUM-1:0] tlu_tickcmp_sel; // // pstate - supervisor privilege input [`TLU_THRD_NUM-1:0] tlu_pstate_priv; // hpstate - hypervisor privilege input [`TLU_THRD_NUM-1:0] tlu_hpstate_priv; // hpstate - hypervisor lite enb input [`TLU_THRD_NUM-1:0] tlu_hpstate_enb; // thread id for the agp that needs swap // modified for timing // input [1:0] tlu_agp_tid_g; input [1:0] tlu_agp_tid_w2; // ASI addresses and valid bits for decode to // access the ASI registers input ifu_lsu_alt_space_e; // valid bit for the ASI data input ifu_lsu_ld_inst_e; // read enable input ifu_lsu_st_inst_e; // write enable // replaced due to timing violations // input tlu_nlsu_flush_w; // trap flush input tlu_local_flush_w; // trap flush input ifu_tlu_flush_fd_w; // trap flush input lsu_tlu_early_flush_w; // trap flush input tlu_asi_data_nf_vld_w2; // trap flush input tlu_inst_vld_m; // instruciton valid // // asi to be read/written input [`TLU_ASI_STATE_WIDTH-1:0] tlu_asi_state_e; // input [`TLU_ASI_VA_WIDTH-1:0] exu_lsu_ldst_va_e; input [`TLU_ASI_VA_WIDTH-1:0] lsu_tlu_ldst_va_m; // head and tail pointers input [`TLU_ASI_QUE_WIDTH-1:0] tlu_asi_queue_data_g; //reset // input tlu_rst_l; // unit reset input grst_l ; // unit reset input arst_l ; // unit reset input rst_tri_en ; // unit reset //clk input rclk; // // global nets input si, se; /*AUTOOUTPUT*/ // // staged thread id wire [1:0] thrid_e, thrid_m, thrid_g; // decoded thread id wire [`TLU_THRD_NUM-1:0] thread_sel_id_e; wire [`TLU_THRD_NUM-1:0] thread_sel_id_m; wire [`TLU_THRD_NUM-1:0] thread_sel_id_g; wire [`TLU_THRD_NUM-1:0] thread_sel_id_w2; // // flush due to "early traps" wire local_flush_all_w; // trap flush wire local_flush_all_w2; // trap flush // // por indicators generations wire por_rstint0_g, por_rstint1_g; wire por_rstint2_g, por_rstint3_g; // // GL register definitions - one GL register/thread wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl0, gl_lvl1, gl_lvl2, gl_lvl3; // updated value of the GL registers wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl0_new, gl_lvl1_new; wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl2_new, gl_lvl3_new; wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl0_update_g, gl_lvl1_update_g; wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl2_update_g, gl_lvl3_update_g; wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl0_update_w2, gl_lvl1_update_w2; wire [`TSA_GLOBAL_WIDTH-1:0] gl_lvl2_update_w2, gl_lvl3_update_w2; wire [`TSA_GLOBAL_WIDTH-1:0] wsr_gl_lvl0_data, wsr_gl_lvl1_data; wire [`TSA_GLOBAL_WIDTH-1:0] wsr_gl_lvl2_data, wsr_gl_lvl3_data; wire [`TSA_GLOBAL_WIDTH-1:0] dnrtry_gl_lvl0_data, dnrtry_gl_lvl1_data; wire [`TSA_GLOBAL_WIDTH-1:0] dnrtry_gl_lvl2_data, dnrtry_gl_lvl3_data; // value to be incremented for the GL registers // modified due to timing // wire gl0_incr_sel, gl1_incr_sel, gl2_incr_sel, gl3_incr_sel; // wire[1:0] gl_lvl0_incr, gl_lvl1_incr, gl_lvl2_incr, gl_lvl3_incr; // indicators to signal gl is at certain pre-defined values // added for timing wire [`TLU_THRD_NUM-1:0] gl_incr_sel_w2; wire [`TLU_THRD_NUM-1:0] gl_update_sel_g; wire [`TLU_THRD_NUM-1:0] gl_update_sel_w2; wire [`TLU_THRD_NUM-1:0] gl_priv_max_sel_w2; wire gl_lvl0_at_maxgl, gl_lvl1_at_maxgl; wire gl_lvl2_at_maxgl, gl_lvl3_at_maxgl; wire gl_lvl0_at_maxstl, gl_lvl1_at_maxstl; wire gl_lvl2_at_maxstl, gl_lvl3_at_maxstl; // gl write enables wire gl0_en, gl1_en, gl2_en, gl3_en; wire [`TLU_THRD_NUM-1:0] dnrtry_inst_w2; // maxgl control wire [`TLU_THRD_NUM-1:0] maxstl_gl_dnrtry_sel; wire [`TLU_THRD_NUM-1:0] maxstl_gl_wr_sel; wire [`TLU_THRD_NUM-1:0] maxgl_gl_wr_sel; // decoded thread info for agp swap // wire [`TLU_THRD_NUM-1:0] agp_thrid; wire [`TLU_THRD_NUM-1:0] agp_thrid_w2; // modified for for timing fix // wire agp_swap; // wire [1:0] agp_new; wire wsr_inst_g, wsr_inst_w2; wire agp_swap_w2, agp_swap_w3; wire [1:0] agp_new_w2, agp_new_w3; // // hyper-privileged ASR registers wire [`TLU_THRD_NUM-1:0] tlu_wr_hintp_g; wire htba_rw_d, hpstate_rw_d, htstate_rw_d, hintp_rw_d; wire htickcmp_rw_d, gl_rw_d; wire htba_rw_e, hpstate_rw_e, htstate_rw_e, hintp_rw_e; wire htickcmp_rw_e, gl_rw_e; wire htba_rw_m, hpstate_rw_m, htstate_rw_m, hintp_rw_m; wire htickcmp_rw_m, gl_rw_m; wire htba_rw_g, hpstate_rw_g, htstate_rw_g, hintp_rw_g; wire htickcmp_rw_g, gl_rw_g; wire [`TLU_THRD_NUM-1:0] htickcmp_intdis_en; wire hpstate_rw_w2; // // hyper-lite mode indicator wire [`TLU_THRD_NUM-1:0] tlu_hyper_lite; // // contorls to update the hpstate registers // wire update_hpstate0_g, update_hpstate1_g; // wire update_hpstate2_g, update_hpstate3_g; wire [`TLU_THRD_NUM-1:0] update_hpstate_g; wire [`TLU_THRD_NUM-1:0] update_hpstate_w2; // // htick interrupt disable control wire htick_intdis0, htick_intdis1; wire htick_intdis2, htick_intdis3; // // local addr of sr(st/pr) wire [`TLU_ASR_ADDR_WIDTH-3:0] sraddr; // ASI_QUEUE for hyper visor // thread 0 wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo0_head; wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo0_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo0_head; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo0_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err0_head; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err0_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err0_head; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err0_tail; // thread 1 wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo1_head; wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo1_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo1_head; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo1_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err1_head; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err1_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err1_head; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err1_tail; // thread 2 wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo2_head; wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo2_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo2_head; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo2_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err2_head; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err2_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err2_head; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err2_tail; // thread 3 wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo3_head; wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo3_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo3_head; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo3_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err3_head; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err3_tail; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err3_head; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err3_tail; // // read asi data from the asi queues wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo_hd_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] cpu_mondo_ta_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo_hd_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] dev_mondo_ta_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err_hd_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] resum_err_ta_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err_hd_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] nresum_err_ta_rdata; wire [`TLU_ASI_QUE_WIDTH-1:0] asi_queue_rdata1_g; wire [`TLU_ASI_QUE_WIDTH-1:0] asi_queue_rdata2_g; wire asi_qrdata_mx_sel2; // // head and tail comparison results // modified due to timing violations // wire cpu_mondo_head_rw_e, cpu_mondo_tail_rw_e; // wire dev_mondo_head_rw_e, dev_mondo_tail_rw_e; // wire resum_err_head_rw_e, resum_err_tail_rw_e; // wire nresum_err_head_rw_e, nresum_err_tail_rw_e; // wire cpu_mondo_head_rw_m, cpu_mondo_tail_rw_m; wire dev_mondo_head_rw_m, dev_mondo_tail_rw_m; wire resum_err_head_rw_m, resum_err_tail_rw_m; wire nresum_err_head_rw_m, nresum_err_tail_rw_m; // wire cpu_mondo_head_rw_g, cpu_mondo_tail_rw_g; wire dev_mondo_head_rw_g, dev_mondo_tail_rw_g; wire resum_err_head_rw_g, resum_err_tail_rw_g; wire nresum_err_head_rw_g, nresum_err_tail_rw_g; // creating one-hot selects // wire cpu_mondo_hd_onehot_g, cpu_mondo_ta_onehot_g; // wire dev_mondo_hd_onehot_g, dev_mondo_ta_onehot_g; // wire resum_err_hd_onehot_g, resum_err_ta_onehot_g; // wire nresum_err_hd_onehot_g, nresum_err_ta_onehot_g; // read wire [`TLU_THRD_NUM-1:0] cpu_mondo_head_rd_g; wire cpu_mondo_hd_rd_g; wire [`TLU_THRD_NUM-1:0] cpu_mondo_tail_rd_g; wire cpu_mondo_ta_rd_g; wire [`TLU_THRD_NUM-1:0] dev_mondo_head_rd_g; wire dev_mondo_hd_rd_g; wire [`TLU_THRD_NUM-1:0] dev_mondo_tail_rd_g; wire dev_mondo_ta_rd_g; wire [`TLU_THRD_NUM-1:0] resum_err_head_rd_g; wire resum_err_hd_rd_g; wire [`TLU_THRD_NUM-1:0] resum_err_tail_rd_g; wire resum_err_ta_rd_g; wire [`TLU_THRD_NUM-1:0] nresum_err_head_rd_g; wire nresum_err_hd_rd_g; wire [`TLU_THRD_NUM-1:0] nresum_err_tail_rd_g; wire nresum_err_ta_rd_g; wire [3:0] asi_qrdata_mx1_sel; wire [3:0] asi_qrdata_mx2_sel; // write wire [`TLU_THRD_NUM-1:0] cpu_mondo_head_wr_g; wire [`TLU_THRD_NUM-1:0] cpu_mondo_tail_wr_g; wire [`TLU_THRD_NUM-1:0] dev_mondo_head_wr_g; wire [`TLU_THRD_NUM-1:0] dev_mondo_tail_wr_g; wire [`TLU_THRD_NUM-1:0] resum_err_head_wr_g; wire [`TLU_THRD_NUM-1:0] resum_err_tail_wr_g; wire [`TLU_THRD_NUM-1:0] nresum_err_head_wr_g; wire [`TLU_THRD_NUM-1:0] nresum_err_tail_wr_g; // // ASI va address // modified due to timing fix // wire [`TLU_ASI_VA_WIDTH-1:0] tlu_ldst_va_e; wire [`TLU_ASI_VA_WIDTH-1:0] tlu_ldst_va_m; // // ASI read or write enables wire asi_queue_write_e; wire asi_queue_read_e; wire asi_queue_write_pq_m; wire asi_queue_read_pq_m; wire asi_queue_write_m; wire asi_queue_read_m; wire asi_queue_write_uf_g; // wire asi_queue_read_uf_g; wire asi_queue_write_g; wire asi_queue_read_g; // // decoded ASI addresses // ASI QUE wire asi_queue_rw_e, asi_queue_rw_m, asi_queue_rw_g; wire asi_inrr_rw_e, asi_inrr_rw_m, asi_inrr_rw_g; wire asi_indr_rw_e, asi_indr_rw_m, asi_indr_rw_g; wire asi_invr_rw_e, asi_invr_rw_m, asi_invr_rw_g; // supervisor scratch-pad asi state wire asi_scpd_rw_e, asi_scpd_rw_m; // hypervisor scratch-pad asi state wire asi_hscpd_rw_e, asi_hscpd_rw_m; wire asi_scpd_rw_vld_m, asi_scpd_rw_vld_g; // legal va addresses // modified due to timing // wire que_legal_va_e; wire que_legal_va_m; // modified due to timing // illegal va range indicator // wire que_ill_va_e, wire que_ill_va_m, que_ill_va_g; // modified due to