// © IBM Corp. 2020
// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
// the terms below; you may not use the files in this repository except in
// compliance with the License as modified.
// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
//
// Modified Terms:
//
// 1) For the purpose of the patent license granted to you in Section 3 of the
// License, the "Work" hereby includes implementations of the work of authorship
// in physical form.
//
// 2) Notwithstanding any terms to the contrary in the License, any licenses
// necessary for implementation of the Work that are available from OpenPOWER
// via the Power ISA End User License Agreement (EULA) are explicitly excluded
// hereunder, and may be obtained from OpenPOWER under the terms and conditions
// of the EULA.
//
// Unless required by applicable law or agreed to in writing, the reference design
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
// for the specific language governing permissions and limitations under the License.
//
// Additional rights, including the ability to physically implement a softcore that
// is compliant with the required sections of the Power ISA Specification, are
// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
// obtained (along with the Power ISA) here: https://openpowerfoundation.org.
`timescale 1 ns / 1 ns
//
// Description: Store Queue
//
//*****************************************************************************
// ##########################################################################################
// Contents
// 1) Load Queue
// 2) Store
// 3) Load/Store Queue Control
// ##########################################################################################
`include " tri_a2o.vh "
// `define `EXPAND_TYPE 2;
// `define `GPR_WIDTH_ENC 6; // Register Mode 5 32bit, 6 64bit
// `define `STQ_ENTRIES 12; // Store Queue Size
// `define STQ_FWD_ENTRIES 4; // number of stq entries that can be forwarded from
// `define `STQ_ENTRIES_ENC 4; // Store Queue Encoded Size
// `define STQ_DATA_SIZE 64; // 64 or 128 Bit store data sizes supported
// `define `ITAG_SIZE_ENC 7; // ITAG size
// `define `CR_POOL_ENC 5; // Encode of CR rename pool size
// `define `GPR_POOL_ENC 6;
// `define AXU_SPARE_ENC 3;
// `define THREADS_POOL_ENC 1;
// `define DC_SIZE 15; // 14 > 16K L1D$, 15 > 32K L1D$
// `define CL_SIZE 6; // 6 > 64B CLINE, 7 > 128B CLINE
// `define REAL_IFAR_WIDTH 42; // real addressing bits
// `define `THREADS 2;
// `define LMQ_ENTRIES 8;
module lq_stq (
rv_lq_rv1_i0_vld ,
rv_lq_rv1_i0_ucode_preissue ,
rv_lq_rv1_i0_s3_t ,
rv_lq_rv1_i0_rte_sq ,
rv_lq_rv1_i0_itag ,
rv_lq_rv1_i1_vld ,
rv_lq_rv1_i1_ucode_preissue ,
rv_lq_rv1_i1_s3_t ,
rv_lq_rv1_i1_rte_sq ,
rv_lq_rv1_i1_itag ,
rv_lq_vld ,
rv_lq_isLoad ,
xu1_lq_ex2_stq_val ,
xu1_lq_ex2_stq_itag ,
xu1_lq_ex2_stq_dvc1_cmp ,
xu1_lq_ex2_stq_dvc2_cmp ,
ctl_lsq_ex4_xu1_data ,
xu1_lq_ex3_illeg_lswx ,
xu1_lq_ex3_strg_noop ,
xu_lq_axu_ex_stq_val ,
xu_lq_axu_ex_stq_itag ,
xu_lq_axu_exp1_stq_data ,
ctl_lsq_ex2_itag ,
ctl_lsq_ex2_thrd_id ,
ctl_lsq_ex3_byte_en ,
ctl_lsq_ex3_p_addr ,
ctl_lsq_ex3_algebraic ,
ctl_lsq_ex2_streq_val ,
ctl_lsq_ex4_streq_val ,
ctl_lsq_ex3_ldreq_val ,
ctl_lsq_ex3_pfetch_val ,
ctl_lsq_ex3_wchkall_val ,
ctl_lsq_ex3_opsize ,
ctl_lsq_ex4_p_addr ,
ctl_lsq_ex4_cline_chk ,
ctl_lsq_ex4_wimge ,
ctl_lsq_ex4_byte_swap ,
ctl_lsq_ex4_is_sync ,
ctl_lsq_ex4_all_thrd_chk ,
ctl_lsq_ex4_is_store ,
ctl_lsq_ex4_is_resv ,
ctl_lsq_ex4_is_mfgpr ,
ctl_lsq_ex4_is_icswxr ,
ctl_lsq_ex4_is_icbi ,
ctl_lsq_ex4_is_inval_op ,
ctl_lsq_ex4_dreq_val ,
ctl_lsq_ex4_has_data ,
ctl_lsq_ex4_send_l2 ,
ctl_lsq_ex4_watch_clr ,
ctl_lsq_ex4_watch_clr_all ,
ctl_lsq_ex4_mtspr_trace ,
ctl_lsq_ex4_is_cinval ,
ctl_lsq_ex5_lock_clr ,
ctl_lsq_ex5_ttype ,
ctl_lsq_ex5_axu_val ,
ctl_lsq_ex5_is_epid ,
ctl_lsq_ex5_usr_def ,
ctl_lsq_ex5_l_fld ,
ctl_lsq_ex5_tgpr ,
ctl_lsq_ex5_dvc ,
ctl_lsq_ex5_dacrw ,
ctl_lsq_ex5_load_hit ,
ctl_lsq_ex5_flush_req ,
ctl_lsq_rv1_dir_rd_val ,
ldq_stq_ldm_cpl ,
ldq_stq_ex5_ldm_hit ,
ldq_stq_ex5_ldm_entry ,
ldq_stq_stq4_dir_upd ,
ldq_stq_stq4_cclass ,
stq_odq_i0_stTag ,
stq_odq_i1_stTag ,
stq_odq_stq4_stTag_inval ,
stq_odq_stq4_stTag ,
odq_stq_ex2_nxt_oldest_val ,
odq_stq_ex2_nxt_oldest_stTag ,
odq_stq_ex2_nxt_youngest_val ,
odq_stq_ex2_nxt_youngest_stTag ,
odq_stq_resolved ,
odq_stq_stTag ,
ctl_lsq_spr_dvc1_dbg ,
ctl_lsq_spr_dvc2_dbg ,
ctl_lsq_spr_dbcr2_dvc1m ,
ctl_lsq_spr_dbcr2_dvc1be ,
ctl_lsq_spr_dbcr2_dvc2m ,
ctl_lsq_spr_dbcr2_dvc2be ,
ctl_lsq_dbg_int_en ,
iu_lq_cp_next_val ,
iu_lq_cp_next_itag ,
iu_lq_cp_flush ,
iu_lq_i0_completed ,
iu_lq_i0_completed_itag ,
iu_lq_i1_completed ,
iu_lq_i1_completed_itag ,
lsq_ctl_stq_cpl_ready ,
lsq_ctl_stq_cpl_ready_itag ,
lsq_ctl_stq_cpl_ready_tid ,
lsq_ctl_stq_n_flush ,
lsq_ctl_stq_np1_flush ,
lsq_ctl_stq_exception_val ,
lsq_ctl_stq_exception ,
lsq_ctl_stq_dacrw ,
ctl_lsq_stq_cpl_blk ,
ctl_lsq_ex_pipe_full ,
stq_ldq_empty ,
arb_stq_cred_avail ,
xu_lq_spr_xucr0_cls ,
iu_lq_spr_iucr0_icbi_ack ,
ctl_lsq_spr_lsucr0_sca ,
ctl_lsq_spr_lsucr0_dfwd ,
ldq_stq_rel1_blk_store ,
stq_hold_all_req ,
stq_rv_set_hold ,
stq_rv_clr_hold ,
lsq_ctl_ex5_stq_restart ,
lsq_ctl_ex5_stq_restart_miss ,
stq_arb_st_req_avail ,
stq_arb_stq3_cmmt_val ,
stq_arb_stq3_cmmt_reject ,
stq_arb_stq3_req_val ,
stq_arb_stq3_tid ,
stq_arb_stq3_usrDef ,
stq_arb_stq3_wimge ,
stq_arb_stq3_p_addr ,
stq_arb_stq3_ttype ,
stq_arb_stq3_opSize ,
stq_arb_stq3_byteEn ,
stq_arb_stq3_cTag ,
stq_arb_stq1_byte_swap ,
stq_arb_stq1_thrd_id ,
stq_dat_stq1_stg_act ,
lsq_dat_stq1_val ,
lsq_dat_stq1_mftgpr_val ,
lsq_dat_stq1_store_val ,
lsq_dat_stq1_byte_en ,
stq_arb_stq1_axu_val ,
stq_arb_stq1_epid_val ,
stq_arb_stq1_opSize ,
stq_arb_stq1_p_addr ,
stq_arb_stq1_wimge_i ,
stq_arb_stq1_store_data ,
stq_ctl_stq1_stg_act ,
lsq_ctl_stq1_val ,
lsq_ctl_stq1_mftgpr_val ,
lsq_ctl_stq1_mfdpf_val ,
lsq_ctl_stq1_mfdpa_val ,
lsq_ctl_stq1_lock_clr ,
lsq_ctl_stq1_watch_clr ,
lsq_ctl_stq1_l_fld ,
lsq_ctl_stq1_inval ,
lsq_ctl_stq1_dci_val ,
lsq_ctl_stq1_store_val ,
lsq_ctl_stq4_xucr0_cul ,
lsq_ctl_stq5_itag ,
lsq_ctl_stq5_tgpr ,
ctl_lsq_stq4_perr_reject ,
lsq_ctl_ex3_strg_val ,
lsq_ctl_ex3_strg_noop ,
lsq_ctl_ex3_illeg_lswx ,
lsq_ctl_ex3_ct_val ,
lsq_ctl_ex3_be_ct ,
lsq_ctl_ex3_le_ct ,
lsq_ctl_stq1_resv ,
stq_stq2_blk_req ,
lsq_ctl_ex5_fwd_data ,
lsq_ctl_ex5_fwd_val ,
lsq_ctl_ex6_stq_events ,
lsq_perv_stq_events ,
lsq_ctl_sync_in_stq ,
lsq_ctl_sync_done ,
sq_iu_credit_free ,
an_ac_sync_ack ,
lq_iu_icbi_val ,
lq_iu_icbi_addr ,
iu_lq_icbi_complete ,
lq_iu_ici_val ,
l2_back_inv_val ,
l2_back_inv_addr ,
an_ac_back_inv ,
an_ac_back_inv_target_bit3 ,
an_ac_back_inv_addr ,
an_ac_back_inv_addr_lo ,
an_ac_stcx_complete ,
an_ac_stcx_pass ,
an_ac_icbi_ack ,
an_ac_icbi_ack_thread ,
an_ac_coreid ,
xu_lq_xer_cp_rd ,
lq_xu_cr_l2_we ,
lq_xu_cr_l2_wa ,
lq_xu_cr_l2_wd ,
stq_arb_release_itag_vld ,
stq_arb_release_itag ,
stq_arb_release_tid ,
vdd ,
gnd ,
nclk ,
sg_0 ,
func_sl_thold_0_b ,
func_sl_force ,
d_mode_dc ,
delay_lclkr_dc ,
mpw1_dc_b ,
mpw2_dc_b ,
scan_in ,
scan_out
) ;
// IU interface to RV for instruction insertion
// port 0
input [ 0 : `THREADS - 1 ] rv_lq_rv1_i0_vld ;
input rv_lq_rv1_i0_ucode_preissue ;
input [ 0 : 2 ] rv_lq_rv1_i0_s3_t ;
input rv_lq_rv1_i0_rte_sq ;
input [ 0 : `ITAG_SIZE_ENC - 1 ] rv_lq_rv1_i0_itag ;
// port 1
input [ 0 : `THREADS - 1 ] rv_lq_rv1_i1_vld ;
input rv_lq_rv1_i1_ucode_preissue ;
input [ 0 : 2 ] rv_lq_rv1_i1_s3_t ;
input rv_lq_rv1_i1_rte_sq ;
input [ 0 : `ITAG_SIZE_ENC - 1 ] rv_lq_rv1_i1_itag ;
// LQ RV Snoop
input [ 0 : `THREADS - 1 ] rv_lq_vld ;
input rv_lq_isLoad ;
// FXU0 Data interface
input [ 0 : `THREADS - 1 ] xu1_lq_ex2_stq_val ;
input [ 0 : `ITAG_SIZE_ENC - 1 ] xu1_lq_ex2_stq_itag ;
input [ ( 64 - ( 2 * * `GPR_WIDTH_ENC ) ) / 8 : 7 ] xu1_lq_ex2_stq_dvc1_cmp ;
input [ ( 64 - ( 2 * * `GPR_WIDTH_ENC ) ) / 8 : 7 ] xu1_lq_ex2_stq_dvc2_cmp ;
input [ 64 - ( 2 * * `GPR_WIDTH_ENC ) : 63 ] ctl_lsq_ex4_xu1_data ;
input xu1_lq_ex3_illeg_lswx ;
input xu1_lq_ex3_strg_noop ;
// AXU Data interface
input [ 0 : `THREADS - 1 ] xu_lq_axu_ex_stq_val ;
input [ 0 : `ITAG_SIZE_ENC - 1 ] xu_lq_axu_ex_stq_itag ;
input [ ( 128 - `STQ_DATA_SIZE ) : 127 ] xu_lq_axu_exp1_stq_data ;
// Store Request Control (data into q)
input [ 0 : `ITAG_SIZE_ENC - 1 ] ctl_lsq_ex2_itag ;
input [ 0 : `THREADS - 1 ] ctl_lsq_ex2_thrd_id ;
input [ 0 : 15 ] ctl_lsq_ex3_byte_en ;
input [ 58 : 63 ] ctl_lsq_ex3_p_addr ;
input ctl_lsq_ex3_algebraic ;
input [ 0 : `THREADS - 1 ] ctl_lsq_ex2_streq_val ;
input [ 0 : `THREADS - 1 ] ctl_lsq_ex4_streq_val ;
input [ 0 : `THREADS - 1 ] ctl_lsq_ex3_ldreq_val ;
input ctl_lsq_ex3_pfetch_val ;
input [ 0 : `THREADS - 1 ] ctl_lsq_ex3_wchkall_val ;
input [ 0 : 2 ] ctl_lsq_ex3_opsize ;
input [ 64 - `REAL_IFAR_WIDTH : 63 ] ctl_lsq_ex4_p_addr ;
input ctl_lsq_ex4_cline_chk ; // cacheline op
input [ 0 : 4 ] ctl_lsq_ex4_wimge ;
input ctl_lsq_ex4_byte_swap ;
input ctl_lsq_ex4_is_sync ;
input ctl_lsq_ex4_all_thrd_chk ;
input ctl_lsq_ex4_is_store ;
input ctl_lsq_ex4_is_resv ;
input ctl_lsq_ex4_is_mfgpr ;
input ctl_lsq_ex4_is_icswxr ;
input ctl_lsq_ex4_is_icbi ;
input ctl_lsq_ex4_is_inval_op ;
input ctl_lsq_ex4_dreq_val ;
input ctl_lsq_ex4_has_data ;
input ctl_lsq_ex4_send_l2 ;
input ctl_lsq_ex4_watch_clr ;
input ctl_lsq_ex4_watch_clr_all ;
input ctl_lsq_ex4_mtspr_trace ;
input ctl_lsq_ex4_is_cinval ;
input ctl_lsq_ex5_lock_clr ;
input [ 0 : 5 ] ctl_lsq_ex5_ttype ;
input ctl_lsq_ex5_axu_val ; // XU;AXU type operation
input ctl_lsq_ex5_is_epid ;
input [ 0 : 3 ] ctl_lsq_ex5_usr_def ;
input [ 0 : 1 ] ctl_lsq_ex5_l_fld ;
input [ 0 : `AXU_SPARE_ENC + `GPR_POOL_ENC + `THREADS_POOL_ENC - 1 ] ctl_lsq_ex5_tgpr ;
input [ 0 : 1 ] ctl_lsq_ex5_dvc ;
input [ 0 : 3 ] ctl_lsq_ex5_dacrw ;
input ctl_lsq_ex5_load_hit ;
input ctl_lsq_ex5_flush_req ;
input ctl_lsq_rv1_dir_rd_val ;
input [ 0 : `LMQ_ENTRIES - 1 ] ldq_stq_ldm_cpl ;
input [ 0 : `LMQ_ENTRIES - 1 ] ldq_stq_ex5_ldm_hit ;
input [ 0 : `LMQ_ENTRIES - 1 ] ldq_stq_ex5_ldm_entry ;
input ldq_stq_stq4_dir_upd ;
input [ 64 - ( `DC_SIZE - 3 ) : 57 ] ldq_stq_stq4_cclass ;
// Age Detection
// store tag used when instruction was inserted to store queue
output [ 0 : `STQ_ENTRIES_ENC - 1 ] stq_odq_i0_stTag ;
output [ 0 : `STQ_ENTRIES_ENC - 1 ] stq_odq_i1_stTag ;
// store tag is committed; remove from order queue and dont compare against it
output stq_odq_stq4_stTag_inval ;
output [ 0 : `STQ_ENTRIES_ENC - 1 ] stq_odq_stq4_stTag ;
// order queue closest oldest store to the ex2 load request
input odq_stq_ex2_nxt_oldest_val ;
input [ 0 : `STQ_ENTRIES - 1 ] odq_stq_ex2_nxt_oldest_stTag ;
// order queue closest youngest store to the ex2 load request
input odq_stq_ex2_nxt_youngest_val ;
input [ 0 : `STQ_ENTRIES - 1 ] odq_stq_ex2_nxt_youngest_stTag ;
// store tag is resolved from odq allow stq to commit
input odq_stq_resolved ;
input [ 0 : `STQ_ENTRIES - 1 ] odq_stq_stTag ;
// Interface with Local SPR's
input [ 64 - ( 2 * * `GPR_WIDTH_ENC ) : 63 ] ctl_lsq_spr_dvc1_dbg ;
input [ 64 - ( 2 * * `GPR_WIDTH_ENC ) : 63 ] ctl_lsq_spr_dvc2_dbg ;
input [ 0 : 2 * `THREADS - 1 ] ctl_lsq_spr_dbcr2_dvc1m ;
input [ 0 : 8 * `THREADS - 1 ] ctl_lsq_spr_dbcr2_dvc1be ;
input [ 0 : 2 * `THREADS - 1 ] ctl_lsq_spr_dbcr2_dvc2m ;
input [ 0 : 8 * `THREADS - 1 ] ctl_lsq_spr_dbcr2_dvc2be ;
input [ 0 : `THREADS - 1 ] ctl_lsq_dbg_int_en ;
// Completion Inputs
input [ 0 : `THREADS - 1 ] iu_lq_cp_next_val ;
input [ 0 : ( `ITAG_SIZE_ENC * `THREADS ) - 1 ] iu_lq_cp_next_itag ;
input [ 0 : `THREADS - 1 ] iu_lq_cp_flush ;
input [ 0 : `THREADS - 1 ] iu_lq_i0_completed ;
input [ 0 : ( `ITAG_SIZE_ENC * `THREADS ) - 1 ] iu_lq_i0_completed_itag ;
input [ 0 : `THREADS - 1 ] iu_lq_i1_completed ;
input [ 0 : ( `ITAG_SIZE_ENC * `THREADS ) - 1 ] iu_lq_i1_completed_itag ;
// Store Queue Completion Report
output lsq_ctl_stq_cpl_ready ;
output [ 0 : `ITAG_SIZE_ENC - 1 ] lsq_ctl_stq_cpl_ready_itag ;
output [ 0 : `THREADS - 1 ] lsq_ctl_stq_cpl_ready_tid ;
output lsq_ctl_stq_n_flush ;
output lsq_ctl_stq_np1_flush ;
output lsq_ctl_stq_exception_val ;
output [ 0 : 5 ] lsq_ctl_stq_exception ;
output [ 0 : 3 ] lsq_ctl_stq_dacrw ;
input ctl_lsq_stq_cpl_blk ;
input ctl_lsq_ex_pipe_full ;
// Store Queue is empty
output [ 0 : `THREADS - 1 ] stq_ldq_empty ;
// L2 Credits Available
input arb_stq_cred_avail ;
// Data Cache Config
input xu_lq_spr_xucr0_cls ; // Data Cache Line Size Mode
// ICBI ACK Enable
input iu_lq_spr_iucr0_icbi_ack ;
// LSUCR0 Config Bits
input [ 0 : 2 ] ctl_lsq_spr_lsucr0_sca ;
input ctl_lsq_spr_lsucr0_dfwd ;
// Interface to Store Queue (reload block)
input ldq_stq_rel1_blk_store ;
// Reservation station hold (times for forcing a hole)
output stq_hold_all_req ;
// Reservation station set barrier indicator
output stq_rv_set_hold ;
output [ 0 : `THREADS - 1 ] stq_rv_clr_hold ;
// STORE Queue RESTART indicator
output lsq_ctl_ex5_stq_restart ;
output lsq_ctl_ex5_stq_restart_miss ;
// STQ Request to the L2
output stq_arb_st_req_avail ;
output stq_arb_stq3_cmmt_val ;
output stq_arb_stq3_cmmt_reject ;
output stq_arb_stq3_req_val ;
output [ 0 : 1 ] stq_arb_stq3_tid ;
output reg [ 0 : 3 ] stq_arb_stq3_usrDef ;
output reg [ 0 : 4 ] stq_arb_stq3_wimge ;
output reg [ 64 - `REAL_IFAR_WIDTH : 63 ] stq_arb_stq3_p_addr ;
output [ 0 : 5 ] stq_arb_stq3_ttype ;
output reg [ 0 : 2 ] stq_arb_stq3_opSize ;
output reg [ 0 : 15 ] stq_arb_stq3_byteEn ;
output [ 0 : 4 ] stq_arb_stq3_cTag ;
output reg stq_arb_stq1_byte_swap ;
output reg [ 0 : `THREADS - 1 ] stq_arb_stq1_thrd_id ;
// Store Commit Data Control
output stq_dat_stq1_stg_act ; // ACT Pin for DAT
output lsq_dat_stq1_val ;
output lsq_dat_stq1_mftgpr_val ;
output reg lsq_dat_stq1_store_val ;
output reg [ 0 : 15 ] lsq_dat_stq1_byte_en ;
output reg stq_arb_stq1_axu_val ;
output reg stq_arb_stq1_epid_val ;
output reg [ 0 : 2 ] stq_arb_stq1_opSize ;
output [ 64 - `REAL_IFAR_WIDTH : 63 ] stq_arb_stq1_p_addr ;
output reg stq_arb_stq1_wimge_i ;
output reg [ ( 128 - `STQ_DATA_SIZE ) : 127 ] stq_arb_stq1_store_data ;
// Store Commit Directory Control
output stq_ctl_stq1_stg_act ; // ACT Pin for CTL
output lsq_ctl_stq1_val ;
output lsq_ctl_stq1_mftgpr_val ;
output lsq_ctl_stq1_mfdpf_val ;
output lsq_ctl_stq1_mfdpa_val ;
output reg lsq_ctl_stq1_lock_clr ;
output reg lsq_ctl_stq1_watch_clr ;
output reg [ 0 : 1 ] lsq_ctl_stq1_l_fld ;
output reg lsq_ctl_stq1_inval ;
output lsq_ctl_stq1_dci_val ;
output reg lsq_ctl_stq1_store_val ;
output lsq_ctl_stq4_xucr0_cul ;
output reg [ 0 : `ITAG_SIZE_ENC - 1 ] lsq_ctl_stq5_itag ;
output reg [ 0 : `AXU_SPARE_ENC + `GPR_POOL_ENC + `THREADS_POOL_ENC - 1 ] lsq_ctl_stq5_tgpr ;
input ctl_lsq_stq4_perr_reject ;
// Illegal LSWX has been determined
output lsq_ctl_ex3_strg_val ; // STQ has checked XER valid
output lsq_ctl_ex3_strg_noop ; // STQ detected a noop of LSWX/STSWX
output lsq_ctl_ex3_illeg_lswx ; // STQ detected illegal form of LSWX
output lsq_ctl_ex3_ct_val ; // ICSWX Data is valid
output [ 0 : 5 ] lsq_ctl_ex3_be_ct ; // Big Endian Coprocessor Type Select
output [ 0 : 5 ] lsq_ctl_ex3_le_ct ; // Little Endian Coprocessor Type Select
// Store Commit Control
output reg lsq_ctl_stq1_resv ;
output stq_stq2_blk_req ;
output [ ( 128 - `STQ_DATA_SIZE ) : 127 ] lsq_ctl_ex5_fwd_data ;
output lsq_ctl_ex5_fwd_val ;
output [ 0 : 1 ] lsq_ctl_ex6_stq_events ;
output [ 0 : ( 3 * `THREADS ) + 2 ] lsq_perv_stq_events ;
output lsq_ctl_sync_in_stq ;
output lsq_ctl_sync_done ;
output [ 0 : `THREADS - 1 ] sq_iu_credit_free ;
input [ 0 : `THREADS - 1 ] an_ac_sync_ack ;
// ICBI interface
output [ 0 : `THREADS - 1 ] lq_iu_icbi_val ;
output [ 64 - `REAL_IFAR_WIDTH : 57 ] lq_iu_icbi_addr ;
input [ 0 : `THREADS - 1 ] iu_lq_icbi_complete ;
// ICI Interace
output lq_iu_ici_val ;
// Back-Invalidate Valid
input l2_back_inv_val ;
input [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] l2_back_inv_addr ;
// L2 Interface Back Invalidate
input an_ac_back_inv ;
input an_ac_back_inv_target_bit3 ;
input [ 58 : 60 ] an_ac_back_inv_addr ;
input [ 62 : 63 ] an_ac_back_inv_addr_lo ;
// Stcx Complete
input [ 0 : `THREADS - 1 ] an_ac_stcx_complete ;
input [ 0 : `THREADS - 1 ] an_ac_stcx_pass ;
// ICBI ACK
input an_ac_icbi_ack ;
input [ 0 : 1 ] an_ac_icbi_ack_thread ;
// Core ID
input [ 6 : 7 ] an_ac_coreid ;
// STCX/ICSWX CR Update
input [ 0 : `THREADS - 1 ] xu_lq_xer_cp_rd ;
output lq_xu_cr_l2_we ;
output [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] lq_xu_cr_l2_wa ;
output [ 0 : 3 ] lq_xu_cr_l2_wd ;
// Reload Itag Complete
output stq_arb_release_itag_vld ;
output [ 0 : `ITAG_SIZE_ENC - 1 ] stq_arb_release_itag ;
output [ 0 : `THREADS - 1 ] stq_arb_release_tid ;
// Pervasive
inout vdd ;
inout gnd ;
( * pin_data = " PIN_FUNCTION=/G_CLK/CAP_LIMIT=/99999/ " * )
input [ 0 : `NCLK_WIDTH - 1 ] nclk ;
input sg_0 ;
input func_sl_thold_0_b ;
input func_sl_force ;
input d_mode_dc ;
input delay_lclkr_dc ;
input mpw1_dc_b ;
input mpw2_dc_b ;
( * pin_data = " PIN_FUNCTION=/SCAN_IN/ " * )
input scan_in ;
( * pin_data = " PIN_FUNCTION=/SCAN_OUT/ " * )
output scan_out ;
parameter tiup = 1 'b1 ;
parameter tidn = 1 'b0 ;
parameter RI = 64 - `REAL_IFAR_WIDTH ;
parameter AXU_TARGET_ENC = `AXU_SPARE_ENC + `GPR_POOL_ENC + `THREADS_POOL_ENC ;
// Latches
wire rv_lq_vld_d ; // input=>rv_lq_vld_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire rv_lq_vld_q ;
wire rv_lq_ld_vld_d ; // input=>rv_lq_ld_vld_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire rv_lq_ld_vld_q ;
wire ex0_dir_rd_val_d ; // input=>ex0_dir_rd_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex0_dir_rd_val_q ;
wire [ 0 : `THREADS - 1 ] rv0_cp_flush_q ; // input=>rv0_cp_flush_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] rv0_cp_flush_d ;
wire [ 0 : `THREADS - 1 ] rv1_cp_flush_q ; // input=>rv1_cp_flush_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] rv1_cp_flush_d ;
wire [ 0 : `THREADS - 1 ] rv1_i0_vld ;
wire rv1_i0_flushed ;
wire [ 0 : `THREADS - 1 ] rv1_i1_vld ;
wire rv1_i1_flushed ;
wire [ 0 : `THREADS - 1 ] ex0_i0_vld_q ; // input=>rv2_i0_vld_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex0_i0_flushed_q ; // input=rv2_i0_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex0_i0_itag_q ; // input=>rv2_i0_itag_q ,act=>rv2_i0_act ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] ex0_i1_vld_q ; // input=>rv2_i1_vld_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex0_i1_flushed_q ; // input=rv2_i1_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex0_i1_itag_q ; // input=>rv2_i1_itag_q ,act=>rv2_i1_act ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] ex1_i0_vld_q ; // input=>rv2_i0_vld_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex1_i0_flushed_q ; // input=rv2_i0_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex1_i0_itag_q ; // input=>rv2_i0_itag_q ,act=>rv2_i0_act ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] ex1_i1_vld_q ; // input=>rv2_i1_vld_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex1_i1_flushed_q ; // input=rv2_i1_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex1_i1_itag_q ; // input=>rv2_i1_itag_q ,act=>rv2_i1_act ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_ptr_q ; // input=>stqe_alloc_ptr_d ,act=>stq_alloc_val(0) ,scan=>Y ,needs_sreset=>1 ,init=>2**(`STQ_ENTRIES-1)
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_d ; // input=>stqe_alloc_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_alloc_q ; // input=>stqe_alloc_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_addr_val_d ; // input=>stqe_addr_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_addr_val_q ; // input=>stqe_addr_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_fwd_addr_val_d ; // input=>stqe_fwd_addr_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_fwd_addr_val_q ; // input=>stqe_fwd_addr_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_data_val_d ; // input=>stqe_data_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_data_val_q ; // input=>stqe_data_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_data_nxt_d ; // input=>stqe_data_nxt_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_data_nxt_q ; // input=>stqe_data_nxt_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_illeg_lswx_d ; // input=>stqe_illeg_lswx_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_illeg_lswx_q ; // input=>stqe_illeg_lswx_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_strg_noop_d ; // input=>stqe_strg_noop_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_strg_noop_q ; // input=>stqe_strg_noop_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_ready_sent_d ; // input=>stqe_ready_sent_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_ready_sent_q ; // input=>stqe_ready_sent_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_odq_resolved_d ; // input=>stqe_odq_resolved_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_odq_resolved_q ; // input=>stqe_odq_resolved_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_compl_rcvd_d ; // input=>stqe_compl_rcvd_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_compl_rcvd_q ; // input=>stqe_compl_rcvd_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_have_cp_next_d ; // input=>stqe_have_cp_next_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_have_cp_next_q ; // input=>stqe_have_cp_next_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ready_ptr_d ; // input=>stqe_need_ready_ptr_d ,act=>stqe_need_ready_act ,scan=>Y ,needs_sreset=>1 ,init=>2**(`STQ_ENTRIES-1)
wire [ 0 : `STQ_ENTRIES ] stqe_need_ready_ptr_q ; // input=>stqe_need_ready_ptr_d ,act=>stqe_need_ready_act ,scan=>Y ,needs_sreset=>1 ,init=>2**(`STQ_ENTRIES-1)
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_flushed_d ; // input=>stqe_flushed_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_flushed_q ; // input=>stqe_flushed_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_ack_rcvd_d ; // input=>stqe_ack_rcvd_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_ack_rcvd_q ; // input=>stqe_ack_rcvd_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `LMQ_ENTRIES - 1 ] stqe_lmqhit_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>stqe_lmqhit_d ,act=>tiup ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `LMQ_ENTRIES - 1 ] stqe_lmqhit_q [ 0 : `STQ_ENTRIES ] ; // input=>stqe_lmqhit_d ,act=>tiup ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ext_ack_d ; // input=>stqe_need_ext_ack_d ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES ] stqe_need_ext_ack_q ; // input=>stqe_need_ext_ack_d ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_blk_loads_d ; // input=>stqe_blk_loads_d ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES ] stqe_blk_loads_q ; // input=>stqe_blk_loads_d ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_all_thrd_chk_d ; // input=>stqe_all_thrd_chk_d ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES ] stqe_all_thrd_chk_q ; // input=>stqe_all_thrd_chk_d ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `ITAG_SIZE_ENC - 1 ] stqe_itag_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>stqe_itag_d ,act=>stqe_itag_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `ITAG_SIZE_ENC - 1 ] stqe_itag_q [ 0 : `STQ_ENTRIES ] ; // input=>stqe_itag_d ,act=>stqe_itag_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 64 - `REAL_IFAR_WIDTH : 63 ] stqe_addr_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex4_p_addr ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 64 - `REAL_IFAR_WIDTH : 63 ] stqe_addr_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex4_p_addr ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 15 ] stqe_rotcmp_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>stq_rotcmp, ,act=>ex3_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 15 ] stqe_rotcmp_q [ 0 : `STQ_ENTRIES ] ; // input=>stq_rotcmp, ,act=>ex3_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_cline_chk_d ; // input=>ctl_lsq_ex4_cline_chk ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_cline_chk_q ; // input=>ctl_lsq_ex4_cline_chk ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : 5 ] stqe_ttype_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex5_ttype ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 5 ] stqe_ttype_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex5_ttype ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 15 ] stqe_byte_en_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex3_byte_en ,act=>ex3_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 15 ] stqe_byte_en_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex3_byte_en ,act=>ex3_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 4 ] stqe_wimge_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex4_wimge ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 4 ] stqe_wimge_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex4_wimge ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_byte_swap_d ; // input=>ctl_lsq_ex4_byte_swap ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_byte_swap_q ; // input=>ctl_lsq_ex4_byte_swap ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : 2 ] stqe_opsize_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ex4_req_opsize_q ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 2 ] stqe_opsize_q [ 0 : `STQ_ENTRIES ] ; // input=>ex4_req_opsize_q ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_axu_val_d ; // input=>ctl_lsq_ex5_axu_val ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_axu_val_q ; // input=>ctl_lsq_ex5_axu_val ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_epid_val_d ; // input=>ctl_lsq_ex5_is_epid ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_epid_val_q ; // input=>ctl_lsq_ex5_is_epid ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : 3 ] stqe_usr_def_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex5_usr_def ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 3 ] stqe_usr_def_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex5_usr_def ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_is_store_d ; // input=>ctl_lsq_ex4_is_store ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_is_store_q ; // input=>ctl_lsq_ex4_is_store ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_is_sync_d ; // input=>ctl_lsq_ex4_is_sync ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_is_sync_q ; // input=>ctl_lsq_ex4_is_sync ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_is_resv_d ; // input=>ctl_lsq_ex4_is_resv ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_is_icswxr_d ; // input=>ctl_lsq_ex4_is_icswxr ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_is_icbi_d ; // input=>ctl_lsq_ex4_is_icbi ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_is_inval_op_d ; // input=>ctl_lsq_ex4_is_inval_op ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_dreq_val_d ; // input=>ctl_lsq_ex4_dreq_val ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_dreq_val_q ; // input=>ctl_lsq_ex4_dreq_val ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_has_data_d ; // input=>ctl_lsq_ex4_has_data ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_send_l2_d ; // input=>ctl_lsq_ex4_send_l2 ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_watch_clr_d ; // input=>ctl_lsq_ex4_watch_clr ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_is_resv_q ; // input=>ctl_lsq_ex4_is_resv ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_is_icswxr_q ; // input=>ctl_lsq_ex4_is_icswxr ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_is_icbi_q ; // input=>ctl_lsq_ex4_is_icbi ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_is_inval_op_q ; // input=>ctl_lsq_ex4_is_inval_op ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_has_data_q ; // input=>ctl_lsq_ex4_has_data ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_send_l2_q ; // input=>ctl_lsq_ex4_send_l2 ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_watch_clr_q ; // input=>ctl_lsq_ex4_watch_clr ,act=>ex4_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_lock_clr_d ; // input=>ctl_lsq_ex5_lock_clr ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : `STQ_ENTRIES ] stqe_lock_clr_q ; // input=>ctl_lsq_ex5_lock_clr ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i
wire [ 0 : 1 ] stqe_l_fld_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex5_l_fld ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : 1 ] stqe_l_fld_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex5_l_fld ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `THREADS - 1 ] stqe_thrd_id_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>stqe_thrd_id_d ,act=>stqe_itag_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : `THREADS - 1 ] stqe_thrd_id_q [ 0 : `STQ_ENTRIES ] ; // input=>stqe_thrd_id_d ,act=>stqe_itag_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : AXU_TARGET_ENC - 1 ] stqe_tgpr_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex5_tgpr ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : AXU_TARGET_ENC - 1 ] stqe_tgpr_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex5_tgpr ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : 1 ] stqe_dvc_en_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex5_dvc ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : 1 ] stqe_dvc_en_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex5_dvc ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : 3 ] stqe_dacrw_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>ctl_lsq_ex5_dacrw ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : 3 ] stqe_dacrw_q [ 0 : `STQ_ENTRIES ] ; // input=>ctl_lsq_ex5_dacrw ,act=>ex5_addr_act(i) ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : 1 ] stqe_dvcr_cmpr_q [ 0 : `STQ_ENTRIES ] ; // input=>stqe_dvcr_cmpr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1 ,iterator=>i ,array=>Y
wire [ 0 : 1 ] stqe_dvcr_cmpr_d [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_qHit_held_q ; // input=>stqe_qHit_held_d ,act=>tiup ,scan=>Y ,needs_sreset=>1 ,iterator=>i
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_qHit_held_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_held_early_clr_d ; // input=>stqe_held_early_clr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] stqe_held_early_clr_q ; // input=>stqe_held_early_clr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ ( 128 - `STQ_DATA_SIZE ) : 127 ] stqe_data1_d [ 0 : `STQ_ENTRIES - 1 ] ; // input=>stqe_data1_d, ,act=>stqe_data_val(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ ( 128 - `STQ_DATA_SIZE ) : 127 ] stqe_data1_q [ 0 : `STQ_ENTRIES ] ; // input=>stqe_data1_d, ,act=>stqe_data_val(i) ,scan=>Y ,needs_sreset=>0 ,iterator=>i ,array=>Y
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fxu1_data_ptr_q ; // input=>ex4_fxu1_data_ptr_d ,act=>ex3_fxu1_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fxu1_data_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_axu_data_ptr_q ; // input=>ex4_axu_data_ptr_d ,act=>ex3_axu_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_axu_data_ptr_d ;
wire [ ( 128 - `STQ_DATA_SIZE ) : 127 ] ex4_fu_data_q ; // input=>xu_lq_axu_exp1_stq_data ,act=>ex3_axu_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] cp_flush_q ; // input=>iu_lq_cp_flush ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] cp_next_val_q ; // input=>iu_lq_cp_next_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] cp_next_itag_q [ 0 : `THREADS - 1 ] ; // input=>iu_lq_cp_next_itag ,act=>iu_lq_cp_next_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] cp_i0_completed_q ; // input=>iu_lq_i0_completed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] cp_i0_completed_itag_q [ 0 : `THREADS - 1 ] ; // input=>iu_lq_i0_completed_itag ,act=>iu_lq_i0_completed ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] cp_i1_completed_q ; // input=>iu_lq_i1_completed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] cp_i1_completed_itag_q [ 0 : `THREADS - 1 ] ; // input=>iu_lq_i1_completed_itag ,act=>iu_lq_i1_completed ,scan=>Y ,needs_sreset=>0
wire stq_cpl_need_hold_q ; // input=>stq_cpl_need_hold_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq_cpl_need_hold_d ;
wire [ 0 : `THREADS - 1 ] iu_lq_icbi_complete_q ; // input=>iu_lq_icbi_complete ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_cmmt_flushed_q ; // input=>stq1_cmmt_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq1_cmmt_flushed ;
wire stq3_cmmt_flushed_q ; // input=>stq1_cmmt_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq4_cmmt_flushed_q ; // input=>stq1_cmmt_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq5_cmmt_flushed_q ; // input=>stq1_cmmt_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq6_cmmt_flushed_q ; // input=>stq1_cmmt_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq7_cmmt_flushed_q ; // input=>stq1_cmmt_flushed ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stq1_cmmt_ptr_q ; // input=>stq1_cmmt_ptr_d ,act=>stq1_cmmt_act ,scan=>Y ,needs_sreset=>1 ,init=>2**(`STQ_ENTRIES-1)
wire [ 0 : `STQ_ENTRIES - 1 ] stq1_cmmt_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq2_cmmt_ptr_q ; // input=>stq1_cmmt_ptr_q ,act=>stq1_cmmt_act ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stq2_cmmt_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq3_cmmt_ptr_q ; // input=>stq2_cmmt_ptr_q ,act=>stq2_cmmt_val_q ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stq3_cmmt_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq4_cmmt_ptr_q ; // input=>stq3_cmmt_ptr_q ,act=>stq3_cmmt_val_q ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stq4_cmmt_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq5_cmmt_ptr_q ; // input=>stq4_cmmt_ptr_q ,act=>stq4_cmmt_val_q ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stq5_cmmt_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq6_cmmt_ptr_q ; // input=>stq5_cmmt_ptr_q ,act=>stq5_cmmt_val_q ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stq6_cmmt_ptr_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq7_cmmt_ptr_q ; // input=>stq7_cmmt_ptr_d ,act=>stq6_cmmt_val_q ,scan=>Y ,needs_sreset=>0
wire [ 0 : `STQ_ENTRIES - 1 ] stq7_cmmt_ptr_d ;
wire stq2_cmmt_val_q ; // input=>stq1_cmmt_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq1_cmmt_val ;
wire stq3_cmmt_val_q ; // input=>stq2_cmmt_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_cmmt_val ;
wire stq4_cmmt_val_q ; // input=>stq3_cmmt_val_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq5_cmmt_val_q ; // input=>stq4_cmmt_val_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq6_cmmt_val_q ; // input=>stq5_cmmt_val_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq7_cmmt_val_q ; // input=>stq6_cmmt_val_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ext_ack_queue_v_q ; // input=>ext_ack_queue_v_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ext_ack_queue_v_d ;
wire [ 0 : `THREADS - 1 ] ext_ack_queue_sync_q ; // input=>ext_ack_queue_sync_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ext_ack_queue_sync_d ;
wire [ 0 : `THREADS - 1 ] ext_ack_queue_stcx_q ; // input=>ext_ack_queue_stcx_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ext_ack_queue_stcx_d ;
wire [ 0 : `THREADS - 1 ] ext_ack_queue_icswxr_q ; // input=>ext_ack_queue_icswxr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ext_ack_queue_icswxr_d ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ext_ack_queue_itag_q [ 0 : `THREADS - 1 ] ; // input=>ext_ack_queue_itag_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ext_ack_queue_itag_d [ 0 : `THREADS - 1 ] ;
wire [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] ext_ack_queue_cr_wa_q [ 0 : `THREADS - 1 ] ; // input=>ext_ack_queue_cr_wa_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] ext_ack_queue_cr_wa_d [ 0 : `THREADS - 1 ] ;
wire [ 0 : 3 ] ext_ack_queue_dacrw_det_q [ 0 : `THREADS - 1 ] ; // input=>ext_ack_queue_dacrw_det_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : 3 ] ext_ack_queue_dacrw_det_d [ 0 : `THREADS - 1 ] ;
wire [ 0 : `THREADS - 1 ] ext_ack_queue_dacrw_rpt_q ; // input=>ext_ack_queue_dacrw_rpt_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ext_ack_queue_dacrw_rpt_d ;
wire stq2_mftgpr_val_q ; // input=>stq2_mftgpr_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_mftgpr_val_d ;
wire [ 0 : 2 ] stq2_rtry_cnt_q ; // input=>stq2_rtry_cnt_d ,act=>stq2_rtry_cnt_act ,scan=>Y ,needs_sreset=>1
wire [ 0 : 2 ] stq2_rtry_cnt_d ;
wire ex5_stq_restart_q ; // input=>ex5_stq_restart_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex5_stq_restart_d ;
wire ex5_stq_restart_miss_q ; // input=>ex5_stq_restart_miss_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex5_stq_restart_miss_d ;
wire [ 0 : `STQ_FWD_ENTRIES - 2 ] stq_fwd_pri_mask_d ;
wire [ 0 : `STQ_FWD_ENTRIES - 1 ] stq_fwd_pri_mask_q ;
wire ex5_fwd_val_q ; // input=>ex5_fwd_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex5_fwd_val_d ;
wire [ ( 128 - `STQ_DATA_SIZE ) : 127 ] ex5_fwd_data_q ; // input=>ex5_fwd_data_d ,act=>ex4_ldreq_val_q ,scan=>Y ,needs_sreset=>1
reg [ ( 128 - `STQ_DATA_SIZE ) : 127 ] ex5_fwd_data_d ;
wire [ 0 : `STQ_ENTRIES ] ex4_set_stq_q ; // input=>ex3_addr_act ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] ex5_set_stq_q ; // input=>ex4_set_stq_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex4_ldreq_val_q ; // input=>ex3_ldreq_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex3_ldreq_val ;
wire ex4_pfetch_val_q ; // input=>ex4_pfetch_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex4_pfetch_val_d ;
wire [ 0 : `THREADS - 1 ] ex3_streq_val_q ; // input=>ex2_streq_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex2_streq_val ;
wire [ 0 : `THREADS - 1 ] ex5_streq_val_q ; // input=>ex4_streq_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex4_streq_val ;
wire [ 0 : `THREADS - 1 ] ex4_wchkall_val_q ; // input=>ex3_wchkall_val ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex3_wchkall_val ;
wire [ 0 : `THREADS - 1 ] hwsync_ack_q ; // input=>hwsync_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] hwsync_ack ;
wire [ 0 : `THREADS - 1 ] lwsync_ack_q ; // input=>lwsync_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] lwsync_ack ;
wire icswxr_ack_q ; // input=>icswxr_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire icswxr_ack ;
wire icswxr_ack_dly1_q ; // input=>icswxr_ack_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] local_instr_ack_q ; // input=>local_instr_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] local_instr_ack ;
wire [ 0 : `THREADS - 1 ] resv_ack_q ; // input=>resv_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] resv_ack_d ;
wire [ 0 : `THREADS - 1 ] stcx_pass_q ; // input=>stcx_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] icbi_ack_q ; // input=>icbi_ack ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] icbi_ack ;
wire [ 0 : `THREADS - 1 ] icbi_val_q ; // input=>icbi_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] icbi_val_d ;
wire [ RI: 57 ] icbi_addr_q ; // input=>icbi_addr_d ,act=>stq2_cmmt_val_q ,scan=>Y ,needs_sreset=>1
reg [ RI: 57 ] icbi_addr_d ;
wire ici_val_q ; // input=>ici_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ici_val_d ;
wire [ 0 : `THREADS - 1 ] credit_free_q ; // input=>credit_free_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] credit_free_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_agecmp_q ; // input=>ex3_fwd_agecmp ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_agecmp_d ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex3_req_itag_q ; // input=>ctl_lsq_ex2_itag ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex4_req_itag_q ; // input=>ex3_req_itag_q ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire [ 0 : 15 ] ex4_req_byte_en_q ; // input=>ctl_lsq_ex3_byte_en ,act=>ex3_req_act ,scan=>Y ,needs_sreset=>1
wire [ 58 : 63 ] ex4_req_p_addr_l_q ; // input=>ctl_lsq_ex3_p_addr ,act=>ex3_req_act ,scan=>Y ,needs_sreset=>1
wire [ 0 : 2 ] ex4_req_opsize_q ; // input=>ctl_lsq_ex3_opsize ,act=>ex3_req_act ,scan=>Y ,needs_sreset=>1
wire ex4_req_algebraic_q ; // input=>ctl_lsq_ex3_algebraic ,act=>ex3_req_act ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex3_req_thrd_id_q ; // input=>ctl_lsq_ex2_thrd_id ,act=>ex3_req_act ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex4_req_thrd_id_q ; // input=>ex3_req_thrd_id_q ,act=>ex3_req_act ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex5_req_thrd_id_q ; // input=>ex4_req_thrd_id_q ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] thrd_held_d ; // input=>thrd_held_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] thrd_held_q ;
wire [ 0 : `THREADS - 1 ] rv0_cr_hole_q ; // input=>rv0_cr_hole_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] rv0_cr_hole_d ;
wire [ 0 : `THREADS - 1 ] rv1_cr_hole_q ; // input=>rv1_cr_hole_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] rv1_cr_hole_d ;
wire [ 0 : `THREADS - 1 ] ex0_cr_hole_q ; // input=>ex0_cr_hole_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex0_cr_hole_d ;
wire [ 0 : `THREADS - 1 ] cr_ack_q ; // input=>cr_ack_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] cr_ack_d ;
wire sync_ack_save_q ; // input=>sync_ack_save ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire sync_ack_save_d ;
wire cr_we_q ; // input=>cr_we_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire cr_we_d ;
wire [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] cr_wa_q ; // input=>cr_wa_d ,act=>cr_we_d ,scan=>Y ,needs_sreset=>0
reg [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] cr_wa_d ;
wire [ 0 : 3 ] cr_wd_q ; // input=>cr_wd_d ,act=>cr_we_d ,scan=>Y ,needs_sreset=>0
wire [ 0 : 3 ] cr_wd_d ;
wire [ 0 : `THREADS - 1 ] stcx_thrd_fail_q ; // input=>stcx_thrd_fail_d ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] stcx_thrd_fail_d ;
wire stq3_cmmt_attmpt_q ; // input=>stq3_cmmt_attmpt_d ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire stq3_cmmt_attmpt_d ;
wire stq_need_hole_q ; // input=>stq_need_hole_d ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire stq_need_hole_d ;
wire [ 0 : `THREADS - 1 ] icswxr_thrd_busy_q ; // input=>icswxr_thrd_busy_d ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] icswxr_thrd_busy_d ;
wire [ 0 : `THREADS - 1 ] icswxr_thrd_nbusy_q ; // input=>icswxr_thrd_nbusy_d ,act=>tiup ,scan=>Y ,needs_sreset=>0
wire [ 0 : `THREADS - 1 ] icswxr_thrd_nbusy_d ;
wire [ 0 : `THREADS - 1 ] any_ack_hold_q ; // input=>any_ack_hold_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] any_ack_hold_d ;
wire [ 0 : `THREADS - 1 ] any_ack_val_ok_q ; // input=>any_ack_val_ok_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] any_ack_val_ok_d ;
wire [ 0 : `THREADS - 1 ] arb_release_itag_vld_q ; // input=>arb_release_itag_vld ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] arb_release_itag_vld_d ;
wire spr_xucr0_cls_q ; // input=>spr_xucr0_cls_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire spr_xucr0_cls_d ;
wire spr_iucr0_icbi_ack_q ; // input=>spr_iucr0_icbi_ack_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire spr_iucr0_icbi_ack_d ;
wire spr_lsucr0_dfwd_q ; // input=>spr_lsucr0_dfwd_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire spr_lsucr0_dfwd_d ;
wire ex5_thrd_match_restart_q ; // input=>ex5_thrd_match_restart_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex5_thrd_match_restart_d ;
wire ex6_thrd_match_restart_q ; // input=>ex6_thrd_match_restart_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex6_thrd_match_restart_d ;
wire ex5_thrd_nomatch_restart_q ; // input=>ex5_thrd_nomatch_restart_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex5_thrd_nomatch_restart_d ;
wire ex6_thrd_nomatch_restart_q ; // input=>ex6_thrd_nomatch_restart_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex6_thrd_nomatch_restart_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex5_older_ldmiss_d ; // input=>ex5_older_ldmiss_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] ex5_older_ldmiss_q ; // input=>ex5_older_ldmiss_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex4_fxu1_illeg_lswx_q ; // input=>ex4_fxu1_illeg_lswx_d ,act=>ex3_fxu0_val ,scan=>Y ,needs_sreset=>0
wire ex4_fxu1_illeg_lswx_d ;
wire ex4_fxu1_strg_noop_q ; // input=>ex4_fxu1_strg_noop_d ,act=>ex3_fxu0_val ,scan=>Y ,needs_sreset=>0
wire ex4_fxu1_strg_noop_d ;
wire [ 0 : `THREADS - 1 ] ex3_fxu1_val_q ; // input=>ex3_fxu1_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex3_fxu1_val_d ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex3_fxu1_itag_q ; // input=>ex3_fxu1_itag_d ,act=>ex2_fxu1_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex3_fxu1_itag_d ;
wire [ 0 : ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 ] ex3_fxu1_dvc1_cmp_q ; // input=>ex3_fxu1_dvc1_cmp_d ,act=>ex2_fxu1_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 ] ex3_fxu1_dvc1_cmp_d ;
wire [ 0 : ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 ] ex3_fxu1_dvc2_cmp_q ; // input=>ex3_fxu1_dvc2_cmp_d ,act=>ex2_fxu1_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 ] ex3_fxu1_dvc2_cmp_d ;
wire [ 0 : `THREADS - 1 ] ex4_fxu1_val_q ; // input=>ex4_fxu1_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex4_fxu1_val_d ;
wire [ 0 : `THREADS - 1 ] ex3_axu_val_q ; // input=>ex3_axu_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex3_axu_val_d ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex3_axu_itag_q ; // input=>ex3_axu_itag_d ,act=>ex2_axu_val ,scan=>Y ,needs_sreset=>0
wire [ 0 : `ITAG_SIZE_ENC - 1 ] ex3_axu_itag_d ;
wire [ 0 : `THREADS - 1 ] ex4_axu_val_q ; // input=>ex4_axu_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] ex4_axu_val_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex5_qHit_set_oth_d ; // input=>ex5_qHit_set_oth_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES ] ex5_qHit_set_oth_q ; // input=>ex5_qHit_set_oth_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] ex5_qHit_set_miss_q ; // input=>ex5_qHit_set_miss_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] ex5_qHit_set_miss_d ;
wire [ 0 : `THREADS - 1 ] iu_icbi_ack_q ; // input=>iu_icbi_ack_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] iu_icbi_ack_d ;
wire [ 0 : `THREADS - 1 ] l2_icbi_ack_q ; // input=>l2_icbi_ack_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] l2_icbi_ack_d ;
wire rv1_binv_val_q ; // input=>rv1_binv_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire rv1_binv_val_d ;
wire ex0_binv_val_q ; // input=>ex0_binv_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex0_binv_val_d ;
wire ex1_binv_val_q ; // input=>ex1_binv_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex1_binv_val_d ;
wire ex2_binv_val_q ; // input=>ex2_binv_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex2_binv_val_d ;
wire ex3_binv_val_q ; // input=>ex3_binv_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire ex3_binv_val_d ;
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] rv1_binv_addr_q ; // input=>rv1_binv_addr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] rv1_binv_addr_d ;
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex0_binv_addr_q ; // input=>ex0_binv_addr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex0_binv_addr_d ;
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex1_binv_addr_q ; // input=>ex1_binv_addr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex1_binv_addr_d ;
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex2_binv_addr_q ; // input=>ex2_binv_addr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex2_binv_addr_d ;
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex3_binv_addr_q ; // input=>ex3_binv_addr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 64 - ( `DC_SIZE - 3 ) : 63 - `CL_SIZE ] ex3_binv_addr_d ;
wire stq2_binv_blk_cclass_q ; // input=>stq2_binv_blk_cclass_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_binv_blk_cclass_d ;
wire stq2_ici_val_q ; // input=>stq2_ici_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_ici_val_d ;
wire stq4_xucr0_cul_q ; // input=>stq4_xucr0_cul_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq4_xucr0_cul_d ;
wire stq2_reject_dci_q ; // input=>stq2_reject_dci_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_reject_dci_d ;
wire stq3_cmmt_reject_q ; // input=>stq3_cmmt_reject_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq3_cmmt_reject_d ;
wire stq2_dci_val_q ; // input=>stq2_dci_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq2_dci_val_d ;
wire stq3_cmmt_dci_val_q ; // input=>stq3_cmmt_dci_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq3_cmmt_dci_val_d ;
wire stq4_cmmt_dci_val_q ; // input=>stq4_cmmt_dci_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq4_cmmt_dci_val_d ;
wire stq5_cmmt_dci_val_q ; // input=>stq5_cmmt_dci_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire stq5_cmmt_dci_val_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_nxt_oldest_q ; // input=>ex3_nxt_oldest_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_nxt_oldest_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_val_q ; // input=>stq_tag_val_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_val_d ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ; // input=>stq_tag_ptr_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_ptr_d [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `STQ_ENTRIES_ENC - 1 ] stq4_cmmt_tag_q ; // input=>stq4_cmmt_tag_d ,act=>stq3_cmmt_val_q ,scan=>Y ,needs_sreset=>1
wire [ 0 : `STQ_ENTRIES_ENC - 1 ] stq4_cmmt_tag_d ;
wire [ 0 : `THREADS - 1 ] dbg_int_en_q ; // input=>dbg_int_en_d ,act=>tiup ,scan=>Y ,needs_sreset=>1
wire [ 0 : `THREADS - 1 ] dbg_int_en_d ;
parameter rv_lq_vld_offset = 0 ;
parameter rv_lq_ld_vld_offset = rv_lq_vld_offset + 1 ;
parameter ex0_dir_rd_val_offset = rv_lq_ld_vld_offset + 1 ;
parameter rv0_cp_flush_offset = ex0_dir_rd_val_offset + 1 ;
parameter rv1_cp_flush_offset = rv0_cp_flush_offset + `THREADS ;
parameter ex0_i0_vld_offset = rv1_cp_flush_offset + `THREADS ;
parameter ex0_i0_flushed_offset = ex0_i0_vld_offset + `THREADS ;
parameter ex0_i0_itag_offset = ex0_i0_flushed_offset + 1 ;
parameter ex0_i1_vld_offset = ex0_i0_itag_offset + `ITAG_SIZE_ENC ;
parameter ex0_i1_flushed_offset = ex0_i1_vld_offset + `THREADS ;
parameter ex0_i1_itag_offset = ex0_i1_flushed_offset + 1 ;
parameter ex1_i0_vld_offset = ex0_i1_itag_offset + `ITAG_SIZE_ENC ;
parameter ex1_i0_flushed_offset = ex1_i0_vld_offset + `THREADS ;
parameter ex1_i0_itag_offset = ex1_i0_flushed_offset + 1 ;
parameter ex1_i1_vld_offset = ex1_i0_itag_offset + `ITAG_SIZE_ENC ;
parameter ex1_i1_flushed_offset = ex1_i1_vld_offset + `THREADS ;
parameter ex1_i1_itag_offset = ex1_i1_flushed_offset + 1 ;
parameter stqe_alloc_ptr_offset = ex1_i1_itag_offset + `ITAG_SIZE_ENC ;
parameter stqe_alloc_offset = stqe_alloc_ptr_offset + `STQ_ENTRIES ;
parameter stqe_addr_val_offset = stqe_alloc_offset + `STQ_ENTRIES ;
parameter stqe_fwd_addr_val_offset = stqe_addr_val_offset + `STQ_ENTRIES ;
parameter stqe_rotcmp_offset = stqe_fwd_addr_val_offset + `STQ_ENTRIES ;
parameter stqe_data_val_offset = stqe_rotcmp_offset + 16 * `STQ_ENTRIES ;
parameter stqe_data_nxt_offset = stqe_data_val_offset + `STQ_ENTRIES ;
parameter stqe_illeg_lswx_offset = stqe_data_nxt_offset + `STQ_ENTRIES ;
parameter stqe_strg_noop_offset = stqe_illeg_lswx_offset + `STQ_ENTRIES ;
parameter stqe_ready_sent_offset = stqe_strg_noop_offset + `STQ_ENTRIES ;
parameter stqe_odq_resolved_offset = stqe_ready_sent_offset + `STQ_ENTRIES ;
parameter stqe_compl_rcvd_offset = stqe_odq_resolved_offset + `STQ_ENTRIES ;
parameter stqe_have_cp_next_offset = stqe_compl_rcvd_offset + `STQ_ENTRIES ;
parameter stqe_need_ready_ptr_offset = stqe_have_cp_next_offset + `STQ_ENTRIES ;
parameter stqe_flushed_offset = stqe_need_ready_ptr_offset + `STQ_ENTRIES ;
parameter stqe_ack_rcvd_offset = stqe_flushed_offset + `STQ_ENTRIES ;
parameter stqe_lmqhit_offset = stqe_ack_rcvd_offset + `STQ_ENTRIES ;
parameter stqe_need_ext_ack_offset = stqe_lmqhit_offset + `LMQ_ENTRIES * `STQ_ENTRIES ;
parameter stqe_blk_loads_offset = stqe_need_ext_ack_offset + `STQ_ENTRIES ;
parameter stqe_all_thrd_chk_offset = stqe_blk_loads_offset + `STQ_ENTRIES ;
parameter stqe_itag_offset = stqe_all_thrd_chk_offset + `STQ_ENTRIES ;
parameter stqe_addr_offset = stqe_itag_offset + `ITAG_SIZE_ENC * `STQ_ENTRIES ;
parameter stqe_cline_chk_offset = stqe_addr_offset + `REAL_IFAR_WIDTH * `STQ_ENTRIES ;
parameter stqe_ttype_offset = stqe_cline_chk_offset + `STQ_ENTRIES ;
parameter stqe_byte_en_offset = stqe_ttype_offset + 6 * `STQ_ENTRIES ;
parameter stqe_byte_swap_offset = stqe_byte_en_offset + 16 * `STQ_ENTRIES ;
parameter stqe_wimge_offset = stqe_byte_swap_offset + `STQ_ENTRIES ;
parameter stqe_opsize_offset = stqe_wimge_offset + 5 * `STQ_ENTRIES ;
parameter stqe_axu_val_offset = stqe_opsize_offset + 3 * `STQ_ENTRIES ;
parameter stqe_epid_val_offset = stqe_axu_val_offset + `STQ_ENTRIES ;
parameter stqe_usr_def_offset = stqe_epid_val_offset + `STQ_ENTRIES ;
parameter stqe_is_store_offset = stqe_usr_def_offset + 4 * `STQ_ENTRIES ;
parameter stqe_is_sync_offset = stqe_is_store_offset + `STQ_ENTRIES ;
parameter stqe_is_resv_offset = stqe_is_sync_offset + `STQ_ENTRIES ;
parameter stqe_is_icswxr_offset = stqe_is_resv_offset + `STQ_ENTRIES ;
parameter stqe_is_icbi_offset = stqe_is_icswxr_offset + `STQ_ENTRIES ;
parameter stqe_is_inval_op_offset = stqe_is_icbi_offset + `STQ_ENTRIES ;
parameter stqe_dreq_val_offset = stqe_is_inval_op_offset + `STQ_ENTRIES ;
parameter stqe_has_data_offset = stqe_dreq_val_offset + `STQ_ENTRIES ;
parameter stqe_send_l2_offset = stqe_has_data_offset + `STQ_ENTRIES ;
parameter stqe_lock_clr_offset = stqe_send_l2_offset + `STQ_ENTRIES ;
parameter stqe_watch_clr_offset = stqe_lock_clr_offset + `STQ_ENTRIES ;
parameter stqe_l_fld_offset = stqe_watch_clr_offset + `STQ_ENTRIES ;
parameter stqe_thrd_id_offset = stqe_l_fld_offset + 2 * `STQ_ENTRIES ;
parameter stqe_tgpr_offset = stqe_thrd_id_offset + `THREADS * `STQ_ENTRIES ;
parameter stqe_dvc_en_offset = stqe_tgpr_offset + AXU_TARGET_ENC * `STQ_ENTRIES ;
parameter stqe_dacrw_offset = stqe_dvc_en_offset + 2 * `STQ_ENTRIES ;
parameter stqe_dvcr_cmpr_offset = stqe_dacrw_offset + 4 * `STQ_ENTRIES ;
parameter stqe_qHit_held_offset = stqe_dvcr_cmpr_offset + 2 * `STQ_ENTRIES ;
parameter stqe_held_early_clr_offset = stqe_qHit_held_offset + `STQ_ENTRIES ;
parameter stqe_data1_offset = stqe_held_early_clr_offset + `STQ_ENTRIES ;
parameter ex4_fxu1_data_ptr_offset = stqe_data1_offset + `STQ_DATA_SIZE * `STQ_ENTRIES ;
parameter ex4_axu_data_ptr_offset = ex4_fxu1_data_ptr_offset + `STQ_ENTRIES ;
parameter ex4_fu_data_offset = ex4_axu_data_ptr_offset + `STQ_ENTRIES ;
parameter cp_flush_offset = ex4_fu_data_offset + `STQ_DATA_SIZE ;
parameter cp_next_val_offset = cp_flush_offset + `THREADS ;
parameter cp_next_itag_offset = cp_next_val_offset + `THREADS ;
parameter cp_i0_completed_offset = cp_next_itag_offset + `THREADS * `ITAG_SIZE_ENC ;
parameter cp_i0_completed_itag_offset = cp_i0_completed_offset + `THREADS ;
parameter cp_i1_completed_offset = cp_i0_completed_itag_offset + `THREADS * `ITAG_SIZE_ENC ;
parameter cp_i1_completed_itag_offset = cp_i1_completed_offset + `THREADS ;
parameter stq_cpl_need_hold_offset = cp_i1_completed_itag_offset + `THREADS * `ITAG_SIZE_ENC ;
parameter iu_lq_icbi_complete_offset = stq_cpl_need_hold_offset + 1 ;
parameter iu_icbi_ack_offset = iu_lq_icbi_complete_offset + `THREADS ;
parameter l2_icbi_ack_offset = iu_icbi_ack_offset + `THREADS ;
parameter rv1_binv_val_offset = l2_icbi_ack_offset + `THREADS ;
parameter ex0_binv_val_offset = rv1_binv_val_offset + 1 ;
parameter ex1_binv_val_offset = ex0_binv_val_offset + 1 ;
parameter ex2_binv_val_offset = ex1_binv_val_offset + 1 ;
parameter ex3_binv_val_offset = ex2_binv_val_offset + 1 ;
parameter rv1_binv_addr_offset = ex3_binv_val_offset + 1 ;
parameter ex0_binv_addr_offset = rv1_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ;
parameter ex1_binv_addr_offset = ex0_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ;
parameter ex2_binv_addr_offset = ex1_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ;
parameter ex3_binv_addr_offset = ex2_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ;
parameter stq2_binv_blk_cclass_offset = ex3_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ;
parameter stq2_ici_val_offset = stq2_binv_blk_cclass_offset + 1 ;
parameter stq4_xucr0_cul_offset = stq2_ici_val_offset + 1 ;
parameter stq2_reject_dci_offset = stq4_xucr0_cul_offset + 1 ;
parameter stq3_cmmt_reject_offset = stq2_reject_dci_offset + 1 ;
parameter stq2_dci_val_offset = stq3_cmmt_reject_offset + 1 ;
parameter stq3_cmmt_dci_val_offset = stq2_dci_val_offset + 1 ;
parameter stq4_cmmt_dci_val_offset = stq3_cmmt_dci_val_offset + 1 ;
parameter stq5_cmmt_dci_val_offset = stq4_cmmt_dci_val_offset + 1 ;
parameter stq2_cmmt_flushed_offset = stq5_cmmt_dci_val_offset + 1 ;
parameter stq3_cmmt_flushed_offset = stq2_cmmt_flushed_offset + 1 ;
parameter stq4_cmmt_flushed_offset = stq3_cmmt_flushed_offset + 1 ;
parameter stq5_cmmt_flushed_offset = stq4_cmmt_flushed_offset + 1 ;
parameter stq6_cmmt_flushed_offset = stq5_cmmt_flushed_offset + 1 ;
parameter stq7_cmmt_flushed_offset = stq6_cmmt_flushed_offset + 1 ;
parameter stq1_cmmt_ptr_offset = stq7_cmmt_flushed_offset + 1 ;
parameter stq2_cmmt_ptr_offset = stq1_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq3_cmmt_ptr_offset = stq2_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq4_cmmt_ptr_offset = stq3_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq5_cmmt_ptr_offset = stq4_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq6_cmmt_ptr_offset = stq5_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq7_cmmt_ptr_offset = stq6_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq2_cmmt_val_offset = stq7_cmmt_ptr_offset + `STQ_ENTRIES ;
parameter stq3_cmmt_val_offset = stq2_cmmt_val_offset + 1 ;
parameter stq4_cmmt_val_offset = stq3_cmmt_val_offset + 1 ;
parameter stq5_cmmt_val_offset = stq4_cmmt_val_offset + 1 ;
parameter stq6_cmmt_val_offset = stq5_cmmt_val_offset + 1 ;
parameter stq7_cmmt_val_offset = stq6_cmmt_val_offset + 1 ;
parameter ext_ack_queue_v_offset = stq7_cmmt_val_offset + 1 ;
parameter ext_ack_queue_sync_offset = ext_ack_queue_v_offset + `THREADS ;
parameter ext_ack_queue_stcx_offset = ext_ack_queue_sync_offset + `THREADS ;
parameter ext_ack_queue_icswxr_offset = ext_ack_queue_stcx_offset + `THREADS ;
parameter ext_ack_queue_itag_offset = ext_ack_queue_icswxr_offset + `THREADS ;
parameter ext_ack_queue_cr_wa_offset = ext_ack_queue_itag_offset + `ITAG_SIZE_ENC * `THREADS ;
parameter ext_ack_queue_dacrw_det_offset = ext_ack_queue_cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC ) * `THREADS ;
parameter ext_ack_queue_dacrw_rpt_offset = ext_ack_queue_dacrw_det_offset + 4 * `THREADS ;
parameter stq2_mftgpr_val_offset = ext_ack_queue_dacrw_rpt_offset + `THREADS ;
parameter stq2_rtry_cnt_offset = stq2_mftgpr_val_offset + 1 ;
parameter ex5_stq_restart_offset = stq2_rtry_cnt_offset + 3 ;
parameter ex5_stq_restart_miss_offset = ex5_stq_restart_offset + 1 ;
parameter stq_fwd_pri_mask_offset = ex5_stq_restart_miss_offset + 1 ;
parameter ex5_fwd_val_offset = stq_fwd_pri_mask_offset + ( `STQ_FWD_ENTRIES - 1 ) ;
parameter ex5_fwd_data_offset = ex5_fwd_val_offset + 1 ;
parameter ex4_set_stq_offset = ex5_fwd_data_offset + `STQ_DATA_SIZE ;
parameter ex5_set_stq_offset = ex4_set_stq_offset + `STQ_ENTRIES ;
parameter ex4_ldreq_val_offset = ex5_set_stq_offset + `STQ_ENTRIES ;
parameter ex4_pfetch_val_offset = ex4_ldreq_val_offset + `THREADS ;
parameter ex3_streq_val_offset = ex4_pfetch_val_offset + 1 ;
parameter ex5_streq_val_offset = ex3_streq_val_offset + `THREADS ;
parameter ex4_wchkall_val_offset = ex5_streq_val_offset + `THREADS ;
parameter hwsync_ack_offset = ex4_wchkall_val_offset + `THREADS ;
parameter lwsync_ack_offset = hwsync_ack_offset + `THREADS ;
parameter icswxr_ack_offset = lwsync_ack_offset + `THREADS ;
parameter icswxr_ack_dly1_offset = icswxr_ack_offset + 1 ;
parameter local_instr_ack_offset = icswxr_ack_dly1_offset + 1 ;
parameter resv_ack_offset = local_instr_ack_offset + `THREADS ;
parameter stcx_pass_offset = resv_ack_offset + `THREADS ;
parameter icbi_ack_offset = stcx_pass_offset + `THREADS ;
parameter icbi_val_offset = icbi_ack_offset + `THREADS ;
parameter icbi_addr_offset = icbi_val_offset + `THREADS ;
parameter ici_val_offset = icbi_addr_offset + ( 57 - RI + 1 ) ;
parameter credit_free_offset = ici_val_offset + 1 ;
parameter ex4_fwd_agecmp_offset = credit_free_offset + `THREADS ;
parameter ex3_req_itag_offset = ex4_fwd_agecmp_offset + `STQ_ENTRIES ;
parameter ex4_req_itag_offset = ex3_req_itag_offset + `ITAG_SIZE_ENC ;
parameter ex4_req_byte_en_offset = ex4_req_itag_offset + `ITAG_SIZE_ENC ;
parameter ex4_req_p_addr_l_offset = ex4_req_byte_en_offset + 16 ;
parameter ex4_req_opsize_offset = ex4_req_p_addr_l_offset + 6 ;
parameter ex4_req_algebraic_offset = ex4_req_opsize_offset + 3 ;
parameter ex3_req_thrd_id_offset = ex4_req_algebraic_offset + 1 ;
parameter ex4_req_thrd_id_offset = ex3_req_thrd_id_offset + `THREADS ;
parameter ex5_req_thrd_id_offset = ex4_req_thrd_id_offset + `THREADS ;
parameter thrd_held_offset = ex5_req_thrd_id_offset + `THREADS ;
parameter rv0_cr_hole_offset = thrd_held_offset + `THREADS ;
parameter rv1_cr_hole_offset = rv0_cr_hole_offset + `THREADS ;
parameter ex0_cr_hole_offset = rv1_cr_hole_offset + `THREADS ;
parameter cr_ack_offset = ex0_cr_hole_offset + `THREADS ;
parameter sync_ack_save_offset = cr_ack_offset + `THREADS ;
parameter cr_we_offset = sync_ack_save_offset + 1 ;
parameter cr_wa_offset = cr_we_offset + 1 ;
parameter cr_wd_offset = cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC - 1 + 1 ) ;
parameter stcx_thrd_fail_offset = cr_wd_offset + 4 ;
parameter icswxr_thrd_busy_offset = stcx_thrd_fail_offset + `THREADS ;
parameter icswxr_thrd_nbusy_offset = icswxr_thrd_busy_offset + `THREADS ;
parameter stq3_cmmt_attmpt_offset = icswxr_thrd_nbusy_offset + `THREADS ;
parameter stq_need_hole_offset = stq3_cmmt_attmpt_offset + 1 ;
parameter any_ack_hold_offset = stq_need_hole_offset + 1 ;
parameter any_ack_val_ok_offset = any_ack_hold_offset + `THREADS ;
parameter arb_release_itag_vld_offset = any_ack_val_ok_offset + `THREADS ;
parameter spr_xucr0_cls_offset = arb_release_itag_vld_offset + `THREADS ;
parameter spr_iucr0_icbi_ack_offset = spr_xucr0_cls_offset + 1 ;
parameter spr_lsucr0_dfwd_offset = spr_iucr0_icbi_ack_offset + 1 ;
parameter ex5_thrd_match_restart_offset = spr_lsucr0_dfwd_offset + 1 ;
parameter ex6_thrd_match_restart_offset = ex5_thrd_match_restart_offset + 1 ;
parameter ex5_thrd_nomatch_restart_offset = ex6_thrd_match_restart_offset + 1 ;
parameter ex6_thrd_nomatch_restart_offset = ex5_thrd_nomatch_restart_offset + 1 ;
parameter ex5_older_ldmiss_offset = ex6_thrd_nomatch_restart_offset + 1 ;
parameter ex4_fxu1_illeg_lswx_offset = ex5_older_ldmiss_offset + `STQ_ENTRIES ;
parameter ex4_fxu1_strg_noop_offset = ex4_fxu1_illeg_lswx_offset + 1 ;
parameter ex3_fxu1_val_offset = ex4_fxu1_strg_noop_offset + 1 ;
parameter ex3_fxu1_itag_offset = ex3_fxu1_val_offset + `THREADS ;
parameter ex3_fxu1_dvc1_cmp_offset = ex3_fxu1_itag_offset + `ITAG_SIZE_ENC ;
parameter ex3_fxu1_dvc2_cmp_offset = ex3_fxu1_dvc1_cmp_offset + ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) ;
parameter ex4_fxu1_val_offset = ex3_fxu1_dvc2_cmp_offset + ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) ;
parameter ex3_axu_val_offset = ex4_fxu1_val_offset + `THREADS ;
parameter ex3_axu_itag_offset = ex3_axu_val_offset + `THREADS ;
parameter ex4_axu_val_offset = ex3_axu_itag_offset + `ITAG_SIZE_ENC ;
parameter ex5_qHit_set_oth_offset = ex4_axu_val_offset + `THREADS ;
parameter ex5_qHit_set_miss_offset = ex5_qHit_set_oth_offset + `STQ_ENTRIES ;
parameter ex3_nxt_oldest_offset = ex5_qHit_set_miss_offset + `STQ_ENTRIES ;
parameter stq_tag_val_offset = ex3_nxt_oldest_offset + `STQ_ENTRIES ;
parameter stq_tag_ptr_offset = stq_tag_val_offset + `STQ_ENTRIES ;
parameter stq4_cmmt_tag_offset = stq_tag_ptr_offset + `STQ_ENTRIES * `STQ_ENTRIES ;
parameter dbg_int_en_offset = stq4_cmmt_tag_offset + `STQ_ENTRIES_ENC ;
parameter scan_right = dbg_int_en_offset + `THREADS ;
wire [ 0 : scan_right - 1 ] siv ;
wire [ 0 : scan_right - 1 ] sov ;
// Signals
wire spr_xucr0_64cls ;
wire a2_icbi_ack_en ;
wire ex3_req_act ;
wire [ 0 : 8 ] stqe_state [ 0 : `STQ_ENTRIES - 1 ] ;
reg [ 0 : `STQ_ENTRIES ] set_stqe_odq_resolved ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_ready_state ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_ready_ctl_act ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_ready_dat_act ;
wire [ 0 : `STQ_ENTRIES ] stq7_entry_delete ;
wire stq_push_down ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ready_ptr_r1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ready_ptr_l1 ;