timing // wire scpd_ill_va_e, wire scpd_ill_va_m, scpd_ill_va_g; // alignment checking wire va_not_baligned_m; // no longer necessary // wire va_all_zero_e, va_all_zero_m, va_all_zero_g; // write operation to queue tails wire qtail_write_m; // // data_access_exception for hyper-privileged scratch-pad wire hscpd_data_acc_excpt_m; wire hscpd_data_acc_excpt_pq_m; // write to hypervisor scratch-pad using 0x20 ASI state wire hscpd_priv_asi_acc_m; // access hypervisor scratchpad va addresses wire hscpd_va_rw_m; // // relevant portion of the va address for the scratch-pad // modified due to timing fix // wire [`TLU_ASI_SCPD_VA_HI:0] scpd_addr_va_e; wire [`SCPD_ASI_VA_ADDR_WIDTH-1:0] scpd_addr_va_m; wire [`SCPD_ASI_VA_ADDR_WIDTH-1:0] scpd_addr_va_g; // // load instruction data valid wire asi_ld_addr_vld_m, asi_ld_addr_vld_g; // privilege or hyper-privileged address indicators wire asr_hyperp, asr_priv; // // local reset wire local_rst_l; wire local_rst; // local clk wire clk; //////////////////////////////////////////////////////////////////////// // local reset //////////////////////////////////////////////////////////////////////// dffrl_async dffrl_local_rst_l( .din (grst_l), .clk (clk), .rst_l(arst_l), .q (local_rst_l), .se (se), .si (), .so () ); assign local_rst = ~local_rst_l; //////////////////////////////////////////////////////////////////////// // local clock //////////////////////////////////////////////////////////////////////// assign clk = rclk; //////////////////////////////////////////////////////////////////////// // Hyper-lite mode indicator //////////////////////////////////////////////////////////////////////// assign tlu_hyper_lite[0] = tlu_hpstate_priv[0]| (~tlu_hpstate_enb[0] & tlu_pstate_priv[0]); assign tlu_hyper_lite[1] = tlu_hpstate_priv[1]| (~tlu_hpstate_enb[1] & tlu_pstate_priv[1]); assign tlu_hyper_lite[2] = tlu_hpstate_priv[2]| (~tlu_hpstate_enb[2] & tlu_pstate_priv[2]); assign tlu_hyper_lite[3] = tlu_hpstate_priv[3]| (~tlu_hpstate_enb[3] & tlu_pstate_priv[3]); //////////////////////////////////////////////////////////////////////// // Thread ID staging and decoding //////////////////////////////////////////////////////////////////////// // assign thread_sel_id_e[0] = ~thrid_e[1] & ~thrid_e[0]; assign thread_sel_id_e[1] = ~thrid_e[1] & thrid_e[0]; assign thread_sel_id_e[2] = thrid_e[1] & ~thrid_e[0]; assign thread_sel_id_e[3] = thrid_e[1] & thrid_e[0]; dff_s #(`TLU_THRD_NUM) dff_thread_sel_id_m ( .din (thread_sel_id_e[`TLU_THRD_NUM-1:0]), .q (thread_sel_id_m[`TLU_THRD_NUM-1:0]), .clk (clk), .se (se), .si (), .so () ); dff_s #(`TLU_THRD_NUM) dff_thread_id_sel_g ( .din (thread_sel_id_m[`TLU_THRD_NUM-1:0]), .q (thread_sel_id_g[`TLU_THRD_NUM-1:0]), .clk (clk), .se (se), .si (), .so () ); dff_s #(`TLU_THRD_NUM) dff_thread_id_sel_w2 ( .din (thread_sel_id_g[`TLU_THRD_NUM-1:0]), .q (thread_sel_id_w2[`TLU_THRD_NUM-1:0]), .clk (clk), .se (se), .si (), .so () ); dff_s #(2) dff_thrid_e ( .din (ifu_tlu_thrid_d[1:0]), .q (thrid_e[1:0]), .clk (clk), .se (se), .si (), .so () ); dff_s #(2) dff_thrid_m ( .din (thrid_e[1:0]), .q (thrid_m[1:0]), .clk (clk), .se (se), .si (), .so () ); dff_s #(2) dff_thrid_g ( .din (thrid_m[1:0]), .q (thrid_g[1:0]), .clk (clk), .se (se), .si (), .so () ); // // modified due to rte failure assign tlu_local_thrid_g[0] = ~(|thrid_g[1:0]); assign tlu_local_thrid_g[1] = ~thrid_g[1] & thrid_g[0]; assign tlu_local_thrid_g[2] = thrid_g[1] & ~thrid_g[0]; assign tlu_local_thrid_g[3] = (&thrid_g[1:0]); /* assign tlu_local_thrid_g[`TLU_THRD_NUM-1:0] = thread_sel_id_g[`TLU_THRD_NUM-1:0]; */ //////////////////////////////////////////////////////////////////////// // POR indicator generation //////////////////////////////////////////////////////////////////////// // // modified for bug 1945 /* assign por_rstint0_g = tlu_por_rstint_g & thread_sel_id_g[0]; assign por_rstint1_g = tlu_por_rstint_g & thread_sel_id_g[1]; assign por_rstint2_g = tlu_por_rstint_g & thread_sel_id_g[2]; assign por_rstint3_g = tlu_por_rstint_g & thread_sel_id_g[3]; */ assign por_rstint0_g = tlu_por_rstint_g[0]; assign por_rstint1_g = tlu_por_rstint_g[1]; assign por_rstint2_g = tlu_por_rstint_g[2]; assign por_rstint3_g = tlu_por_rstint_g[3]; //////////////////////////////////////////////////////////////////////// // Hyper-privileged ASR decodes //////////////////////////////////////////////////////////////////////// // // flush signal - modified for timing // assign local_flush_all_w = tlu_nlsu_flush_w | lsu_tlu_early_flush_w; assign local_flush_all_w = tlu_local_flush_w | lsu_tlu_early_flush_w | ifu_tlu_flush_fd_w; dffr_s dffr_local_flush_all_w2 ( .din (local_flush_all_w), .q (local_flush_all_w2), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // added for timing assign tlu_lsu_int_ldxa_vld_w2 = tlu_asi_data_nf_vld_w2 & ~local_flush_all_w2; assign asr_hyperp = ifu_tlu_sraddr_d[`TLU_ASR_ADDR_WIDTH-1]; assign asr_priv = ifu_tlu_sraddr_d[`TLU_ASR_ADDR_WIDTH-2]; assign sraddr[`TLU_ASR_ADDR_WIDTH-3:0] = ifu_tlu_sraddr_d[`TLU_ASR_ADDR_WIDTH-3:0]; // hypervisor tick compare - 0x1f - hyper-priviledged assign htickcmp_rw_d = sraddr[4] & sraddr[3] & sraddr[2] & sraddr[1] & sraddr[0] & asr_hyperp; // // hypervisor processor state - 0x00 - hyper-priviledged assign hpstate_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & ~sraddr[1] & ~sraddr[0] & asr_hyperp; // // hypervisor trap state - 0x01 - hyper-priviledged assign htstate_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & ~sraddr[1] & sraddr[0] & asr_hyperp; assign tlu_htstate_rw_d = htstate_rw_d; // // hypervisor interrupt pending - 0x03 - hyper-priviledged assign hintp_rw_d = ~sraddr[4] & ~sraddr[3] & ~sraddr[2] & sraddr[1] & sraddr[0] & asr_hyperp; // // hypervisor trap base address - 0x05 - hyper-priviledged assign htba_rw_d = ~sraddr[4] & ~sraddr[3] & sraddr[2] & ~sraddr[1] & sraddr[0] & asr_hyperp; // global register - 0x10 - privileged assign gl_rw_d = sraddr[4] & ~sraddr[3] & ~sraddr[2] & ~sraddr[1] & ~sraddr[0] & asr_priv; // // staging of the ASR decoded controls // staging from d to e stage dff_s dff_htba_rw_d_e ( .din (htba_rw_d), .q (htba_rw_e), .clk (clk), .se (se), .si (), .so () ); dff_s dff_hpstate_rw_d_e ( .din (hpstate_rw_d), .q (hpstate_rw_e), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htstate_rw_d_e ( .din (htstate_rw_d), .q (htstate_rw_e), .clk (clk), .se (se), .si (), .so () ); dff_s dff_hintp_rw_e ( .din (hintp_rw_d), .q (hintp_rw_e), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htickcmp_rw_d_e ( .din (htickcmp_rw_d), .q (htickcmp_rw_e), .clk (clk), .se (se), .si (), .so () ); dff_s dff_gl_rw_d_e ( .din (gl_rw_d), .q (gl_rw_e), .clk (clk), .se (se), .si (), .so () ); // staging from e to m stage dff_s dff_htba_rw_m_m ( .din (htba_rw_e), .q (htba_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_hpstate_rw_m_m ( .din (hpstate_rw_e), .q (hpstate_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htstate_rw_m_m ( .din (htstate_rw_e), .q (htstate_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_hintp_rw_m_m ( .din (hintp_rw_e), .q (hintp_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htickcmp_rw_m_m ( .din (htickcmp_rw_e), .q (htickcmp_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_gl_rw_m_m ( .din (gl_rw_e), .q (gl_rw_m), .clk (clk), .se (se), .si (), .so () ); // staging from e to g stage dff_s dff_gl_rw_m_g ( .din (gl_rw_m), .q (gl_rw_g), .clk (clk), .se (se), .si (), .so () ); dff_s dff_hpstate_rw_m_g ( .din (hpstate_rw_m), .q (hpstate_rw_g), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htickcmp_rw_m_g ( .din (htickcmp_rw_m), .q (htickcmp_rw_g), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htba_rw_m_g ( .din (htba_rw_m), .q (htba_rw_g), .clk (clk), .se (se), .si (), .so () ); dff_s dff_hintp_rw_g ( .din (hintp_rw_m), .q (hintp_rw_g), .clk (clk), .se (se), .si (), .so () ); dff_s dff_htstate_rw_m_g ( .din (htstate_rw_m), .q (htstate_rw_g), .clk (clk), .se (se), .si (), .so () ); // // stage to w2 dff_s dff_hpstate_rw_m_w2 ( .din (hpstate_rw_g), .q (hpstate_rw_w2), .clk (clk), .se (se), .si (), .so () ); // constructing the mux select to access the // hyper-privileged ASR registers // assign tlu_htickcmp_rw_e = htickcmp_rw_e; assign tlu_htstate_rw_g = htstate_rw_g; // // using htba_rw_e as one of the selects for rdpr read in tlu_tdp // assign tlu_htba_rsr_sel = htba_rw_e; // // construciton mux selects for tlu_rdpr_mx5 in tlu_tdp to read out // the ASR information // assign tlu_hyperv_rdpr_sel[0] = gl_rw_e; assign tlu_hyperv_rdpr_sel[1] = hintp_rw_e; assign tlu_hyperv_rdpr_sel[2] = hpstate_rw_e; assign tlu_hyperv_rdpr_sel[3] = htstate_rw_e; assign tlu_hyperv_rdpr_sel[4] = htba_rw_e; // assign tlu_rdpr_mx5_active = |(tlu_rdpr_mx5_sel[3:0]); // // buffer gl_rw_g for agp_tid_sel in tlu_tcl // modified for timing // assign tlu_gl_rw_g = gl_rw_g; assign tlu_gl_rw_m = gl_rw_m; //////////////////////////////////////////////////////////////////////// // GL register controls //////////////////////////////////////////////////////////////////////// dffr_s #(`TLU_THRD_NUM) dffr_gl_update_sel_w2 ( .din (gl_update_sel_g[`TLU_THRD_NUM-1:0]), .q (gl_update_sel_w2[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); dffr_s #(`TLU_THRD_NUM) dffr_dnrtry_inst_w2 ( .din ({tlu_dnrtry3_inst_g, tlu_dnrtry2_inst_g, tlu_dnrtry1_inst_g,tlu_dnrtry0_inst_g}), .q (dnrtry_inst_w2[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // // added for timing assign wsr_inst_g = tlu_wsr_inst_nq_g & ~ifu_tlu_flush_fd_w; dffr_s dffr_wsr_inst_w2 ( .din (wsr_inst_g), .q (wsr_inst_w2), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // THREAD0 assign gl_lvl0_at_maxgl = (gl_lvl0[`TSA_GLOBAL_WIDTH-1:0] == `MAXGL_GL); assign gl_lvl0_at_maxstl = (gl_lvl0[`TSA_GLOBAL_WIDTH-1:0] == `MAXSTL_GL); // // generate the control to prevent writing beyond maxstl or maxgl assign maxstl_gl_wr_sel[0] = ~tlu_hyper_lite[0] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > {1'b0,`MAXSTL}); assign maxstl_gl_wr_sel[1] = ~tlu_hyper_lite[1] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > {1'b0,`MAXSTL}); assign maxstl_gl_wr_sel[2] = ~tlu_hyper_lite[2] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > {1'b0,`MAXSTL}); assign maxstl_gl_wr_sel[3] = ~tlu_hyper_lite[3] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > {1'b0,`MAXSTL}); // // added for bug 79252 assign maxstl_gl_dnrtry_sel[0] = ~tlu_hyper_lite[0] & (&tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); assign maxstl_gl_dnrtry_sel[1] = ~tlu_hyper_lite[1] & (&tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); assign