wire [ 0 : 1 ] stqe_need_ready_ptr_sel ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ready ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ready_blk ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_need_ready_rpt ;
wire [ 0 : `STQ_ENTRIES ] cp_i0_itag_cmp ;
wire [ 0 : `STQ_ENTRIES ] cp_i1_itag_cmp ;
wire rv1_i0_drop_req ;
wire rv1_i1_drop_req ;
wire rv1_i0_act ;
wire rv1_i1_act ;
wire ex0_i0_act ;
wire ex0_i1_act ;
wire stq_alloc_sel ;
wire stq_act ;
wire [ 0 : 1 ] stq_alloc_val ;
wire [ 0 : 1 ] stq_alloc_flushed ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] stqe_alloc_itag0 ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] stqe_alloc_itag1 ;
wire [ 0 : `THREADS - 1 ] stq_alloc_thrd_id0 ;
wire [ 0 : `THREADS - 1 ] stq_alloc_thrd_id1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_ptr_r1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_ptr_r2 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_ptr_l1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_i0_wrt_ptr ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_alloc_i1_wrt_ptr ;
wire [ 0 : 2 ] stqe_alloc_ptr_sel ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_wrt_new ;
wire stq1_cmmt_act ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq1_cmmt_ptr_r1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq1_cmmt_ptr_l1 ;
wire [ 0 : 2 ] stq1_cmmt_ptr_sel ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq2_cmmt_ptr_l1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq2_cmmt_ptr_remove ;
wire [ 64 - ( `DC_SIZE - 3 ) : 57 ] stq1_cclass ;
wire stq1_rel_blk_cclass ;
wire stq1_binv1_cclass_m ;
wire stq1_binv2_cclass_m ;
wire stq1_binv3_cclass_m ;
wire stq1_binv_blk_cclass ;
wire stq1_binv_wclrall ;
wire stq2_reject_val ;
wire stq2_reject_rv_coll ;
wire stq2_cmmt_reject ;
wire stqe0_icswxdot_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_addrcmp_hi ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_addrcmp_lo ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_addrcmp ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_sel ;
reg [ 0 : `STQ_FWD_ENTRIES - 1 ] fwd_pri_mask ;
reg [ 0 : `STQ_FWD_ENTRIES - 1 ] ex4_stqe_match_addr ;
reg [ 0 : `STQ_FWD_ENTRIES - 1 ] ex4_stqe_match ;
reg [ 0 : `STQ_FWD_ENTRIES - 1 ] stq_mask ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_fwd_enable ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_entry ;
wire ex4_fwd_val ;
wire [ 0 : `STQ_FWD_ENTRIES - 1 ] ex4_fwd_chk_fail ;
wire [ `STQ_FWD_ENTRIES : `STQ_ENTRIES - 1 ] ex4_nofwd_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_restart_entry ;
wire ex4_fwd_restart ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_endian_mux ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_is_store_mux ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_is_cline_chk ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_is_miss_chk ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_is_larx_chk ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_is_blk_load_chk ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_is_gload_chk ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_rej_newer_gload ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_rej_other ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_rej_cline_chk ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_rej_cline_miss ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_rej_wchkall ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_rej_hit_no_fwd ;
wire [ 0 : `STQ_ENTRIES ] set_hold_early_clear ;
wire [ 0 : `STQ_ENTRIES ] ex5_qHit_set_miss ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_qHit_set_oth ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_qHit_set_miss ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_older_ldmiss ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_fwd_rej_guarded ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_itag_act ;
wire [ 0 : `STQ_ENTRIES ] stqe_data_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_data_act ;
wire [ 0 : `STQ_ENTRIES ] ex3_stq_data_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_fxu1_data_sel ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_axu_data_sel ;
wire [ 0 : `STQ_ENTRIES ] stqe_fxu1_dvcr_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_fxu1_data_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_axu_data_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_fxu1_data_ptr ;
wire cpl_ready ;
wire skip_ready ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_skip_ready ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] cpl_ready_itag ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] cpl_ready_itag_final ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] ext_act_queue_itag ;
reg [ 0 : 3 ] ext_act_queue_dacrw_det ;
reg ext_act_queue_dacrw_rpt ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] stq_ext_act_itag ;
reg [ 0 : 3 ] stq_ext_act_dacrw_det ;
reg stq_ext_act_dacrw_rpt ;
reg [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] stq_ext_act_cr_wa ;
reg [ 0 : `THREADS - 1 ] cpl_ready_thrd_id ;
wire [ 0 : `THREADS - 1 ] cpl_ready_tid_final ;
reg [ 0 : 5 ] cpl_ttype ;
reg cpl_dreq_val ;
wire dacrw_report ;
wire [ 0 : 3 ] dacrw_det ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_guarded ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_fwd_agecmp ;
wire ex3_ex4_agecmp ;
wire ex3_ex4_agecmp_sametid ;
wire ex3_ex4_byte_en_hit ;
wire ex4_rej_newer_gload ;
wire stqe_need_ready_act ;
wire stqe_need_ready_next ;
wire stq2_rtry_cnt_act ;
wire rtry_cnt_reset ;
wire ex4_rej_other ;
wire ex4_rej_sync_pending ;
wire ex4_rej_cline_chk ;
wire ex4_rej_cline_miss ;
wire ex4_rej_wchkall ;
wire ex4_thrd_match_restart ;
wire ex4_thrd_nomatch_restart ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_l_zero ;
wire [ 0 : `STQ_ENTRIES ] stqe_flushed ;
wire [ 0 : `STQ_ENTRIES ] stqe_alloc_flushed ;
wire [ 0 : `THREADS - 1 ] any_ack_val ;
wire [ 0 : `THREADS - 1 ] any_ack_rcvd ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_byte_en_ok ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_byte_en_miss ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_1byte_chk_ok ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_byte_chk_ok ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_thrd_match ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_thrd_id_ok ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_flush_cmp ;
wire [ 0 : `STQ_ENTRIES ] stqe_compl_rcvd ;
wire [ 0 : `THREADS - 1 ] ex5_streq_val ;
wire [ 0 : `THREADS - 1 ] ex3_streq_val ;
wire [ 0 : `THREADS - 1 ] ex4_ldreq_val ;
wire [ 0 : `THREADS - 1 ] ex4_wchkall_val ;
wire ex3_streq_valid ;
wire ex4_streq_valid ;
wire ex5_streq_valid ;
wire ex4_ldreq_valid ;
wire ex3_pfetch_val ;
wire ex4_wchkall_valid ;
wire ex4_fwd_hit ;
wire ex0_i0_flushed ;
wire ex0_i1_flushed ;
wire ex1_i0_flushed ;
wire ex1_i1_flushed ;
reg [ 0 : `THREADS - 1 ] stq_empty ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_chk_alloc ;
wire [ 0 : `THREADS - 1 ] cr_ack ;
wire [ 0 : `THREADS - 1 ] sync_ack ;
wire [ 0 : `THREADS - 1 ] cr_thrd ;
wire [ 0 : `THREADS - 1 ] cr_block ;
wire [ 0 : `THREADS - 1 ] resv_ack ;
wire [ 0 : `THREADS - 1 ] stcx_pass ;
wire cr_xer_so ;
wire cr_stcx_pass ;
wire [ 0 : `THREADS - 1 ] icswxr_ack_val ;
wire [ 0 : `THREADS - 1 ] icswxr_ack_thrd ;
wire [ 0 : `THREADS - 1 ] sync_ack_all ;
wire [ 0 : `THREADS - 1 ] perf_stq_stcx_fail ;
wire [ 0 : `THREADS - 1 ] perf_stq_icswxr_nbusy ;
wire [ 0 : `THREADS - 1 ] perf_stq_icswxr_busy ;
wire perf_stq_cmmt_attmpt ;
wire perf_stq_cmmt_val ;
wire perf_stq_need_hole ;
wire [ 0 : 15 ] stq_rotcmp /*verilator split_var*/ ;
wire [ 0 : `STQ_ENTRIES ] ex3_agecmp ;
wire [ 0 : 3 ] ex4_rot_sel_be [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_rot_sel_le [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_rot_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ ( 128 - `STQ_DATA_SIZE ) : 127 ] stqe_fwd_data [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 63 ] stqe_data1_swzl [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 63 ] ex4_fwd_data1 [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 63 ] ex4_fwd_data1_swzl [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 7 ] ex4_se_b [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_se ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_sext ;
wire [ 0 : 3 ] ex4_rot_mask ;
wire [ 0 : 4 ] ex4_req_opsize_1hot ;
wire ex4_req_opsize1 ;
wire [ 0 : 3 ] ex4_hw_addr_cmp [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_rev_rot_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_shft_rot_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_sext8_le_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_sext4_le_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_sext2_le_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_sext_le_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] ex4_sext_sel [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 3 ] stqe_rotcmp_val [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_opsize8 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_opsize4 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_opsize2 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_opsize1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize8_be ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize4_be ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize2_be ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize1_be ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize8_le ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize4_le ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize2_le ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_opsize1_le ;
wire [ 0 : 2 ] ex3_opsize_1hot ;
wire [ 0 : 3 ] ex3_rotcmp2_fld ;
wire [ 0 : 3 ] ex3_rotcmp3_fld ;
wire stq1_cmmt_dreq_val ;
wire stq3_cmmt_dreq_val ;
wire stq1_cmmt_send_l2 ;
wire stq3_cmmt_send_l2 ;
wire stq1_cmmt_dvc_val ;
wire stq3_cmmt_dvc_val ;
reg [ 64 - `REAL_IFAR_WIDTH : 63 ] stq1_p_addr ;
reg [ 0 : 5 ] stq1_ttype ;
wire stq1_mftgpr_val ;
reg stq1_wclr_all ;
reg [ 0 : `THREADS - 1 ] stq2_thrd_id ;
reg [ 0 : 5 ] stq3_ttype ;
reg [ 0 : `THREADS - 1 ] stq3_tid ;
reg [ 0 : 1 ] stq3_tid_enc ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_data_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_illeg_lswx ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_strg_noop ;
reg [ 0 : 1 ] fxu1_spr_dbcr2_dvc1m ;
reg [ 0 : 1 ] fxu1_spr_dbcr2_dvc2m ;
reg [ 8 - ( 2 * * `GPR_WIDTH_ENC ) / 8 : 7 ] fxu1_spr_dbcr2_dvc1be ;
reg [ 8 - ( 2 * * `GPR_WIDTH_ENC ) / 8 : 7 ] fxu1_spr_dbcr2_dvc2be ;
wire ex3_fxu1_dvc1r_cmpr ;
wire ex3_fxu1_dvc2r_cmpr ;
wire [ 0 : 1 ] ex3_fxu1_dvcr_cmpr ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_dacrw_det0 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_dacrw_det1 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_dacrw_det2 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_dacrw_det3 ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_dvc_int_det ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq2_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq3_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq4_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq5_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq6_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq7_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_cmmt_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_qHit_held_set ;
wire [ 0 : `STQ_ENTRIES ] stqe_qHit_held_mux ;
wire [ 0 : `STQ_ENTRIES ] stqe_qHit_held_clr ;
wire [ 0 : 1 ] stqe_qHit_held_ctrl [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `THREADS - 1 ] set_hold_thread ;
wire ex5_stq_set_hold ;
wire [ 0 : `THREADS - 1 ] clr_hold_thread ;
wire [ 0 : `STQ_ENTRIES ] stqe_need_ready_flushed ;
wire ex2_fxu1_val ;
wire ex3_fxu1_val ;
wire ex2_axu_val ;
wire ex3_axu_val ;
wire [ 0 : 11 ] stqe_icswx_ct_sel [ 0 : `STQ_ENTRIES - 1 ] ;
reg [ 0 : 11 ] ex3_ct_sel ;
reg [ 0 : 1 ] ex4_thrd_id_enc ;
wire [ 64 - `REAL_IFAR_WIDTH : 63 ] ex4_p_addr_ovrd ;
wire stq2_cmmt_dci_val ;
wire stq_dci_inprog ;
wire stq_reject_dci_coll ;
wire stq3_dcblc_instr ;
wire stq3_icblc_instr ;
reg [ 0 : 5 ] stq6_ttype ;
reg [ 0 : `THREADS - 1 ] stq6_tid ;
wire stq6_dci ;
wire stq6_ici ;
reg stq6_wclr_all_val ;
wire stq6_icswxnr ;
wire stq6_mftgpr ;
wire stq6_local_ack_val ;
wire [ 0 : `THREADS - 1 ] l2_icbi_ack ;
wire [ 0 : `STQ_ENTRIES - 1 ] stqe_valid_sync ;
wire [ 0 : `THREADS - 1 ] stqe_tid_inuse [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `STQ_ENTRIES ] stq_cp_next_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_i0_comp_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_i1_comp_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_set_stq ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex3_addr_act ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_set_stq ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex4_addr_act ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex5_set_stq ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex5_addr_act ;
wire [ ( 128 - `STQ_DATA_SIZE ) : 127 ] stqe_data1_mux [ 0 : `STQ_ENTRIES ] ;
wire rv_hold ;
wire [ 0 : 2 ] stq2_rtry_cnt_incr ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] stq_cp_next_itag [ 0 : `STQ_ENTRIES ] ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] stq_i0_comp_itag [ 0 : `STQ_ENTRIES - 1 ] ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] stq_i1_comp_itag [ 0 : `STQ_ENTRIES - 1 ] ;
reg [ 0 : `STQ_ENTRIES - 1 ] ex2_nxt_oldest_ptr ;
reg [ 0 : `STQ_ENTRIES - 1 ] ex2_nxt_youngest_ptr ;
wire ex2_no_nxt_match ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex2_no_nxt_oldest ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex2_nxt_youngest_shft ;
wire [ 0 : `STQ_ENTRIES - 1 ] ex2_nxt_oldest ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_available ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_wrt_i0_ptr ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_wrt_i1_ptr ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_wrt_i0_mux ;
reg [ 0 : `STQ_ENTRIES_ENC - 1 ] stq_tag_i0_entry ;
reg [ 0 : `STQ_ENTRIES_ENC - 1 ] stq_tag_i1_entry ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_act ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_inval ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_i0_upd_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_i1_upd_val ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_i0_stq_sel ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_i1_stq_sel ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq_tag_ptr_compr [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : 2 ] stq_tag_ptr_ctrl [ 0 : `STQ_ENTRIES - 1 ] ;
wire [ 0 : `STQ_ENTRIES - 1 ] stq3_cmmt_tag_entry ;
reg [ 0 : `STQ_ENTRIES_ENC - 1 ] stq3_cmmt_tag ;
// these wires are to convert the ports at the top to an array of itags
wire [ 0 : `ITAG_SIZE_ENC - 1 ] iu_lq_cp_next_itag_int [ 0 : `THREADS - 1 ] ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] iu_lq_i0_completed_itag_int [ 0 : `THREADS - 1 ] ;
wire [ 0 : `ITAG_SIZE_ENC - 1 ] iu_lq_i1_completed_itag_int [ 0 : `THREADS - 1 ] ;
wire [ 0 : 1 ] ctl_lsq_spr_dbcr2_dvc1m_int [ 0 : `THREADS - 1 ] ;
wire [ 0 : 7 ] ctl_lsq_spr_dbcr2_dvc1be_int [ 0 : `THREADS - 1 ] ;
wire [ 0 : 1 ] ctl_lsq_spr_dbcr2_dvc2m_int [ 0 : `THREADS - 1 ] ;
wire [ 0 : 7 ] ctl_lsq_spr_dbcr2_dvc2be_int [ 0 : `THREADS - 1 ] ;
//!! Bugspray Include: lq_stq
// This is used to convert the wide vector port inputs into an internal 2 dimesional array format
generate
begin : ports
genvar tid ;
for ( tid = 0 ; tid < = `THREADS - 1 ; tid = tid + 1 )
begin : convert
assign iu_lq_cp_next_itag_int [ tid ] = iu_lq_cp_next_itag [ `ITAG_SIZE_ENC * tid: ( `ITAG_SIZE_ENC * ( tid + 1 ) ) - 1 ] ;
assign iu_lq_i0_completed_itag_int [ tid ] = iu_lq_i0_completed_itag [ `ITAG_SIZE_ENC * tid: ( `ITAG_SIZE_ENC * ( tid + 1 ) ) - 1 ] ;
assign iu_lq_i1_completed_itag_int [ tid ] = iu_lq_i1_completed_itag [ `ITAG_SIZE_ENC * tid: ( `ITAG_SIZE_ENC * ( tid + 1 ) ) - 1 ] ;
assign ctl_lsq_spr_dbcr2_dvc1m_int [ tid ] = ctl_lsq_spr_dbcr2_dvc1m [ 2 * tid: ( 2 * ( tid + 1 ) ) - 1 ] ;
assign ctl_lsq_spr_dbcr2_dvc2m_int [ tid ] = ctl_lsq_spr_dbcr2_dvc2m [ 2 * tid: ( 2 * ( tid + 1 ) ) - 1 ] ;
assign ctl_lsq_spr_dbcr2_dvc1be_int [ tid ] = ctl_lsq_spr_dbcr2_dvc1be [ 8 * tid: 8 * ( tid + 1 ) - 1 ] ;
assign ctl_lsq_spr_dbcr2_dvc2be_int [ tid ] = ctl_lsq_spr_dbcr2_dvc2be [ 8 * tid: 8 * ( tid + 1 ) - 1 ] ;
end
end
endgenerate
// Allocate an entry in the Queue off IU dispatch, insert itag
// Do itag lookup to determine, queue entry, when data/address are available
// When both address & data are ready for any entry, send lsq_ctl_cpl_ready for that entry
// obviously start with the oldest entry
// Completion will then report itag_complete
// IF
// arb_stq_cred_avail=1
// ldq_stq_rel1_blk_store=0
// THEN
// Initiate STQ Commit
// starts with asserting stq commit pipe interface
// if rv issues at stq2, retry the stq interface (sink will cancel)
// drive L2 at stq3
// delete entry at stq7
// free sq credit
// DONT CP flush stuff that have itag_complete
//<<FIX>>
assign ex3_req_act = 1 'b1 ;
//------------------------------------------------------------------------------
// XU Config Bits
//------------------------------------------------------------------------------
// XUCR0[CLS] 128 Byte Cacheline Enabled
// 1 => 128 Byte Cacheline
// 0 => 64 Byte Cacheline
assign spr_xucr0_cls_d = xu_lq_spr_xucr0_cls ;
assign spr_xucr0_64cls = ( ~ spr_xucr0_cls_q ) ;
// IUCR0[ICBI_ACK_EN] ICBI L2 Acknoledge Enable
// 1 => ICBI Acknowledged by the L2
// 0 => ICBI Acknowledged by the A2
assign spr_iucr0_icbi_ack_d = iu_lq_spr_iucr0_icbi_ack ;
assign a2_icbi_ack_en = ( ~ spr_iucr0_icbi_ack_q ) ;
// LSUCR0[DFWD] Store Data Forwarding is Disabled
// 1 => Store Data Forwarding is Disabled
// 0 => Store Data Forwarding is Enabled
assign spr_lsucr0_dfwd_d = ctl_lsq_spr_lsucr0_dfwd ;
//------------------------------------------------------------------------------
// Back-Invalidate In Progress
//------------------------------------------------------------------------------
// Back-Invalidate in the LQ pipeline
assign rv1_binv_val_d = l2_back_inv_val ;
assign ex0_binv_val_d = rv1_binv_val_q ;
assign ex1_binv_val_d = ex0_binv_val_q ;
assign ex2_binv_val_d = ex1_binv_val_q ;
assign ex3_binv_val_d = ex2_binv_val_q ;
assign rv1_binv_addr_d = l2_back_inv_addr ;
assign ex0_binv_addr_d = rv1_binv_addr_q ;
assign ex1_binv_addr_d = ex0_binv_addr_q ;
assign ex2_binv_addr_d = ex1_binv_addr_q ;
assign ex3_binv_addr_d = ex2_binv_addr_q ;
//------------------------------------------------------------------------------
// STQ TAG Mapping
//------------------------------------------------------------------------------
// Determine Which entries are available for updating
assign stq_tag_available = ( ~ stq_tag_val_q ) ;
// I0 starts at the beginning of the TAG queue and works its way to the end, it looks for the first available
assign stq_wrt_i0_ptr [ 0 ] = stq_tag_available [ 0 ] ;
generate
begin : xhdl0
genvar stq ;
for ( stq = 1 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
begin : stqI0Wrt
assign stq_wrt_i0_ptr [ stq ] = & ( ~ stq_tag_available [ 0 : stq - 1 ] ) & stq_tag_available [ stq ] ;
end
end
endgenerate
// I1 starts at the end of the TAG queue and works its way to the beginning, it looks for the first available entry
assign stq_wrt_i1_ptr [ `STQ_ENTRIES - 1 ] = stq_tag_available [ `STQ_ENTRIES - 1 ] ;
generate
begin : xhdl1
genvar stq ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 2 ; stq = stq + 1 )
begin : stqI1Wrt
assign stq_wrt_i1_ptr [ stq ] = & ( ~ stq_tag_available [ stq + 1 : `STQ_ENTRIES - 1 ] ) & stq_tag_available [ stq ] ;
end
end
endgenerate
// Generate STQ TAG Entry Encoded
always @ ( * )
begin : stqTag
reg [ 0 : `STQ_ENTRIES_ENC - 1 ] entryI0 ;
reg [ 0 : `STQ_ENTRIES_ENC - 1 ] entryI1 ;
reg [ 0 : `STQ_ENTRIES_ENC - 1 ] cmmtTag ;
integer stq ;
entryI0 = 0 ;
entryI1 = 0 ;
cmmtTag = 0 ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
begin
entryI0 = ( stq & { `STQ_ENTRIES_ENC { stq_wrt_i0_ptr [ stq ] } } ) | entryI0 ;
entryI1 = ( stq & { `STQ_ENTRIES_ENC { stq_wrt_i1_ptr [ stq ] } } ) | entryI1 ;
cmmtTag = ( stq & { `STQ_ENTRIES_ENC { stq3_cmmt_tag_entry [ stq ] } } ) | cmmtTag ;
end
stq_tag_i0_entry = entryI0 ;
stq_tag_i1_entry = entryI1 ;
stq3_cmmt_tag = cmmtTag ;
end
generate
begin : xhdl2
genvar stq ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
begin : stqTagAlloc
// STQ TAG Alloc is valid
assign stq_tag_act [ stq ] = stq_tag_i0_upd_val [ stq ] | stq_tag_i1_upd_val [ stq ] | stq_tag_val_q [ stq ] ;
assign stq_tag_inval [ stq ] = | ( stq_tag_ptr_q [ stq ] & stq7_entry_delete [ 0 : `STQ_ENTRIES - 1 ] ) ;
assign stq_tag_i0_upd_val [ stq ] = stq_wrt_i0_ptr [ stq ] & | ( ex1_i0_vld_q ) ;
assign stq_tag_i1_upd_val [ stq ] = stq_wrt_i1_ptr [ stq ] & | ( ex1_i1_vld_q ) ;
assign stq_tag_val_d [ stq ] = stq_tag_i0_upd_val [ stq ] | stq_tag_i1_upd_val [ stq ] | ( stq_tag_val_q [ stq ] & ( ~ stq_tag_inval [ stq ] ) ) ;
// wrt_i0 needs to be wrt_i1 when ex1_i1_vld and not ex1_i0_vld, since wrt_i1_ptr is being set valid and alloc_i0_wrt_ptr is valid
// STQ TAG Alloc Control
// I0 is updating the Store Queue
assign stq_wrt_i0_mux [ stq ] = ( stq_alloc_sel = = 1 'b1 ) ? stq_wrt_i1_ptr [ stq ] :
stq_wrt_i0_ptr [ stq ] ;
assign stq_tag_i0_stq_sel [ stq ] = stq_wrt_i0_mux [ stq ] & stq_alloc_val [ 0 ] ;
assign stq_tag_ptr_ctrl [ stq ] [ 0 ] = stq_tag_i0_stq_sel [ stq ] ;
// I1 is updating the Store Queue
assign stq_tag_i1_stq_sel [ stq ] = stq_wrt_i1_ptr [ stq ] & stq_alloc_val [ 1 ] ;
assign stq_tag_ptr_ctrl [ stq ] [ 1 ] = stq_tag_i1_stq_sel [ stq ] ;
// Store Queue is compressing, need to compress all pointers
assign stq_tag_ptr_ctrl [ stq ] [ 2 ] = stq_push_down ;
// Compress each pointer in the STQ TAG Alloc Array
assign stq_tag_ptr_compr [ stq ] = { stq_tag_ptr_q [ stq ] [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ;
// TAG Points to the STQ Entry
// We should never see ctrl = 110 or ctrl = 111, will need bugspray
// STQ TAG will is committing, should be a 1-hot, will need bugspray
assign stq_tag_ptr_d [ stq ] = ( stq_tag_ptr_ctrl [ stq ] = = 3 'b100 ) ? stqe_alloc_i0_wrt_ptr :
( stq_tag_ptr_ctrl [ stq ] = = 3 'b101 ) ? stqe_alloc_i0_wrt_ptr :
( stq_tag_ptr_ctrl [ stq ] = = 3 'b010 ) ? stqe_alloc_i1_wrt_ptr :
( stq_tag_ptr_ctrl [ stq ] = = 3 'b011 ) ? stqe_alloc_i1_wrt_ptr :
( stq_tag_ptr_ctrl [ stq ] = = 3 'b001 ) ? stq_tag_ptr_compr [ stq ] :
stq_tag_ptr_q [ stq ] ;
assign stq3_cmmt_tag_entry [ stq ] = | ( stq_tag_ptr_q [ stq ] & stq3_cmmt_ptr_q ) & stq_tag_val_q [ stq ] ;
end
end
endgenerate
// Order Queue Update with STQ TAG
assign stq_odq_i0_stTag = stq_tag_i0_entry ;
assign stq_odq_i1_stTag = stq_tag_i1_entry ;
// Order Queue invalidated STQ TAG
assign stq4_cmmt_tag_d = stq3_cmmt_tag ;
assign stq_odq_stq4_stTag_inval = stq4_cmmt_val_q ;
assign stq_odq_stq4_stTag = stq4_cmmt_tag_q ;
//------------------------------------------------------------------------------
// STQ Entry Allocation
//------------------------------------------------------------------------------
assign stq_alloc_val [ 0 ] = | ( ex1_i0_vld_q ) | | ( ex1_i1_vld_q ) ;
assign stq_alloc_val [ 1 ] = | ( ex1_i0_vld_q ) & | ( ex1_i1_vld_q ) ;
assign stq_alloc_sel = ( ~ ( | ( ex1_i0_vld_q ) ) ) & | ( ex1_i1_vld_q ) ;
assign stq_act = stq_alloc_val [ 0 ] | | ( stqe_alloc_q ) | stq2_cmmt_flushed_q | stq3_cmmt_flushed_q | stq4_cmmt_flushed_q | stq5_cmmt_flushed_q | stq6_cmmt_flushed_q | stq7_cmmt_flushed_q ;
assign stqe_alloc_itag0 = ( stq_alloc_sel = = 1 'b1 ) ? ex1_i1_itag_q :
ex1_i0_itag_q ;
assign stq_alloc_flushed [ 0 ] = ( stq_alloc_sel = = 1 'b1 ) ? ex1_i1_flushed :
ex1_i0_flushed ;
assign stq_alloc_thrd_id0 = ( stq_alloc_sel = = 1 'b1 ) ? ex1_i1_vld_q :
ex1_i0_vld_q ;
assign stq_alloc_thrd_id1 = ex1_i1_vld_q ;
assign stqe_alloc_itag1 = ex1_i1_itag_q ;
assign stq_alloc_flushed [ 1 ] = ex1_i1_flushed ;
assign stqe_alloc_ptr_r1 = { 1 'b0 , stqe_alloc_ptr_q [ 0 : `STQ_ENTRIES - 2 ] } ;
assign stqe_alloc_ptr_r2 = { 1 'b0 , stqe_alloc_ptr_r1 [ 0 : `STQ_ENTRIES - 2 ] } ;
assign stqe_alloc_ptr_l1 = { stqe_alloc_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stqe_alloc_ptr_q ) ) ) ) } ;
assign stqe_alloc_ptr_sel = { stq_alloc_val [ 0 : 1 ] , stq_push_down } ;
// stqe_alloc_ptr_q when "011", can't happen
// stqe_alloc_ptr_r1 when "010", can't happen
// "000"
assign stqe_alloc_ptr_d = ( stqe_alloc_ptr_sel = = 3 'b111 ) ? stqe_alloc_ptr_r1 :
( stqe_alloc_ptr_sel = = 3 'b110 ) ? stqe_alloc_ptr_r2 :
( stqe_alloc_ptr_sel = = 3 'b101 ) ? stqe_alloc_ptr_q :
( stqe_alloc_ptr_sel = = 3 'b100 ) ? stqe_alloc_ptr_r1 :
( stqe_alloc_ptr_sel = = 3 'b001 ) ? stqe_alloc_ptr_l1 :
stqe_alloc_ptr_q ;
assign stqe_alloc_i0_wrt_ptr = ( stq_push_down = = 1 'b0 ) ? stqe_alloc_ptr_q :
stqe_alloc_ptr_l1 ;
assign stqe_alloc_i1_wrt_ptr = ( stq_push_down = = 1 'b0 ) ? stqe_alloc_ptr_r1 :
stqe_alloc_ptr_q ;
// Thread Quiesced OR reduce
always @ ( * ) begin : tidQuiesce
reg [ 0 : `THREADS - 1 ] tidQ ;
//(* analysis_not_referenced="true" *)
integer stq ;
tidQ = { `THREADS { 1 'b0 } } ;
for ( stq = 0 ; stq < `STQ_ENTRIES ; stq = stq + 1 ) begin
tidQ = ( stqe_tid_inuse [ stq ] ) | tidQ ;
end
stq_empty = ~ tidQ ;
end
assign stq_ldq_empty = stq_empty & ~ ext_ack_queue_v_q ;
assign stq_chk_alloc = ( ~ stqe_alloc_q [ 0 : `STQ_ENTRIES - 1 ] ) & ( ~ stqe_alloc_ptr_q ) & ( stq1_cmmt_ptr_q | stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] | ex4_fxu1_data_ptr_q ) ;
//------------------------------------------------------------------------------
// STQ Completion Request Pointer
//------------------------------------------------------------------------------
assign stqe_need_ready_ptr_r1 = { 1 'b0 , stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 2 ] } ;
assign stqe_need_ready_ptr_l1 = { stqe_need_ready_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stqe_need_ready_ptr_q ) ) ) ) } ;
assign stqe_need_ready_ptr_sel = { stqe_need_ready_next , stq_push_down } ;
assign stqe_need_ready_ptr_d = ( stqe_need_ready_ptr_sel = = 2 'b10 ) ? stqe_need_ready_ptr_r1 :
( stqe_need_ready_ptr_sel = = 2 'b01 ) ? stqe_need_ready_ptr_l1 :
stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ;
assign stqe_need_ready_blk = { `STQ_ENTRIES { ctl_lsq_stq_cpl_blk } } ;
assign stqe_need_ready_rpt = stqe_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] &
( stqe_data_nxt_q [ 0 : `STQ_ENTRIES - 1 ] | ( ~ stqe_has_data_q [ 0 : `STQ_ENTRIES - 1 ] ) ) &
( stqe_have_cp_next_q [ 0 : `STQ_ENTRIES - 1 ] | ( ~ stqe_need_ext_ack_q [ 0 : `STQ_ENTRIES - 1 ] ) ) &
( ~ stqe_ready_sent_q [ 0 : `STQ_ENTRIES - 1 ] ) &
( ~ stqe_flushed_q [ 0 : `STQ_ENTRIES - 1 ] ) ;
assign stq_cpl_need_hold_d = ctl_lsq_ex_pipe_full & ctl_lsq_stq_cpl_blk & ( | ( stqe_need_ready_rpt ) | | ( ext_ack_queue_v_q ) ) ;
assign stqe_need_ready = stqe_need_ready_rpt & ( ~ stqe_need_ready_blk ) ;
assign stqe_need_ready_flushed = stqe_flushed_q & stqe_need_ready_ptr_q & stqe_need_ready_ptr_q & ( ~ stqe_ready_sent_q ) ;
assign stqe_need_ready_next = | ( stqe_need_ready_flushed ) | cpl_ready | skip_ready ;
assign stqe_need_ready_act = stqe_need_ready_next | stq_push_down ;
assign cpl_ready = ( ~ ( | ( cp_flush_q & cpl_ready_tid_final ) ) ) & ( ~ ( | ( any_ack_val ) ) ) & | ( stqe_need_ready & stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] & ( stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] | stqe_dvc_int_det | ( ( ~ stqe_need_ext_ack_q [ 0 : `STQ_ENTRIES - 1 ] ) ) ) ) ;
generate
begin : xhdl3
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : skip_ready_gen
assign stqe_skip_ready [ i ] = ( ~ ( | ( cp_flush_q & stqe_thrd_id_q [ i ] ) ) ) & ( stqe_need_ready_rpt [ i ] & stqe_need_ready_ptr_q [ i ] & stqe_need_ext_ack_q [ i ] ) ;
end
end
endgenerate
assign skip_ready = | ( stqe_skip_ready ) ;
assign dacrw_det [ 0 ] = | ( stqe_dacrw_det0 & stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ) ;
assign dacrw_det [ 1 ] = | ( stqe_dacrw_det1 & stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ) ;
assign dacrw_det [ 2 ] = | ( stqe_dacrw_det2 & stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ) ;
assign dacrw_det [ 3 ] = | ( stqe_dacrw_det3 & stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ) ;
assign dacrw_report = | ( stqe_dvc_int_det & stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] ) ;
// Qualified with lsq_ctl_cpl_ready in lq_ldq
assign lsq_ctl_stq_cpl_ready = cpl_ready | | ( any_ack_val ) ;
assign cpl_ready_itag_final = ( any_ack_val = = { `THREADS { 1 'b0 } } ) ? cpl_ready_itag :
ext_act_queue_itag ;
assign lsq_ctl_stq_cpl_ready_itag = cpl_ready_itag_final ;
assign cpl_ready_tid_final = ( any_ack_val = = { `THREADS { 1 'b0 } } ) ? cpl_ready_thrd_id :
any_ack_val ;
assign lsq_ctl_stq_cpl_ready_tid = cpl_ready_tid_final ;
assign lsq_ctl_stq_exception_val = 0 ;
assign lsq_ctl_stq_exception = 0 ;
assign lsq_ctl_stq_n_flush = ( any_ack_val = = { `THREADS { 1 'b0 } } ) ? dacrw_report :
ext_act_queue_dacrw_rpt ;
assign lsq_ctl_stq_dacrw = ( any_ack_val = = { `THREADS { 1 'b0 } } ) ? dacrw_det :
ext_act_queue_dacrw_det ;
// We may want to add syncs here for single thread, when we go to 2 `THREADS, flushing may not matter
// DCI ICI
assign lsq_ctl_stq_np1_flush = ( ( cpl_ttype = = 6 'b101111 ) | ( cpl_ttype = = 6 'b101110 ) ) & ( ~ cpl_dreq_val ) ;
//------------------------------------------------------------------------------
// L2 Acks
//------------------------------------------------------------------------------
// (probably overkill on the latches here, but I'll leave it)
assign hwsync_ack = an_ac_sync_ack ; // and or_reduce(stqe_is_sync_q(0 to `STQ_ENTRIES-1) and stqe_l_zero and stqe_need_ready_ptr_q(0 to `STQ_ENTRIES-1));
generate
begin : xhdl4
genvar t ;
for ( t = 0 ; t < = `THREADS - 1 ; t = t + 1 )
begin : sync_thrd_gen
assign lwsync_ack [ t ] = stq6_cmmt_val_q & | ( stqe_is_sync_q [ 0 : `STQ_ENTRIES - 1 ] & ( ~ stqe_l_zero ) & stq6_cmmt_ptr_q & stqe_need_ext_ack_q [ 0 : `STQ_ENTRIES - 1 ] ) & stq6_tid [ t ] ;
assign local_instr_ack [ t ] = stq6_cmmt_val_q & | ( ( ~ stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] ) & stq6_cmmt_ptr_q & stqe_need_ext_ack_q [ 0 : `STQ_ENTRIES - 1 ] ) & stq6_local_ack_val & stq6_tid [ t ] ;
assign icswxr_ack_thrd [ t ] = an_ac_back_inv_addr_lo [ 62 : 63 ] = = t ;
assign l2_icbi_ack_d [ t ] = ( ( ( an_ac_icbi_ack_thread = = t ) & an_ac_icbi_ack ) | l2_icbi_ack_q [ t ] ) & ( ~ icbi_ack [ t ] ) ;
end
end
endgenerate
assign icswxr_ack = an_ac_back_inv & an_ac_back_inv_target_bit3 ;
assign icswxr_ack_val = icswxr_ack_thrd & { `THREADS { icswxr_ack_q } } ;
assign resv_ack_d [ 0 ] = an_ac_stcx_complete [ 0 ] | ( resv_ack_q [ 0 ] & icswxr_ack_dly1_q ) ;
assign resv_ack [ 0 ] = ( an_ac_stcx_complete [ 0 ] & ~ icswxr_ack_q ) | ( resv_ack_q [ 0 ] & icswxr_ack_dly1_q ) ;
generate
if ( `THREADS = = 2 )
begin : res_ack_t1
assign resv_ack_d [ 1 ] = an_ac_stcx_complete [ 1 ] | ( resv_ack_q [ 1 ] & ( resv_ack_q [ 0 ] | icswxr_ack_dly1_q ) ) ;
assign resv_ack [ 1 ] = ( an_ac_stcx_complete [ 1 ] & ( ~ an_ac_stcx_complete [ 0 ] ) & ~ icswxr_ack_q ) | ( resv_ack_q [ 1 ] & ( resv_ack_q [ 0 ] | icswxr_ack_dly1_q ) ) ;
end
endgenerate
// Dont need thread indicator for now, may change if the store queue design
// changes for multiple `THREADS
assign iu_icbi_ack_d = ( iu_lq_icbi_complete_q | iu_icbi_ack_q ) & ( ~ icbi_ack ) ;
assign l2_icbi_ack = { `THREADS { a2_icbi_ack_en } } | l2_icbi_ack_q ;
assign icbi_ack = iu_icbi_ack_q & l2_icbi_ack & ext_ack_queue_v_q ;
assign sync_ack_all = hwsync_ack_q | lwsync_ack_q | icbi_ack_q | local_instr_ack_q ;
assign sync_ack_save_d = & ( sync_ack_all ) ;
assign sync_ack [ 0 ] = sync_ack_all [ 0 ] ;
generate // this logic only works for 1 or 2 `THREADS
begin : xhdl5
genvar t ;
for ( t = 1 ; t < = `THREADS - 1 ; t = t + 1 )
begin : sync_ack_thrd_gen
assign sync_ack [ t ] = ( sync_ack_all [ t ] & ( ~ sync_ack_all [ t - 1 ] ) ) | sync_ack_save_q ;
end
end
endgenerate
assign lsq_ctl_sync_done = | ( hwsync_ack_q | lwsync_ack_q ) ;
// These guys have to fight over cr completion bus.
// Do not release if ldq_stq_rel1_blk_store=1
assign cr_block = { `THREADS { ldq_stq_rel1_blk_store } } | ( ~ ex0_cr_hole_q ) ;
assign cr_ack_d = ( icswxr_ack_val | resv_ack_q ) | ( cr_ack_q & ( ~ cr_ack ) ) ;
assign cr_ack [ 0 ] = cr_ack_q [ 0 ] & ( ~ cr_block [ 0 ] ) & ( ~ ( | ( sync_ack_all ) ) ) ;
generate // this logic only works for 1 or 2 `THREADS
begin : xhdl6
genvar t ;
for ( t = 1 ; t < = `THREADS - 1 ; t = t + 1 )
begin : cr_ack_thrd_gen
assign cr_ack [ t ] = cr_ack_q [ t ] & ( ~ ( cr_ack_q [ t - 1 ] & ( ~ cr_block [ t - 1 ] ) ) ) & ( ~ cr_block [ t ] ) & ( ~ ( | ( sync_ack_all ) ) ) ;
end
end
endgenerate
// Local Ack for the following instructions
// These are instructions that require CP_NEXT to execute
// and have no dependency on another unit for an ACK
// 1) DCI
// 2) ICI
// 3) WCLR_ALL
// 4) ICSWX
// 5) MFTGPR
assign stq6_dci = ( stq6_ttype = = 6 'b101111 ) ;
assign stq6_ici = ( stq6_ttype = = 6 'b101110 ) ;
assign stq6_icswxnr = ( stq6_ttype = = 6 'b100110 ) ;
assign stq6_mftgpr = ( stq6_ttype = = 6 'b111000 ) ;
assign stq6_local_ack_val = stq6_dci | stq6_ici | stq6_wclr_all_val | stq6_icswxnr | stq6_mftgpr ;
assign any_ack_rcvd = cr_ack | sync_ack ;
assign any_ack_hold_d = any_ack_rcvd | ( any_ack_hold_q & ( ~ ( { `THREADS { ( ~ ctl_lsq_stq_cpl_blk ) } } & any_ack_val ) ) ) ;
assign any_ack_val [ 0 ] = any_ack_hold_q [ 0 ] & ( ~ ctl_lsq_stq_cpl_blk ) ;
generate // this logic only works for 1 or 2 `THREADS
begin : xhdl7
genvar t ;
for ( t = 1 ; t < = `THREADS - 1 ; t = t + 1 )
begin : any_ack_val_thrd_gen
assign any_ack_val [ t ] = any_ack_hold_q [ t ] & ( ~ any_ack_hold_q [ t - 1 ] ) & ( ~ ctl_lsq_stq_cpl_blk ) ;
end
end
endgenerate
assign any_ack_val_ok_d = any_ack_val ;
// Request a hole until the ack is released, REL1 Block could be on.
// Kill the request once cr_ack=1
assign rv0_cr_hole_d = icswxr_ack_val | resv_ack_q | ( rv0_cr_hole_q & ( ~ ( arb_release_itag_vld_q & { `THREADS { ( ~ ctl_lsq_stq_cpl_blk ) } } ) ) ) ;
assign rv1_cr_hole_d = rv0_cr_hole_q & ( ~ ( arb_release_itag_vld_q & { `THREADS { ( ~ ctl_lsq_stq_cpl_blk ) } } ) ) ;
assign ex0_cr_hole_d = rv1_cr_hole_q & ( ~ ( arb_release_itag_vld_q & { `THREADS { ( ~ ctl_lsq_stq_cpl_blk ) } } ) ) ;
// RV release itag
assign arb_release_itag_vld_d = cr_ack | ( arb_release_itag_vld_q & { `THREADS { ctl_lsq_stq_cpl_blk } } ) ;
assign stq_arb_release_itag_vld = | ( arb_release_itag_vld_q ) & ( ~ ctl_lsq_stq_cpl_blk ) ;
assign stq_arb_release_itag = cpl_ready_itag_final ;
assign stq_arb_release_tid = cpl_ready_tid_final ;
assign stcx_pass = an_ac_stcx_complete & an_ac_stcx_pass ;
// Delay icswx back_inv comes a cycle late
assign cr_we_d = icswxr_ack_q | | ( resv_ack ) ;
assign cr_thrd = icswxr_ack_val | resv_ack ;
assign cr_xer_so = | ( xu_lq_xer_cp_rd & cr_thrd ) ;
assign cr_stcx_pass = | ( ( stcx_pass | stcx_pass_q ) & cr_thrd ) ;
assign cr_wd_d = ( icswxr_ack_q = = 1 'b1 ) ? { an_ac_back_inv_addr [ 58 : 60 ] , 1 'b0 } :
{ 2 'b00 , cr_stcx_pass , cr_xer_so } ;
assign lq_xu_cr_l2_we = cr_we_q ;
assign lq_xu_cr_l2_wa = cr_wa_q ;
assign lq_xu_cr_l2_wd = cr_wd_q ;
//------------------------------------------------------------------------------
// Performance Events
//------------------------------------------------------------------------------
assign icswxr_thrd_busy_d = icswxr_ack_val & { `THREADS { an_ac_back_inv_addr [ 59 ] } } ;
assign icswxr_thrd_nbusy_d = icswxr_ack_val & { `THREADS { ~ an_ac_back_inv_addr [ 59 ] } } ;
assign stcx_thrd_fail_d = resv_ack & ~ icswxr_ack_val & { `THREADS { ~ cr_stcx_pass } } ;
assign stq3_cmmt_attmpt_d = stq2_cmmt_val_q ;
assign stq_need_hole_d = rv_hold | stq_cpl_need_hold_q ;
assign perf_stq_icswxr_busy = icswxr_thrd_busy_q ;
assign perf_stq_icswxr_nbusy = icswxr_thrd_nbusy_q ;
assign perf_stq_stcx_fail = stcx_thrd_fail_q ;
assign perf_stq_cmmt_attmpt = stq3_cmmt_attmpt_q ;
assign perf_stq_cmmt_val = stq3_cmmt_val_q ;
assign perf_stq_need_hole = stq_need_hole_q ;
assign lsq_perv_stq_events = { perf_stq_cmmt_attmpt , perf_stq_cmmt_val , perf_stq_need_hole ,
perf_stq_stcx_fail , perf_stq_icswxr_nbusy , perf_stq_icswxr_busy } ;
//------------------------------------------------------------------------------
// STQ Commit Pipe
//------------------------------------------------------------------------------
assign rv_lq_vld_d = | ( rv_lq_vld ) ;
assign rv_lq_ld_vld_d = | ( rv_lq_vld ) & rv_lq_isLoad ;
assign ex0_dir_rd_val_d = ctl_lsq_rv1_dir_rd_val ;
assign stq1_cmmt_act = stq2_cmmt_reject | stq1_cmmt_val | stq1_cmmt_flushed | stq_push_down ;
assign stq1_cclass = { stq1_p_addr [ 64 - ( `DC_SIZE - 3 ) : 56 ] , ( stq1_p_addr [ 57 ] | spr_xucr0_cls_q ) } ;
assign stq1_rel_blk_cclass = ( stq1_cclass = = ldq_stq_stq4_cclass ) & ldq_stq_stq4_dir_upd ;
assign stq1_binv1_cclass_m = ( stq1_cclass = = ex1_binv_addr_q ) & ex1_binv_val_q ;
assign stq1_binv2_cclass_m = ( stq1_cclass = = ex2_binv_addr_q ) & ex2_binv_val_q ;
assign stq1_binv3_cclass_m = ( stq1_cclass = = ex3_binv_addr_q ) & ex3_binv_val_q ;
assign stq1_binv_wclrall = ( ex1_binv_val_q | ex2_binv_val_q | ex3_binv_val_q ) & stq1_wclr_all ;
assign stq1_binv_blk_cclass = stq1_binv1_cclass_m | stq1_binv2_cclass_m | stq1_binv3_cclass_m | stq1_binv_wclrall ;
assign stq2_binv_blk_cclass_d = stq1_binv_blk_cclass | stq1_rel_blk_cclass ;
assign stq1_cmmt_val = ( ~ stq2_cmmt_reject ) & | ( stqe_ready_state & stq1_cmmt_ptr_q ) ;
assign stq1_cmmt_flushed = ( ~ stq2_cmmt_reject ) & | ( stqe_flushed_q [ 0 : `STQ_ENTRIES - 1 ] & stq1_cmmt_ptr_q ) ;
assign stq1_cmmt_dreq_val = | ( stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] & stq1_cmmt_ptr_q ) ;
assign stq1_cmmt_dvc_val = | ( stqe_dvc_int_det & stq1_cmmt_ptr_q ) ;
assign stq1_cmmt_send_l2 = | ( stqe_send_l2_q [ 0 : `STQ_ENTRIES - 1 ] & stq1_cmmt_ptr_q ) ;
assign stq3_cmmt_send_l2 = | ( stqe_send_l2_q [ 0 : `STQ_ENTRIES - 1 ] & stq3_cmmt_ptr_q ) ;
assign stq3_cmmt_dreq_val = | ( stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] & stq3_cmmt_ptr_q ) ;
assign stq3_cmmt_dvc_val = | ( stqe_dvc_int_det & stq3_cmmt_ptr_q ) ;
assign stq2_cmmt_ptr_remove = stq2_cmmt_ptr_q & ( stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] | stqe_dvc_int_det | ( ( ~ stqe_need_ext_ack_q [ 0 : `STQ_ENTRIES - 1 ] ) ) ) ;
assign stq1_cmmt_ptr_r1 = { 1 'b0 , stq1_cmmt_ptr_q [ 0 : `STQ_ENTRIES - 2 ] } ;
assign stq1_cmmt_ptr_l1 = { stq1_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stq1_cmmt_ptr_q ) ) ) ) } ;
assign stq2_cmmt_ptr_l1 = { stq2_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stq2_cmmt_ptr_q ) ) ) ) } ;
assign stq1_cmmt_ptr_sel = { stq2_cmmt_reject , ( stq1_cmmt_val | stq1_cmmt_flushed ) , stq_push_down } ;
// "000"
assign stq1_cmmt_ptr_d = ( stq1_cmmt_ptr_sel = = 3 'b100 ) ? stq2_cmmt_ptr_q :
( stq1_cmmt_ptr_sel = = 3 'b110 ) ? stq2_cmmt_ptr_q :
( stq1_cmmt_ptr_sel = = 3 'b101 ) ? stq2_cmmt_ptr_l1 :
( stq1_cmmt_ptr_sel = = 3 'b111 ) ? stq2_cmmt_ptr_l1 :
( stq1_cmmt_ptr_sel = = 3 'b001 ) ? stq1_cmmt_ptr_l1 :
( stq1_cmmt_ptr_sel = = 3 'b011 ) ? stq1_cmmt_ptr_q :
( stq1_cmmt_ptr_sel = = 3 'b010 ) ? stq1_cmmt_ptr_r1 :
stq1_cmmt_ptr_q ;
assign stq2_cmmt_ptr_d = ( stq_push_down = = 1 'b0 ) ? stq1_cmmt_ptr_q :
stq1_cmmt_ptr_l1 ;
assign stq3_cmmt_ptr_d = ( stq_push_down = = 1 'b0 ) ? stq2_cmmt_ptr_q :
{ stq2_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stq2_cmmt_ptr_q ) ) ) ) } ;
assign stq4_cmmt_ptr_d = ( stq_push_down = = 1 'b0 ) ? stq3_cmmt_ptr_q :
{ stq3_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stq3_cmmt_ptr_q ) ) ) ) } ;
assign stq5_cmmt_ptr_d = ( stq_push_down = = 1 'b0 ) ? stq4_cmmt_ptr_q :
{ stq4_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stq4_cmmt_ptr_q ) ) ) ) } ;
assign stq6_cmmt_ptr_d = ( stq_push_down = = 1 'b0 ) ? stq5_cmmt_ptr_q :
{ stq5_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , ( ( ~ ( | ( stq5_cmmt_ptr_q ) ) ) ) } ;
// Fix for mftgpr colliding with a store update form issued by RV
// every other store commit request should only be rejected if
// RV issued a load
// XUDBG0 command in the LQ pipeline
assign stq2_reject_rv_coll = ( rv_lq_vld_q & stq2_mftgpr_val_q ) | ( rv_lq_ld_vld_q ) | ex0_dir_rd_val_q ;
assign stq2_reject_dci_d = stq_reject_dci_coll ;
assign stq2_reject_val = stq2_reject_rv_coll | stq2_binv_blk_cclass_q | stq2_reject_dci_q | ctl_lsq_stq4_perr_reject ;
assign stq2_cmmt_reject = stq2_cmmt_val_q & stq2_reject_val ;
assign stq3_cmmt_reject_d = stq2_cmmt_reject ;
assign stq2_cmmt_val = stq2_cmmt_val_q & ( ~ stq2_reject_val ) ;
assign stq_stq2_blk_req = stq2_cmmt_reject ;
assign stqe0_icswxdot_val = stqe_is_icswxr_q [ 0 ] & ( stqe_ttype_q [ 0 ] = = 6 'b100111 ) ;
generate
begin : xhdl8
genvar t ;
for ( t = 0 ; t < = `THREADS - 1 ; t = t + 1 )
begin : ext_ack_queue_gen
assign ext_ack_queue_v_d [ t ] = ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] & ( ~ stqe_ack_rcvd_q [ 0 ] ) ) |
( ext_ack_queue_v_q [ t ] & ( ~ any_ack_val [ t ] ) ) ;
assign ext_ack_queue_sync_d [ t ] = ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] & stqe_is_sync_q [ 0 ] ) |
( ext_ack_queue_sync_q [ t ] & ( ~ any_ack_val [ t ] ) ) ;
assign ext_ack_queue_stcx_d [ t ] = ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] & stqe_is_resv_q [ 0 ] ) |
( ext_ack_queue_stcx_q [ t ] & ( ~ any_ack_val [ t ] ) ) ;
assign ext_ack_queue_icswxr_d [ t ] = ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] & stqe_is_icswxr_q [ 0 ] & stqe0_icswxdot_val ) |
( ext_ack_queue_icswxr_q [ t ] & ( ~ any_ack_val [ t ] ) ) ;
assign ext_ack_queue_itag_d [ t ] = ( ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] ) = = 1 'b1 ) ? stqe_itag_q [ 0 ] :
ext_ack_queue_itag_q [ t ] ;
assign ext_ack_queue_cr_wa_d [ t ] = ( ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] ) = = 1 'b1 ) ? stqe_tgpr_q [ 0 ] [ AXU_TARGET_ENC - ( `CR_POOL_ENC + `THREADS_POOL_ENC ) : AXU_TARGET_ENC - 1 ] :
ext_ack_queue_cr_wa_q [ t ] ;
assign ext_ack_queue_dacrw_det_d [ t ] = ( ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] ) = = 1 'b1 ) ? stqe_dacrw_q [ 0 ] :
ext_ack_queue_dacrw_det_q [ t ] ;
assign ext_ack_queue_dacrw_rpt_d [ t ] = ( ( stq7_cmmt_val_q & stqe_need_ext_ack_q [ 0 ] & stqe_thrd_id_q [ 0 ] [ t ] ) = = 1 'b1 ) ? stqe_dvc_int_det [ 0 ] :
ext_ack_queue_dacrw_rpt_q [ t ] ;
end
end
endgenerate
always @ ( * )
begin : ext_act_queue_thrd_sel_proc
reg [ 0 : `ITAG_SIZE_ENC - 1 ] itag ;
reg [ 0 : `CR_POOL_ENC + `THREADS_POOL_ENC - 1 ] cr_wa ;
reg [ 0 : 3 ] dacrw_det ;
reg dacrw_rpt ;
integer t ;
itag = 0 ;
cr_wa = 0 ;
dacrw_det = 0 ;
dacrw_rpt = 0 ;
for ( t = 0 ; t < = `THREADS - 1 ; t = t + 1 )
begin
itag = ( ext_ack_queue_itag_q [ t ] & { `ITAG_SIZE_ENC { ( any_ack_val [ t ] & ext_ack_queue_v_q [ t ] ) } } ) |
( stq_ext_act_itag & { `ITAG_SIZE_ENC { ( any_ack_val [ t ] & ( ~ ext_ack_queue_v_q [ t ] ) ) } } ) | itag ;
cr_wa = ( ext_ack_queue_cr_wa_q [ t ] & { `CR_POOL_ENC + `THREADS_POOL_ENC { ( cr_thrd [ t ] & ext_ack_queue_v_q [ t ] ) } } ) |
( stq_ext_act_cr_wa & { `CR_POOL_ENC + `THREADS_POOL_ENC { ( cr_thrd [ t ] & ( ~ ext_ack_queue_v_q [ t ] ) ) } } ) | cr_wa ;
dacrw_det = ( ext_ack_queue_dacrw_det_q [ t ] & { 4 { ( any_ack_val [ t ] & ext_ack_queue_v_q [ t ] ) } } ) |
( stq_ext_act_dacrw_det & { 4 { ( any_ack_val [ t ] & ( ~ ext_ack_queue_v_q [ t ] ) ) } } ) | dacrw_det ;
dacrw_rpt = ( ext_ack_queue_dacrw_rpt_q [ t ] & ( any_ack_val [ t ] & ext_ack_queue_v_q [ t ] ) ) |
( stq_ext_act_dacrw_rpt & ( any_ack_val [ t ] & ( ~ ext_ack_queue_v_q [ t ] ) ) ) | dacrw_rpt ;
end
ext_act_queue_itag = itag ;
cr_wa_d = cr_wa ;
ext_act_queue_dacrw_det = dacrw_det ;
ext_act_queue_dacrw_rpt = dacrw_rpt ;
end
// Count number of flushes, force a hole once the threshold is reached
assign stq2_rtry_cnt_act = stq2_cmmt_val_q | rtry_cnt_reset ;
assign stq2_rtry_cnt_incr = stq2_rtry_cnt_q + 3 'b001 ;
assign stq2_rtry_cnt_d = ( ( ( ~ ( stq2_reject_rv_coll ) ) | rtry_cnt_reset ) = = 1 'b1 ) ? 3 'b110 :
stq2_rtry_cnt_incr ;
assign rtry_cnt_reset = stq2_rtry_cnt_q = = 3 'b111 ;
assign rv_hold = ( stq2_rtry_cnt_incr = = 3 'b111 ) & ( stq2_cmmt_val_q & stq2_reject_rv_coll ) ;
assign stq_hold_all_req = rv_hold | | ( rv0_cr_hole_q ) | stq_cpl_need_hold_q ;
assign ex5_stq_set_hold = | ( stqe_qHit_held_set & ( ~ stqe_qHit_held_clr [ 0 : `STQ_ENTRIES - 1 ] ) ) ;
assign set_hold_thread = ex5_req_thrd_id_q & { `THREADS { ex5_stq_set_hold } } ;
assign stq_rv_set_hold = ex5_stq_set_hold ;
assign thrd_held_d = set_hold_thread | ( thrd_held_q & ( ~ clr_hold_thread ) ) ;
assign clr_hold_thread = ( thrd_held_q & { `THREADS { | ( stqe_qHit_held_clr [ 0 : `STQ_ENTRIES - 1 ] & stqe_qHit_held_q ) } } ) |
( thrd_held_q & { `THREADS { | ( any_ack_val_ok_q ) } } ) ;
assign stq_rv_clr_hold = clr_hold_thread ;
// STQ Commit Valids
assign lsq_ctl_stq1_val = stq1_cmmt_val & ( ~ ( stq1_cmmt_dreq_val | stq1_cmmt_dvc_val ) ) ;
assign lsq_dat_stq1_val = stq1_cmmt_val & ( ~ ( stq1_cmmt_dreq_val | stq1_cmmt_dvc_val ) ) ;
assign stq_ctl_stq1_stg_act = | ( stqe_ready_ctl_act ) & ~ stq1_rel_blk_cclass ;
assign stq_dat_stq1_stg_act = | ( stqe_ready_dat_act ) ;
assign stq_arb_st_req_avail = stq1_cmmt_val & ( ~ ( stq1_cmmt_dreq_val | stq1_cmmt_dvc_val ) ) & stq1_cmmt_send_l2 ;
assign stq_arb_stq3_req_val = stq3_cmmt_val_q & ( ~ ( stq3_cmmt_dreq_val | stq3_cmmt_dvc_val ) ) & stq3_cmmt_send_l2 ;
assign stq_arb_stq3_cmmt_val = stq3_cmmt_val_q ;
assign stq_arb_stq3_cmmt_reject = stq3_cmmt_reject_q ;
// Temp fix
assign sq_iu_credit_free = credit_free_q ;
// fix for requests that have DREQ_VAL and NEED_EXT_ACK set, also want to drop requests if DVC_INT_EN is set
assign credit_free_d = ( stq2_thrd_id & { `THREADS { ( ( stq2_cmmt_val & | ( stq2_cmmt_ptr_remove ) ) | stq2_cmmt_flushed_q ) } } ) | any_ack_val ;
assign lq_iu_icbi_addr = icbi_addr_q ;
assign lq_iu_icbi_val = icbi_val_q ;
// dont want to send ICBI request to the IU if DREQ_VAL is set
assign icbi_val_d = stq2_thrd_id & { `THREADS { ( stq2_cmmt_val & | ( stq2_cmmt_ptr_q & stqe_is_icbi_q [ 0 : `STQ_ENTRIES - 1 ] & ( ~ stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] ) ) ) } } ;
assign stq2_dci_val_d = stq1_cmmt_val & ( stq1_ttype = = 6 'b101111 ) ;
assign stq2_cmmt_dci_val = stq2_cmmt_val & stq2_dci_val_q & | ( stq2_cmmt_ptr_q & ( ~ stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] ) ) ;
assign stq3_cmmt_dci_val_d = stq2_cmmt_dci_val ;
assign stq4_cmmt_dci_val_d = stq3_cmmt_dci_val_q ;
assign stq5_cmmt_dci_val_d = stq4_cmmt_dci_val_q ;
assign stq_reject_dci_coll = stq2_cmmt_dci_val ;
assign stq_dci_inprog = stq3_cmmt_dci_val_q | stq4_cmmt_dci_val_q | stq5_cmmt_dci_val_q ;
assign stq2_ici_val_d = ( stq1_ttype = = 6 'b101110 ) ;
assign ici_val_d = stq2_cmmt_val & stq2_ici_val_q & | ( stq2_cmmt_ptr_q & ( ~ stqe_dreq_val_q [ 0 : `STQ_ENTRIES - 1 ] ) ) ;
assign lq_iu_ici_val = ici_val_q ;
// need to set XUCR0[CUL] for a dcblc/icblc that is being dropped
assign stq3_dcblc_instr = ( stq3_ttype = = 6 'b100101 ) ;
assign stq3_icblc_instr = ( stq3_ttype = = 6 'b100100 ) ;
assign stq4_xucr0_cul_d = stq3_cmmt_val_q & stq3_cmmt_dreq_val & ( stq3_dcblc_instr | stq3_icblc_instr ) ;
// Kill the pointer for instructions that require an external ack
// Want to delete the entry if DVC_INT_EN is set
assign stq7_cmmt_ptr_d = ( stq_push_down = = 1 'b0 ) ? stq6_cmmt_ptr_q :
{ stq6_cmmt_ptr_q [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ;
assign stq7_entry_delete [ 0 : `STQ_ENTRIES - 1 ] = ( stq2_cmmt_ptr_q & { `STQ_ENTRIES { stq2_cmmt_flushed_q } } ) |
( stq7_cmmt_ptr_q & { `STQ_ENTRIES { stq7_cmmt_val_q } } ) ;
assign stq_push_down = stq7_cmmt_flushed_q | ( stq7_cmmt_val_q & stq7_cmmt_ptr_q [ 0 ] ) ;
// since the stq is pushed down in stq7, the stq3 commit pointer will never be higher than 4
assign stq_arb_stq3_cTag [ 2 : 4 ] = ( stq3_cmmt_ptr_q [ 0 : 4 ] = = 5 'b10000 ) ? 3 'b000 :
( stq3_cmmt_ptr_q [ 0 : 4 ] = = 5 'b01000 ) ? 3 'b001 :
( stq3_cmmt_ptr_q [ 0 : 4 ] = = 5 'b00100 ) ? 3 'b010 :
( stq3_cmmt_ptr_q [ 0 : 4 ] = = 5 'b00010 ) ? 3 'b011 :
( stq3_cmmt_ptr_q [ 0 : 4 ] = = 5 'b00001 ) ? 3 'b100 :
3 'b111 ;
assign stq_arb_stq3_cTag [ 0 : 1 ] = 2 'b00 ;
assign stq1_mftgpr_val = ( stq1_ttype = = 6 'b111000 ) ;
assign stq2_mftgpr_val_d = stq1_mftgpr_val ;
assign lsq_dat_stq1_mftgpr_val = stq1_mftgpr_val ;
assign lsq_ctl_stq1_mftgpr_val = stq1_mftgpr_val ;
assign lsq_ctl_stq1_mfdpf_val = ( stq1_ttype = = 6 'b011000 ) ;
assign lsq_ctl_stq1_mfdpa_val = ( stq1_ttype = = 6 'b010000 ) ;
assign lsq_ctl_stq1_dci_val = ( stq1_ttype = = 6 'b101111 ) ;
assign stq_arb_stq3_ttype = stq3_ttype ;
assign stq_arb_stq3_tid = stq3_tid_enc ;
assign lsq_ctl_stq4_xucr0_cul = stq4_xucr0_cul_q ;
// Generate Encode Thread ID
always @ ( * )
begin : tidMulti
reg [ 0 : 1 ] stqTid ;
integer tid ;
stqTid = 0 ;
for ( tid = 0 ; tid < = `THREADS - 1 ; tid = tid + 1 )
stqTid = ( tid & stq3_tid [ tid ] ) | stqTid ;
stq3_tid_enc = stqTid ;
end
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// mtspr_trace Logic
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// Encode Thread ID
always @ ( * )
begin : tidEnc
reg [ 0 : 1 ] tenc ;
integer tid ;
tenc = 0 ;
for ( tid = 0 ; tid < = `THREADS - 1 ; tid = tid + 1 )
tenc = ( tid & ex4_req_thrd_id_q [ tid ] ) | tenc ;
ex4_thrd_id_enc = tenc ;
end
// 32bit Real Address MTSPR TRACE Muxing
generate
if ( `REAL_IFAR_WIDTH = = 32 )
begin : ra32bit
assign ex4_p_addr_ovrd [ 49 : 63 ] = ctl_lsq_ex4_p_addr [ 49 : 63 ] ;
assign ex4_p_addr_ovrd [ 32 : 33 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 32 : 33 ] :
ex4_thrd_id_enc ;
assign ex4_p_addr_ovrd [ 34 : 43 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 34 : 43 ] :
ctl_lsq_ex4_p_addr [ 50 : 59 ] ;
assign ex4_p_addr_ovrd [ 44 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 44 ] :
1 'b0 ;
assign ex4_p_addr_ovrd [ 45 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 45 ] :
ctl_lsq_ex4_p_addr [ 60 ] ;
assign ex4_p_addr_ovrd [ 46 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 46 ] :
ctl_lsq_ex4_p_addr [ 63 ] ;
assign ex4_p_addr_ovrd [ 47 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 47 ] :
ctl_lsq_ex4_p_addr [ 62 ] ;
assign ex4_p_addr_ovrd [ 48 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 48 ] :
ctl_lsq_ex4_p_addr [ 61 ] ;
end
endgenerate
// greater than 32bit Real Address MTSPR TRACE Muxing
generate
if ( `REAL_IFAR_WIDTH > 32 )
begin : raN32bit
assign ex4_p_addr_ovrd [ 64 - `REAL_IFAR_WIDTH : 29 ] = ctl_lsq_ex4_p_addr [ 64 - `REAL_IFAR_WIDTH : 29 ] ;
assign ex4_p_addr_ovrd [ 49 : 63 ] = ctl_lsq_ex4_p_addr [ 49 : 63 ] ;
assign ex4_p_addr_ovrd [ 30 : 31 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 30 : 31 ] :
an_ac_coreid ;
assign ex4_p_addr_ovrd [ 32 : 33 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 32 : 33 ] :
ex4_thrd_id_enc ;
assign ex4_p_addr_ovrd [ 34 : 43 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 34 : 43 ] :
ctl_lsq_ex4_p_addr [ 50 : 59 ] ;
assign ex4_p_addr_ovrd [ 44 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 44 ] :
1 'b0 ;
assign ex4_p_addr_ovrd [ 45 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 45 ] :
ctl_lsq_ex4_p_addr [ 60 ] ;
assign ex4_p_addr_ovrd [ 46 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 46 ] :
ctl_lsq_ex4_p_addr [ 63 ] ;
assign ex4_p_addr_ovrd [ 47 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 47 ] :
ctl_lsq_ex4_p_addr [ 62 ] ;
assign ex4_p_addr_ovrd [ 48 ] = ( ctl_lsq_ex4_mtspr_trace = = 1 'b0 ) ? ctl_lsq_ex4_p_addr [ 48 ] :
ctl_lsq_ex4_p_addr [ 61 ] ;
end
endgenerate
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// STQ Address Entries
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// the offset is determined by the size of the store operation in EX3
assign ex3_opsize_1hot [ 0 ] = ctl_lsq_ex3_opsize = = 3 'b101 ; //8B
assign ex3_opsize_1hot [ 1 ] = ctl_lsq_ex3_opsize = = 3 'b100 ; //4B
assign ex3_opsize_1hot [ 2 ] = ctl_lsq_ex3_opsize = = 3 'b010 ; //2B
assign ex3_rotcmp2_fld = { 1 'b0 , ( 3 'b100 & { 3 { ex3_opsize_1hot [ 0 ] } } ) } ;
assign ex3_rotcmp3_fld = { 1 'b0 , ( ( 3 'b110 & { 3 { ex3_opsize_1hot [ 0 ] } } ) | ( 3 'b010 & { 3 { ex3_opsize_1hot [ 1 ] } } ) ) } ;
assign stq_rotcmp [ 0 : 3 ] = ctl_lsq_ex3_p_addr [ 60 : 63 ] ;
assign stq_rotcmp [ 4 : 7 ] = stq_rotcmp [ 0 : 3 ] + 4 'b0010 ; // + 2;
assign stq_rotcmp [ 8 : 11 ] = stq_rotcmp [ 0 : 3 ] + ex3_rotcmp2_fld ;
assign stq_rotcmp [ 12 : 15 ] = stq_rotcmp [ 0 : 3 ] + ex3_rotcmp3_fld ;
// create dummy blank stq entry to pushdown on the top of the queue
assign stqe_thrd_id_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_itag_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_lmqhit_q [ `STQ_ENTRIES ] = 0 ;
assign ex5_older_ldmiss_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_rotcmp_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_byte_en_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_addr_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_wimge_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_opsize_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_ttype_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_usr_def_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_l_fld_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_tgpr_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_dvc_en_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_dacrw_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_data1_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_data1_mux [ `STQ_ENTRIES ] = 0 ;
assign ex5_set_stq_q [ `STQ_ENTRIES ] = 0 ;
assign ex4_set_stq_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_alloc_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_flushed_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_ack_rcvd_q [ `STQ_ENTRIES ] = 0 ;