maxstl_gl_dnrtry_sel[2] = ~tlu_hyper_lite[2] & (&tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); assign maxstl_gl_dnrtry_sel[3] = ~tlu_hyper_lite[3] & (&tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); // // added for bug 79252 assign dnrtry_gl_lvl0_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_dnrtry_sel[0])? `MAXSTL_GL: tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]; assign dnrtry_gl_lvl1_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_dnrtry_sel[1])? `MAXSTL_GL: tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]; assign dnrtry_gl_lvl2_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_dnrtry_sel[2])? `MAXSTL_GL: tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]; assign dnrtry_gl_lvl3_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_dnrtry_sel[3])? `MAXSTL_GL: tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]; // // maxgl cap assign maxgl_gl_wr_sel[0] = tlu_hyper_lite[0] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > `MAXGL); assign maxgl_gl_wr_sel[1] = tlu_hyper_lite[1] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > `MAXGL); assign maxgl_gl_wr_sel[2] = tlu_hyper_lite[2] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > `MAXGL); assign maxgl_gl_wr_sel[3] = tlu_hyper_lite[3] & (tlu_wsr_data_w_global[`TLU_GLOBAL_WIDTH-1:0] > `MAXGL); // // trap level to be incremented if thread not at MAXGL and not in redmode // modified for bug 2889 // modified due to timing /* assign gl0_incr_sel = tlu_thrd0_traps & (~(gl_lvl0_at_maxgl | tlu_select_tba_g) | (~gl_lvl0_at_maxstl & tlu_select_tba_g)); assign gl_lvl0_incr[1:0] = {1'b0, gl0_incr_sel}; assign gl0_en = (gl_rw_g & wsr_inst_g & thread_sel_id_g[0]) | gl0_incr_sel | local_rst | por_rstint0_g | tlu_dnrtry0_inst_g; assign gl_lvl0_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[0]) ? wsr_gl_lvl0_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint0_g) ? `MAXGL_GL : ((tlu_dnrtry0_inst_g) ? tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0] : // done/retry restore gl_lvl0[`TSA_GLOBAL_WIDTH-1:0] + gl_lvl0_incr[1:0])); // trap increments */ // modified for bug 79252 assign wsr_gl_lvl0_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_wr_sel[0])? `MAXSTL_GL: ((maxgl_gl_wr_sel[0]) ? `MAXGL_GL : tlu_wsr_data_w_global[`TSA_GLOBAL_WIDTH-1:0]); assign gl_lvl0_update_g[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[0]) ? wsr_gl_lvl0_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint0_g) ? `MAXGL_GL : dnrtry_gl_lvl0_data[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore // tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl_lvl0_update_w2 ( .din (gl_lvl0_update_g[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl0_update_w2[`TSA_GLOBAL_WIDTH-1:0]), .en (gl_update_sel_g[0]), .clk (clk), .se (se), .si (), .so () ); // // modified for bug3468 and bug3505 assign gl_incr_sel_w2[0] = tlu_thrd_traps_w2[0] & ~(gl_lvl0_at_maxgl | (gl_lvl0_at_maxstl & tlu_select_tba_w2)); // tlu_thrd_traps_w2[0] & (~(gl_lvl0_at_maxgl | tlu_select_tba_w2) | assign gl_update_sel_g[0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[0]) | local_rst | por_rstint0_g | tlu_dnrtry0_inst_g; // // modified for bug3468 assign gl_priv_max_sel_w2[0] = (gl_lvl0_at_maxgl & tlu_select_tba_w2) & tlu_thrd_traps_w2[0]; assign gl0_en = gl_incr_sel_w2[0] | gl_update_sel_w2[0] | gl_priv_max_sel_w2[0]; // assign gl0_en = gl_incr_sel_w2[0] | gl_update_sel_w2[0]; assign gl_lvl0_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_update_sel_w2[0]) ? gl_lvl0_update_w2: (~gl_update_sel_w2[0] & gl_priv_max_sel_w2[0]) ? `MAXSTL_GL: gl_lvl0[`TSA_GLOBAL_WIDTH-1:0] + 2'b01; // Reset required as processor will start out at gl=1 after reset. /**************************** to fix bug 6028 manually in the gate netlist, the following needs to be a mux_flop with recirculating path from q to d0 input. But to make it resetable, need to brake this recirculating path and insert an AND gate such that local_rst_l is ANDed with the q output. dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl0 ( .din (gl_lvl0_new[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl0[`TSA_GLOBAL_WIDTH-1:0]), .en (gl0_en), .clk (clk), .se (se), .si (), .so () ); ******************************/ wire [1:0] gl_lvl0_or_rst, gl_lvl0_or_rst_or_new; assign gl_lvl0_or_rst[1:0] = gl_lvl0[1:0] & {2{~local_rst}}; assign gl_lvl0_or_rst_or_new[1:0] = (gl0_en&~local_rst) ? gl_lvl0_new[1:0] : gl_lvl0_or_rst[1:0]; dff_s #(2) dffe_gl0 ( .din(gl_lvl0_or_rst_or_new[1:0]) , .q(gl_lvl0[1:0]), .clk (clk), .se(se), .si(), .so()); /******************************/ assign tlu_gl_lvl0[`TSA_GLOBAL_WIDTH-1:0] = gl_lvl0[`TSA_GLOBAL_WIDTH-1:0]; `ifdef FPGA_SYN_1THREAD `else // THREAD1 assign gl_lvl1_at_maxgl = (gl_lvl1[`TSA_GLOBAL_WIDTH-1:0] == `MAXGL_GL); assign gl_lvl1_at_maxstl = (gl_lvl1[`TSA_GLOBAL_WIDTH-1:0] == `MAXSTL_GL); // // trap level to be incremented if thread not at MAXGL and not in redmode // modified for bug 2889 // modified due to timing /* assign gl1_incr_sel = tlu_thrd1_traps & (~(gl_lvl1_at_maxgl | tlu_select_tba_g) | (~gl_lvl1_at_maxstl & tlu_select_tba_g)); assign gl_lvl1_incr[1:0] = {1'b0, gl1_incr_sel}; assign gl1_en = (gl_rw_g & wsr_inst_g & thread_sel_id_g[1]) | gl1_incr_sel | local_rst | por_rstint1_g | tlu_dnrtry1_inst_g; assign gl_lvl1_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[1])? wsr_gl_lvl1_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint1_g) ? `MAXGL_GL : ((tlu_dnrtry1_inst_g) ? dnrtry_gl_lvl1_data[`TSA_GLOBAL_WIDTH-1:0] : // done/retry restore // tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0] : // done/retry restore gl_lvl1[`TSA_GLOBAL_WIDTH-1:0] + gl_lvl1_incr[1:0])); // trap increments */ assign wsr_gl_lvl1_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_wr_sel[1])? `MAXSTL_GL: ((maxgl_gl_wr_sel[1]) ? `MAXGL_GL : tlu_wsr_data_w_global[`TSA_GLOBAL_WIDTH-1:0]); assign gl_lvl1_update_g[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[1]) ? wsr_gl_lvl1_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint1_g) ? `MAXGL_GL : dnrtry_gl_lvl1_data[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore // tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl_lvl1_update_w2 ( .din (gl_lvl1_update_g[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl1_update_w2[`TSA_GLOBAL_WIDTH-1:0]), .en (gl_update_sel_g[1]), .clk (clk), .se (se), .si (), .so () ); // // modified for bug3468 and bug3505 assign gl_incr_sel_w2[1] = tlu_thrd_traps_w2[1] & ~(gl_lvl1_at_maxgl | (gl_lvl1_at_maxstl & tlu_select_tba_w2)); // tlu_thrd_traps_w2[1] & (~(gl_lvl1_at_maxgl | tlu_select_tba_w2) | assign gl_update_sel_g[1] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[1]) | local_rst | por_rstint1_g | tlu_dnrtry1_inst_g; // // modified for bug3468 assign gl_priv_max_sel_w2[1] = (gl_lvl1_at_maxgl & tlu_select_tba_w2) & tlu_thrd_traps_w2[1]; // assign gl1_en = gl_incr_sel_w2[1] | gl_update_sel_w2[1] | gl_priv_max_sel_w2[1]; // assign gl1_en = gl_incr_sel_w2[1] | gl_update_sel_w2[1]; assign gl_lvl1_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_update_sel_w2[1]) ? gl_lvl1_update_w2: (~gl_update_sel_w2[1] & gl_priv_max_sel_w2[1]) ? `MAXSTL_GL: gl_lvl1[`TSA_GLOBAL_WIDTH-1:0] + 2'b01; // Reset required as processor will start out at gl=1 after reset. /**************************** to fix bug 6028 manually in the gate netlist, the following needs to be a mux_flop with recirculating path from q to d0 input. But to make it resetable, need to brake this recirculating path and insert an AND gate such that local_rst_l is ANDed with the q output. dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl1 ( .din (gl_lvl1_new[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl1[`TSA_GLOBAL_WIDTH-1:0]), .en (gl1_en), .clk (clk), .se (se), .si (), .so () ); ******************************/ wire [1:0] gl_lvl1_or_rst, gl_lvl1_or_rst_or_new; assign gl_lvl1_or_rst[1:0] = gl_lvl1[1:0] & {2{~local_rst}}; assign gl_lvl1_or_rst_or_new[1:0] = (gl1_en&~local_rst) ? gl_lvl1_new[1:0] : gl_lvl1_or_rst[1:0]; dff_s #(2) dffe_gl1 ( .din(gl_lvl1_or_rst_or_new[1:0]) , .q(gl_lvl1[1:0]), .clk (clk), .se(se), .si(), .so()); /******************************/ assign tlu_gl_lvl1[`TSA_GLOBAL_WIDTH-1:0] = gl_lvl1[`TSA_GLOBAL_WIDTH-1:0]; // THREAD2 assign gl_lvl2_at_maxgl = (gl_lvl2[`TSA_GLOBAL_WIDTH-1:0] == `MAXGL_GL); assign gl_lvl2_at_maxstl = (gl_lvl2[`TSA_GLOBAL_WIDTH-1:0] == `MAXSTL_GL); // // trap level to be incremented if thread not at MAXGL and not in redmode // modified for bug 2889 // modified due to timing /* assign gl2_incr_sel = tlu_thrd2_traps & (~(gl_lvl2_at_maxgl | tlu_select_tba_g) | (~gl_lvl2_at_maxstl & tlu_select_tba_g)); assign gl_lvl2_incr[1:0] = {1'b0, gl2_incr_sel}; assign gl2_en = (gl_rw_g & wsr_inst_g & thread_sel_id_g[2]) | gl2_incr_sel | local_rst | por_rstint2_g | tlu_dnrtry2_inst_g; assign gl_lvl2_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[2])? wsr_gl_lvl2_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint2_g) ? `MAXGL_GL : ((tlu_dnrtry2_inst_g) ? tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0] : // done/retry restore gl_lvl2[`TSA_GLOBAL_WIDTH-1:0] + gl_lvl2_incr[1:0])); // trap increments */ assign wsr_gl_lvl2_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_wr_sel[2])? `MAXSTL_GL: ((maxgl_gl_wr_sel[2]) ? `MAXGL_GL : tlu_wsr_data_w_global[`TSA_GLOBAL_WIDTH-1:0]); assign gl_lvl2_update_g[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[2]) ? wsr_gl_lvl2_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint2_g) ? `MAXGL_GL : dnrtry_gl_lvl2_data[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore // tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl_lvl2_update_w2 ( .din (gl_lvl2_update_g[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl2_update_w2[`TSA_GLOBAL_WIDTH-1:0]), .en (gl_update_sel_g[2]), .clk (clk), .se (se), .si (), .so () ); // // modified for bug3468 and bug3505 assign gl_incr_sel_w2[2] = tlu_thrd_traps_w2[2] & ~(gl_lvl2_at_maxgl | (gl_lvl2_at_maxstl & tlu_select_tba_w2)); // tlu_thrd_traps_w2[2] & (~(gl_lvl2_at_maxgl | tlu_select_tba_w2) | assign gl_update_sel_g[2] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[2]) | local_rst | por_rstint2_g | tlu_dnrtry2_inst_g; // // modified for bug3468 assign gl_priv_max_sel_w2[2] = (gl_lvl2_at_maxgl & tlu_select_tba_w2) & tlu_thrd_traps_w2[2]; // assign gl2_en = gl_incr_sel_w2[2] | gl_update_sel_w2[2] | gl_priv_max_sel_w2[2]; // assign gl2_en = gl_incr_sel_w2[2] | gl_update_sel_w2[2]; assign