assign stq7_entry_delete [ `STQ_ENTRIES ] = 0 ;
assign stqe_have_cp_next_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_addr_val_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_fwd_addr_val_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_ready_sent_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_need_ready_ptr_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_compl_rcvd_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_compl_rcvd [ `STQ_ENTRIES ] = 0 ;
assign cp_i0_itag_cmp [ `STQ_ENTRIES ] = 0 ;
assign cp_i1_itag_cmp [ `STQ_ENTRIES ] = 0 ;
assign stqe_flushed [ `STQ_ENTRIES ] = 0 ;
assign stqe_alloc_flushed [ `STQ_ENTRIES ] = 0 ;
assign stqe_need_ext_ack_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_blk_loads_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_all_thrd_chk_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_cline_chk_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_byte_swap_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_is_store_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_is_sync_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_is_resv_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_is_icswxr_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_is_icbi_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_is_inval_op_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_dreq_val_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_has_data_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_send_l2_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_watch_clr_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_axu_val_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_epid_val_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_lock_clr_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_data_val [ `STQ_ENTRIES ] = 0 ;
assign stqe_fxu1_dvcr_val [ `STQ_ENTRIES ] = 0 ;
assign stqe_dvcr_cmpr_q [ `STQ_ENTRIES ] = 2 'b0 ;
assign stqe_data_nxt_q [ `STQ_ENTRIES ] = 0 ;
assign ex3_stq_data_val [ `STQ_ENTRIES ] = 0 ;
assign stqe_data_val_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_illeg_lswx_q [ `STQ_ENTRIES ] = 0 ;
assign stqe_strg_noop_q [ `STQ_ENTRIES ] = 0 ;
assign ex3_agecmp [ `STQ_ENTRIES ] = 0 ;
assign stqe_qHit_held_mux [ `STQ_ENTRIES ] = 0 ;
assign stqe_held_early_clr_q [ `STQ_ENTRIES ] = 0 ;
assign set_hold_early_clear [ `STQ_ENTRIES ] = 0 ;
assign stqe_qHit_held_clr [ `STQ_ENTRIES ] = 0 ;
assign stq_cp_next_val [ `STQ_ENTRIES ] = 0 ;
assign stqe_odq_resolved_q [ `STQ_ENTRIES ] = 0 ;
assign ex5_qHit_set_oth_q [ `STQ_ENTRIES ] = 0 ;
assign ex5_qHit_set_miss [ `STQ_ENTRIES ] = 0 ;
always @ ( stq_push_down )
begin : dummy
stq_cp_next_itag [ `STQ_ENTRIES ] = 0 ;
set_stqe_odq_resolved [ `STQ_ENTRIES ] = 0 ;
end
always @ ( * )
begin : odq_sttagMux
reg [ 0 : `STQ_ENTRIES - 1 ] odq_resolved_ptr ;
integer stq ;
odq_resolved_ptr = 0 ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
odq_resolved_ptr = ( stq_tag_ptr_q [ stq ] & { `STQ_ENTRIES { odq_stq_stTag [ stq ] } } ) | odq_resolved_ptr ;
set_stqe_odq_resolved [ 0 : `STQ_ENTRIES - 1 ] = odq_resolved_ptr & { `STQ_ENTRIES { odq_stq_resolved } } ;
end
generate
begin : xhdl9
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stq_addr_entry_gen
assign stqe_odq_resolved_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( set_stqe_odq_resolved [ i ] | stqe_odq_resolved_q [ i ] ) & ( ~ stq7_entry_delete [ i ] ) :
( set_stqe_odq_resolved [ i + 1 ] | stqe_odq_resolved_q [ i + 1 ] ) & ( ~ stq7_entry_delete [ i + 1 ] ) ;
assign stqe_state [ i ] = { stqe_alloc_q [ i ] ,
stqe_addr_val_q [ i ] ,
( stqe_data_val_q [ i ] | ( ~ stqe_has_data_q [ i ] ) ) ,
( stqe_compl_rcvd_q [ i ] | stqe_need_ext_ack_q [ i ] ) ,
( stqe_have_cp_next_q [ i ] | ( ~ stqe_need_ext_ack_q [ i ] ) ) ,
arb_stq_cred_avail ,
stqe_odq_resolved_q [ i ] ,
( ~ ( | ( stqe_lmqhit_q [ i ] ) ) ) ,
( ~ ( ldq_stq_rel1_blk_store | stq_dci_inprog ) ) } ;
assign stqe_ready_state [ i ] = ( ~ stqe_flushed_q [ i ] ) & & ( stqe_state [ i ] ) ;
assign stqe_ready_ctl_act [ i ] = & ( { stqe_alloc_q [ i ] ,
stqe_addr_val_q [ i ] ,
( stqe_data_val_q [ i ] | ( ~ stqe_has_data_q [ i ] ) ) ,
( stqe_compl_rcvd_q [ i ] | stqe_need_ext_ack_q [ i ] ) ,
( stqe_have_cp_next_q [ i ] | ( ~ stqe_need_ext_ack_q [ i ] ) ) ,
( ~ ( | ( stqe_lmqhit_q [ i ] ) ) ) ,
( ~ stqe_flushed_q [ i ] ) } ) ;
assign stqe_ready_dat_act [ i ] = & ( { stqe_alloc_q [ i ] ,
stqe_addr_val_q [ i ] ,
( stqe_data_val_q [ i ] ) ,
( stqe_compl_rcvd_q [ i ] | stqe_need_ext_ack_q [ i ] ) ,
( stqe_have_cp_next_q [ i ] | ( ~ stqe_need_ext_ack_q [ i ] ) ) ,
( ~ ( | ( stqe_lmqhit_q [ i ] ) ) ) ,
( ~ stqe_flushed_q [ i ] ) } ) ;
assign stqe_lmqhit_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( ( ldq_stq_ex5_ldm_hit & { `LMQ_ENTRIES { ex5_set_stq_q [ i ] } } ) |
( ldq_stq_ex5_ldm_entry & { `LMQ_ENTRIES { ex5_older_ldmiss_q [ i ] } } ) |
stqe_lmqhit_q [ i ] ) & ( ~ ldq_stq_ldm_cpl ) :
( ( ldq_stq_ex5_ldm_hit & { `LMQ_ENTRIES { ex5_set_stq_q [ i + 1 ] } } ) |
( ldq_stq_ex5_ldm_entry & { `LMQ_ENTRIES { ex5_older_ldmiss_q [ i + 1 ] } } ) |
stqe_lmqhit_q [ i + 1 ] ) & ( ~ ldq_stq_ldm_cpl ) ;
assign stqe_wrt_new [ i ] = ( stqe_alloc_i0_wrt_ptr [ i ] & stq_alloc_val [ 0 ] ) | ( stqe_alloc_i1_wrt_ptr [ i ] & stq_alloc_val [ 1 ] ) ;
assign stqe_thrd_id_d [ i ] = ( stq_alloc_thrd_id0 & { `THREADS { stqe_alloc_i0_wrt_ptr [ i ] } } ) |
( stq_alloc_thrd_id1 & { `THREADS { stqe_alloc_i1_wrt_ptr [ i ] } } ) |
( stqe_thrd_id_q [ i + 1 ] & { `THREADS { ( ~ stqe_wrt_new [ i ] ) } } ) ;
assign stqe_tid_inuse [ i ] = stqe_thrd_id_q [ i ] & { `THREADS { stqe_alloc_q [ i ] } } ;
assign stqe_itag_act [ i ] = stqe_wrt_new [ i ] | stq_push_down ;
assign stqe_alloc_d [ i ] = stqe_wrt_new [ i ] |
( stqe_alloc_q [ i + 1 ] & ( ~ stq7_entry_delete [ i + 1 ] ) & stq_push_down ) |
( stqe_alloc_q [ i ] & ( ~ stq7_entry_delete [ i ] ) & ( ~ stq_push_down ) ) ;
assign stqe_itag_d [ i ] = ( stqe_alloc_itag0 & { `ITAG_SIZE_ENC { ( stqe_alloc_i0_wrt_ptr [ i ] & stq_alloc_val [ 0 ] ) } } ) |
( stqe_alloc_itag1 & { `ITAG_SIZE_ENC { ( stqe_alloc_i1_wrt_ptr [ i ] & stq_alloc_val [ 1 ] ) } } ) |
( stqe_itag_q [ i + 1 ] & { `ITAG_SIZE_ENC { ( ~ stqe_wrt_new [ i ] ) } } ) ;
// Report back to LDQ on LSWX status
assign ex3_data_val [ i ] = stqe_data_val_q [ i ] & ( stqe_itag_q [ i ] = = ex3_req_itag_q ) & ( stqe_thrd_id_q [ i ] = = ex3_req_thrd_id_q ) & ( ~ ( stqe_flushed_q [ i ] | stqe_compl_rcvd_q [ i ] ) ) ;
assign ex3_illeg_lswx [ i ] = stqe_data_val_q [ i ] & ( stqe_itag_q [ i ] = = ex3_req_itag_q ) & ( stqe_thrd_id_q [ i ] = = ex3_req_thrd_id_q ) & ( ( ~ stqe_compl_rcvd_q [ i ] ) ) & stqe_illeg_lswx_q [ i ] ;
assign ex3_strg_noop [ i ] = stqe_data_val_q [ i ] & ( stqe_itag_q [ i ] = = ex3_req_itag_q ) & ( stqe_thrd_id_q [ i ] = = ex3_req_thrd_id_q ) & ( ( ~ stqe_compl_rcvd_q [ i ] ) ) & stqe_strg_noop_q [ i ] ;
// ITAG Compare for CP_NEXT
assign stq_cp_next_val [ i ] = | ( cp_next_val_q & stqe_thrd_id_q [ i ] ) ;
always @ ( * )
begin : cp_next_itag_p
reg [ 0 : `ITAG_SIZE_ENC - 1 ] itag ;
integer tid ;
itag = 0 ;
for ( tid = 0 ; tid < = `THREADS - 1 ; tid = tid + 1 )
itag = ( cp_next_itag_q [ tid ] & { `ITAG_SIZE_ENC { stqe_thrd_id_q [ i ] [ tid ] } } ) | itag ;
stq_cp_next_itag [ i ] = itag ;
end
assign stqe_have_cp_next_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( ( stq_cp_next_val [ i ] & stqe_alloc_q [ i ] & ( stqe_itag_q [ i ] = = stq_cp_next_itag [ i ] ) ) |
stqe_have_cp_next_q [ i ] ) & ( ~ ( stq7_entry_delete [ i ] | stqe_flushed_q [ i ] ) ) :
( ( stq_cp_next_val [ i + 1 ] & stqe_alloc_q [ i + 1 ] & ( stqe_itag_q [ i + 1 ] = = stq_cp_next_itag [ i + 1 ] ) ) |
stqe_have_cp_next_q [ i + 1 ] ) & ( ~ ( stq7_entry_delete [ i + 1 ] | stqe_flushed_q [ i + 1 ] ) ) ;
// Address Valid
assign ex3_set_stq [ i ] = ( stq_push_down = = 1 'b0 ) ? ex3_streq_valid & stqe_alloc_q [ i ] & ( stqe_itag_q [ i ] = = ex3_req_itag_q ) &
( stqe_thrd_id_q [ i ] = = ex3_req_thrd_id_q ) & ( ~ ( stqe_flushed_q [ i ] | stqe_compl_rcvd_q [ i ] ) ) :
ex3_streq_valid & stqe_alloc_q [ i + 1 ] & ( stqe_itag_q [ i + 1 ] = = ex3_req_itag_q ) &
( stqe_thrd_id_q [ i + 1 ] = = ex3_req_thrd_id_q ) & ( ~ ( stqe_flushed_q [ i + 1 ] | stqe_compl_rcvd_q [ i + 1 ] ) ) ;
assign ex3_addr_act [ i ] = ex3_set_stq [ i ] | stq_push_down ;
assign ex4_addr_act [ i ] = ex4_set_stq_q [ i ] | stq_push_down ;
assign ex4_set_stq [ i ] = ( ex4_set_stq_q [ i ] & ( ~ stq_push_down ) ) | ( ex4_set_stq_q [ i + 1 ] & stq_push_down ) ;
assign ex5_addr_act [ i ] = ex5_set_stq_q [ i ] | stq_push_down ;
assign ex5_set_stq [ i ] = ( ex5_set_stq_q [ i ] & ( ~ stq_push_down ) ) | ( ex5_set_stq_q [ i + 1 ] & stq_push_down ) ;
assign stqe_rotcmp_d [ i ] = ( ex3_set_stq [ i ] = = 1 'b1 ) ? stq_rotcmp :
stqe_rotcmp_q [ i + 1 ] ;
assign stqe_byte_en_d [ i ] = ( ex3_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex3_byte_en :
stqe_byte_en_q [ i + 1 ] ;
assign stqe_addr_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ex4_p_addr_ovrd :
stqe_addr_q [ i + 1 ] ;
assign stqe_cline_chk_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_cline_chk :
stqe_cline_chk_q [ i + 1 ] ;
assign stqe_wimge_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_wimge :
stqe_wimge_q [ i + 1 ] ;
assign stqe_byte_swap_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_byte_swap :
stqe_byte_swap_q [ i + 1 ] ;
assign stqe_opsize_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ex4_req_opsize_q :
stqe_opsize_q [ i + 1 ] ;
assign stqe_is_store_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_store :
stqe_is_store_q [ i + 1 ] ;
assign stqe_is_sync_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_sync :
stqe_is_sync_q [ i + 1 ] ;
assign stqe_is_resv_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_resv :
stqe_is_resv_q [ i + 1 ] ;
assign stqe_is_icswxr_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_icswxr :
stqe_is_icswxr_q [ i + 1 ] ;
assign stqe_is_icbi_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_icbi :
stqe_is_icbi_q [ i + 1 ] ;
assign stqe_is_inval_op_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_inval_op :
stqe_is_inval_op_q [ i + 1 ] ;
assign stqe_dreq_val_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_dreq_val :
stqe_dreq_val_q [ i + 1 ] ;
assign stqe_has_data_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_has_data :
stqe_has_data_q [ i + 1 ] ;
assign stqe_send_l2_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_send_l2 :
stqe_send_l2_q [ i + 1 ] ;
assign stqe_watch_clr_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_watch_clr :
stqe_watch_clr_q [ i + 1 ] ;
assign stqe_ttype_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_ttype :
stqe_ttype_q [ i + 1 ] ;
assign stqe_axu_val_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_axu_val :
stqe_axu_val_q [ i + 1 ] ;
assign stqe_epid_val_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_is_epid :
stqe_epid_val_q [ i + 1 ] ;
assign stqe_usr_def_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_usr_def :
stqe_usr_def_q [ i + 1 ] ;
assign stqe_lock_clr_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_lock_clr :
stqe_lock_clr_q [ i + 1 ] ;
assign stqe_l_fld_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_l_fld :
stqe_l_fld_q [ i + 1 ] ;
assign stqe_tgpr_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_tgpr :
stqe_tgpr_q [ i + 1 ] ;
assign stqe_dvc_en_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_dvc :
stqe_dvc_en_q [ i + 1 ] ;
assign stqe_dacrw_d [ i ] = ( ex5_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex5_dacrw :
stqe_dacrw_q [ i + 1 ] ;
assign stqe_addr_val_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( ( ex5_streq_valid & ex5_set_stq_q [ i ] ) | ( stqe_addr_val_q [ i ] & ( ~ stq7_entry_delete [ i ] ) ) ) & ( ~ ( stqe_flushed_q [ i ] ) ) :
( ( ex5_streq_valid & ex5_set_stq_q [ i + 1 ] ) | ( stqe_addr_val_q [ i + 1 ] & ( ~ stq7_entry_delete [ i + 1 ] ) ) ) & ( ~ ( stqe_flushed_q [ i + 1 ] ) ) ;
// fix for forwarding store data to load
assign stqe_fwd_addr_val_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( ( ex4_streq_valid & ex4_set_stq_q [ i ] ) | ( stqe_fwd_addr_val_q [ i ] & ( ~ stq7_entry_delete [ i ] ) ) ) & ( ~ ( stqe_flushed_q [ i ] ) ) :
( ( ex4_streq_valid & ex4_set_stq_q [ i + 1 ] ) | ( stqe_fwd_addr_val_q [ i + 1 ] & ( ~ stq7_entry_delete [ i + 1 ] ) ) ) & ( ~ ( stqe_flushed_q [ i + 1 ] ) ) ;
// This indicates ready has been sent to cpl
// Can be delated unless addl checking desired???
assign stqe_ready_sent_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( ( cpl_ready & stqe_need_ready_ptr_q [ i ] ) | stqe_ready_sent_q [ i ] | stqe_need_ready_flushed [ i ] ) & ( ~ stq7_entry_delete [ i ] ) :
( ( cpl_ready & stqe_need_ready_ptr_q [ i + 1 ] ) | stqe_ready_sent_q [ i + 1 ] | stqe_need_ready_flushed [ i + 1 ] ) & ( ~ stq7_entry_delete [ i + 1 ] ) ;
// Snoop Completion Busses for itags which are "complete"
assign stq_i0_comp_val [ i ] = | ( cp_i0_completed_q & stqe_thrd_id_q [ i ] ) ;
assign stq_i1_comp_val [ i ] = | ( cp_i1_completed_q & stqe_thrd_id_q [ i ] ) ;
always @ ( * )
begin : complete_itag_p
reg [ 0 : `ITAG_SIZE_ENC - 1 ] i0_itag ;
reg [ 0 : `ITAG_SIZE_ENC - 1 ] i1_itag ;
integer tid ;
i0_itag = 0 ;
i1_itag = 0 ;
for ( tid = 0 ; tid < = `THREADS - 1 ; tid = tid + 1 )
begin
i0_itag = ( cp_i0_completed_itag_q [ tid ] & { `ITAG_SIZE_ENC { stqe_thrd_id_q [ i ] [ tid ] } } ) | i0_itag ;
i1_itag = ( cp_i1_completed_itag_q [ tid ] & { `ITAG_SIZE_ENC { stqe_thrd_id_q [ i ] [ tid ] } } ) | i1_itag ;
end
stq_i0_comp_itag [ i ] = i0_itag ;
stq_i1_comp_itag [ i ] = i1_itag ;
end
assign cp_i0_itag_cmp [ i ] = stqe_alloc_q [ i ] & ( stqe_itag_q [ i ] = = stq_i0_comp_itag [ i ] ) & ( ~ stqe_compl_rcvd_q [ i ] ) ;
assign cp_i1_itag_cmp [ i ] = stqe_alloc_q [ i ] & ( stqe_itag_q [ i ] = = stq_i1_comp_itag [ i ] ) & ( ~ stqe_compl_rcvd_q [ i ] ) ;
assign stqe_compl_rcvd [ i ] = ( ( stq_i0_comp_val [ i ] & cp_i0_itag_cmp [ i ] & stqe_ready_sent_q [ i ] & ( ~ stqe_flushed_q [ i ] ) ) |
( stq_i1_comp_val [ i ] & cp_i1_itag_cmp [ i ] & stqe_ready_sent_q [ i ] & ( ~ stqe_flushed_q [ i ] ) ) ) |
( stqe_compl_rcvd_q [ i ] & ( ~ stq7_entry_delete [ i ] ) ) ;
assign stqe_compl_rcvd_d [ i ] = ( stq_push_down = = 1 'b0 ) ? stqe_compl_rcvd [ i ] :
stqe_compl_rcvd [ i + 1 ] ;
assign stqe_flush_cmp [ i ] = | ( cp_flush_q & stqe_thrd_id_q [ i ] ) ;
assign stqe_flushed [ i ] = stqe_alloc_q [ i ] & ( ~ stqe_compl_rcvd [ i ] ) & stqe_flush_cmp [ i ] ;
assign stqe_alloc_flushed [ i ] = ( stqe_alloc_ptr_q [ i ] & stq_alloc_val [ 0 ] & stq_alloc_flushed [ 0 ] ) | ( stqe_alloc_ptr_r1 [ i ] & stq_alloc_val [ 1 ] & stq_alloc_flushed [ 1 ] ) ;
assign stqe_flushed_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( stqe_flushed [ i ] | stqe_alloc_flushed [ i ] | stqe_flushed_q [ i ] ) & ( ~ stq7_entry_delete [ i ] ) :
( stqe_flushed [ i + 1 ] | stqe_alloc_flushed [ i + 1 ] | stqe_flushed_q [ i + 1 ] ) & ( ~ stq7_entry_delete [ i + 1 ] ) ;
assign stqe_need_ext_ack_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_sync | ctl_lsq_ex4_is_icbi | ctl_lsq_ex4_is_icswxr | ctl_lsq_ex4_is_resv |
ctl_lsq_ex4_is_mfgpr | ctl_lsq_ex4_is_cinval | ctl_lsq_ex4_watch_clr_all :
stqe_need_ext_ack_q [ i + 1 ] ;
assign stqe_blk_loads_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_is_sync | ctl_lsq_ex4_is_resv | ctl_lsq_ex4_is_cinval | ctl_lsq_ex4_watch_clr_all :
stqe_blk_loads_q [ i + 1 ] ;
assign stqe_all_thrd_chk_d [ i ] = ( ex4_set_stq [ i ] = = 1 'b1 ) ? ctl_lsq_ex4_all_thrd_chk: stqe_all_thrd_chk_q [ i + 1 ] ;
assign stqe_l_zero [ i ] = stqe_l_fld_q [ i ] [ 0 : 1 ] = = 2 'b00 ;
assign stqe_valid_sync [ i ] = stqe_is_sync_q [ i ] & stqe_alloc_q [ i ] & ( ~ stqe_flushed_q [ i ] ) ;
assign stqe_ack_rcvd_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ( ( ( any_ack_val_ok_q = = stqe_thrd_id_q [ i ] ) & stqe_need_ext_ack_q [ i ] & stqe_have_cp_next_q [ i ] &
( ~ stqe_is_icbi_q [ i ] ) ) | stqe_ack_rcvd_q [ i ] ) :
( ( ( any_ack_val_ok_q = = stqe_thrd_id_q [ i + 1 ] ) & stqe_need_ext_ack_q [ i + 1 ] & stqe_have_cp_next_q [ i + 1 ] &
( ~ stqe_is_icbi_q [ i + 1 ] ) ) | stqe_ack_rcvd_q [ i + 1 ] ) ;
end
end
endgenerate
// drop prefetches when a sync in valid in the stq
assign lsq_ctl_sync_in_stq = | ( stqe_valid_sync ) | | ( ext_ack_queue_sync_q ) ;
// LQ Pipe checking for illegal lswx received by SQ
assign lsq_ctl_ex3_strg_val = | ( ex3_data_val ) ;
assign lsq_ctl_ex3_illeg_lswx = | ( ex3_illeg_lswx ) ;
assign lsq_ctl_ex3_strg_noop = | ( ex3_strg_noop ) ;
assign lsq_ctl_ex3_ct_val = | ( ex3_data_val ) ;
assign lsq_ctl_ex3_be_ct = ex3_ct_sel [ 0 : 5 ] ;
assign lsq_ctl_ex3_le_ct = ex3_ct_sel [ 6 : 11 ] ;
//------------------------------------------------------------------------------
// Multi-Thread Age Detection
//------------------------------------------------------------------------------
// Multi-Thread Age Detection
// Following Table should explain the idea behind other `THREADS Age Determination
// Oldest Youngest Result
// 0 0 All Stores with addr_val in Store Queue are oldest
// 0 1 Stores are older from Youngest_Itag as upper bound, but not including Youngest_Itag, used in case Oldest_Itag is not in ODQ
// 1 0 Stores are older from Oldest_Itag as upper bound, including Oldest_Itag
// 1 1 Stores are older from Oldest_Itag as upper bound, including Oldest_Itag
// Need to validate the oldest entries
generate
begin : xhdl10
genvar stq ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
begin : ageExpand
assign ex3_agecmp [ stq ] = | ( ex3_nxt_oldest_q [ stq: `STQ_ENTRIES - 1 ] ) | ex3_pfetch_val ;
end
end
endgenerate
// Muxing TAG Pointer
always @ ( * )
begin : sttagMux
reg [ 0 : `STQ_ENTRIES - 1 ] oldest ;
reg [ 0 : `STQ_ENTRIES - 1 ] youngest ;
integer stq ;
oldest = 0 ;
youngest = 0 ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
begin
oldest = ( stq_tag_ptr_q [ stq ] & { `STQ_ENTRIES { odq_stq_ex2_nxt_oldest_stTag [ stq ] } } ) | oldest ;
youngest = ( stq_tag_ptr_q [ stq ] & { `STQ_ENTRIES { odq_stq_ex2_nxt_youngest_stTag [ stq ] } } ) | youngest ;
end
ex2_nxt_oldest_ptr = oldest ;
ex2_nxt_youngest_ptr = youngest ;
end
assign ex2_no_nxt_match = ( ~ ( odq_stq_ex2_nxt_oldest_val | odq_stq_ex2_nxt_youngest_val ) ) ;
assign ex2_no_nxt_oldest = ( stqe_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ( ~ stqe_flushed_q [ 0 : `STQ_ENTRIES - 1 ] ) ) & { `STQ_ENTRIES { ex2_no_nxt_match } } ;
// Need to shift youngest pointer since we care of everything below this entry
assign ex2_nxt_youngest_shft = { ex2_nxt_youngest_ptr [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ;
// Oldest Pointer is the OR of oldest_itag pointer with youngest_itag_shifted pointer and with no_oldest_youngest pointer
assign ex2_nxt_oldest = ex2_nxt_oldest_ptr | ex2_nxt_youngest_shft | ex2_no_nxt_oldest ;
assign ex3_nxt_oldest_d = ( stq_push_down = = 1 'b0 ) ? ex2_nxt_oldest :
( { ex2_nxt_oldest [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ) ;
//------------------------------------------------------------------------------
// Data Forwarding
//------------------------------------------------------------------------------
// For some sizes, we could rotate too far and not leave enough data
assign ex4_rot_mask = ( ex4_req_opsize_q = = 3 'b001 ) ? 4 'b0000 : // 1B None
( ex4_req_opsize_q = = 3 'b010 ) ? 4 'b1111 : // 2B Any
( ex4_req_opsize_q = = 3 'b100 ) ? 4 'b1110 : // 4B Sel3 will not leave 4B of data
( ex4_req_opsize_q = = 3 'b101 ) ? 4 'b1000 : // 8B Exact Match Only
( ex4_req_opsize_q = = 3 'b110 ) ? 4 'b1000 : // 16B Exact Match Only
4 'b0000 ;
assign ex4_req_opsize_1hot [ 0 ] = ex4_req_opsize_q = = 3 'b110 ; // 16B
assign ex4_req_opsize_1hot [ 1 ] = ex4_req_opsize_q = = 3 'b101 ; // 8B
assign ex4_req_opsize_1hot [ 2 ] = ex4_req_opsize_q = = 3 'b100 ; // 4B
assign ex4_req_opsize_1hot [ 3 ] = ex4_req_opsize_q = = 3 'b010 ; // 2B
assign ex4_req_opsize_1hot [ 4 ] = ex4_req_opsize_q = = 3 'b001 ; // 1B
assign ex4_req_opsize1 = ~ ex4_req_opsize_q [ 0 ] & ex4_req_opsize_q [ 2 ] ;
generate begin : xhdl12
genvar i ;
genvar b ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 ) begin : stq_fwd_gen
if ( ( 58 - RI ) = = 36 ) begin : bitStack36
// Address Compare for data forwarding
tri_addrcmp stq_fwd_addrcmp (
. enable_lsb ( spr_xucr0_64cls ) ,
. d0 ( stqe_addr_q [ i ] [ RI: 57 ] ) ,
. d1 ( ctl_lsq_ex4_p_addr [ RI: 57 ] ) ,
. eq ( ex4_fwd_addrcmp_hi [ i ] ) ) ;
end
if ( ( 58 - RI ) ! = 36 ) begin : nobitStack
assign ex4_fwd_addrcmp_hi [ i ] = ( ( { stqe_addr_q [ i ] [ RI: 56 ] , ( stqe_addr_q [ i ] [ 57 ] & spr_xucr0_64cls ) } ) = = ( { ctl_lsq_ex4_p_addr [ RI: 56 ] , ( ctl_lsq_ex4_p_addr [ 57 ] & spr_xucr0_64cls ) } ) ) ;
end
assign ex4_fwd_addrcmp_lo [ i ] = stqe_addr_q [ i ] [ 58 : 59 ] = = ex4_req_p_addr_l_q [ 58 : 59 ] ;
assign ex4_fwd_addrcmp [ i ] = ex4_fwd_addrcmp_hi [ i ] & ex4_fwd_addrcmp_lo [ i ] ;
// Check that Thread ID matches
assign ex4_thrd_match [ i ] = | ( ex4_req_thrd_id_q & stqe_thrd_id_q [ i ] ) | stqe_all_thrd_chk_q [ i ] ;
// Check that they are from the same thread or from different thread that has received its commit report
assign ex4_thrd_id_ok [ i ] = ex4_thrd_match [ i ] | stqe_compl_rcvd_q [ i ] ;
// Check the address for inclusivity based on the opsize
assign ex4_byte_en_ok [ i ] = ~ ( | ( ex4_req_byte_en_q & ( ~ stqe_byte_en_q [ i ] ) ) ) ;
assign ex4_byte_en_miss [ i ] = ~ ( | ( ex4_req_byte_en_q & stqe_byte_en_q [ i ] ) ) ;
// If they are byte misaligned, we can't rotate.