gl_lvl2_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_update_sel_w2[2]) ? gl_lvl2_update_w2: (~gl_update_sel_w2[2] & gl_priv_max_sel_w2[2]) ? `MAXSTL_GL: gl_lvl2[`TSA_GLOBAL_WIDTH-1:0] + 2'b01; // Reset required as processor will start out at gl=1 after reset. /**************************** to fix bug 6028 manually in the gate netlist, the following needs to be a mux_flop with recirculating path from q to d0 input. But to make it resetable, need to brake this recirculating path and insert an AND gate such that local_rst_l is ANDed with the q output. dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl2 ( .din (gl_lvl2_new[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl2[`TSA_GLOBAL_WIDTH-1:0]), .en (gl2_en), .clk (clk), .se (se), .si (), .so () ); ******************************/ wire [1:0] gl_lvl2_or_rst, gl_lvl2_or_rst_or_new; assign gl_lvl2_or_rst[1:0] = gl_lvl2[1:0] & {2{~local_rst}}; assign gl_lvl2_or_rst_or_new[1:0] = (gl2_en&~local_rst) ? gl_lvl2_new[1:0] : gl_lvl2_or_rst[1:0]; dff_s #(2) dffe_gl2 ( .din(gl_lvl2_or_rst_or_new[1:0]) , .q(gl_lvl2[1:0]), .clk (clk), .se(se), .si(), .so()); /******************************/ assign tlu_gl_lvl2[`TSA_GLOBAL_WIDTH-1:0] = gl_lvl2[`TSA_GLOBAL_WIDTH-1:0]; // THREAD3 assign gl_lvl3_at_maxgl = (gl_lvl3[`TSA_GLOBAL_WIDTH-1:0] == `MAXGL_GL); assign gl_lvl3_at_maxstl = (gl_lvl3[`TSA_GLOBAL_WIDTH-1:0] == `MAXSTL_GL); // // trap level to be incremented if thread not at MAXGL and not in redmode // modified for bug 2889 // modified due to timing /* assign gl3_incr_sel = tlu_thrd3_traps & (~(gl_lvl3_at_maxgl | tlu_select_tba_g) | (~gl_lvl3_at_maxstl & tlu_select_tba_g)); assign gl_lvl3_incr = {1'b0, gl3_incr_sel}; assign gl3_en = (gl_rw_g & wsr_inst_g & thread_sel_id_g[3]) | gl3_incr_sel | local_rst | por_rstint3_g | tlu_dnrtry3_inst_g; assign gl_lvl3_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[3])? wsr_gl_lvl3_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint3_g) ? `MAXGL_GL : ((tlu_dnrtry3_inst_g) ? tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0] : // done/retry restore gl_lvl3[`TSA_GLOBAL_WIDTH-1:0] + gl_lvl3_incr[1:0])); // trap increments */ assign wsr_gl_lvl3_data[`TSA_GLOBAL_WIDTH-1:0] = (maxstl_gl_wr_sel[3])? `MAXSTL_GL: ((maxgl_gl_wr_sel[3]) ? `MAXGL_GL : tlu_wsr_data_w_global[`TSA_GLOBAL_WIDTH-1:0]); assign gl_lvl3_update_g[`TSA_GLOBAL_WIDTH-1:0] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[3]) ? wsr_gl_lvl3_data[`TSA_GLOBAL_WIDTH-1:0] : ((local_rst | por_rstint3_g) ? `MAXGL_GL : dnrtry_gl_lvl3_data[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore // tlu_dnrtry_global_g[`TSA_GLOBAL_WIDTH-1:0]); // done/retry restore dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl_lvl3_update_w2 ( .din (gl_lvl3_update_g[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl3_update_w2[`TSA_GLOBAL_WIDTH-1:0]), .en (gl_update_sel_g[3]), .clk (clk), .se (se), .si (), .so () ); // // modified for bug3468 assign gl_incr_sel_w2[3] = tlu_thrd_traps_w2[3] & ~(gl_lvl3_at_maxgl | (gl_lvl3_at_maxstl & tlu_select_tba_w2)); // tlu_thrd_traps_w2[3] & (~(gl_lvl3_at_maxgl | tlu_select_tba_w2) | assign gl_update_sel_g[3] = (gl_rw_g & wsr_inst_g & thread_sel_id_g[3]) | local_rst | por_rstint3_g | tlu_dnrtry3_inst_g; // // modified for bug3468 assign gl_priv_max_sel_w2[3] = (gl_lvl3_at_maxgl & tlu_select_tba_w2) & tlu_thrd_traps_w2[3]; // assign gl3_en = gl_incr_sel_w2[3] | gl_update_sel_w2[3] | gl_priv_max_sel_w2[3]; // assign gl3_en = gl_incr_sel_w2[3] | gl_update_sel_w2[3]; assign gl_lvl3_new[`TSA_GLOBAL_WIDTH-1:0] = (gl_update_sel_w2[3]) ? gl_lvl3_update_w2: (~gl_update_sel_w2[3] & gl_priv_max_sel_w2[3]) ? `MAXSTL_GL: gl_lvl3[`TSA_GLOBAL_WIDTH-1:0] + 2'b01; // Reset required as processor will start out at gl1 after reset. /**************************** to fix bug 6028 manually in the gate netlist, the following needs to be a mux_flop with recirculating path from q to d0 input. But to make it resetable, need to brake this recirculating path and insert an AND gate such that local_rst_l is ANDed with the q output. dffe_s #(`TSA_GLOBAL_WIDTH) dffe_gl3 ( .din (gl_lvl3_new[`TSA_GLOBAL_WIDTH-1:0]), .q (gl_lvl3[`TSA_GLOBAL_WIDTH-1:0]), .en (gl3_en), .clk (clk), .se (se), .si (), .so () ); ******************************/ wire [1:0] gl_lvl3_or_rst, gl_lvl3_or_rst_or_new; assign gl_lvl3_or_rst[1:0] = gl_lvl3[1:0] & {2{~local_rst}}; assign gl_lvl3_or_rst_or_new[1:0] = (gl3_en&~local_rst) ? gl_lvl3_new[1:0] : gl_lvl3_or_rst[1:0]; dff_s #(2) dffe_gl3 ( .din(gl_lvl3_or_rst_or_new[1:0]) , .q(gl_lvl3[1:0]), .clk (clk), .se(se), .si(), .so()); /******************************/ assign tlu_gl_lvl3[`TSA_GLOBAL_WIDTH-1:0] = gl_lvl3[`TSA_GLOBAL_WIDTH-1:0]; `endif // !`ifdef FPGA_SYN_1THREAD //////////////////////////////////////////////////////////////////////// // Global swap //////////////////////////////////////////////////////////////////////// // modified due to timing /* assign agp_thrid[0] = ~tlu_agp_tid_g[0] & ~tlu_agp_tid_g[1] & gl0_en; assign agp_thrid[1] = tlu_agp_tid_g[0] & ~tlu_agp_tid_g[1] & gl1_en; assign agp_thrid[2] = ~tlu_agp_tid_g[0] & tlu_agp_tid_g[1] & gl2_en; assign agp_thrid[3] = tlu_agp_tid_g[0] & tlu_agp_tid_g[1] & gl3_en; assign agp_swap = (agp_thrid[0])? |(gl_lvl0_new[1:0] ^ gl_lvl0[1:0]): ((agp_thrid[1])? |(gl_lvl1_new[1:0] ^ gl_lvl1[1:0]): ((agp_thrid[2])? |(gl_lvl2_new[1:0] ^ gl_lvl2[1:0]): ((agp_thrid[3])? |(gl_lvl3_new[1:0] ^ gl_lvl3[1:0]):1'b0))); assign agp_new[1:0] = (agp_thrid[1])? gl_lvl1_new[1:0] : ((agp_thrid[2])? gl_lvl2_new[1:0] : ((agp_thrid[3])? gl_lvl3_new[1:0] : gl_lvl0_new[1:0])); dffr_s dffr_tlu_exu_agp_swap ( .din (agp_swap), .q (tlu_exu_agp_swap), .clk (clk), .rst (local_rst), .se (se), .si (), .so () ); dff_s #(2) dff_tlu_exu_agp ( .din (agp_new[1:0]), .q (tlu_exu_agp[1:0]), .clk (clk), .se (se), .si (), .so () ); dff_s #(2) dff_tlu_exu_agp_tid ( .din (tlu_agp_tid_g[1:0]), .q (tlu_exu_agp_tid[1:0]), .clk (clk), .se (se), .si (), .so () ); */ assign agp_thrid_w2[0] = ~tlu_agp_tid_w2[0] & ~tlu_agp_tid_w2[1] & gl0_en; `ifdef FPGA_SYN_1THREAD assign agp_thrid_w2[1] = 1'b0; assign agp_thrid_w2[2] = 1'b0; assign agp_thrid_w2[3] = 1'b0; assign agp_swap_w2 = (agp_thrid_w2[0])? |(gl_lvl0_new[1:0] ^ gl_lvl0[1:0]):1'b0; dffr_s dffr_agp_swap_w3 ( .din (agp_swap_w2), .q (agp_swap_w3), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign agp_new_w2[1:0] = gl_lvl0_new[1:0]; `else assign agp_thrid_w2[1] = tlu_agp_tid_w2[0] & ~tlu_agp_tid_w2[1] & gl1_en; assign agp_thrid_w2[2] = ~tlu_agp_tid_w2[0] & tlu_agp_tid_w2[1] & gl2_en; assign agp_thrid_w2[3] = tlu_agp_tid_w2[0] & tlu_agp_tid_w2[1] & gl3_en; assign agp_swap_w2 = (agp_thrid_w2[0])? |(gl_lvl0_new[1:0] ^ gl_lvl0[1:0]): ((agp_thrid_w2[1])? |(gl_lvl1_new[1:0] ^ gl_lvl1[1:0]): ((agp_thrid_w2[2])? |(gl_lvl2_new[1:0] ^ gl_lvl2[1:0]): ((agp_thrid_w2[3])? |(gl_lvl3_new[1:0] ^ gl_lvl3[1:0]):1'b0))); dffr_s dffr_agp_swap_w3 ( .din (agp_swap_w2), .q (agp_swap_w3), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign agp_new_w2[1:0] = (agp_thrid_w2[1])? gl_lvl1_new[1:0] : ((agp_thrid_w2[2])? gl_lvl2_new[1:0] : ((agp_thrid_w2[3])? gl_lvl3_new[1:0] : gl_lvl0_new[1:0])); `endif // !`ifdef FPGA_SYN_1THREAD // // added for timing fixes dff_s #(2) dff_agp_new_w3 ( .din (agp_new_w2[1:0]), .q (agp_new_w3[1:0]), .clk (clk), .se (se), .si (), .so () ); assign tlu_exu_agp_swap = agp_swap_w3; assign tlu_exu_agp[1:0] = agp_new_w3[1:0]; //////////////////////////////////////////////////////////////////////// // HPSTATE register controls //////////////////////////////////////////////////////////////////////// // // added for timing dffr_s #(`TLU_THRD_NUM) dffr_update_hpstate_w2 ( .din (update_hpstate_g[`TLU_THRD_NUM-1:0]), .q (update_hpstate_w2[`TLU_THRD_NUM-1:0]), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // thread 0 assign tlu_hpstate_din_sel0[0] = dnrtry_inst_w2[0] & ~rst_tri_en; assign tlu_hpstate_din_sel0[1] = (hpstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_hpstate_din_sel0[0] & thread_sel_id_w2[0]; // // generating write enables to update the hpstate registers // modified for timing /* assign tlu_hpstate_din_sel0[0] = tlu_dnrtry0_inst_g; assign tlu_hpstate_din_sel0[1] = (hpstate_rw_g & wsr_inst_g) & ~tlu_hpstate_din_sel0[0] & thread_sel_id_g[0]; assign update_hpstate0_g = tlu_thrd0_traps | tlu_dnrtry0_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[0]); assign tlu_update_hpstate_l_g[0] = ~(update_hpstate0_g | local_rst); */ assign update_hpstate_g[0] = tlu_dnrtry0_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[0]); assign tlu_update_hpstate_l_w2[0] = ~(update_hpstate_w2[0] | local_rst | tlu_thrd_traps_w2[0]); // // thread 1 assign tlu_hpstate_din_sel1[0] = dnrtry_inst_w2[1] & ~rst_tri_en; assign tlu_hpstate_din_sel1[1] = (hpstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_hpstate_din_sel1[0] & thread_sel_id_w2[1]; // // generating write enables to update the hpstate registers // modified for timing /* assign tlu_hpstate_din_sel1[0] = tlu_dnrtry1_inst_g; assign tlu_hpstate_din_sel1[1] = (hpstate_rw_g & wsr_inst_g) & ~tlu_hpstate_din_sel1[0] & thread_sel_id_g[1]; assign update_hpstate1_g = tlu_thrd1_traps | tlu_dnrtry1_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[1]); assign tlu_update_hpstate_l_g[1] = ~(update_hpstate1_g | local_rst); */ assign update_hpstate_g[1] = tlu_dnrtry1_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[1]); assign tlu_update_hpstate_l_w2[1] = ~(update_hpstate_w2[1] | local_rst | tlu_thrd_traps_w2[1]); // // thread 2 assign tlu_hpstate_din_sel2[0] = dnrtry_inst_w2[2] & ~rst_tri_en; assign tlu_hpstate_din_sel2[1] = (hpstate_rw_w2 & wsr_inst_w2) & ~rst_tri_en & ~tlu_hpstate_din_sel2[0] & thread_sel_id_w2[2]; // // generating write enables to update the hpstate registers // modified for timing /* assign tlu_hpstate_din_sel2[0] = tlu_dnrtry2_inst_g; assign tlu_hpstate_din_sel2[1] = (hpstate_rw_g & wsr_inst_g) & ~tlu_hpstate_din_sel2[0] & thread_sel_id_g[2]; assign update_hpstate2_g = tlu_thrd2_traps | tlu_dnrtry2_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[2]); assign tlu_update_hpstate_l_g[2] = ~(update_hpstate2_g | local_rst); */ assign update_hpstate_g[2] = tlu_dnrtry2_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[2]); assign tlu_update_hpstate_l_w2[2] = ~(update_hpstate_w2[2] | local_rst | tlu_thrd_traps_w2[2]); // // thread 3 assign tlu_hpstate_din_sel3[0] = dnrtry_inst_w2[3] & ~rst_tri_en; assign tlu_hpstate_din_sel3[1] = (hpstate_rw_w2 & wsr_inst_w2) & ~tlu_hpstate_din_sel3[0] & ~rst_tri_en & thread_sel_id_w2[3]; // // generating