// For some sizes, we could rotate too far and not leave enough data
// 1Byte load can forward only from a 1Byte store to the same address
assign ex4_1byte_chk_ok [ i ] = ex4_hw_addr_cmp [ i ] [ 3 ] & stqe_opsize1 [ i ] & ex4_req_opsize1 ; //1Byte request only
assign ex4_byte_chk_ok [ i ] = | ( ex4_hw_addr_cmp [ i ] & ex4_rot_mask ) | //All Byte Combination greater than 1Byte requests
( ex4_1byte_chk_ok [ i ] ) ;
// need to mask off offsets that dont reflect the size of the store
assign stqe_rotcmp_val [ i ] [ 0 ] = stqe_opsize_q [ i ] [ 0 ] & stqe_opsize_q [ i ] [ 2 ] ; // 8B requests
assign stqe_rotcmp_val [ i ] [ 1 ] = stqe_opsize_q [ i ] [ 0 ] & stqe_opsize_q [ i ] [ 2 ] ; // 8B requests
assign stqe_rotcmp_val [ i ] [ 2 ] = stqe_opsize_q [ i ] [ 0 ] ; // 8B/4B requests
assign stqe_rotcmp_val [ i ] [ 3 ] = | ( stqe_opsize_q [ i ] ) ; // 8B/4B/2B/1B requests
assign stqe_opsize8 [ i ] = stqe_opsize_q [ i ] [ 0 ] & stqe_opsize_q [ i ] [ 2 ] ;
assign stqe_opsize4 [ i ] = stqe_opsize_q [ i ] [ 0 ] & ~ stqe_opsize_q [ i ] [ 2 ] ;
assign stqe_opsize2 [ i ] = ~ stqe_opsize_q [ i ] [ 0 ] & stqe_opsize_q [ i ] [ 1 ] ;
assign stqe_opsize1 [ i ] = ~ stqe_opsize_q [ i ] [ 0 ] & stqe_opsize_q [ i ] [ 2 ] ;
assign ex4_hw_addr_cmp [ i ] [ 0 ] = ( ex4_req_p_addr_l_q [ 60 : 63 ] = = stqe_rotcmp_q [ i ] [ 0 : 3 ] ) & stqe_rotcmp_val [ i ] [ 0 ] ;
assign ex4_hw_addr_cmp [ i ] [ 1 ] = ( ex4_req_p_addr_l_q [ 60 : 63 ] = = stqe_rotcmp_q [ i ] [ 4 : 7 ] ) & stqe_rotcmp_val [ i ] [ 1 ] ;
assign ex4_hw_addr_cmp [ i ] [ 2 ] = ( ex4_req_p_addr_l_q [ 60 : 63 ] = = stqe_rotcmp_q [ i ] [ 8 : 11 ] ) & stqe_rotcmp_val [ i ] [ 2 ] ;
assign ex4_hw_addr_cmp [ i ] [ 3 ] = ( ex4_req_p_addr_l_q [ 60 : 63 ] = = stqe_rotcmp_q [ i ] [ 12 : 15 ] ) & stqe_rotcmp_val [ i ] [ 3 ] ;
assign ex4_opsize8_be [ i ] = ex4_req_opsize_1hot [ 1 ] & ~ stqe_byte_swap_q [ i ] ;
assign ex4_opsize4_be [ i ] = ex4_req_opsize_1hot [ 2 ] & ~ stqe_byte_swap_q [ i ] ;
assign ex4_opsize2_be [ i ] = ex4_req_opsize_1hot [ 3 ] & ~ stqe_byte_swap_q [ i ] ;
assign ex4_opsize1_be [ i ] = ex4_req_opsize_1hot [ 4 ] & ~ stqe_byte_swap_q [ i ] ;
assign ex4_opsize8_le [ i ] = ex4_req_opsize_1hot [ 1 ] & stqe_byte_swap_q [ i ] ;
assign ex4_opsize4_le [ i ] = ex4_req_opsize_1hot [ 2 ] & stqe_byte_swap_q [ i ] ;
assign ex4_opsize2_le [ i ] = ex4_req_opsize_1hot [ 3 ] & stqe_byte_swap_q [ i ] ;
assign ex4_opsize1_le [ i ] = ex4_req_opsize_1hot [ 4 ] & stqe_byte_swap_q [ i ] ;
assign ex4_rot_sel_be [ i ] [ 0 ] = ( ex4_opsize8_be [ i ] & ex4_hw_addr_cmp [ i ] [ 0 ] ) | ( ex4_opsize4_be [ i ] & ex4_hw_addr_cmp [ i ] [ 2 ] ) |
( ex4_opsize2_be [ i ] & ex4_hw_addr_cmp [ i ] [ 3 ] ) | ( ex4_opsize1_be [ i ] & ex4_hw_addr_cmp [ i ] [ 3 ] ) ;
assign ex4_rot_sel_be [ i ] [ 1 ] = ( ex4_opsize4_be [ i ] & ex4_hw_addr_cmp [ i ] [ 1 ] ) | ( ex4_opsize2_be [ i ] & ex4_hw_addr_cmp [ i ] [ 2 ] ) ;
assign ex4_rot_sel_be [ i ] [ 2 ] = ( ex4_opsize4_be [ i ] & ex4_hw_addr_cmp [ i ] [ 0 ] ) | ( ex4_opsize2_be [ i ] & ex4_hw_addr_cmp [ i ] [ 1 ] ) ;
assign ex4_rot_sel_be [ i ] [ 3 ] = ( ex4_opsize2_be [ i ] & ex4_hw_addr_cmp [ i ] [ 0 ] ) ;
assign ex4_rot_sel_le [ i ] [ 0 ] = ( ( stqe_opsize8 [ i ] & ( ex4_opsize8_le [ i ] | ex4_opsize4_le [ i ] | ex4_opsize2_le [ i ] ) ) & ex4_hw_addr_cmp [ i ] [ 0 ] ) |
( ( stqe_opsize4 [ i ] & ( ex4_opsize4_le [ i ] | ex4_opsize2_le [ i ] ) ) & ex4_hw_addr_cmp [ i ] [ 2 ] ) |
( stqe_opsize2 [ i ] & ex4_opsize2_le [ i ] & ex4_hw_addr_cmp [ i ] [ 3 ] ) |
( stqe_opsize1 [ i ] & ex4_opsize1_le [ i ] & ex4_hw_addr_cmp [ i ] [ 3 ] ) ;
assign ex4_rot_sel_le [ i ] [ 1 ] = ( ( stqe_opsize8 [ i ] & ( ex4_opsize4_le [ i ] | ex4_opsize2_le [ i ] ) ) & ex4_hw_addr_cmp [ i ] [ 1 ] ) |
( ( stqe_opsize4 [ i ] & ( ex4_opsize2_le [ i ] ) ) & ex4_hw_addr_cmp [ i ] [ 3 ] ) ;
assign ex4_rot_sel_le [ i ] [ 2 ] = ( ( stqe_opsize8 [ i ] & ( ex4_opsize4_le [ i ] | ex4_opsize2_le [ i ] ) ) & ex4_hw_addr_cmp [ i ] [ 2 ] ) ;
assign ex4_rot_sel_le [ i ] [ 3 ] = ( ( stqe_opsize8 [ i ] & ( ex4_opsize2_le [ i ] ) ) & ex4_hw_addr_cmp [ i ] [ 3 ] ) ;
assign ex4_rot_sel [ i ] = ex4_rot_sel_le [ i ] | ex4_rot_sel_be [ i ] ;
// Little Endian Sign Extension Byte Select
// StoreSize8 | HW_CMP | SEXT_SEL
//--------------------------------------
// LoadSize4 | 1000 | 0010
// LoadSize2 | 1000 | 0001
// LoadSize4 | 0100 | 0100
// LoadSize2 | 0100 | 0010
// LoadSize4 | 0010 | 1000
// LoadSize2 | 0010 | 0100
// LoadSize2 | 0001 | 1000
//--------------------------------------
// StoreSize4 | HW_CMP | SEXT_SEL
//--------------------------------------
// LoadSize4 | 0010 | 0010
// LoadSize2 | 0010 | 0001
// LoadSize2 | 0001 | 0001
//--------------------------------------
// StoreSize2 | HW_CMP | SEXT_SEL
//--------------------------------------
// LoadSize2 | 0001 | 0001
assign ex4_rev_rot_sel [ i ] = { ex4_hw_addr_cmp [ i ] [ 3 ] , ex4_hw_addr_cmp [ i ] [ 2 ] , ex4_hw_addr_cmp [ i ] [ 1 ] , ex4_hw_addr_cmp [ i ] [ 0 ] } ;
assign ex4_shft_rot_sel [ i ] = { ex4_rev_rot_sel [ i ] [ 1 : 3 ] , 1 'b0 } ;
assign ex4_sext8_le_sel [ i ] = ( ex4_rev_rot_sel [ i ] & { 4 { ( ex4_opsize2_le [ i ] & stqe_opsize8 [ i ] ) } } ) |
( ex4_shft_rot_sel [ i ] & { 4 { ( ex4_opsize4_le [ i ] & stqe_opsize8 [ i ] ) } } ) ;
assign ex4_sext4_le_sel [ i ] [ 0 : 1 ] = 2 'b00 ;
assign ex4_sext4_le_sel [ i ] [ 2 ] = stqe_opsize4 [ i ] & ( ex4_opsize4_le [ i ] | ( ex4_opsize2_le [ i ] & ex4_hw_addr_cmp [ i ] [ 3 ] ) ) ;
assign ex4_sext4_le_sel [ i ] [ 3 ] = stqe_opsize4 [ i ] & ex4_opsize2_le [ i ] & ex4_hw_addr_cmp [ i ] [ 2 ] ;
assign ex4_sext2_le_sel [ i ] [ 0 : 2 ] = 3 'b000 ;
assign ex4_sext2_le_sel [ i ] [ 3 ] = stqe_opsize2 [ i ] ;
assign ex4_sext_le_sel [ i ] = ex4_sext8_le_sel [ i ] | ex4_sext4_le_sel [ i ] | ex4_sext2_le_sel [ i ] ;
assign ex4_sext_sel [ i ] = ex4_sext_le_sel [ i ] | ( ex4_hw_addr_cmp [ i ] & { 4 { ( ~ stqe_byte_swap_q [ i ] ) } } ) ;
assign ex4_sext [ i ] = ( ex4_sext_sel [ i ] [ 0 : 3 ] = = 4 'b1000 ) ? stqe_data1_q [ i ] [ 64 ] :
( ex4_sext_sel [ i ] [ 0 : 3 ] = = 4 'b0100 ) ? stqe_data1_q [ i ] [ 80 ] :
( ex4_sext_sel [ i ] [ 0 : 3 ] = = 4 'b0010 ) ? stqe_data1_q [ i ] [ 96 ] :
( ex4_sext_sel [ i ] [ 0 : 3 ] = = 4 'b0001 ) ? stqe_data1_q [ i ] [ 112 ] :
1 'b0 ;
assign ex4_se [ i ] = ex4_req_algebraic_q & ex4_sext [ i ] ;
assign ex4_se_b [ i ] [ 0 : 7 ] = { 8 { ( ~ ex4_se [ i ] ) } } ;
for ( b = 0 ; b < = 7 ; b = b + 1 ) begin : rotate_gen
assign stqe_data1_swzl [ i ] [ b * 8 : ( b * 8 ) + 7 ] = { stqe_data1_q [ i ] [ b + 64 ] , stqe_data1_q [ i ] [ b + 72 ] , stqe_data1_q [ i ] [ b + 80 ] ,
stqe_data1_q [ i ] [ b + 88 ] , stqe_data1_q [ i ] [ b + 96 ] , stqe_data1_q [ i ] [ b + 104 ] ,
stqe_data1_q [ i ] [ b + 112 ] , stqe_data1_q [ i ] [ b + 120 ] } ;
assign ex4_fwd_data1 [ i ] [ b * 8 : ( b * 8 ) + 7 ] = { ex4_fwd_data1_swzl [ i ] [ b + 0 ] , ex4_fwd_data1_swzl [ i ] [ b + 8 ] , ex4_fwd_data1_swzl [ i ] [ b + 16 ] ,
ex4_fwd_data1_swzl [ i ] [ b + 24 ] , ex4_fwd_data1_swzl [ i ] [ b + 32 ] , ex4_fwd_data1_swzl [ i ] [ b + 40 ] ,
ex4_fwd_data1_swzl [ i ] [ b + 48 ] , ex4_fwd_data1_swzl [ i ] [ b + 56 ] } ;
lq_stq_rot rotate (
. rot_sel ( ex4_rot_sel [ i ] ) ,
. mask ( ex4_req_opsize_1hot [ 1 : 4 ] ) ,
. se_b ( ex4_se_b [ i ] [ b ] ) ,
. rot_data ( stqe_data1_swzl [ i ] [ b * 8 : ( b * 8 ) + 7 ] ) ,
. data_rot ( ex4_fwd_data1_swzl [ i ] [ b * 8 : ( b * 8 ) + 7 ] )
) ;
end
// OrderQ will indicate which entries are older
// itag age Compare for data forwarding
// stq_fwd_agecmp : entity tri.tri_agecmp
// generic map(size => `ITAG_SIZE_ENC)
// port map (
// a => ex3_req_itag_q, -- Incoming Load
// b => stqe_itag_q(i), -- Store Entry
// a_newer_b => ex3_agecmp_itag(i) -- Load newer than Store?
// );
// If COMMIT report has been recieved, entry is always the oldest automatically
assign ex3_fwd_agecmp [ i ] = ex3_agecmp [ i ] ;
assign ex4_fwd_agecmp_d [ i ] = ( stq_push_down = = 1 'b0 ) ? ex3_agecmp [ i ] :
ex3_agecmp [ i + 1 ] ;
assign stqe_guarded [ i ] = stqe_wimge_q [ i ] [ 3 ] ;
assign ex4_fwd_endian_mux [ i ] = ( ~ ( ctl_lsq_ex4_byte_swap ^ stqe_byte_swap_q [ i ] ) ) ;
assign ex4_fwd_is_store_mux [ i ] = stqe_is_store_q [ i ] & ( ~ ( stqe_cline_chk_q [ i ] | ctl_lsq_ex4_cline_chk ) ) ;
assign ex4_fwd_is_cline_chk [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_addrcmp_hi [ i ] & ( stqe_cline_chk_q [ i ] | ctl_lsq_ex4_cline_chk ) ;
assign ex4_fwd_is_miss_chk [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_addrcmp_hi [ i ] ;
assign ex4_fwd_is_larx_chk [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_thrd_match [ i ] & ctl_lsq_ex4_is_resv ;
assign ex4_fwd_is_blk_load_chk [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_thrd_match [ i ] & stqe_blk_loads_q [ i ] ;
assign ex4_fwd_is_gload_chk [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_thrd_match [ i ] & stqe_guarded [ i ] & ctl_lsq_ex4_wimge [ 3 ] ;
assign ex4_fwd_rej_guarded [ i ] = ctl_lsq_ex4_wimge [ 3 ] ;
assign stqe_rej_newer_gload [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_agecmp_q [ i ] & ex4_ldreq_valid & ex4_fwd_is_gload_chk [ i ] ;
assign stqe_rej_other [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_agecmp_q [ i ] & ex4_ldreq_valid & ex4_fwd_is_blk_load_chk [ i ] ;
assign stqe_rej_cline_chk [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_agecmp_q [ i ] & ex4_ldreq_valid & ex4_fwd_is_cline_chk [ i ] ;
assign stqe_rej_cline_miss [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_agecmp_q [ i ] & ex4_ldreq_valid & ex4_fwd_is_miss_chk [ i ] ;
assign stqe_rej_wchkall [ i ] = stqe_fwd_addr_val_q [ i ] & ex4_fwd_agecmp_q [ i ] & ex4_wchkall_valid ;
assign stqe_rej_hit_no_fwd [ i ] = ex4_fwd_sel [ i ] & ex4_fwd_restart_entry [ i ] & ex4_ldreq_valid ;
if ( i > `STQ_FWD_ENTRIES - 1 ) begin : hold_nonfwd
assign set_hold_early_clear [ i ] = ex4_nofwd_entry [ i ] & ex4_ldreq_valid ;
end
if ( i < `STQ_FWD_ENTRIES ) begin : hold_nodata
assign set_hold_early_clear [ i ] = ex4_fwd_sel [ i ] & ( ~ stqe_data_val_q [ i ] ) & ex4_ldreq_valid ;
end
end
end
endgenerate
// Entry Address compared down to the 16 Byte boundary
assign ex4_fwd_sel = ex4_fwd_addrcmp & ex4_fwd_agecmp_q & stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ( ~ ex4_byte_en_miss ) ;
// itag age Compare for data forwarding
tri_agecmp # ( . SIZE ( `ITAG_SIZE_ENC ) ) nxt_stq_fwd_agecmp (
. a ( ex3_req_itag_q ) , // Incoming Load
. b ( ex4_req_itag_q ) , // being written into next Store Entry
. a_newer_b ( ex3_ex4_agecmp ) ) ; // Load newer than Store?
assign ex3_ex4_agecmp_sametid = ex3_ex4_agecmp & | ( ex3_req_thrd_id_q & ex4_req_thrd_id_q ) ;
assign ex3_ex4_byte_en_hit = | ( ctl_lsq_ex3_byte_en & ex4_req_byte_en_q ) ;
// compare the forwardable entries to each other to determine the forwarding priority mask
generate begin : fwd_pri_gen_l1
genvar i ;
for ( i = 0 ; i < = `STQ_FWD_ENTRIES - 1 ; i = i + 1 ) begin : fwd_pri_gen_l1
always @ ( * ) begin : fwd_pri_gen_l2
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] match ;
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] match_addr ;
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] match_incom_addr ;
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] match_stqe_addr ;
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] match_chk_val ;
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] stqe_byte_en_hit ;
reg [ ( i + 1 ) : `STQ_FWD_ENTRIES ] ex4_set_byte_en_hit ;
integer j ;
match = 0 ;
match_addr = 0 ;
match_incom_addr = 0 ;
match_stqe_addr = 0 ;
match_chk_val = 0 ;
stqe_byte_en_hit = 0 ;
ex4_set_byte_en_hit = 0 ;
for ( j = i + 1 ; j < = `STQ_FWD_ENTRIES ; j = j + 1 ) begin
stqe_byte_en_hit [ j ] = stqe_fwd_addr_val_q [ j ] & | ( ctl_lsq_ex3_byte_en & stqe_byte_en_q [ j ] ) ;
ex4_set_byte_en_hit [ j ] = ex4_set_stq_q [ j ] & ex3_ex4_byte_en_hit ;
match_incom_addr [ j ] = ex4_fwd_addrcmp [ i ] & ex4_set_stq_q [ j ] ; // incoming address matched against my entry i
match_stqe_addr [ j ] = ( ( { stqe_addr_q [ i ] [ RI: 56 ] , ( stqe_addr_q [ i ] [ 57 ] & spr_xucr0_64cls ) } ) = =
( { stqe_addr_q [ j ] [ RI: 56 ] , ( stqe_addr_q [ j ] [ 57 ] & spr_xucr0_64cls ) } ) ) & ( stqe_addr_q [ i ] [ 58 : 59 ] = = stqe_addr_q [ j ] [ 58 : 59 ] ) ;
match_addr [ j ] = match_incom_addr [ j ] | match_stqe_addr [ j ] ;
match_chk_val [ j ] = ( stqe_fwd_addr_val_q [ i ] | ex4_set_stq_q [ i ] ) & ( stqe_byte_en_hit [ j ] | ex4_set_byte_en_hit [ j ] ) & ex3_fwd_agecmp [ j ] ;
match [ j ] = ( match_addr [ j ] | ex4_fwd_addrcmp [ j ] ) & match_chk_val [ j ] ;
end
stq_mask [ i ] = | ( match ) ;
// dont think the ODQ age needs to be taken into account, since the store is in ex4, if it were from the other thread,
// the store wont be in a commit state and the load request should be restarted
ex4_stqe_match_addr [ i ] = ex4_fwd_addrcmp [ i ] & stqe_fwd_addr_val_q [ i ] & | ( ex4_set_stq_q ) ;
ex4_stqe_match [ i ] = ( ex4_stqe_match_addr [ i ] & ex3_ex4_byte_en_hit & ex3_fwd_agecmp [ i ] ) ;
fwd_pri_mask [ i ] = stq_mask [ i ] ;
end
end
end endgenerate
assign stq_fwd_pri_mask_d = ( stq_push_down = = 1 'b0 ) ? fwd_pri_mask [ 0 : `STQ_FWD_ENTRIES - 2 ] :
fwd_pri_mask [ 1 : `STQ_FWD_ENTRIES - 1 ] ;
// Entries non-address checks passed
assign stqe_fwd_enable = { `STQ_ENTRIES { ~ spr_lsucr0_dfwd_q } } ;
assign ex4_fwd_entry = ex4_byte_en_ok & ex4_byte_chk_ok & ex4_thrd_id_ok & stqe_data_val_q [ 0 : `STQ_ENTRIES - 1 ] & ex4_fwd_endian_mux & ex4_fwd_is_store_mux & ~ ex4_fwd_rej_guarded & stqe_fwd_enable ;
assign ex4_fwd_val = | ( ex4_fwd_sel [ 0 : `STQ_FWD_ENTRIES - 1 ] & ex4_fwd_entry [ 0 : `STQ_FWD_ENTRIES - 1 ] ) ;
// Check that we wanted to forward from the Forwadable Entries
// but couldnt due to forward checks
assign ex4_fwd_chk_fail = ex4_fwd_sel [ 0 : `STQ_FWD_ENTRIES - 1 ] & ( ~ ex4_fwd_entry [ 0 : `STQ_FWD_ENTRIES - 1 ] ) ;
// Check that we wanted to forward from the Non-Forwadable Entries, need to restart if
// we hit against those
assign ex4_nofwd_entry = ex4_fwd_sel [ `STQ_FWD_ENTRIES : `STQ_ENTRIES - 1 ] ;
// Restart scenarios
assign ex4_fwd_restart_entry = { ex4_fwd_chk_fail , ex4_nofwd_entry } ;
assign ex4_fwd_restart = | ( ex4_fwd_restart_entry ) ;
assign ex4_fwd_hit = | ( ex4_fwd_sel ) ;
// ENDIAN, EX$_GUARDED, and NON-STORE rejects are included in the fwd_entry logic now
// These special rejects occur regardless of address collision
assign ex4_rej_newer_gload = | ( stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ex4_fwd_agecmp_q & ex4_fwd_is_gload_chk ) ; // Store Op is guarded
assign ex4_rej_other = | ( stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ex4_fwd_agecmp_q & ex4_fwd_is_blk_load_chk ) ; // Store Op is a STCX, DCI, ICI, SYNC, MBAR, WCLR ALL
assign ex4_rej_cline_chk = | ( stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ex4_fwd_agecmp_q & ex4_fwd_is_cline_chk ) ; // Store Op affects entire cacheline
assign ex4_rej_cline_miss = | ( stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ex4_fwd_agecmp_q & ex4_fwd_is_miss_chk ) ; // Store Op should reject a loadmiss
// Determine Restart based on thread
assign ex4_thrd_match_restart = | ( ( ( ex4_fwd_agecmp_q & ( ex4_fwd_is_cline_chk | ex4_fwd_is_miss_chk | ex4_fwd_is_gload_chk | ex4_fwd_is_blk_load_chk ) ) |
ex4_fwd_restart_entry ) & ex4_thrd_match ) | ex4_rej_sync_pending ;
assign ex4_thrd_nomatch_restart = | ( ( ( ex4_fwd_agecmp_q & ( ex4_fwd_is_cline_chk | ex4_fwd_is_miss_chk ) ) | ex4_fwd_restart_entry ) & ~ ex4_thrd_match ) ;
assign ex5_thrd_match_restart_d = ex4_thrd_match_restart ;
assign ex6_thrd_match_restart_d = ex5_thrd_match_restart_q ;
assign ex5_thrd_nomatch_restart_d = ex4_thrd_nomatch_restart ;
assign ex6_thrd_nomatch_restart_d = ex5_thrd_nomatch_restart_q ;
// LARX/GuardedLoad check is added for the case where a larx/guardedload went out for a thread, it got an ECC error,
// reported completion without a flush, a store can commit to the L1/L2 before the resend
// of the LARX/GuardedLoad completes
assign ex4_older_ldmiss = ( ex4_fwd_is_miss_chk | ex4_fwd_is_larx_chk | ex4_fwd_is_blk_load_chk | ex4_fwd_is_gload_chk ) & ( ~ ex4_fwd_agecmp_q ) ;
assign ex5_older_ldmiss_d = ( stq_push_down = = 1 'b0 ) ? ex4_older_ldmiss :
{ ex4_older_ldmiss [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ;
assign ex4_rej_wchkall = | ( stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] & ex4_fwd_agecmp_q ) ; // WCHKALL colliding with older instructions in store queue,
// need to guarantee all watch effects have completed
assign ex4_rej_sync_pending = | ( ex4_req_thrd_id_q & ( ext_ack_queue_sync_q | ext_ack_queue_stcx_q ) ) ;
assign ex5_stq_restart_d = ( ( ex4_ldreq_valid | ex4_pfetch_val_q ) & ( ex4_fwd_restart | ex4_rej_newer_gload |
ex4_rej_other | ex4_rej_cline_chk | ex4_rej_sync_pending ) ) |
( ex4_wchkall_valid & ex4_rej_wchkall ) ;
assign ex5_stq_restart_miss_d = ( ex4_ldreq_valid | ex4_pfetch_val_q ) & ex4_rej_cline_miss & ( ~ ex4_fwd_val ) ; // cacheline compared and I am not forwarding
assign ex5_fwd_val_d = ex4_ldreq_valid & ex4_fwd_val ;
assign ex4_qHit_set_oth = ( stqe_rej_newer_gload | stqe_rej_other | stqe_rej_cline_chk | stqe_rej_wchkall | stqe_rej_hit_no_fwd ) & ( ~ stqe_cmmt_entry ) ;
assign ex4_qHit_set_miss = stqe_rej_cline_miss & ( ~ stqe_cmmt_entry ) ;
assign ex5_qHit_set_oth_d = ( stq_push_down = = 1 'b0 ) ? ex4_qHit_set_oth :
{ ex4_qHit_set_oth [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ;
assign ex5_qHit_set_miss_d = ( stq_push_down = = 1 'b0 ) ? ex4_qHit_set_miss :
{ ex4_qHit_set_miss [ 1 : `STQ_ENTRIES - 1 ] , 1 'b0 } ;
assign ex5_qHit_set_miss [ 0 : `STQ_ENTRIES - 1 ] = ex5_qHit_set_miss_q & { `STQ_ENTRIES { ( ~ ( ctl_lsq_ex5_load_hit | ex5_fwd_val_q ) ) } } ;
assign lsq_ctl_ex5_stq_restart = ex5_stq_restart_q ;
assign lsq_ctl_ex5_stq_restart_miss = ex5_stq_restart_miss_q ;
assign lsq_ctl_ex5_fwd_val = ex5_fwd_val_q ;
assign lsq_ctl_ex5_fwd_data = ex5_fwd_data_q ;
assign lsq_ctl_ex6_stq_events = { ex6_thrd_match_restart_q , ex6_thrd_nomatch_restart_q } ;
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// FXU0 SPR Mux Select
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// Thread Select
//fxu0StTid : process (ex4_fxu0_val_q, ctl_lsq_spr_dbcr2_dvc1m, ctl_lsq_spr_dbcr2_dvc1be,
// ctl_lsq_spr_dbcr2_dvc2m, ctl_lsq_spr_dbcr2_dvc2be)
// variable dvc1m :std_ulogic_vector(0 to 1);
// variable dvc2m :std_ulogic_vector(0 to 1);
// variable dvc1be :std_ulogic_vector(8-(2**`GPR_WIDTH_ENC)/8 to 7);
// variable dvc2be :std_ulogic_vector(8-(2**`GPR_WIDTH_ENC)/8 to 7);
//begin
// dvc1m := (others=>'0');
// dvc2m := (others=>'0');
// dvc1be := (others=>'0');
// dvc2be := (others=>'0');
// for tid in 0 to `THREADS-1 loop
// dvc1m := gate(ctl_lsq_spr_dbcr2_dvc1m(2*tid to 2*tid+1), ex4_fxu0_val_q(tid)) or dvc1m;
// dvc2m := gate(ctl_lsq_spr_dbcr2_dvc2m(2*tid to 2*tid+1), ex4_fxu0_val_q(tid)) or dvc2m;
// dvc1be := gate(ctl_lsq_spr_dbcr2_dvc1be(tid*8+(8-fxu0_spr_dbcr2_dvc1be'length) to tid*8+7), ex4_fxu0_val_q(tid)) or dvc1be;
// dvc2be := gate(ctl_lsq_spr_dbcr2_dvc2be(tid*8+(8-fxu0_spr_dbcr2_dvc2be'length) to tid*8+7), ex4_fxu0_val_q(tid)) or dvc2be;
// end loop;
// fxu0_spr_dbcr2_dvc1m <= dvc1m;
// fxu0_spr_dbcr2_dvc2m <= dvc2m;
// fxu0_spr_dbcr2_dvc1be <= dvc1be;
// fxu0_spr_dbcr2_dvc2be <= dvc2be;
//end process fxu0StTid;
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// FXU1 SPR Mux Select
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// Thread Select
always @ ( * )
begin : fxu1StTid
reg [ 0 : 1 ] dvc1m ;
reg [ 0 : 1 ] dvc2m ;
reg [ 8 - ( 2 * * `GPR_WIDTH_ENC ) / 8 : 7 ] dvc1be ;
reg [ 8 - ( 2 * * `GPR_WIDTH_ENC ) / 8 : 7 ] dvc2be ;
integer tid ;
dvc1m = 0 ;
dvc2m = 0 ;
dvc1be = 0 ;
dvc2be = 0 ;
for ( tid = 0 ; tid < = `THREADS - 1 ; tid = tid + 1 )
begin
dvc1m = ( ctl_lsq_spr_dbcr2_dvc1m_int [ tid ] & { 2 { ex3_fxu1_val_q [ tid ] } } ) | dvc1m ;
dvc2m = ( ctl_lsq_spr_dbcr2_dvc2m_int [ tid ] & { 2 { ex3_fxu1_val_q [ tid ] } } ) | dvc2m ;
dvc1be = ( ctl_lsq_spr_dbcr2_dvc1be_int [ tid ] [ 8 - ( 2 * * `GPR_WIDTH_ENC ) / 8 : 7 ] & { ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) { ex3_fxu1_val_q [ tid ] } } ) | dvc1be ;
dvc2be = ( ctl_lsq_spr_dbcr2_dvc2be_int [ tid ] [ 8 - ( 2 * * `GPR_WIDTH_ENC ) / 8 : 7 ] & { ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) { ex3_fxu1_val_q [ tid ] } } ) | dvc2be ;
end
fxu1_spr_dbcr2_dvc1m = dvc1m ;
fxu1_spr_dbcr2_dvc2m = dvc2m ;
fxu1_spr_dbcr2_dvc1be = dvc1be ;
fxu1_spr_dbcr2_dvc2be = dvc2be ;
end
lq_spr_dvccmp # ( . REGSIZE ( ( 2 * * `GPR_WIDTH_ENC ) ) ) fxu1DVC1St (
. en ( tiup ) ,
. en00 ( tidn ) ,
. cmp ( ex3_fxu1_dvc1_cmp_q ) ,
. dvcm ( fxu1_spr_dbcr2_dvc1m ) ,
. dvcbe ( fxu1_spr_dbcr2_dvc1be ) ,
. dvc_cmpr ( ex3_fxu1_dvc1r_cmpr )
) ;
lq_spr_dvccmp # ( . REGSIZE ( ( 2 * * `GPR_WIDTH_ENC ) ) ) fxu1DVC2St (
. en ( tiup ) ,
. en00 ( tidn ) ,
. cmp ( ex3_fxu1_dvc2_cmp_q ) ,
. dvcm ( fxu1_spr_dbcr2_dvc2m ) ,
. dvcbe ( fxu1_spr_dbcr2_dvc2be ) ,
. dvc_cmpr ( ex3_fxu1_dvc2r_cmpr )
) ;
assign ex3_fxu1_dvcr_cmpr = { ex3_fxu1_dvc1r_cmpr , ex3_fxu1_dvc2r_cmpr } ;
assign dbg_int_en_d = ctl_lsq_dbg_int_en ;
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// ICSWX Coprocessor CT Mux Select
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// ITAG Select
always @ ( * )
begin : icswxCt
reg [ 0 : 11 ] ctSel ;
integer stq ;
ctSel = 0 ;
for ( stq = 0 ; stq < = `STQ_ENTRIES - 1 ; stq = stq + 1 )
ctSel = ( stqe_icswx_ct_sel [ stq ] & { 12 { ex3_data_val [ stq ] } } ) | ctSel ;
ex3_ct_sel = ctSel ;
end
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// STQ Data Entries
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// FXU0 Data interfaces
assign ex4_fxu1_illeg_lswx_d = xu1_lq_ex3_illeg_lswx ;
assign ex4_fxu1_strg_noop_d = xu1_lq_ex3_strg_noop ;
// FXU1 Data interfaces
assign ex2_fxu1_val = | ( xu1_lq_ex2_stq_val ) ;
assign ex3_fxu1_val_d = xu1_lq_ex2_stq_val & ( ~ cp_flush_q ) ;
assign ex3_fxu1_itag_d = xu1_lq_ex2_stq_itag ;
assign ex3_fxu1_val = | ( ex3_fxu1_val_q ) ;
assign ex3_fxu1_dvc1_cmp_d = xu1_lq_ex2_stq_dvc1_cmp ;
assign ex3_fxu1_dvc2_cmp_d = xu1_lq_ex2_stq_dvc2_cmp ;
assign ex4_fxu1_val_d = ex3_fxu1_val_q & ( ~ cp_flush_q ) ;
// AXU Data interfaces
assign ex2_axu_val = | ( xu_lq_axu_ex_stq_val ) ;
assign ex3_axu_val_d = xu_lq_axu_ex_stq_val & ( ~ cp_flush_q ) ;
assign ex3_axu_itag_d = xu_lq_axu_ex_stq_itag ;
assign ex3_axu_val = | ( ex3_axu_val_q ) ;
assign ex4_axu_val_d = ex3_axu_val_q & ( ~ cp_flush_q ) ;
generate
begin : xhdl14
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stq_data_entry_gen
assign ex3_fxu1_data_ptr [ i ] = ( stqe_alloc_q [ i ] & ( ex3_fxu1_itag_q = = stqe_itag_q [ i ] ) & | ( ex3_fxu1_val_q & stqe_thrd_id_q [ i ] ) & ( ~ stqe_compl_rcvd_q [ i ] ) & ( ~ stq_push_down ) ) |
( stqe_alloc_q [ i + 1 ] & ( ex3_fxu1_itag_q = = stqe_itag_q [ i + 1 ] ) & | ( ex3_fxu1_val_q & stqe_thrd_id_q [ i + 1 ] ) & ( ~ stqe_compl_rcvd_q [ i + 1 ] ) & stq_push_down ) ;
assign ex4_fxu1_data_ptr_d [ i ] = ex3_fxu1_data_ptr [ i ] ;
assign ex4_axu_data_ptr_d [ i ] = ( stqe_alloc_q [ i ] & ( ex3_axu_itag_q = = stqe_itag_q [ i ] ) & ( ex3_axu_val_q = = stqe_thrd_id_q [ i ] ) & ( ~ stqe_compl_rcvd_q [ i ] ) & ( ~ stq_push_down ) ) |
( stqe_alloc_q [ i + 1 ] & ( ex3_axu_itag_q = = stqe_itag_q [ i + 1 ] ) & ( ex3_axu_val_q = = stqe_thrd_id_q [ i + 1 ] ) & ( ~ stqe_compl_rcvd_q [ i + 1 ] ) & stq_push_down ) ;
assign ex3_stq_data_val [ i ] = ( stqe_alloc_q [ i ] & ( ex3_fxu1_itag_q = = stqe_itag_q [ i ] ) & ( ( ex3_fxu1_val_q & ( ~ cp_flush_q ) ) = = stqe_thrd_id_q [ i ] ) ) |
( stqe_alloc_q [ i ] & ( ex3_axu_itag_q = = stqe_itag_q [ i ] ) & ( ( ex3_axu_val_q & ( ~ cp_flush_q ) ) = = stqe_thrd_id_q [ i ] ) ) ;
assign stqe_data_val [ i ] = stqe_fxu1_data_val [ i ] | stqe_axu_data_val [ i ] ;
assign stqe_data_act [ i ] = stqe_data_val [ i ] | stq_push_down ;
assign stqe_fxu1_dvcr_val [ i ] = stqe_alloc_q [ i ] & ( ex3_fxu1_itag_q = = stqe_itag_q [ i ] ) & | ( ex3_fxu1_val_q & stqe_thrd_id_q [ i ] ) & ~ stqe_compl_rcvd_q [ i ] ;
assign stqe_fxu1_data_val [ i ] = ex4_fxu1_data_ptr_q [ i ] & stqe_alloc_q [ i ] & | ( ex4_fxu1_val_q & ( ~ cp_flush_q ) ) ;
assign stqe_axu_data_val [ i ] = ex4_axu_data_ptr_q [ i ] & stqe_alloc_q [ i ] & | ( ex4_axu_val_q & ( ~ cp_flush_q ) ) ;
assign stqe_fxu1_data_sel [ i ] = ex4_fxu1_data_ptr_q [ i ] & | ( ex4_fxu1_val_q ) ;
assign stqe_axu_data_sel [ i ] = ex4_axu_data_ptr_q [ i ] & | ( ex4_axu_val_q ) ;
assign stqe_data_nxt_d [ i ] = ( ( ex3_stq_data_val [ i ] | stqe_data_nxt_q [ i ] ) & ( ~ ( stq7_entry_delete [ i ] | stqe_flushed_q [ i ] ) ) & ( ~ stq_push_down ) ) |
( ( ex3_stq_data_val [ i + 1 ] | stqe_data_nxt_q [ i + 1 ] ) & ( ~ ( stq7_entry_delete [ i + 1 ] | stqe_flushed_q [ i + 1 ] ) ) & stq_push_down ) ;
assign stqe_data_val_d [ i ] = ( ( stqe_data_val [ i ] | stqe_data_val_q [ i ] ) & ( ~ ( stq7_entry_delete [ i ] | stqe_flushed_q [ i ] ) ) & ( ~ stq_push_down ) ) |
( ( stqe_data_val [ i + 1 ] | stqe_data_val_q [ i + 1 ] ) & ( ~ ( stq7_entry_delete [ i + 1 ] | stqe_flushed_q [ i + 1 ] ) ) & stq_push_down ) ;
assign stqe_illeg_lswx_d [ i ] = ( ( ( stqe_data_val [ i ] & ex4_fxu1_illeg_lswx_q ) | stqe_illeg_lswx_q [ i ] ) & ( ~ ( stq7_entry_delete [ i ] | stqe_flushed_q [ i ] ) ) & ( ~ stq_push_down ) ) |
( ( ( stqe_data_val [ i + 1 ] & ex4_fxu1_illeg_lswx_q ) | stqe_illeg_lswx_q [ i + 1 ] ) & ( ~ ( stq7_entry_delete [ i + 1 ] | stqe_flushed_q [ i + 1 ] ) ) & stq_push_down ) ;
assign stqe_strg_noop_d [ i ] = ( ( ( stqe_data_val [ i ] & ex4_fxu1_strg_noop_q ) | stqe_strg_noop_q [ i ] ) & ( ~ ( stq7_entry_delete [ i ] | stqe_flushed_q [ i ] ) ) & ( ~ stq_push_down ) ) |
( ( ( stqe_data_val [ i + 1 ] & ex4_fxu1_strg_noop_q ) | stqe_strg_noop_q [ i + 1 ] ) & ( ~ ( stq7_entry_delete [ i + 1 ] | stqe_flushed_q [ i + 1 ] ) ) & stq_push_down ) ;
// Data Value Compare Control
assign stqe_dvcr_cmpr_d [ i ] = ( ( ( ex3_fxu1_dvcr_cmpr & { 2 { stqe_fxu1_dvcr_val [ i ] } } ) | stqe_dvcr_cmpr_q [ i ] ) & { 2 { ~ stq_push_down } } ) |
( ( ( ex3_fxu1_dvcr_cmpr & { 2 { stqe_fxu1_dvcr_val [ i + 1 ] } } ) | stqe_dvcr_cmpr_q [ i + 1 ] ) & { 2 { stq_push_down } } ) ;
assign stqe_dacrw_det0 [ i ] = stqe_dacrw_q [ i ] [ 0 ] | ( stqe_dvcr_cmpr_q [ i ] [ 0 ] & stqe_dvc_en_q [ i ] [ 0 ] ) ;
assign stqe_dacrw_det1 [ i ] = stqe_dacrw_q [ i ] [ 1 ] | ( stqe_dvcr_cmpr_q [ i ] [ 1 ] & stqe_dvc_en_q [ i ] [ 1 ] ) ;
assign stqe_dacrw_det2 [ i ] = stqe_dacrw_q [ i ] [ 2 ] ;
assign stqe_dacrw_det3 [ i ] = stqe_dacrw_q [ i ] [ 3 ] ;
// Debug Interrupt Detected
assign stqe_dvc_int_det [ i ] = ( stqe_dacrw_det0 [ i ] | stqe_dacrw_det1 [ i ] | stqe_dacrw_det2 [ i ] | stqe_dacrw_det3 [ i ] ) & | ( stqe_thrd_id_q [ i ] & dbg_int_en_q ) ;
// Logic for SET_HOLD and CLR_HOLD to the Reservation station
// Request was restarted due to hitting against store queue entry
assign stq2_cmmt_entry [ i ] = stqe_qHit_held_clr [ i ] ;
assign stq3_cmmt_entry [ i ] = stq3_cmmt_ptr_q [ i ] & stq3_cmmt_val_q ;
assign stq4_cmmt_entry [ i ] = stq4_cmmt_ptr_q [ i ] & stq4_cmmt_val_q ;
assign stq5_cmmt_entry [ i ] = stq5_cmmt_ptr_q [ i ] & stq5_cmmt_val_q ;
assign stq6_cmmt_entry [ i ] = stq6_cmmt_ptr_q [ i ] & stq6_cmmt_val_q ;
assign stq7_cmmt_entry [ i ] = stq7_cmmt_ptr_q [ i ] & stq7_cmmt_val_q ;
assign stqe_cmmt_entry [ i ] = stq2_cmmt_entry [ i ] | stq3_cmmt_entry [ i ] | stq4_cmmt_entry [ i ] | stq5_cmmt_entry [ i ] | stq6_cmmt_entry [ i ] | stq7_cmmt_entry [ i ] ;
assign stqe_qHit_held_set [ i ] = ( ex5_qHit_set_oth_q [ i ] | ex5_qHit_set_miss [ i ] ) & ( ~ ( | ( ex5_qHit_set_oth_q [ i + 1 : `STQ_ENTRIES ] | ex5_qHit_set_miss [ i + 1 : `STQ_ENTRIES ] ) ) ) ; // only set for highest stq entry
if ( i < `STQ_FWD_ENTRIES )
begin : clr_fwd_entries
assign stqe_qHit_held_clr [ i ] = ( stq2_cmmt_ptr_remove [ i ] & stq2_cmmt_val ) |
( stq2_cmmt_ptr_q [ i ] & stq2_cmmt_flushed_q ) |
( stqe_need_ext_ack_q [ i ] & ( any_ack_val_ok_q = = stqe_thrd_id_q [ i ] ) ) |
( stqe_held_early_clr_q [ i ] & ( stqe_data_nxt_q [ i ] | stqe_data_val_q [ i ] ) ) ;
end
if ( i = = `STQ_FWD_ENTRIES )
begin : clr_next_fwd_entry
assign stqe_qHit_held_clr [ i ] = ( stq2_cmmt_ptr_remove [ i ] & stq2_cmmt_val ) |
( stq2_cmmt_ptr_q [ i ] & stq2_cmmt_flushed_q ) |
( stqe_need_ext_ack_q [ i ] & ( any_ack_val_ok_q = = stqe_thrd_id_q [ i ] ) ) |
( stqe_held_early_clr_q [ i ] & stqe_data_val_q [ i ] & stq2_cmmt_val & stq2_cmmt_ptr_remove [ i - `STQ_FWD_ENTRIES ] ) ;
end
if ( i > `STQ_FWD_ENTRIES )
begin : clr_nonfwd_entries
assign stqe_qHit_held_clr [ i ] = ( stq2_cmmt_ptr_remove [ i ] & stq2_cmmt_val ) |
( stq2_cmmt_ptr_q [ i ] & stq2_cmmt_flushed_q ) |
( stqe_need_ext_ack_q [ i ] & ( any_ack_val_ok_q = = stqe_thrd_id_q [ i ] ) ) |
( stqe_held_early_clr_q [ i ] & stqe_data_val_q [ i ] & stq2_cmmt_val & stq2_cmmt_ptr_remove [ i - `STQ_FWD_ENTRIES ] ) ;
end
assign stqe_qHit_held_ctrl [ i ] = { stqe_qHit_held_set [ i ] , stqe_qHit_held_clr [ i ] } ;
assign stqe_qHit_held_mux [ i ] = ( stqe_qHit_held_ctrl [ i ] = = 2 'b00 ) ? stqe_qHit_held_q [ i ] :
( stqe_qHit_held_ctrl [ i ] = = 2 'b10 ) ? 1 'b1 :
1 'b0 ;
assign stqe_qHit_held_d [ i ] = ( stq_push_down = = 1 'b0 ) ? stqe_qHit_held_mux [ i ] :
stqe_qHit_held_mux [ i + 1 ] ;
assign stqe_held_early_clr_d [ i ] = ( stq_push_down = = 1 'b0 ) ? set_hold_early_clear [ i ] | ( stqe_held_early_clr_q [ i ] & ( ~ stqe_qHit_held_clr [ i ] ) ) :
set_hold_early_clear [ i + 1 ] | ( stqe_held_early_clr_q [ i + 1 ] & ( ~ stqe_qHit_held_clr [ i + 1 ] ) ) ;
// ICSWX CT mux select fields
assign stqe_icswx_ct_sel [ i ] = { stqe_data1_q [ i ] [ 106 : 111 ] , stqe_data1_q [ i ] [ 114 : 119 ] } ;
if ( `STQ_DATA_SIZE = = 64 )
begin : stqData64
assign stqe_fwd_data [ i ] = ex4_fwd_data1 [ i ] ;
if ( ( 2 * * `GPR_WIDTH_ENC ) = = 64 )
begin : fxDat64
assign stqe_data1_mux [ i ] = ( ctl_lsq_ex4_xu1_data & { 64 { ( stqe_fxu1_data_sel [ i ] ) } } ) |
( ex4_fu_data_q [ 64 : 127 ] & { 64 { ( stqe_axu_data_sel [ i ] ) } } ) ;
end
if ( ( 2 * * `GPR_WIDTH_ENC ) = = 32 )
begin : fxDat32
assign stqe_data1_mux [ i ] [ 64 : 95 ] = ex4_fu_data_q [ 64 : 95 ] ;
assign stqe_data1_mux [ i ] [ 96 : 127 ] = ( ctl_lsq_ex4_xu1_data & { 32 { ( stqe_fxu1_data_sel [ i ] ) } } ) |
( ex4_fu_data_q [ 96 : 127 ] & { 32 { ( stqe_axu_data_sel [ i ] ) } } ) ;
end
end
if ( `STQ_DATA_SIZE = = 128 )
begin : stqData128
assign stqe_fwd_data [ i ] [ 0 : 63 ] = stqe_data1_q [ i ] [ 0 : 63 ] ;
assign stqe_fwd_data [ i ] [ 64 : 127 ] = ex4_fwd_data1 [ i ] ;
assign stqe_data1_mux [ i ] [ 0 : 63 ] = ex4_fu_data_q [ 0 : 63 ] ;
if ( ( 2 * * `GPR_WIDTH_ENC ) = = 64 )
begin : fxDat64
assign stqe_data1_mux [ i ] [ 64 : 127 ] = ( ctl_lsq_ex4_xu1_data & { 64 { ( stqe_fxu1_data_sel [ i ] ) } } ) |
( ex4_fu_data_q [ 64 : 127 ] & { 64 { ( stqe_axu_data_sel [ i ] ) } } ) ;
end
if ( ( 2 * * `GPR_WIDTH_ENC ) = = 32 )
begin : fxDat32
assign stqe_data1_mux [ i ] [ 64 : 95 ] = ex4_fu_data_q [ 64 : 95 ] ;
assign stqe_data1_mux [ i ] [ 96 : 127 ] = ( ctl_lsq_ex4_xu1_data & { 32 { ( stqe_fxu1_data_sel [ i ] ) } } ) |
( ex4_fu_data_q [ 96 : 127 ] & { 32 { ( stqe_axu_data_sel [ i ] ) } } ) ;
end
end
assign stqe_data1_d [ i ] = ( stq_push_down = = 1 'b0 ) ? stqe_data1_mux [ i ] :
( ( stq_push_down = = 1 'b1 & stqe_data_val [ i + 1 ] = = 1 'b1 ) ) ? stqe_data1_mux [ i + 1 ] :
stqe_data1_q [ i + 1 ] ;
end
end
endgenerate
//------------------------------------------------------------------------------
// interface staging / Flushing
//------------------------------------------------------------------------------
// stq2
// stq3 ex0 ----
// stq4 rv2
// stq5 rv1
// stq5 rv0
// stq6 iu6
// stq7 iu5
assign rv1_i0_act = | ( rv_lq_rv1_i0_vld ) ;
assign rv1_i1_act = | ( rv_lq_rv1_i1_vld ) ;
assign ex0_i0_act = | ( ex0_i0_vld_q ) ;
assign ex0_i1_act = | ( ex0_i1_vld_q ) ;
assign rv1_i0_vld = rv_lq_rv1_i0_vld & { `THREADS { rv_lq_rv1_i0_rte_sq } } ;
assign rv1_i1_vld = rv_lq_rv1_i1_vld & { `THREADS { rv_lq_rv1_i1_rte_sq } } ;
// Need to return credits right away for ucode preissued stores, except for preissued ucode indexed load/store string ops
assign rv1_i0_drop_req = rv_lq_rv1_i0_rte_sq & rv_lq_rv1_i0_ucode_preissue & ( ~ ( rv_lq_rv1_i0_s3_t = = 3 'b100 ) ) ;
assign rv1_i1_drop_req = rv_lq_rv1_i1_rte_sq & rv_lq_rv1_i1_ucode_preissue & ( ~ ( rv_lq_rv1_i1_s3_t = = 3 'b100 ) ) ;