write enables to update the hpstate registers // modified for timing /* assign tlu_hpstate_din_sel3[0] = tlu_dnrtry3_inst_g; assign tlu_hpstate_din_sel3[1] = (hpstate_rw_g & wsr_inst_g) & ~tlu_hpstate_din_sel3[0] & thread_sel_id_g[3]; assign update_hpstate3_g = tlu_thrd3_traps | tlu_dnrtry3_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[3]); assign tlu_update_hpstate_l_g[3] = ~(update_hpstate3_g | local_rst); */ assign update_hpstate_g[3] = tlu_dnrtry3_inst_g | ((hpstate_rw_g & wsr_inst_g) & thread_sel_id_g[3]); assign tlu_update_hpstate_l_w2[3] = ~(update_hpstate_w2[3] | local_rst | tlu_thrd_traps_w2[3]); //////////////////////////////////////////////////////////////////////// // HTICKCMP register controls //////////////////////////////////////////////////////////////////////// // thread 0 assign htickcmp_intdis_en[0] = (htickcmp_rw_g & wsr_inst_g & thread_sel_id_g[0]) | local_rst | por_rstint0_g; // // HTICK_CMP.INT_DIS dffe_s dffe_hintdis0 ( .din (tlu_tick_ctl_din), .q (htick_intdis0), .en (htickcmp_intdis_en[0]), .clk (clk), .se (se), .si (), .so () ); // thread 1 assign htickcmp_intdis_en[1] = (htickcmp_rw_g & wsr_inst_g & thread_sel_id_g[1]) | local_rst | por_rstint1_g; // // HTICK_CMP.INT_DIS dffe_s dffe_hintdis1 ( .din (tlu_tick_ctl_din), .q (htick_intdis1), .en (htickcmp_intdis_en[1]), .clk (clk), .se (se), .si (), .so () ); // thread 2 assign htickcmp_intdis_en[2] = (htickcmp_rw_g & wsr_inst_g & thread_sel_id_g[2]) | local_rst | por_rstint2_g; // // HTICK_CMP.INT_DIS dffe_s dffe_hintdis2 ( .din (tlu_tick_ctl_din), .q (htick_intdis2), .en (htickcmp_intdis_en[2]), .clk (clk), .se (se), .si (), .so () ); // thread 3 assign htickcmp_intdis_en[3] = (htickcmp_rw_g & wsr_inst_g & thread_sel_id_g[3]) | local_rst | por_rstint3_g; // HTICK_CMP.INT_DIS // dffe_s dffe_hintdis3 ( .din (tlu_tick_ctl_din), .q (htick_intdis3), .en (htickcmp_intdis_en[3]), .clk (clk), .se (se), .si (), .so () ); // // generating for the non-thread specific htick_cmp // interrupt disable assign tlu_htickcmp_intdis = (thread_sel_id_e[0] & htick_intdis0) | (thread_sel_id_e[1] & htick_intdis1) | (thread_sel_id_e[2] & htick_intdis2) | (thread_sel_id_e[3] & htick_intdis3); //////////////////////////////////////////////////////////////////////// // HINTP register controls //////////////////////////////////////////////////////////////////////// // thread 0 // // modified for timing // assign tlu_set_hintp_g[0] = // (~htick_intdis0 & tlu_tickcmp_sel[0])? tlu_htick_match: 1'b0; assign tlu_set_hintp_sel_g[0] = ~htick_intdis0 & tlu_tickcmp_sel[0]; // modified for bug 4886 assign tlu_wr_hintp_g[0] = (hintp_rw_g & wsr_inst_g & thread_sel_id_g[0]) | local_rst; // // modified for timing - moved to tlu_tdp // assign tlu_hintp_en_l_g[0] = // ~(tlu_set_hintp_g[0] | tlu_wr_hintp_g[0]); // // thread 1 // // modified for timing // assign tlu_set_hintp_g[1] = // (~htick_intdis1 & tlu_tickcmp_sel[1])? tlu_htick_match: 1'b0; assign tlu_set_hintp_sel_g[1] = ~htick_intdis1 & tlu_tickcmp_sel[1]; assign tlu_wr_hintp_g[1] = (hintp_rw_g & wsr_inst_g & thread_sel_id_g[1]) | local_rst; // // modified for timing - moved to tlu_tdp // assign tlu_hintp_en_l_g[1] = // ~(tlu_set_hintp_g[1] | tlu_wr_hintp_g[1]); // // thread 2 // // modified for timing // assign tlu_set_hintp_g[2] = // (~htick_intdis2 & tlu_tickcmp_sel[2])? tlu_htick_match: 1'b0; assign tlu_set_hintp_sel_g[2] = ~htick_intdis2 & tlu_tickcmp_sel[2]; assign tlu_wr_hintp_g[2] = (hintp_rw_g & wsr_inst_g & thread_sel_id_g[2]) | local_rst; // // modified for timing - moved to tlu_tdp // assign tlu_hintp_en_l_g[2] = // ~(tlu_set_hintp_g[2] | tlu_wr_hintp_g[2]); // // thread 3 // // modified for timing // assign tlu_set_hintp_g[3] = // (~htick_intdis3 & tlu_tickcmp_sel[3])? tlu_htick_match: 1'b0; assign tlu_set_hintp_sel_g[3] = ~htick_intdis3 & tlu_tickcmp_sel[3]; assign tlu_wr_hintp_g[3] = (hintp_rw_g & wsr_inst_g & thread_sel_id_g[3]) | local_rst; // // modified for timing - moved to tlu_tdp // assign tlu_hintp_en_l_g[3] = // ~(tlu_set_hintp_g[3] | tlu_wr_hintp_g[3]); //////////////////////////////////////////////////////////////////////// // HTBA register controls //////////////////////////////////////////////////////////////////////// assign tlu_htba_en_l[0] = ~(htba_rw_g & wsr_inst_g & thread_sel_id_g[0]); assign tlu_htba_en_l[1] = ~(htba_rw_g & wsr_inst_g & thread_sel_id_g[1]); assign tlu_htba_en_l[2] = ~(htba_rw_g & wsr_inst_g & thread_sel_id_g[2]); assign tlu_htba_en_l[3] = ~(htba_rw_g & wsr_inst_g & thread_sel_id_g[3]); //////////////////////////////////////////////////////////////////////// // ASI QUEUE register controls and data //////////////////////////////////////////////////////////////////////// // ASI read or write op // assign asi_queue_write_e = ifu_lsu_alt_space_e & ifu_lsu_st_inst_e; assign asi_queue_read_e = ifu_lsu_alt_space_e & ifu_lsu_ld_inst_e; // // qualify the asi write and read controls assign asi_queue_write_m = tlu_inst_vld_m & asi_queue_write_pq_m; assign asi_queue_read_m = tlu_inst_vld_m & asi_queue_read_pq_m; // // modified due to timing violations // assign asi_queue_write_g = // ~(tlu_flush_pipe_w | ifu_tlu_flush_w) & asi_queue_write_uf_g; assign asi_queue_write_g = ~local_flush_all_w & asi_queue_write_uf_g; assign tlu_asi_write_g = asi_queue_write_g; // assign asi_queue_read_g = // ~(tlu_flush_pipe_w | ifu_tlu_flush_w) & asi_queue_read_uf_g; // // staging the asi controls dffr_s #(2) dffr_asi_ctl_m ( .din ({asi_queue_write_e, asi_queue_read_e}), .q ({asi_queue_write_pq_m, asi_queue_read_pq_m}), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); dffr_s #(2) dffr_asi_ctl_g ( .din ({asi_queue_write_m, asi_queue_read_m}), .q ({asi_queue_write_uf_g, asi_queue_read_g}), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // // ASI address decode // decoding the ASI state 0x25 for the ASI_QUEUES assign asi_queue_rw_e = (ifu_lsu_alt_space_e)? (tlu_asi_state_e[`TLU_ASI_STATE_WIDTH-1:0]==`TLU_ASI_QUE_ASI): 1'b0; // // staging the asi controls dffr_s dffr_asi_queue_rw_m ( .din (asi_queue_rw_e), .q (asi_queue_rw_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); dffr_s dffr_asi_queue_rw_g ( .din (asi_queue_rw_m), .q (asi_queue_rw_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // // modified due to timing violations /* // assign tlu_ldst_va_e[`TLU_ASI_VA_WIDTH-1:0] = // exu_lsu_ldst_va_e[`TLU_ASI_VA_WIDTH-1:0]; dff_s #(`TLU_ASI_VA_WIDTH) dff_tlu_ldst_va_m ( .din (exu_lsu_ldst_va_e[`TLU_ASI_VA_WIDTH-1:0]), .q (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]), .clk (clk), .se (se), .si (), .so () ); // modified for timing assign que_legal_va_e = cpu_mondo_head_rw_e | cpu_mondo_tail_rw_e | dev_mondo_head_rw_e | dev_mondo_tail_rw_e | resum_err_head_rw_e | resum_err_tail_rw_e | nresum_err_head_rw_e | nresum_err_tail_rw_e; assign que_ill_va_e = (ifu_lsu_alt_space_e)? (((|exu_lsu_ldst_va_e[`ASI_VA_WIDTH-1:`TLU_ASI_QUE_VA_HI+1]) | (|exu_lsu_ldst_va_e[`TLU_ASI_QUE_VA_LO-1:0]) | ~que_legal_va_e) & asi_queue_pq_rw_e): 1'b0; */ assign tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0] = lsu_tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]; assign que_legal_va_m = cpu_mondo_head_rw_m | cpu_mondo_tail_rw_m | dev_mondo_head_rw_m | dev_mondo_tail_rw_m | resum_err_head_rw_m | resum_err_tail_rw_m | nresum_err_head_rw_m | nresum_err_tail_rw_m; // // illegal range check for queue va assign que_ill_va_m = (asi_queue_rw_m)? ~que_legal_va_m : 1'b0; // // staged illegal va range // dffr_s dffr_que_ill_va_g ( .din (que_ill_va_m), .q (que_ill_va_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // // added for timing - interrupt register decodes // interrupt receiver registers assign asi_inrr_rw_e = (ifu_lsu_alt_space_e)? (tlu_asi_state_e[`TLU_ASI_STATE_WIDTH-1:0]==`TLU_INRR_ASI): 1'b0; dffr_s dffr_asi_inrr_rw_m ( .din (asi_inrr_rw_e), .q (asi_inrr_rw_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); dffr_s dffr_asi_inrr_rw_g ( .din (asi_inrr_rw_m), .q (asi_inrr_rw_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign inc_ind_asi_wr_inrr[0] = (asi_inrr_rw_g & asi_queue_write_uf_g & ~local_flush_all_w & thread_sel_id_g[0]); assign inc_ind_asi_wr_inrr[1] = (asi_inrr_rw_g & asi_queue_write_uf_g & ~local_flush_all_w & thread_sel_id_g[1]); assign inc_ind_asi_wr_inrr[2] = (asi_inrr_rw_g & asi_queue_write_uf_g & ~local_flush_all_w & thread_sel_id_g[2]); assign inc_ind_asi_wr_inrr[3] = (asi_inrr_rw_g & asi_queue_write_uf_g & ~local_flush_all_w & thread_sel_id_g[3]); // // interrupt dispatch registers assign asi_indr_rw_e = (ifu_lsu_alt_space_e)? (tlu_asi_state_e[`TLU_ASI_STATE_WIDTH-1:0]==`TLU_INDR_ASI): 1'b0; dffr_s dffr_asi_indr_rw_m ( .din (asi_indr_rw_e), .q (asi_indr_rw_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); dffr_s dffr_asi_indr_rw_g ( .din (asi_indr_rw_m), .q (asi_indr_rw_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign inc_ind_asi_wr_indr[0] = asi_indr_rw_g & ~local_flush_all_w & asi_queue_write_uf_g & thread_sel_id_g[0]; assign inc_ind_asi_wr_indr[1] = asi_indr_rw_g & ~local_flush_all_w & asi_queue_write_uf_g & thread_sel_id_g[1]; assign inc_ind_asi_wr_indr[2] = asi_indr_rw_g & ~local_flush_all_w & asi_queue_write_uf_g & thread_sel_id_g[2]; assign inc_ind_asi_wr_indr[3] = asi_indr_rw_g & ~local_flush_all_w & asi_queue_write_uf_g & thread_sel_id_g[3]; // // interrupt vector registers assign asi_invr_rw_e = (ifu_lsu_alt_space_e)? (tlu_asi_state_e[`TLU_ASI_STATE_WIDTH-1:0]==`TLU_INVR_ASI): 1'b0; dffr_s dffr_asi_invr_rw_m ( .din (asi_invr_rw_e), .q (asi_invr_rw_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); dffr_s dffr_asi_invr_rw_g ( .din (asi_invr_rw_m), .q (asi_invr_rw_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign inc_ind_asi_rd_invr[0] = (asi_invr_rw_g & asi_queue_read_g & ~local_flush_all_w & thread_sel_id_g[0]); assign inc_ind_asi_rd_invr[1] = (asi_invr_rw_g & asi_queue_read_g & ~local_flush_all_w & thread_sel_id_g[1]); assign inc_ind_asi_rd_invr[2] = (asi_invr_rw_g & asi_queue_read_g & ~local_flush_all_w & thread_sel_id_g[2]); assign inc_ind_asi_rd_invr[3] = (asi_invr_rw_g & asi_queue_read_g & ~local_flush_all_w & thread_sel_id_g[3]); // // timing changes: all va e stage signals have been moved to m-stage // decoding the VA portion of the ASI address // cpu_mondo_head: 0x3c0 assign cpu_mondo_head_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`CPU_MONDO_HEAD); // // cpu_mondo_tail: 0x3c8 assign cpu_mondo_tail_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`CPU_MONDO_TAIL); // // dev_mondo_head: 0x3d0 assign