assign rv0_cp_flush_d = cp_flush_q ;
assign rv1_cp_flush_d = rv0_cp_flush_q ;
assign rv1_i0_flushed = | ( rv1_i0_vld & ( cp_flush_q | rv0_cp_flush_q | rv1_cp_flush_q | { `THREADS { rv1_i0_drop_req } } ) ) ;
assign rv1_i1_flushed = | ( rv1_i1_vld & ( cp_flush_q | rv0_cp_flush_q | rv1_cp_flush_q | { `THREADS { rv1_i1_drop_req } } ) ) ;
assign ex0_i0_flushed = ex0_i0_flushed_q | | ( ex0_i0_vld_q & cp_flush_q ) ;
assign ex0_i1_flushed = ex0_i1_flushed_q | | ( ex0_i1_vld_q & cp_flush_q ) ;
assign ex1_i0_flushed = ex1_i0_flushed_q | | ( ex1_i0_vld_q & cp_flush_q ) ;
assign ex1_i1_flushed = ex1_i1_flushed_q | | ( ex1_i1_vld_q & cp_flush_q ) ;
assign ex2_streq_val = ctl_lsq_ex2_streq_val & ( ~ cp_flush_q ) ;
assign ex3_streq_val = ex3_streq_val_q & ( ~ cp_flush_q ) ;
assign ex4_streq_val = ctl_lsq_ex4_streq_val & ( ~ cp_flush_q ) ;
assign ex5_streq_val = ex5_streq_val_q & ( ~ ( cp_flush_q | { `THREADS { ctl_lsq_ex5_flush_req } } ) ) ;
assign ex3_ldreq_val = ctl_lsq_ex3_ldreq_val & ( ~ cp_flush_q ) ;
assign ex4_ldreq_val = ex4_ldreq_val_q & ( ~ cp_flush_q ) ;
assign ex3_pfetch_val = ctl_lsq_ex3_pfetch_val ;
assign ex4_pfetch_val_d = ex3_pfetch_val ;
assign ex4_ldreq_valid = | ( ex4_ldreq_val ) ;
assign ex3_streq_valid = | ( ex3_streq_val_q ) ;
assign ex4_streq_valid = | ( ex4_streq_val ) ;
assign ex5_streq_valid = | ( ex5_streq_val ) ;
assign ex3_wchkall_val = ctl_lsq_ex3_wchkall_val & ( ~ cp_flush_q ) ;
assign ex4_wchkall_val = ex4_wchkall_val_q & ( ~ cp_flush_q ) ;
assign ex4_wchkall_valid = | ( ex4_wchkall_val ) ;
//------------------------------------------------------------------------------
// Generate Muxing Zzzzzzzzzzzz
//------------------------------------------------------------------------------
always @ ( * )
begin : cpl_ready_mux_proc
integer i ;
cpl_ready_itag = 0 ;
cpl_ready_thrd_id = 0 ;
stq_ext_act_itag = 0 ;
stq_ext_act_dacrw_det = 0 ;
stq_ext_act_cr_wa = 0 ;
cpl_ttype = 0 ;
cpl_dreq_val = 1 'b0 ;
stq_ext_act_dacrw_rpt = 1 'b0 ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin
if ( stqe_need_ready_ptr_q [ i ] = = 1 'b1 )
begin
cpl_ready_itag = stqe_itag_q [ i ] ;
cpl_ready_thrd_id = stqe_thrd_id_q [ i ] ;
cpl_ttype = stqe_ttype_q [ i ] ;
cpl_dreq_val = stqe_dreq_val_q [ i ] ;
end
if ( ( stqe_need_ext_ack_q [ i ] = = 1 'b1 ) & ( stqe_thrd_id_q [ i ] = = any_ack_val ) )
begin
stq_ext_act_itag = stqe_itag_q [ i ] ;
stq_ext_act_dacrw_det = stqe_dacrw_q [ i ] ;
stq_ext_act_dacrw_rpt = stqe_dvc_int_det [ i ] ;
end
if ( ( stqe_need_ext_ack_q [ i ] = = 1 'b1 ) & ( stqe_thrd_id_q [ i ] = = cr_thrd ) )
stq_ext_act_cr_wa = stqe_tgpr_q [ i ] [ AXU_TARGET_ENC - ( `CR_POOL_ENC + `THREADS_POOL_ENC ) : AXU_TARGET_ENC - 1 ] ;
end
end
always @ ( * )
begin : stq1_mux_proc
integer i ;
stq_arb_stq1_axu_val = 0 ;
stq_arb_stq1_epid_val = 0 ;
lsq_dat_stq1_byte_en = 0 ;
stq_arb_stq1_opSize = 0 ;
stq_arb_stq1_wimge_i = 0 ;
lsq_ctl_stq1_lock_clr = 0 ;
lsq_ctl_stq1_watch_clr = 0 ;
lsq_ctl_stq1_l_fld = 0 ;
lsq_ctl_stq1_inval = 0 ;
stq1_p_addr = 0 ;
stq_arb_stq1_thrd_id = 0 ;
lsq_ctl_stq1_resv = 0 ;
lsq_dat_stq1_store_val = 0 ;
lsq_ctl_stq1_store_val = 0 ;
stq_arb_stq1_byte_swap = 0 ;
stq_arb_stq1_store_data = 0 ;
stq1_ttype = 0 ;
stq1_wclr_all = 0 ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
if ( stq1_cmmt_ptr_q [ i ] = = 1 'b1 )
begin
stq_arb_stq1_axu_val = stqe_axu_val_q [ i ] ;
stq_arb_stq1_epid_val = stqe_epid_val_q [ i ] ;
lsq_dat_stq1_byte_en = stqe_byte_en_q [ i ] ;
stq_arb_stq1_opSize = stqe_opsize_q [ i ] ;
stq_arb_stq1_wimge_i = stqe_wimge_q [ i ] [ 1 ] ;
lsq_ctl_stq1_lock_clr = stqe_lock_clr_q [ i ] ;
lsq_ctl_stq1_watch_clr = stqe_watch_clr_q [ i ] ;
lsq_ctl_stq1_l_fld = stqe_l_fld_q [ i ] ;
lsq_ctl_stq1_inval = stqe_is_inval_op_q [ i ] ;
stq1_p_addr = stqe_addr_q [ i ] ;
stq_arb_stq1_thrd_id = stqe_thrd_id_q [ i ] ;
lsq_ctl_stq1_resv = stqe_is_resv_q [ i ] ;
lsq_dat_stq1_store_val = stqe_is_store_q [ i ] ;
lsq_ctl_stq1_store_val = stqe_is_store_q [ i ] ;
stq_arb_stq1_byte_swap = stqe_byte_swap_q [ i ] ;
stq_arb_stq1_store_data = stqe_data1_q [ i ] ;
stq1_ttype = stqe_ttype_q [ i ] ;
stq1_wclr_all = stqe_watch_clr_q [ i ] & ( ~ stqe_l_fld_q [ i ] [ 0 ] ) ;
end
end
assign stq_arb_stq1_p_addr = stq1_p_addr ;
always @ ( * )
begin : stq2_mux_proc
integer i ;
stq2_thrd_id = 0 ;
icbi_addr_d = 0 ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
if ( stq2_cmmt_ptr_q [ i ] = = 1 'b1 )
begin
stq2_thrd_id = stqe_thrd_id_q [ i ] ;
icbi_addr_d = stqe_addr_q [ i ] [ RI: 57 ] ;
end
end
always @ ( * )
begin : stq3_mux_proc
integer i ;
stq_arb_stq3_wimge = 0 ;
stq_arb_stq3_p_addr = 0 ;
stq_arb_stq3_opSize = 0 ;
stq_arb_stq3_usrDef = 0 ;
stq_arb_stq3_byteEn = 0 ;
stq3_ttype = 0 ;
stq3_tid = 0 ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
if ( stq3_cmmt_ptr_q [ i ] = = 1 'b1 )
begin
stq_arb_stq3_wimge = stqe_wimge_q [ i ] ;
stq_arb_stq3_p_addr = stqe_addr_q [ i ] ;
stq_arb_stq3_opSize = stqe_opsize_q [ i ] ;
stq_arb_stq3_usrDef = stqe_usr_def_q [ i ] ;
stq_arb_stq3_byteEn = stqe_byte_en_q [ i ] ;
stq3_ttype = stqe_ttype_q [ i ] ;
stq3_tid = stqe_thrd_id_q [ i ] ;
end
end
always @ ( * )
begin : stq5_mux_proc
integer i ;
lsq_ctl_stq5_itag = 0 ;
lsq_ctl_stq5_tgpr = 0 ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
if ( stq5_cmmt_ptr_q [ i ] = = 1 'b1 )
begin
lsq_ctl_stq5_itag = stqe_itag_q [ i ] ;
lsq_ctl_stq5_tgpr = stqe_tgpr_q [ i ] ;
end
end
always @ ( * )
begin : stq6_mux_proc
integer i ;
stq6_ttype = 0 ;
stq6_tid = 0 ;
stq6_wclr_all_val = 0 ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
if ( stq6_cmmt_ptr_q [ i ] = = 1 'b1 )
begin
stq6_ttype = stqe_ttype_q [ i ] ;
stq6_wclr_all_val = stqe_watch_clr_q [ i ] & ( ~ stqe_l_fld_q [ i ] [ 0 ] ) ;
stq6_tid = stqe_thrd_id_q [ i ] ;
end
end
assign stq_fwd_pri_mask_q [ `STQ_FWD_ENTRIES - 1 ] = 1 'b0 ;
always @ ( * )
begin : stq_data_mux_proc
integer i ;
ex5_fwd_data_d = 0 ;
for ( i = 0 ; i < = `STQ_FWD_ENTRIES - 1 ; i = i + 1 )
if ( ( ex4_fwd_sel [ i ] & ( ~ stq_fwd_pri_mask_q [ i ] ) ) = = 1 'b1 )
ex5_fwd_data_d = stqe_fwd_data [ i ] ;
end
//------------------------------------------------------------------------------
// Latch Instances
//------------------------------------------------------------------------------
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv_lq_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv_lq_vld_offset ] ) ,
. scout ( sov [ rv_lq_vld_offset ] ) ,
. din ( rv_lq_vld_d ) ,
. dout ( rv_lq_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv_lq_ld_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv_lq_ld_vld_offset ] ) ,
. scout ( sov [ rv_lq_ld_vld_offset ] ) ,
. din ( rv_lq_ld_vld_d ) ,
. dout ( rv_lq_ld_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_dir_rd_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_dir_rd_val_offset ] ) ,
. scout ( sov [ ex0_dir_rd_val_offset ] ) ,
. din ( ex0_dir_rd_val_d ) ,
. dout ( ex0_dir_rd_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv0_cp_flush_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv0_cp_flush_offset: rv0_cp_flush_offset + `THREADS - 1 ] ) ,
. scout ( sov [ rv0_cp_flush_offset: rv0_cp_flush_offset + `THREADS - 1 ] ) ,
. din ( rv0_cp_flush_d ) ,
. dout ( rv0_cp_flush_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv1_cp_flush_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv1_cp_flush_offset: rv1_cp_flush_offset + `THREADS - 1 ] ) ,
. scout ( sov [ rv1_cp_flush_offset: rv1_cp_flush_offset + `THREADS - 1 ] ) ,
. din ( rv1_cp_flush_d ) ,
. dout ( rv1_cp_flush_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_i0_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_i0_vld_offset: ex0_i0_vld_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex0_i0_vld_offset: ex0_i0_vld_offset + `THREADS - 1 ] ) ,
. din ( rv1_i0_vld ) ,
. dout ( ex0_i0_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_i0_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_i0_flushed_offset ] ) ,
. scout ( sov [ ex0_i0_flushed_offset ] ) ,
. din ( rv1_i0_flushed ) ,
. dout ( ex0_i0_flushed_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_i0_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( rv1_i0_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_i0_itag_offset: ex0_i0_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex0_i0_itag_offset: ex0_i0_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( rv_lq_rv1_i0_itag ) ,
. dout ( ex0_i0_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_i1_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_i1_vld_offset: ex0_i1_vld_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex0_i1_vld_offset: ex0_i1_vld_offset + `THREADS - 1 ] ) ,
. din ( rv1_i1_vld ) ,
. dout ( ex0_i1_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_i1_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_i1_flushed_offset ] ) ,
. scout ( sov [ ex0_i1_flushed_offset ] ) ,
. din ( rv1_i1_flushed ) ,
. dout ( ex0_i1_flushed_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_i1_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( rv1_i1_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_i1_itag_offset: ex0_i1_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex0_i1_itag_offset: ex0_i1_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( rv_lq_rv1_i1_itag ) ,
. dout ( ex0_i1_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_i0_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_i0_vld_offset: ex1_i0_vld_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex1_i0_vld_offset: ex1_i0_vld_offset + `THREADS - 1 ] ) ,
. din ( ex0_i0_vld_q ) ,
. dout ( ex1_i0_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_i0_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_i0_flushed_offset ] ) ,
. scout ( sov [ ex1_i0_flushed_offset ] ) ,
. din ( ex0_i0_flushed ) ,
. dout ( ex1_i0_flushed_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_i0_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex0_i0_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_i0_itag_offset: ex1_i0_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex1_i0_itag_offset: ex1_i0_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( ex0_i0_itag_q ) ,
. dout ( ex1_i0_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_i1_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_i1_vld_offset: ex1_i1_vld_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex1_i1_vld_offset: ex1_i1_vld_offset + `THREADS - 1 ] ) ,
. din ( ex0_i1_vld_q ) ,
. dout ( ex1_i1_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_i1_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_i1_flushed_offset ] ) ,
. scout ( sov [ ex1_i1_flushed_offset ] ) ,
. din ( ex0_i1_flushed ) ,
. dout ( ex1_i1_flushed_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_i1_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex0_i1_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_i1_itag_offset: ex1_i1_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex1_i1_itag_offset: ex1_i1_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( ex0_i1_itag_q ) ,
. dout ( ex1_i1_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 2 * * ( `STQ_ENTRIES - 1 ) ) , . NEEDS_SRESET ( 1 ) ) stqe_alloc_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_alloc_ptr_offset: stqe_alloc_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_alloc_ptr_offset: stqe_alloc_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_alloc_ptr_d ) ,
. dout ( stqe_alloc_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_alloc_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_alloc_offset: stqe_alloc_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_alloc_offset: stqe_alloc_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_alloc_d ) ,
. dout ( stqe_alloc_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_addr_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_addr_val_offset: stqe_addr_val_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_addr_val_offset: stqe_addr_val_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_addr_val_d ) ,
. dout ( stqe_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_fwd_addr_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_fwd_addr_val_offset: stqe_fwd_addr_val_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_fwd_addr_val_offset: stqe_fwd_addr_val_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_fwd_addr_val_d ) ,
. dout ( stqe_fwd_addr_val_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_data_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_data_val_offset: stqe_data_val_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_data_val_offset: stqe_data_val_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_data_val_d ) ,
. dout ( stqe_data_val_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_data_nxt_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_data_nxt_offset: stqe_data_nxt_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_data_nxt_offset: stqe_data_nxt_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_data_nxt_d ) ,
. dout ( stqe_data_nxt_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_illeg_lswx_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_illeg_lswx_offset: stqe_illeg_lswx_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_illeg_lswx_offset: stqe_illeg_lswx_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_illeg_lswx_d ) ,
. dout ( stqe_illeg_lswx_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_strg_noop_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_strg_noop_offset: stqe_strg_noop_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_strg_noop_offset: stqe_strg_noop_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_strg_noop_d ) ,
. dout ( stqe_strg_noop_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_ready_sent_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_ready_sent_offset: stqe_ready_sent_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_ready_sent_offset: stqe_ready_sent_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_ready_sent_d ) ,
. dout ( stqe_ready_sent_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_odq_resolved_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_odq_resolved_offset: stqe_odq_resolved_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_odq_resolved_offset: stqe_odq_resolved_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_odq_resolved_d ) ,
. dout ( stqe_odq_resolved_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_compl_rcvd_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_compl_rcvd_offset: stqe_compl_rcvd_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_compl_rcvd_offset: stqe_compl_rcvd_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_compl_rcvd_d ) ,
. dout ( stqe_compl_rcvd_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_have_cp_next_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_have_cp_next_offset: stqe_have_cp_next_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_have_cp_next_offset: stqe_have_cp_next_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_have_cp_next_d ) ,
. dout ( stqe_have_cp_next_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 2 * * ( `STQ_ENTRIES - 1 ) ) , . NEEDS_SRESET ( 1 ) ) stqe_need_ready_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stqe_need_ready_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_need_ready_ptr_offset: stqe_need_ready_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_need_ready_ptr_offset: stqe_need_ready_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_need_ready_ptr_d ) ,
. dout ( stqe_need_ready_ptr_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_flushed_offset: stqe_flushed_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_flushed_offset: stqe_flushed_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_flushed_d ) ,
. dout ( stqe_flushed_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_ack_rcvd_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_ack_rcvd_offset: stqe_ack_rcvd_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stqe_ack_rcvd_offset: stqe_ack_rcvd_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stqe_ack_rcvd_d ) ,
. dout ( stqe_ack_rcvd_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
generate
begin : xhdl15
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_lmqhit_latch_gen
tri_rlmreg_p # ( . WIDTH ( `LMQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_lmqhit_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_lmqhit_offset + `LMQ_ENTRIES * i: stqe_lmqhit_offset + `LMQ_ENTRIES * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_lmqhit_offset + `LMQ_ENTRIES * i: stqe_lmqhit_offset + `LMQ_ENTRIES * ( i + 1 ) - 1 ] ) ,
. din ( stqe_lmqhit_d [ i ] ) ,
. dout ( stqe_lmqhit_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl16
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_need_ext_ack_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_need_ext_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_need_ext_ack_offset + i: stqe_need_ext_ack_offset + i ] ) ,
. scout ( sov [ stqe_need_ext_ack_offset + i: stqe_need_ext_ack_offset + i ] ) ,
. din ( stqe_need_ext_ack_d [ i ] ) ,
. dout ( stqe_need_ext_ack_q [ i ] )
) ;
end
end
endgenerate
generate
begin : stqe_blk_loads_latch_gen
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 ) begin : stqe_blk_loads_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_blk_loads_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_blk_loads_offset + i: stqe_blk_loads_offset + i ] ) ,
. scout ( sov [ stqe_blk_loads_offset + i: stqe_blk_loads_offset + i ] ) ,
. din ( stqe_blk_loads_d [ i ] ) ,
. dout ( stqe_blk_loads_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl57
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_all_thrd_chk_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_all_thrd_chk_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_all_thrd_chk_offset + i: stqe_all_thrd_chk_offset + i ] ) ,
. scout ( sov [ stqe_all_thrd_chk_offset + i: stqe_all_thrd_chk_offset + i ] ) ,
. din ( stqe_all_thrd_chk_d [ i ] ) ,
. dout ( stqe_all_thrd_chk_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl17
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_itag_latch_gen
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) )
stqe_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stqe_itag_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_itag_offset + `ITAG_SIZE_ENC * i: stqe_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_itag_offset + `ITAG_SIZE_ENC * i: stqe_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. din ( stqe_itag_d [ i ] ) ,
. dout ( stqe_itag_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl18
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_addr_latch_gen
tri_rlmreg_p # ( . WIDTH ( `REAL_IFAR_WIDTH ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_addr_offset + `REAL_IFAR_WIDTH * i: stqe_addr_offset + `REAL_IFAR_WIDTH * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_addr_offset + `REAL_IFAR_WIDTH * i: stqe_addr_offset + `REAL_IFAR_WIDTH * ( i + 1 ) - 1 ] ) ,
. din ( stqe_addr_d [ i ] ) ,
. dout ( stqe_addr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl19
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_rotcmp_latch_gen
tri_rlmreg_p # ( . WIDTH ( 16 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_rotcmp_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_rotcmp_offset + 16 * i: stqe_rotcmp_offset + 16 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_rotcmp_offset + 16 * i: stqe_rotcmp_offset + 16 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_rotcmp_d [ i ] ) ,
. dout ( stqe_rotcmp_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl20
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_cline_chk_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_cline_chk_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_cline_chk_offset + i: stqe_cline_chk_offset + i ] ) ,
. scout ( sov [ stqe_cline_chk_offset + i: stqe_cline_chk_offset + i ] ) ,
. din ( stqe_cline_chk_d [ i ] ) ,
. dout ( stqe_cline_chk_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl21
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_ttype_latch_gen
tri_rlmreg_p # ( . WIDTH ( 6 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_ttype_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_ttype_offset + 6 * i: stqe_ttype_offset + 6 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_ttype_offset + 6 * i: stqe_ttype_offset + 6 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_ttype_d [ i ] ) ,
. dout ( stqe_ttype_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl22
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_byte_en_latch_gen
tri_rlmreg_p # ( . WIDTH ( 16 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_byte_en_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_byte_en_offset + 16 * i: stqe_byte_en_offset + 16 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_byte_en_offset + 16 * i: stqe_byte_en_offset + 16 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_byte_en_d [ i ] ) ,
. dout ( stqe_byte_en_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl23
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_wimge_latch_gen
tri_rlmreg_p # ( . WIDTH ( 5 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_wimge_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_wimge_offset + 5 * i: stqe_wimge_offset + 5 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_wimge_offset + 5 * i: stqe_wimge_offset + 5 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_wimge_d [ i ] ) ,
. dout ( stqe_wimge_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl24
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_byte_swap_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_byte_swap_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_byte_swap_offset + i: stqe_byte_swap_offset + i ] ) ,
. scout ( sov [ stqe_byte_swap_offset + i: stqe_byte_swap_offset + i ] ) ,
. din ( stqe_byte_swap_d [ i ] ) ,
. dout ( stqe_byte_swap_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl25
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_opsize_latch_gen
tri_rlmreg_p # ( . WIDTH ( 3 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_opsize_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_opsize_offset + 3 * i: stqe_opsize_offset + 3 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_opsize_offset + 3 * i: stqe_opsize_offset + 3 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_opsize_d [ i ] ) ,
. dout ( stqe_opsize_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl26
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_axu_val_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_axu_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_axu_val_offset + i: stqe_axu_val_offset + i ] ) ,
. scout ( sov [ stqe_axu_val_offset + i: stqe_axu_val_offset + i ] ) ,
. din ( stqe_axu_val_d [ i ] ) ,
. dout ( stqe_axu_val_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl27
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_epid_val_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_epid_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_epid_val_offset + i: stqe_epid_val_offset + i ] ) ,
. scout ( sov [ stqe_epid_val_offset + i: stqe_epid_val_offset + i ] ) ,
. din ( stqe_epid_val_d [ i ] ) ,
. dout ( stqe_epid_val_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl28
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_usr_def_latch_gen
tri_rlmreg_p # ( . WIDTH ( 4 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_usr_def_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_usr_def_offset + 4 * i: stqe_usr_def_offset + 4 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_usr_def_offset + 4 * i: stqe_usr_def_offset + 4 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_usr_def_d [ i ] ) ,
. dout ( stqe_usr_def_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl29
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_is_store_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_is_store_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_is_store_offset + i: stqe_is_store_offset + i ] ) ,
. scout ( sov [ stqe_is_store_offset + i: stqe_is_store_offset + i ] ) ,
. din ( stqe_is_store_d [ i ] ) ,
. dout ( stqe_is_store_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl30
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_is_sync_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_is_sync_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_is_sync_offset + i: stqe_is_sync_offset + i ] ) ,
. scout ( sov [ stqe_is_sync_offset + i: stqe_is_sync_offset + i ] ) ,
. din ( stqe_is_sync_d [ i ] ) ,
. dout ( stqe_is_sync_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl31
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_is_resv_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_is_resv_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_is_resv_offset + i: stqe_is_resv_offset + i ] ) ,
. scout ( sov [ stqe_is_resv_offset + i: stqe_is_resv_offset + i ] ) ,
. din ( stqe_is_resv_d [ i ] ) ,
. dout ( stqe_is_resv_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl32
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_is_icswxr_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_is_icswxr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_is_icswxr_offset + i: stqe_is_icswxr_offset + i ] ) ,
. scout ( sov [ stqe_is_icswxr_offset + i: stqe_is_icswxr_offset + i ] ) ,
. din ( stqe_is_icswxr_d [ i ] ) ,
. dout ( stqe_is_icswxr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl33
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_is_icbi_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_is_icbi_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_is_icbi_offset + i: stqe_is_icbi_offset + i ] ) ,
. scout ( sov [ stqe_is_icbi_offset + i: stqe_is_icbi_offset + i ] ) ,
. din ( stqe_is_icbi_d [ i ] ) ,
. dout ( stqe_is_icbi_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl34
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_is_inval_op_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_is_inval_op_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_is_inval_op_offset + i: stqe_is_inval_op_offset + i ] ) ,
. scout ( sov [ stqe_is_inval_op_offset + i: stqe_is_inval_op_offset + i ] ) ,
. din ( stqe_is_inval_op_d [ i ] ) ,
. dout ( stqe_is_inval_op_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl35
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_dreq_val_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_dreq_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_dreq_val_offset + i: stqe_dreq_val_offset + i ] ) ,
. scout ( sov [ stqe_dreq_val_offset + i: stqe_dreq_val_offset + i ] ) ,
. din ( stqe_dreq_val_d [ i ] ) ,
. dout ( stqe_dreq_val_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl36
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_has_data_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_has_data_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_has_data_offset + i: stqe_has_data_offset + i ] ) ,
. scout ( sov [ stqe_has_data_offset + i: stqe_has_data_offset + i ] ) ,
. din ( stqe_has_data_d [ i ] ) ,
. dout ( stqe_has_data_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl37
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_send_l2_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_send_l2_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_send_l2_offset + i: stqe_send_l2_offset + i ] ) ,
. scout ( sov [ stqe_send_l2_offset + i: stqe_send_l2_offset + i ] ) ,
. din ( stqe_send_l2_d [ i ] ) ,
. dout ( stqe_send_l2_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl38
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_lock_clr_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_lock_clr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_lock_clr_offset + i: stqe_lock_clr_offset + i ] ) ,
. scout ( sov [ stqe_lock_clr_offset + i: stqe_lock_clr_offset + i ] ) ,
. din ( stqe_lock_clr_d [ i ] ) ,
. dout ( stqe_lock_clr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl39
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_watch_clr_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_watch_clr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_watch_clr_offset + i: stqe_watch_clr_offset + i ] ) ,
. scout ( sov [ stqe_watch_clr_offset + i: stqe_watch_clr_offset + i ] ) ,
. din ( stqe_watch_clr_d [ i ] ) ,
. dout ( stqe_watch_clr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl40
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_l_fld_latch_gen
tri_rlmreg_p # ( . WIDTH ( 2 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_l_fld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_l_fld_offset + 2 * i: stqe_l_fld_offset + 2 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_l_fld_offset + 2 * i: stqe_l_fld_offset + 2 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_l_fld_d [ i ] ) ,
. dout ( stqe_l_fld_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl41
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_thrd_id_latch_gen
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_thrd_id_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stqe_itag_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_thrd_id_offset + `THREADS * i: stqe_thrd_id_offset + `THREADS * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_thrd_id_offset + `THREADS * i: stqe_thrd_id_offset + `THREADS * ( i + 1 ) - 1 ] ) ,
. din ( stqe_thrd_id_d [ i ] ) ,
. dout ( stqe_thrd_id_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl42
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_tgpr_latch_gen
tri_rlmreg_p # ( . WIDTH ( AXU_TARGET_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_tgpr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_tgpr_offset + AXU_TARGET_ENC * i: stqe_tgpr_offset + AXU_TARGET_ENC * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_tgpr_offset + AXU_TARGET_ENC * i: stqe_tgpr_offset + AXU_TARGET_ENC * ( i + 1 ) - 1 ] ) ,
. din ( stqe_tgpr_d [ i ] ) ,
. dout ( stqe_tgpr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl43
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_dvc_en_latch_gen
tri_rlmreg_p # ( . WIDTH ( 2 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_dvc_en_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_dvc_en_offset + 2 * i: stqe_dvc_en_offset + 2 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_dvc_en_offset + 2 * i: stqe_dvc_en_offset + 2 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_dvc_en_d [ i ] ) ,
. dout ( stqe_dvc_en_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl44
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_dacrw_latch_gen
tri_rlmreg_p # ( . WIDTH ( 4 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_dacrw_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex5_addr_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_dacrw_offset + 4 * i: stqe_dacrw_offset + 4 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_dacrw_offset + 4 * i: stqe_dacrw_offset + 4 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_dacrw_d [ i ] ) ,
. dout ( stqe_dacrw_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl45
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_dvcr_cmpr_latch_gen
tri_rlmreg_p # ( . WIDTH ( 2 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_dvcr_cmpr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_dvcr_cmpr_offset + 2 * i: stqe_dvcr_cmpr_offset + 2 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_dvcr_cmpr_offset + 2 * i: stqe_dvcr_cmpr_offset + 2 * ( i + 1 ) - 1 ] ) ,
. din ( stqe_dvcr_cmpr_d [ i ] ) ,
. dout ( stqe_dvcr_cmpr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl47
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_qHit_held_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_qHit_held_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_qHit_held_offset + i: stqe_qHit_held_offset + i ] ) ,
. scout ( sov [ stqe_qHit_held_offset + i: stqe_qHit_held_offset + i ] ) ,