dev_mondo_head_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`DEV_MONDO_HEAD); // // dev_mondo_tail: 0x3d8 assign dev_mondo_tail_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`DEV_MONDO_TAIL); // // resum_err_head: 0x3e0 assign resum_err_head_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`RESUM_ERR_HEAD); // // resum_err_tail: 0x3e8 assign resum_err_tail_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`RESUM_ERR_TAIL); // // nresum_err_head: 0x3f0 assign nresum_err_head_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`NRESUM_ERR_HEAD); // // nresum_err_tail: 0x3f8 assign nresum_err_tail_rw_m = (tlu_ldst_va_m[`TLU_ASI_VA_WIDTH-1:0]==`NRESUM_ERR_TAIL); // // timing change: replaced by flopped tlu_ldst_va_m decodes // staging the ASI queue rw decodes // cpu_mondo_head /* dff_s dff_cpu_mondo_head_rw_m ( .din (cpu_mondo_head_rw_e), .q (cpu_mondo_head_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_dev_mondo_head_rw_m ( .din (dev_mondo_head_rw_e), .q (dev_mondo_head_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_resum_err_head_rw_m ( .din (resum_err_head_rw_e), .q (resum_err_head_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_nresum_err_head_rw_m ( .din (nresum_err_head_rw_e), .q (nresum_err_head_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_cpu_mondo_tail_rw_m ( .din (cpu_mondo_tail_rw_e), .q (cpu_mondo_tail_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_dev_mondo_tail_rw_m ( .din (dev_mondo_tail_rw_e), .q (dev_mondo_tail_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_resum_err_tail_rw_m ( .din (resum_err_tail_rw_e), .q (resum_err_tail_rw_m), .clk (clk), .se (se), .si (), .so () ); dff_s dff_nresum_err_tail_rw_m ( .din (nresum_err_tail_rw_e), .q (nresum_err_tail_rw_m), .clk (clk), .se (se), .si (), .so () ); // // illegal range check dffr_s dffr_que_ill_va_m ( .din (que_ill_va_e), .q (que_ill_va_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); */ // staging the ASI queue rw decodes // cpu_mondo_head dff_s dff_cpu_mondo_head_rw_g ( .din (cpu_mondo_head_rw_m), .q (cpu_mondo_head_rw_g), .clk (clk), .se (se), .si (), .so () ); // // dev_mondo_head dff_s dff_dev_mondo_head_rw_g ( .din (dev_mondo_head_rw_m), .q (dev_mondo_head_rw_g), .clk (clk), .se (se), .si (), .so () ); // // resum_err_head dff_s dff_resum_err_head_rw_g ( .din (resum_err_head_rw_m), .q (resum_err_head_rw_g), .clk (clk), .se (se), .si (), .so () ); // // nresum_err_head dff_s dff_nresum_err_head_rw_g ( .din (nresum_err_head_rw_m), .q (nresum_err_head_rw_g), .clk (clk), .se (se), .si (), .so () ); // // cpu_mondo_tail // dff_s dff_cpu_mondo_tail_rw_g ( .din (cpu_mondo_tail_rw_m), .q (cpu_mondo_tail_rw_g), .clk (clk), .se (se), .si (), .so () ); // // dev_mondo_tail // dff_s dff_dev_mondo_tail_rw_g ( .din (dev_mondo_tail_rw_m), .q (dev_mondo_tail_rw_g), .clk (clk), .se (se), .si (), .so () ); // // resum_err_tail // dff_s dff_resum_err_tail_rw_g ( .din (resum_err_tail_rw_m), .q (resum_err_tail_rw_g), .clk (clk), .se (se), .si (), .so () ); // // nresum_err_tail // dff_s dff_nresum_err_tail_rw_g ( .din (nresum_err_tail_rw_m), .q (nresum_err_tail_rw_g), .clk (clk), .se (se), .si (), .so () ); // // generating thread specific read and write enables // // cpu_mondo_head read // assign cpu_mondo_head_rd_g[0] = // asi_queue_read_g & cpu_mondo_head_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign cpu_mondo_head_rd_g[0] = ~(|cpu_mondo_head_rd_g[3:1]); assign cpu_mondo_head_rd_g[1] = asi_queue_read_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign cpu_mondo_head_rd_g[2] = asi_queue_read_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign cpu_mondo_head_rd_g[3] = asi_queue_read_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign cpu_mondo_hd_rd_g = asi_queue_read_g & cpu_mondo_head_rw_g & asi_queue_rw_g; // // cpu_mondo_head write // assign cpu_mondo_head_wr_g[0] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign cpu_mondo_head_wr_g[1] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign cpu_mondo_head_wr_g[2] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign cpu_mondo_head_wr_g[3] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // cpu_mondo_tail read // assign cpu_mondo_tail_rd_g[0] = // asi_queue_read_g & cpu_mondo_tail_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign cpu_mondo_tail_rd_g[0] = ~(|cpu_mondo_tail_rd_g[3:1]); assign cpu_mondo_tail_rd_g[1] = asi_queue_read_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign cpu_mondo_tail_rd_g[2] = asi_queue_read_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign cpu_mondo_tail_rd_g[3] = asi_queue_read_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign cpu_mondo_ta_rd_g = asi_queue_read_g & cpu_mondo_tail_rw_g & asi_queue_rw_g; // // cpu_mondo_tail write // assign cpu_mondo_tail_wr_g[0] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign cpu_mondo_tail_wr_g[1] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign cpu_mondo_tail_wr_g[2] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign cpu_mondo_tail_wr_g[3] = ~local_flush_all_w & asi_queue_write_uf_g & cpu_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // dev_mondo_head read // assign dev_mondo_head_rd_g[0] = // asi_queue_read_g & dev_mondo_head_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign dev_mondo_head_rd_g[0] = ~(|dev_mondo_head_rd_g[3:1]); assign dev_mondo_head_rd_g[1] = asi_queue_read_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign dev_mondo_head_rd_g[2] = asi_queue_read_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign dev_mondo_head_rd_g[3] = asi_queue_read_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign dev_mondo_hd_rd_g = asi_queue_read_g & dev_mondo_head_rw_g & asi_queue_rw_g; // // dev_mondo_head write // assign dev_mondo_head_wr_g[0] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign dev_mondo_head_wr_g[1] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign dev_mondo_head_wr_g[2] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign dev_mondo_head_wr_g[3] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // dev_mondo_tail read // assign dev_mondo_tail_rd_g[0] = // asi_queue_read_g & dev_mondo_tail_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign dev_mondo_tail_rd_g[0] = ~(|dev_mondo_tail_rd_g[3:1]); assign dev_mondo_tail_rd_g[1] = asi_queue_read_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign dev_mondo_tail_rd_g[2] = asi_queue_read_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign dev_mondo_tail_rd_g[3] = asi_queue_read_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign dev_mondo_ta_rd_g = asi_queue_read_g & dev_mondo_tail_rw_g & asi_queue_rw_g; // // dev_mondo_tail write // assign dev_mondo_tail_wr_g[0] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign dev_mondo_tail_wr_g[1] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign dev_mondo_tail_wr_g[2] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign dev_mondo_tail_wr_g[3] = ~local_flush_all_w & asi_queue_write_uf_g & dev_mondo_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // resum_err_head read // assign resum_err_head_rd_g[0] = // asi_queue_read_g & resum_err_head_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign resum_err_head_rd_g[0] = ~(|resum_err_head_rd_g[3:1]); assign resum_err_head_rd_g[1] = asi_queue_read_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign resum_err_head_rd_g[2] = asi_queue_read_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign resum_err_head_rd_g[3] = asi_queue_read_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign resum_err_hd_rd_g = asi_queue_read_g & resum_err_head_rw_g & asi_queue_rw_g; // // resum_err_head write // assign resum_err_head_wr_g[0] = asi_queue_write_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign resum_err_head_wr_g[1] = asi_queue_write_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign resum_err_head_wr_g[2] = asi_queue_write_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign resum_err_head_wr_g[3] = asi_queue_write_g & resum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // resum_err_tail read // assign resum_err_tail_rd_g[0] = // asi_queue_read_g & resum_err_tail_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign resum_err_tail_rd_g[0] = ~(|resum_err_tail_rd_g[3:1]); assign resum_err_tail_rd_g[1] = asi_queue_read_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign resum_err_tail_rd_g[2] = asi_queue_read_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign resum_err_tail_rd_g[3] = asi_queue_read_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign resum_err_ta_rd_g = asi_queue_read_g & resum_err_tail_rw_g & asi_queue_rw_g; // // resum_err_tail write // assign resum_err_tail_wr_g[0] = asi_queue_write_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign resum_err_tail_wr_g[1] = asi_queue_write_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign resum_err_tail_wr_g[2] = asi_queue_write_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign resum_err_tail_wr_g[3] = asi_queue_write_g & resum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // nresum_err_head read // assign nresum_err_head_rd_g[0] = // asi_queue_read_g & nresum_err_head_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign nresum_err_head_rd_g[0] = ~(|nresum_err_head_rd_g[3:1]); assign nresum_err_head_rd_g[1] = asi_queue_read_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign nresum_err_head_rd_g[2] = asi_queue_read_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign nresum_err_head_rd_g[3] = asi_queue_read_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign nresum_err_hd_rd_g = asi_queue_read_g & nresum_err_head_rw_g & asi_queue_rw_g; // // nresum_err_head write // assign nresum_err_head_wr_g[0] = asi_queue_write_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign nresum_err_head_wr_g[1] = asi_queue_write_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign nresum_err_head_wr_g[2] = asi_queue_write_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign nresum_err_head_wr_g[3] = asi_queue_write_g & nresum_err_head_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // nresum_err_tail read // assign nresum_err_tail_rd_g[0] = // asi_queue_read_g & nresum_err_tail_rw_g & // asi_queue_rw_g & thread_sel_id_g[0]; assign nresum_err_tail_rd_g[0] = ~(|nresum_err_tail_rd_g[3:1]); assign nresum_err_tail_rd_g[1] = asi_queue_read_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign nresum_err_tail_rd_g[2] = asi_queue_read_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign nresum_err_tail_rd_g[3] = asi_queue_read_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // non-thread specific read assign nresum_err_ta_rd_g = asi_queue_read_g & nresum_err_tail_rw_g & asi_queue_rw_g; // // nresum_err_tail write // assign nresum_err_tail_wr_g[0] = asi_queue_write_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[0]; assign nresum_err_tail_wr_g[1] = asi_queue_write_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[1]; assign nresum_err_tail_wr_g[2] = asi_queue_write_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[2]; assign nresum_err_tail_wr_g[3] = asi_queue_write_g & nresum_err_tail_rw_g & asi_queue_rw_g & thread_sel_id_g[3]; // // storing the head and pointers for the queues // thread 0 // dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo0_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo0_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_head_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo0_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_tail_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo0_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo0_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_head_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo0_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_tail_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err0_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err0_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_head_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err0_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_tail_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err0_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err0_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_head_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err0_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_tail_wr_g[0]), .clk (clk), .se (se), .si (), .so () ); // // thread 1 // dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo1_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo1_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_head_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo1_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_tail_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo1_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo1_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_head_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo1_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_tail_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err1_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err1_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_head_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err1_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_tail_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err1_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err1_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_head_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err1_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_tail_wr_g[1]), .clk (clk), .se (se), .si (), .so () ); // // thread 2 // dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo2_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo2_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_head_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo2_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_tail_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo2_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo2_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_head_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo2_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_tail_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err2_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err2_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_head_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err2_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_tail_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err2_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err2_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_head_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err2_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_tail_wr_g[2]), .clk (clk), .se (se), .si (), .so () ); // // thread 3 // dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo3_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo3_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_head_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_cpu_mondo3_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (cpu_mondo3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (cpu_mondo_tail_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo3_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo3_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_head_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_dev_mondo3_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (dev_mondo3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (dev_mondo_tail_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err3_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err3_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_head_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_resum_err3_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (resum_err3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (resum_err_tail_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err3_head ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err3_head[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_head_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); dffe_s #(`TLU_ASI_QUE_WIDTH) dffe_nresum_err3_tail ( .din (tlu_asi_queue_data_g[`TLU_ASI_QUE_WIDTH-1:0]), .q (nresum_err3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .en (nresum_err_tail_wr_g[3]), .clk (clk), .se (se), .si (), .so () ); // // reading out the asi queues // // added for bug2332 // assign cpu_mondo_hd_onehot_g = // ~(|cpu_mondo_head_rd_g[3:1]); // cpu_mondo_head mux4ds #(`TLU_ASI_QUE_WIDTH) mx_cpu_mondo_head ( .in0 (cpu_mondo0_head[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (cpu_mondo1_head[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (cpu_mondo2_head[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (cpu_mondo3_head[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (cpu_mondo_head_rd_g[0]), .sel1 (cpu_mondo_head_rd_g[1]), .sel2 (cpu_mondo_head_rd_g[2]), .sel3 (cpu_mondo_head_rd_g[3]), .dout (cpu_mondo_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign cpu_mondo_ta_onehot_g = // ~(|cpu_mondo_tail_rd_g[3:1]); // cpu_mondo_tail mux4ds #(`TLU_ASI_QUE_WIDTH) mx_cpu_mondo_tail ( .in0 (cpu_mondo0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (cpu_mondo1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (cpu_mondo2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (cpu_mondo3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (cpu_mondo_tail_rd_g[0]), .sel1 (cpu_mondo_tail_rd_g[1]), .sel2 (cpu_mondo_tail_rd_g[2]), .sel3 (cpu_mondo_tail_rd_g[3]), .dout (cpu_mondo_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign dev_mondo_hd_onehot_g = // ~(|dev_mondo_head_rd_g[3:1]); // dev_mondo_head mux4ds #(`TLU_ASI_QUE_WIDTH) mx_dev_mondo_head ( .in0 (dev_mondo0_head[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (dev_mondo1_head[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (dev_mondo2_head[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (dev_mondo3_head[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (dev_mondo_head_rd_g[0]), .sel1 (dev_mondo_head_rd_g[1]), .sel2 (dev_mondo_head_rd_g[2]), .sel3 (dev_mondo_head_rd_g[3]), .dout (dev_mondo_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign dev_mondo_ta_onehot_g = // ~(|dev_mondo_tail_rd_g[3:1]); // dev_mondo_tail mux4ds #(`TLU_ASI_QUE_WIDTH) mx_dev_mondo_tail ( .in0 (dev_mondo0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (dev_mondo1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (dev_mondo2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (dev_mondo3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (dev_mondo_tail_rd_g[0]), .sel1 (dev_mondo_tail_rd_g[1]), .sel2 (dev_mondo_tail_rd_g[2]), .sel3 (dev_mondo_tail_rd_g[3]), .dout (dev_mondo_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign resum_err_hd_onehot_g = // ~(|resum_err_head_rd_g[3:1]); // resum_err_head mux4ds #(`TLU_ASI_QUE_WIDTH) mx_resum_err_head ( .in0 (resum_err0_head[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (resum_err1_head[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (resum_err2_head[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (resum_err3_head[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (resum_err_head_rd_g[0]), .sel1 (resum_err_head_rd_g[1]), .sel2 (resum_err_head_rd_g[2]), .sel3 (resum_err_head_rd_g[3]), .dout (resum_err_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign resum_err_ta_onehot_g = // ~(|resum_err_tail_rd_g[3:1]); // resum_err_tail mux4ds #(`TLU_ASI_QUE_WIDTH) mx_resum_err_tail ( .in0 (resum_err0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (resum_err1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (resum_err2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (resum_err3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (resum_err_tail_rd_g[0]), .sel1 (resum_err_tail_rd_g[1]), .sel2 (resum_err_tail_rd_g[2]), .sel3 (resum_err_tail_rd_g[3]), .dout (resum_err_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign nresum_err_hd_onehot_g = // ~(|nresum_err_head_rd_g[3:1]); // nresum_err_head mux4ds #(`TLU_ASI_QUE_WIDTH) mx_nresum_err_head ( .in0 (nresum_err0_head[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (nresum_err1_head[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (nresum_err2_head[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (nresum_err3_head[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (nresum_err_head_rd_g[0]), .sel1 (nresum_err_head_rd_g[1]), .sel2 (nresum_err_head_rd_g[2]), .sel3 (nresum_err_head_rd_g[3]), .dout (nresum_err_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug2332 // assign nresum_err_ta_onehot_g = // ~(|nresum_err_tail_rd_g[3:1]); // nresum_err_tail mux4ds #(`TLU_ASI_QUE_WIDTH) mx_nresum_err_tail ( .in0 (nresum_err0_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (nresum_err1_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (nresum_err2_tail[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (nresum_err3_tail[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (nresum_err_tail_rd_g[0]), .sel1 (nresum_err_tail_rd_g[1]), .sel2 (nresum_err_tail_rd_g[2]), .sel3 (nresum_err_tail_rd_g[3]), .dout (nresum_err_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug 2332 assign asi_qrdata_mx1_sel[0] = cpu_mondo_hd_rd_g | ~(|asi_qrdata_mx1_sel[3:1]); assign asi_qrdata_mx1_sel[1] = cpu_mondo_ta_rd_g; assign asi_qrdata_mx1_sel[2] = dev_mondo_hd_rd_g; assign asi_qrdata_mx1_sel[3] = dev_mondo_ta_rd_g; // // selecting between the eight queues mux4ds #(`TLU_ASI_QUE_WIDTH) mx1_asi_queue_rdata ( .in0 (cpu_mondo_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (cpu_mondo_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (dev_mondo_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (dev_mondo_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (asi_qrdata_mx1_sel[0]), .sel1 (asi_qrdata_mx1_sel[1]), .sel2 (asi_qrdata_mx1_sel[2]), .sel3 (asi_qrdata_mx1_sel[3]), .dout (asi_queue_rdata1_g[`TLU_ASI_QUE_WIDTH-1:0]) ); // // added for bug 2332 assign asi_qrdata_mx2_sel[0] = resum_err_hd_rd_g | ~(|asi_qrdata_mx2_sel[3:1]); assign asi_qrdata_mx2_sel[1] = resum_err_ta_rd_g; assign asi_qrdata_mx2_sel[2] = nresum_err_hd_rd_g; assign asi_qrdata_mx2_sel[3] = nresum_err_ta_rd_g; mux4ds #(`TLU_ASI_QUE_WIDTH) mx2_asi_queue_rdata ( .in0 (resum_err_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (resum_err_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .in2 (nresum_err_hd_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .in3 (nresum_err_ta_rdata[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (asi_qrdata_mx2_sel[0]), .sel1 (asi_qrdata_mx2_sel[1]), .sel2 (asi_qrdata_mx2_sel[2]), .sel3 (asi_qrdata_mx2_sel[3]), .dout (asi_queue_rdata2_g[`TLU_ASI_QUE_WIDTH-1:0]) ); // // constructing the select for the final asi queue rdata output assign asi_qrdata_mx_sel2 = resum_err_hd_rd_g | resum_err_ta_rd_g | nresum_err_hd_rd_g | nresum_err_ta_rd_g; // mux2ds #(`TLU_ASI_QUE_WIDTH) mx_tlu_asi_queue_rdata ( .in0 (asi_queue_rdata2_g[`TLU_ASI_QUE_WIDTH-1:0]), .in1 (asi_queue_rdata1_g[`TLU_ASI_QUE_WIDTH-1:0]), .sel0 (asi_qrdata_mx_sel2), .sel1 (~asi_qrdata_mx_sel2), .dout (tlu_asi_queue_rdata_g[`TLU_ASI_QUE_WIDTH-1:0]) ); // // forming the valid signal for the asi queue rdata assign tlu_asi_queue_rd_vld_g = asi_qrdata_mx_sel2 | cpu_mondo_hd_rd_g | cpu_mondo_ta_rd_g | dev_mondo_hd_rd_g | dev_mondo_ta_rd_g; assign tlu_ld_data_vld_g = asi_ld_addr_vld_g; //////////////////////////////////////////////////////////////////////// // SCPD and HSCPD control logic //////////////////////////////////////////////////////////////////////// // // privileged scratch pad access assign asi_scpd_rw_e = ifu_lsu_alt_space_e & (tlu_asi_state_e[`TLU_ASI_STATE_WIDTH-1:0]==`PRI_SCPD_ASI_STATE); // hyprivileged scratch pad access assign asi_hscpd_rw_e = ifu_lsu_alt_space_e & (tlu_asi_state_e[`TLU_ASI_STATE_WIDTH-1:0]==`HPRI_SCPD_ASI_STATE); // // staged the scpd/hscpd rw ctls dffr_s #(2) dffr_asi_scpd_rw_ctls ( .din ({asi_hscpd_rw_e, asi_scpd_rw_e}), .q ({asi_hscpd_rw_m, asi_scpd_rw_m}), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // address generation // // modified due to timing fix /* assign scpd_addr_va_e[`SCPD_ASI_VA_ADDR_WIDTH-1:0] = tlu_ldst_va_e[`TLU_ASI_SCPD_VA_HI:`TLU_ASI_SCPD_VA_LO]; staged the shifted va address modified due to timing fix dff_s #(`SCPD_ASI_VA_ADDR_WIDTH) dff_scpd_addr_va_m ( .din (scpd_addr_va_e[`SCPD_ASI_VA_ADDR_WIDTH-1:0]), .q (scpd_addr_va_m[`SCPD_ASI_VA_ADDR_WIDTH-1:0]), .clk (clk), .se (se), .si (), .so () ); */ assign scpd_addr_va_m[`SCPD_ASI_VA_ADDR_WIDTH-1:0] = tlu_ldst_va_m[`TLU_ASI_SCPD_VA_HI:`TLU_ASI_SCPD_VA_LO]; dff_s #(`SCPD_ASI_VA_ADDR_WIDTH) dff_scpd_addr_va_g ( .din (scpd_addr_va_m[`SCPD_ASI_VA_ADDR_WIDTH-1:0]), .q (scpd_addr_va_g[`SCPD_ASI_VA_ADDR_WIDTH-1:0]), .clk (clk), .se (se), .si (), .so () ); assign tlu_scpd_rd_addr_m[`SCPD_RW_ADDR_WIDTH-1:0] = {thrid_m[1:0], scpd_addr_va_m[`SCPD_ASI_VA_ADDR_WIDTH-1:0]}; assign tlu_scpd_wr_addr_g[`SCPD_RW_ADDR_WIDTH-1:0] = {thrid_g[1:0], scpd_addr_va_g[`SCPD_ASI_VA_ADDR_WIDTH-1:0]}; // // illegal range check for scratch-pd va // modified due to timing /* assign scpd_ill_va_e = (ifu_lsu_alt_space_e)? ((asi_scpd_rw_e | asi_hscpd_rw_e) & ((|exu_lsu_ldst_va_e[`ASI_VA_WIDTH-1:`TLU_ASI_SCPD_VA_HI+1]) | (|exu_lsu_ldst_va_e[`TLU_ASI_SCPD_VA_LO-1:0]))) : 1'b0; // staged illegal va range dffr_s dffr_scpd_ill_va_m ( .din (scpd_ill_va_e), .q (scpd_ill_va_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); */ // assign va_not_baligned_m = (|tlu_ldst_va_m[`TLU_ASI_SCPD_VA_LO-1:0]); assign scpd_ill_va_m = (asi_scpd_rw_m | asi_hscpd_rw_m) & va_not_baligned_m; // dffr_s dffr_scpd_ill_va_g ( .din (scpd_ill_va_m), .q (scpd_ill_va_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // // generating read and write valid assign asi_scpd_rw_vld_m = (asi_scpd_rw_m | asi_hscpd_rw_m) & ~(hscpd_data_acc_excpt_m | va_not_baligned_m); dffr_s dffr_asi_scpd_rw_vld_g ( .din (asi_scpd_rw_vld_m), .q (asi_scpd_rw_vld_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign tlu_scpd_wr_vld_g = asi_queue_write_g & asi_scpd_rw_vld_g; // // control to the memory macro for the read // modified due to timing assign tlu_scpd_rd_vld_m = // asi_queue_read_m & asi_scpd_rw_vld_m; asi_queue_read_pq_m & asi_scpd_rw_vld_m; // // control to the int block for the selection of read data // replaced by queue vld // assign tlu_scpd_rd_vld_g = // asi_queue_read_g & asi_scpd_rw_vld_g; // decoding for hypervisor only scratch-pad assign hscpd_va_rw_m = ((scpd_addr_va_m[`SCPD_ASI_VA_ADDR_WIDTH-1:0] == `HSCPD_ASI_VA_ADDR_LO) | (scpd_addr_va_m[`SCPD_ASI_VA_ADDR_WIDTH-1:0] == `HSCPD_ASI_VA_ADDR_HI)); //////////////////////////////////////////////////////////////////////// // Potential trap indicators //////////////////////////////////////////////////////////////////////// // possible traps are: // 1) head ptr <> tail ptr (with the exception of nresum_err_queue) // 2) write to tail by supervisor - data_access_exception // // write to hypervisor scratch-pad using 0x20 ASI state assign hscpd_priv_asi_acc_m = hscpd_va_rw_m & asi_scpd_rw_m; // modified due to timing - moved the inst_vld qualification to tlu_tcl assign hscpd_data_acc_excpt_pq_m = hscpd_priv_asi_acc_m & (asi_queue_write_pq_m | asi_queue_read_pq_m); /* hscpd_priv_asi_acc_m & // (asi_queue_write_m | asi_queue_read_m) & (asi_queue_write_pq_m | asi_queue_read_pq_m) & ((thread_sel_id_m[0] & ~tlu_hyper_lite[0]) | (thread_sel_id_m[1] & ~tlu_hyper_lite[1]) | (thread_sel_id_m[2] & ~tlu_hyper_lite[2]) | (thread_sel_id_m[3] & ~tlu_hyper_lite[3])); */ // // data_access_exception to access the hyper-privileged scratch-pad assign tlu_hscpd_dacc_excpt_m = hscpd_data_acc_excpt_pq_m; // // revised for bug 3586 assign hscpd_data_acc_excpt_m = hscpd_data_acc_excpt_pq_m & ((thread_sel_id_m[0] & ~tlu_hyper_lite[0]) | (thread_sel_id_m[1] & ~tlu_hyper_lite[1]) | (thread_sel_id_m[2] & ~tlu_hyper_lite[2]) | (thread_sel_id_m[3] & ~tlu_hyper_lite[3])); // illegal va range indicator assign tlu_va_ill_g = (que_ill_va_g | scpd_ill_va_g) & asi_queue_read_g; // load instruction valid - scpd or asi queue assign asi_ld_addr_vld_m = asi_queue_read_m & (asi_queue_rw_m | ((asi_hscpd_rw_m | asi_scpd_rw_m) & ~hscpd_data_acc_excpt_m)); // staging the ld address valid dffr_s dffr_asi_ld_addr_vld_g ( .din (asi_ld_addr_vld_m), .q (asi_ld_addr_vld_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // // redefined va illegal checking - the following code is // no longer necessary // zero va range detector /* assign va_all_zero_e = (~(|exu_lsu_ldst_va_e[`ASI_VA_WIDTH-1:0])) & asi_queue_read_g; // // staged illegal va range dffr_s dffr_va_all_zero_m ( .din (va_all_zero_e), .q (va_all_zero_m), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); // dffr_s dffr_va_all_zero_g ( .din (va_all_zero_m), .q (va_all_zero_g), .rst (local_rst), .clk (clk), .se (se), .si (), .so () ); assign tlu_va_all_zero_g = va_all_zero_g; */ //////////////////////////////////////////////////////////////////////// // queue traps - head ptr <> tail ptr //////////////////////////////////////////////////////////////////////// // note: these traps are level-sensitive // // thread 0 assign tlu_cpu_mondo_cmp[0] = (|(cpu_mondo0_head[`TLU_ASI_QUE_WIDTH-1:0] ^ cpu_mondo0_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_dev_mondo_cmp[0]= (|(dev_mondo0_head[`TLU_ASI_QUE_WIDTH-1:0] ^ dev_mondo0_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_resum_err_cmp[0] = (|(resum_err0_head[`TLU_ASI_QUE_WIDTH-1:0] ^ resum_err0_tail[`TLU_ASI_QUE_WIDTH-1:0])); // thread 1 assign tlu_cpu_mondo_cmp[1] = (|(cpu_mondo1_head[`TLU_ASI_QUE_WIDTH-1:0] ^ cpu_mondo1_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_dev_mondo_cmp[1]= (|(dev_mondo1_head[`TLU_ASI_QUE_WIDTH-1:0] ^ dev_mondo1_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_resum_err_cmp[1] = (|(resum_err1_head[`TLU_ASI_QUE_WIDTH-1:0] ^ resum_err1_tail[`TLU_ASI_QUE_WIDTH-1:0])); // // thread 2 assign tlu_cpu_mondo_cmp[2] = (|(cpu_mondo2_head[`TLU_ASI_QUE_WIDTH-1:0] ^ cpu_mondo2_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_dev_mondo_cmp[2]= (|(dev_mondo2_head[`TLU_ASI_QUE_WIDTH-1:0] ^ dev_mondo2_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_resum_err_cmp[2] = (|(resum_err2_head[`TLU_ASI_QUE_WIDTH-1:0] ^ resum_err2_tail[`TLU_ASI_QUE_WIDTH-1:0])); // thread 3 assign tlu_cpu_mondo_cmp[3] = (|(cpu_mondo3_head[`TLU_ASI_QUE_WIDTH-1:0] ^ cpu_mondo3_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_dev_mondo_cmp[3]= (|(dev_mondo3_head[`TLU_ASI_QUE_WIDTH-1:0] ^ dev_mondo3_tail[`TLU_ASI_QUE_WIDTH-1:0])); assign tlu_resum_err_cmp[3] = (|(resum_err3_head[`TLU_ASI_QUE_WIDTH-1:0] ^ resum_err3_tail[`TLU_ASI_QUE_WIDTH-1:0])); // write to tail by supervisor // modified due to timing - moved the inst_vld qualification to tlu_tcl assign qtail_write_m = (nresum_err_tail_rw_m | resum_err_tail_rw_m | cpu_mondo_tail_rw_m | dev_mondo_tail_rw_m) & asi_queue_write_pq_m & asi_queue_rw_m; // asi_queue_write_m & asi_queue_rw_m; // // modified for timing - qualification moved to tcl assign tlu_qtail_dacc_excpt_m = qtail_write_m; /* ((thread_sel_id_m[0] & que_trap_en[0] & tlu_pstate_priv[0]) | (thread_sel_id_m[1] & que_trap_en[1] & tlu_pstate_priv[1]) | (thread_sel_id_m[2] & que_trap_en[2] & tlu_pstate_priv[2]) | (thread_sel_id_m[3] & que_trap_en[3] & tlu_pstate_priv[3])) & qtail_write_m; */ endmodule
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