. din ( stqe_qHit_held_d [ i ] ) ,
. dout ( stqe_qHit_held_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl48
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_held_early_clr_latch_gen
tri_rlmreg_p # ( . WIDTH ( 1 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_held_early_clr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_held_early_clr_offset + i: stqe_held_early_clr_offset + i ] ) ,
. scout ( sov [ stqe_held_early_clr_offset + i: stqe_held_early_clr_offset + i ] ) ,
. din ( stqe_held_early_clr_d [ i ] ) ,
. dout ( stqe_held_early_clr_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl49
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stqe_data1_latch_gen
tri_rlmreg_p # ( . WIDTH ( `STQ_DATA_SIZE ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stqe_data1_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stqe_data_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stqe_data1_offset + `STQ_DATA_SIZE * i: stqe_data1_offset + `STQ_DATA_SIZE * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stqe_data1_offset + `STQ_DATA_SIZE * i: stqe_data1_offset + `STQ_DATA_SIZE * ( i + 1 ) - 1 ] ) ,
. din ( stqe_data1_d [ i ] ) ,
. dout ( stqe_data1_q [ i ] )
) ;
end
end
endgenerate
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_fxu1_data_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_fxu1_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_fxu1_data_ptr_offset: ex4_fxu1_data_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex4_fxu1_data_ptr_offset: ex4_fxu1_data_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex4_fxu1_data_ptr_d ) ,
. dout ( ex4_fxu1_data_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_axu_data_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_axu_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_axu_data_ptr_offset: ex4_axu_data_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex4_axu_data_ptr_offset: ex4_axu_data_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex4_axu_data_ptr_d ) ,
. dout ( ex4_axu_data_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( `STQ_DATA_SIZE ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_fu_data_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_axu_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_fu_data_offset: ex4_fu_data_offset + ( `STQ_DATA_SIZE ) - 1 ] ) ,
. scout ( sov [ ex4_fu_data_offset: ex4_fu_data_offset + ( `STQ_DATA_SIZE ) - 1 ] ) ,
. din ( xu_lq_axu_exp1_stq_data ) ,
. dout ( ex4_fu_data_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_flush_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_flush_offset: cp_flush_offset + `THREADS - 1 ] ) ,
. scout ( sov [ cp_flush_offset: cp_flush_offset + `THREADS - 1 ] ) ,
. din ( iu_lq_cp_flush ) ,
. dout ( cp_flush_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_next_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_next_val_offset: cp_next_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ cp_next_val_offset: cp_next_val_offset + `THREADS - 1 ] ) ,
. din ( iu_lq_cp_next_val ) ,
. dout ( cp_next_val_q )
) ;
generate
begin : xhdl50
genvar i ;
for ( i = 0 ; i < = `THREADS - 1 ; i = i + 1 )
begin : cp_next_itag_latch_gen
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_next_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( iu_lq_cp_next_val [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_next_itag_offset + `ITAG_SIZE_ENC * i: cp_next_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ cp_next_itag_offset + `ITAG_SIZE_ENC * i: cp_next_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. din ( iu_lq_cp_next_itag_int [ i ] ) ,
. dout ( cp_next_itag_q [ i ] )
) ;
end
end
endgenerate
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_i0_completed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_i0_completed_offset: cp_i0_completed_offset + `THREADS - 1 ] ) ,
. scout ( sov [ cp_i0_completed_offset: cp_i0_completed_offset + `THREADS - 1 ] ) ,
. din ( iu_lq_i0_completed ) ,
. dout ( cp_i0_completed_q )
) ;
generate
begin : xhdl51
genvar i ;
for ( i = 0 ; i < = `THREADS - 1 ; i = i + 1 )
begin : cp_i0_completed_itag_latch_gen
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_i0_completed_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( iu_lq_i0_completed [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_i0_completed_itag_offset + `ITAG_SIZE_ENC * i: cp_i0_completed_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ cp_i0_completed_itag_offset + `ITAG_SIZE_ENC * i: cp_i0_completed_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. din ( iu_lq_i0_completed_itag_int [ i ] ) ,
. dout ( cp_i0_completed_itag_q [ i ] )
) ;
end
end
endgenerate
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_i1_completed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_i1_completed_offset: cp_i1_completed_offset + `THREADS - 1 ] ) ,
. scout ( sov [ cp_i1_completed_offset: cp_i1_completed_offset + `THREADS - 1 ] ) ,
. din ( iu_lq_i1_completed ) ,
. dout ( cp_i1_completed_q )
) ;
generate
begin : xhdl52
genvar i ;
for ( i = 0 ; i < = `THREADS - 1 ; i = i + 1 )
begin : cp_i1_completed_itag_latch_gen
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cp_I1_completed_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( iu_lq_i1_completed [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cp_i1_completed_itag_offset + `ITAG_SIZE_ENC * i: cp_i1_completed_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ cp_i1_completed_itag_offset + `ITAG_SIZE_ENC * i: cp_i1_completed_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. din ( iu_lq_i1_completed_itag_int [ i ] ) ,
. dout ( cp_i1_completed_itag_q [ i ] )
) ;
end
end
endgenerate
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq_cpl_need_hold_reg (
. vd ( vdd ) ,
. gd ( gnd ) ,
. nclk ( nclk ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq_cpl_need_hold_offset ] ) ,
. scout ( sov [ stq_cpl_need_hold_offset ] ) ,
. din ( stq_cpl_need_hold_d ) ,
. dout ( stq_cpl_need_hold_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) iu_lq_icbi_complete_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ iu_lq_icbi_complete_offset: iu_lq_icbi_complete_offset + `THREADS - 1 ] ) ,
. scout ( sov [ iu_lq_icbi_complete_offset: iu_lq_icbi_complete_offset + `THREADS - 1 ] ) ,
. din ( iu_lq_icbi_complete ) ,
. dout ( iu_lq_icbi_complete_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) iu_icbi_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ iu_icbi_ack_offset: iu_icbi_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ iu_icbi_ack_offset: iu_icbi_ack_offset + `THREADS - 1 ] ) ,
. din ( iu_icbi_ack_d ) ,
. dout ( iu_icbi_ack_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) l2_icbi_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ l2_icbi_ack_offset: l2_icbi_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ l2_icbi_ack_offset: l2_icbi_ack_offset + `THREADS - 1 ] ) ,
. din ( l2_icbi_ack_d ) ,
. dout ( l2_icbi_ack_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv1_binv_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv1_binv_val_offset ] ) ,
. scout ( sov [ rv1_binv_val_offset ] ) ,
. din ( rv1_binv_val_d ) ,
. dout ( rv1_binv_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_binv_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_binv_val_offset ] ) ,
. scout ( sov [ ex0_binv_val_offset ] ) ,
. din ( ex0_binv_val_d ) ,
. dout ( ex0_binv_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_binv_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_binv_val_offset ] ) ,
. scout ( sov [ ex1_binv_val_offset ] ) ,
. din ( ex1_binv_val_d ) ,
. dout ( ex1_binv_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex2_binv_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex2_binv_val_offset ] ) ,
. scout ( sov [ ex2_binv_val_offset ] ) ,
. din ( ex2_binv_val_d ) ,
. dout ( ex2_binv_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_binv_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_binv_val_offset ] ) ,
. scout ( sov [ ex3_binv_val_offset ] ) ,
. din ( ex3_binv_val_d ) ,
. dout ( ex3_binv_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv1_binv_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( l2_back_inv_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv1_binv_addr_offset: rv1_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. scout ( sov [ rv1_binv_addr_offset: rv1_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. din ( rv1_binv_addr_d ) ,
. dout ( rv1_binv_addr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_binv_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( rv1_binv_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_binv_addr_offset: ex0_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. scout ( sov [ ex0_binv_addr_offset: ex0_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. din ( ex0_binv_addr_d ) ,
. dout ( ex0_binv_addr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex1_binv_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex0_binv_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex1_binv_addr_offset: ex1_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. scout ( sov [ ex1_binv_addr_offset: ex1_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. din ( ex1_binv_addr_d ) ,
. dout ( ex1_binv_addr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex2_binv_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex1_binv_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex2_binv_addr_offset: ex2_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. scout ( sov [ ex2_binv_addr_offset: ex2_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. din ( ex2_binv_addr_d ) ,
. dout ( ex2_binv_addr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_binv_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex2_binv_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_binv_addr_offset: ex3_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. scout ( sov [ ex3_binv_addr_offset: ex3_binv_addr_offset + ( ( 63 - `CL_SIZE ) - ( 64 - ( `DC_SIZE - 3 ) ) + 1 ) - 1 ] ) ,
. din ( ex3_binv_addr_d ) ,
. dout ( ex3_binv_addr_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_binv_blk_cclass_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_binv_blk_cclass_offset ] ) ,
. scout ( sov [ stq2_binv_blk_cclass_offset ] ) ,
. din ( stq2_binv_blk_cclass_d ) ,
. dout ( stq2_binv_blk_cclass_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_ici_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq1_cmmt_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_ici_val_offset ] ) ,
. scout ( sov [ stq2_ici_val_offset ] ) ,
. din ( stq2_ici_val_d ) ,
. dout ( stq2_ici_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq4_xucr0_cul_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq4_xucr0_cul_offset ] ) ,
. scout ( sov [ stq4_xucr0_cul_offset ] ) ,
. din ( stq4_xucr0_cul_d ) ,
. dout ( stq4_xucr0_cul_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_reject_dci_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_reject_dci_offset ] ) ,
. scout ( sov [ stq2_reject_dci_offset ] ) ,
. din ( stq2_reject_dci_d ) ,
. dout ( stq2_reject_dci_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq3_cmmt_reject_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq3_cmmt_reject_offset ] ) ,
. scout ( sov [ stq3_cmmt_reject_offset ] ) ,
. din ( stq3_cmmt_reject_d ) ,
. dout ( stq3_cmmt_reject_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_dci_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq1_cmmt_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_dci_val_offset ] ) ,
. scout ( sov [ stq2_dci_val_offset ] ) ,
. din ( stq2_dci_val_d ) ,
. dout ( stq2_dci_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq3_cmmt_dci_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq3_cmmt_dci_val_offset ] ) ,
. scout ( sov [ stq3_cmmt_dci_val_offset ] ) ,
. din ( stq3_cmmt_dci_val_d ) ,
. dout ( stq3_cmmt_dci_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq4_cmmt_dci_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq4_cmmt_dci_val_offset ] ) ,
. scout ( sov [ stq4_cmmt_dci_val_offset ] ) ,
. din ( stq4_cmmt_dci_val_d ) ,
. dout ( stq4_cmmt_dci_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq5_cmmt_dci_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq5_cmmt_dci_val_offset ] ) ,
. scout ( sov [ stq5_cmmt_dci_val_offset ] ) ,
. din ( stq5_cmmt_dci_val_d ) ,
. dout ( stq5_cmmt_dci_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_cmmt_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_cmmt_flushed_offset ] ) ,
. scout ( sov [ stq2_cmmt_flushed_offset ] ) ,
. din ( stq1_cmmt_flushed ) ,
. dout ( stq2_cmmt_flushed_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq3_cmmt_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq3_cmmt_flushed_offset ] ) ,
. scout ( sov [ stq3_cmmt_flushed_offset ] ) ,
. din ( stq2_cmmt_flushed_q ) ,
. dout ( stq3_cmmt_flushed_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq4_cmmt_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq4_cmmt_flushed_offset ] ) ,
. scout ( sov [ stq4_cmmt_flushed_offset ] ) ,
. din ( stq3_cmmt_flushed_q ) ,
. dout ( stq4_cmmt_flushed_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq5_cmmt_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq5_cmmt_flushed_offset ] ) ,
. scout ( sov [ stq5_cmmt_flushed_offset ] ) ,
. din ( stq4_cmmt_flushed_q ) ,
. dout ( stq5_cmmt_flushed_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq6_cmmt_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq6_cmmt_flushed_offset ] ) ,
. scout ( sov [ stq6_cmmt_flushed_offset ] ) ,
. din ( stq5_cmmt_flushed_q ) ,
. dout ( stq6_cmmt_flushed_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq7_cmmt_flushed_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq7_cmmt_flushed_offset ] ) ,
. scout ( sov [ stq7_cmmt_flushed_offset ] ) ,
. din ( stq6_cmmt_flushed_q ) ,
. dout ( stq7_cmmt_flushed_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 2 * * ( `STQ_ENTRIES - 1 ) ) , . NEEDS_SRESET ( 1 ) ) stq1_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq1_cmmt_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq1_cmmt_ptr_offset: stq1_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq1_cmmt_ptr_offset: stq1_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq1_cmmt_ptr_d ) ,
. dout ( stq1_cmmt_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq1_cmmt_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_cmmt_ptr_offset: stq2_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq2_cmmt_ptr_offset: stq2_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq2_cmmt_ptr_d ) ,
. dout ( stq2_cmmt_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq3_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq2_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq3_cmmt_ptr_offset: stq3_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq3_cmmt_ptr_offset: stq3_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq3_cmmt_ptr_d ) ,
. dout ( stq3_cmmt_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq4_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq3_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq4_cmmt_ptr_offset: stq4_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq4_cmmt_ptr_offset: stq4_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq4_cmmt_ptr_d ) ,
. dout ( stq4_cmmt_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq5_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq4_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq5_cmmt_ptr_offset: stq5_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq5_cmmt_ptr_offset: stq5_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq5_cmmt_ptr_d ) ,
. dout ( stq5_cmmt_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq6_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq5_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq6_cmmt_ptr_offset: stq6_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq6_cmmt_ptr_offset: stq6_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq6_cmmt_ptr_d ) ,
. dout ( stq6_cmmt_ptr_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq7_cmmt_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq6_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq7_cmmt_ptr_offset: stq7_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq7_cmmt_ptr_offset: stq7_cmmt_ptr_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq7_cmmt_ptr_d ) ,
. dout ( stq7_cmmt_ptr_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_cmmt_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_cmmt_val_offset ] ) ,
. scout ( sov [ stq2_cmmt_val_offset ] ) ,
. din ( stq1_cmmt_val ) ,
. dout ( stq2_cmmt_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq3_cmmt_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq3_cmmt_val_offset ] ) ,
. scout ( sov [ stq3_cmmt_val_offset ] ) ,
. din ( stq2_cmmt_val ) ,
. dout ( stq3_cmmt_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq4_cmmt_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq4_cmmt_val_offset ] ) ,
. scout ( sov [ stq4_cmmt_val_offset ] ) ,
. din ( stq3_cmmt_val_q ) ,
. dout ( stq4_cmmt_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq5_cmmt_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq5_cmmt_val_offset ] ) ,
. scout ( sov [ stq5_cmmt_val_offset ] ) ,
. din ( stq4_cmmt_val_q ) ,
. dout ( stq5_cmmt_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq6_cmmt_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq6_cmmt_val_offset ] ) ,
. scout ( sov [ stq6_cmmt_val_offset ] ) ,
. din ( stq5_cmmt_val_q ) ,
. dout ( stq6_cmmt_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq7_cmmt_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq7_cmmt_val_offset ] ) ,
. scout ( sov [ stq7_cmmt_val_offset ] ) ,
. din ( stq6_cmmt_val_q ) ,
. dout ( stq7_cmmt_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_v_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_v_offset: ext_ack_queue_v_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ext_ack_queue_v_offset: ext_ack_queue_v_offset + `THREADS - 1 ] ) ,
. din ( ext_ack_queue_v_d ) ,
. dout ( ext_ack_queue_v_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_sync_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_sync_offset: ext_ack_queue_sync_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ext_ack_queue_sync_offset: ext_ack_queue_sync_offset + `THREADS - 1 ] ) ,
. din ( ext_ack_queue_sync_d ) ,
. dout ( ext_ack_queue_sync_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_stcx_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_stcx_offset: ext_ack_queue_stcx_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ext_ack_queue_stcx_offset: ext_ack_queue_stcx_offset + `THREADS - 1 ] ) ,
. din ( ext_ack_queue_stcx_d ) ,
. dout ( ext_ack_queue_stcx_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_icswxr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_icswxr_offset: ext_ack_queue_icswxr_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ext_ack_queue_icswxr_offset: ext_ack_queue_icswxr_offset + `THREADS - 1 ] ) ,
. din ( ext_ack_queue_icswxr_d ) ,
. dout ( ext_ack_queue_icswxr_q )
) ;
generate
begin : xhdl53
genvar i ;
for ( i = 0 ; i < = `THREADS - 1 ; i = i + 1 )
begin : ext_ack_queue_itag_latch_gen
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_itag_offset + `ITAG_SIZE_ENC * i: ext_ack_queue_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ ext_ack_queue_itag_offset + `ITAG_SIZE_ENC * i: ext_ack_queue_itag_offset + `ITAG_SIZE_ENC * ( i + 1 ) - 1 ] ) ,
. din ( ext_ack_queue_itag_d [ i ] ) ,
. dout ( ext_ack_queue_itag_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl54
genvar i ;
for ( i = 0 ; i < = `THREADS - 1 ; i = i + 1 )
begin : ext_ack_queue_cr_wa_latch_gen
tri_rlmreg_p # ( . WIDTH ( `CR_POOL_ENC + `THREADS_POOL_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_cr_wa_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC ) * i: ext_ack_queue_cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC ) * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ ext_ack_queue_cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC ) * i: ext_ack_queue_cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC ) * ( i + 1 ) - 1 ] ) ,
. din ( ext_ack_queue_cr_wa_d [ i ] ) ,
. dout ( ext_ack_queue_cr_wa_q [ i ] )
) ;
end
end
endgenerate
generate
begin : xhdl55
genvar i ;
for ( i = 0 ; i < = `THREADS - 1 ; i = i + 1 )
begin : ext_ack_queue_dacrw_det_latch_gen
tri_rlmreg_p # ( . WIDTH ( 4 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_dacrw_det_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_dacrw_det_offset + 4 * i: ext_ack_queue_dacrw_det_offset + 4 * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ ext_ack_queue_dacrw_det_offset + 4 * i: ext_ack_queue_dacrw_det_offset + 4 * ( i + 1 ) - 1 ] ) ,
. din ( ext_ack_queue_dacrw_det_d [ i ] ) ,
. dout ( ext_ack_queue_dacrw_det_q [ i ] )
) ;
end
end
endgenerate
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ext_ack_queue_dacrw_rpt_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ext_ack_queue_dacrw_rpt_offset: ext_ack_queue_dacrw_rpt_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ext_ack_queue_dacrw_rpt_offset: ext_ack_queue_dacrw_rpt_offset + `THREADS - 1 ] ) ,
. din ( ext_ack_queue_dacrw_rpt_d ) ,
. dout ( ext_ack_queue_dacrw_rpt_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq2_mftgpr_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_mftgpr_val_offset ] ) ,
. scout ( sov [ stq2_mftgpr_val_offset ] ) ,
. din ( stq2_mftgpr_val_d ) ,
. dout ( stq2_mftgpr_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( 3 ) , . INIT ( 6 ) , . NEEDS_SRESET ( 1 ) ) stq2_rtry_cnt_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq2_rtry_cnt_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq2_rtry_cnt_offset: stq2_rtry_cnt_offset + 3 - 1 ] ) ,
. scout ( sov [ stq2_rtry_cnt_offset: stq2_rtry_cnt_offset + 3 - 1 ] ) ,
. din ( stq2_rtry_cnt_d ) ,
. dout ( stq2_rtry_cnt_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_stq_restart_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_stq_restart_offset ] ) ,
. scout ( sov [ ex5_stq_restart_offset ] ) ,
. din ( ex5_stq_restart_d ) ,
. dout ( ex5_stq_restart_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_stq_restart_miss_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_stq_restart_miss_offset ] ) ,
. scout ( sov [ ex5_stq_restart_miss_offset ] ) ,
. din ( ex5_stq_restart_miss_d ) ,
. dout ( ex5_stq_restart_miss_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( `STQ_FWD_ENTRIES - 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq_fwd_pri_mask_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq_fwd_pri_mask_offset: stq_fwd_pri_mask_offset + ( `STQ_FWD_ENTRIES - 1 ) - 1 ] ) ,
. scout ( sov [ stq_fwd_pri_mask_offset: stq_fwd_pri_mask_offset + ( `STQ_FWD_ENTRIES - 1 ) - 1 ] ) ,
. din ( stq_fwd_pri_mask_d ) ,
. dout ( stq_fwd_pri_mask_q [ 0 : `STQ_FWD_ENTRIES - 2 ] )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_fwd_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_fwd_val_offset ] ) ,
. scout ( sov [ ex5_fwd_val_offset ] ) ,
. din ( ex5_fwd_val_d ) ,
. dout ( ex5_fwd_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( `STQ_DATA_SIZE ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_fwd_data_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex4_ldreq_valid ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_fwd_data_offset: ex5_fwd_data_offset + `STQ_DATA_SIZE - 1 ] ) ,
. scout ( sov [ ex5_fwd_data_offset: ex5_fwd_data_offset + `STQ_DATA_SIZE - 1 ] ) ,
. din ( ex5_fwd_data_d ) ,
. dout ( ex5_fwd_data_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_set_stq_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_set_stq_offset: ex4_set_stq_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex4_set_stq_offset: ex4_set_stq_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex3_set_stq ) ,
. dout ( ex4_set_stq_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_set_stq_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_set_stq_offset: ex5_set_stq_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex5_set_stq_offset: ex5_set_stq_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex4_set_stq [ 0 : `STQ_ENTRIES - 1 ] ) ,
. dout ( ex5_set_stq_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_ldreq_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_ldreq_val_offset: ex4_ldreq_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex4_ldreq_val_offset: ex4_ldreq_val_offset + `THREADS - 1 ] ) ,
. din ( ex3_ldreq_val ) ,
. dout ( ex4_ldreq_val_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_pfetch_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_pfetch_val_offset ] ) ,
. scout ( sov [ ex4_pfetch_val_offset ] ) ,
. din ( ex3_pfetch_val ) ,
. dout ( ex4_pfetch_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_streq_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_streq_val_offset: ex3_streq_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex3_streq_val_offset: ex3_streq_val_offset + `THREADS - 1 ] ) ,
. din ( ex2_streq_val ) ,
. dout ( ex3_streq_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_streq_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_streq_val_offset: ex5_streq_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex5_streq_val_offset: ex5_streq_val_offset + `THREADS - 1 ] ) ,
. din ( ex4_streq_val ) ,
. dout ( ex5_streq_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_wchkall_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_wchkall_val_offset: ex4_wchkall_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex4_wchkall_val_offset: ex4_wchkall_val_offset + `THREADS - 1 ] ) ,
. din ( ex3_wchkall_val ) ,
. dout ( ex4_wchkall_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) hwsync_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ hwsync_ack_offset: hwsync_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ hwsync_ack_offset: hwsync_ack_offset + `THREADS - 1 ] ) ,
. din ( hwsync_ack ) ,
. dout ( hwsync_ack_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) lwsync_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ lwsync_ack_offset: lwsync_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ lwsync_ack_offset: lwsync_ack_offset + `THREADS - 1 ] ) ,
. din ( lwsync_ack ) ,
. dout ( lwsync_ack_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icswxr_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icswxr_ack_offset ] ) ,
. scout ( sov [ icswxr_ack_offset ] ) ,
. din ( icswxr_ack ) ,
. dout ( icswxr_ack_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icswxr_ack_dly1_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icswxr_ack_dly1_offset ] ) ,
. scout ( sov [ icswxr_ack_dly1_offset ] ) ,
. din ( icswxr_ack_q ) ,
. dout ( icswxr_ack_dly1_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) local_instr_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ local_instr_ack_offset: local_instr_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ local_instr_ack_offset: local_instr_ack_offset + `THREADS - 1 ] ) ,
. din ( local_instr_ack ) ,
. dout ( local_instr_ack_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) resv_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ resv_ack_offset: resv_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ resv_ack_offset: resv_ack_offset + `THREADS - 1 ] ) ,
. din ( resv_ack_d ) ,
. dout ( resv_ack_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stcx_pass_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stcx_pass_offset: stcx_pass_offset + `THREADS - 1 ] ) ,
. scout ( sov [ stcx_pass_offset: stcx_pass_offset + `THREADS - 1 ] ) ,
. din ( stcx_pass ) ,
. dout ( stcx_pass_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icbi_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icbi_ack_offset: icbi_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ icbi_ack_offset: icbi_ack_offset + `THREADS - 1 ] ) ,
. din ( icbi_ack ) ,
. dout ( icbi_ack_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icbi_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icbi_val_offset: icbi_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ icbi_val_offset: icbi_val_offset + `THREADS - 1 ] ) ,
. din ( icbi_val_d ) ,
. dout ( icbi_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( 57 - RI + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icbi_addr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq2_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icbi_addr_offset: icbi_addr_offset + ( 57 - RI + 1 ) - 1 ] ) ,
. scout ( sov [ icbi_addr_offset: icbi_addr_offset + ( 57 - RI + 1 ) - 1 ] ) ,
. din ( icbi_addr_d ) ,
. dout ( icbi_addr_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ici_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ici_val_offset ] ) ,
. scout ( sov [ ici_val_offset ] ) ,
. din ( ici_val_d ) ,
. dout ( ici_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) credit_free_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ credit_free_offset: credit_free_offset + `THREADS - 1 ] ) ,
. scout ( sov [ credit_free_offset: credit_free_offset + `THREADS - 1 ] ) ,
. din ( credit_free_d ) ,
. dout ( credit_free_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_fwd_agecmp_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_fwd_agecmp_offset: ex4_fwd_agecmp_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex4_fwd_agecmp_offset: ex4_fwd_agecmp_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex4_fwd_agecmp_d ) ,
. dout ( ex4_fwd_agecmp_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_req_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_req_itag_offset: ex3_req_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex3_req_itag_offset: ex3_req_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( ctl_lsq_ex2_itag ) ,
. dout ( ex3_req_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_req_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_req_itag_offset: ex4_req_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex4_req_itag_offset: ex4_req_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( ex3_req_itag_q ) ,
. dout ( ex4_req_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( 16 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_req_byte_en_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_req_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_req_byte_en_offset: ex4_req_byte_en_offset + 16 - 1 ] ) ,
. scout ( sov [ ex4_req_byte_en_offset: ex4_req_byte_en_offset + 16 - 1 ] ) ,
. din ( ctl_lsq_ex3_byte_en ) ,
. dout ( ex4_req_byte_en_q )
) ;
tri_rlmreg_p # ( . WIDTH ( 6 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_req_p_addr_l_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_req_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_req_p_addr_l_offset: ex4_req_p_addr_l_offset + 6 - 1 ] ) ,
. scout ( sov [ ex4_req_p_addr_l_offset: ex4_req_p_addr_l_offset + 6 - 1 ] ) ,
. din ( ctl_lsq_ex3_p_addr ) ,
. dout ( ex4_req_p_addr_l_q )
) ;
tri_rlmreg_p # ( . WIDTH ( 3 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_req_opsize_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_req_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_req_opsize_offset: ex4_req_opsize_offset + 3 - 1 ] ) ,
. scout ( sov [ ex4_req_opsize_offset: ex4_req_opsize_offset + 3 - 1 ] ) ,
. din ( ctl_lsq_ex3_opsize ) ,
. dout ( ex4_req_opsize_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_req_algebraic_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_req_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_req_algebraic_offset ] ) ,
. scout ( sov [ ex4_req_algebraic_offset ] ) ,
. din ( ctl_lsq_ex3_algebraic ) ,
. dout ( ex4_req_algebraic_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_req_thrd_id_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_req_thrd_id_offset: ex3_req_thrd_id_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex3_req_thrd_id_offset: ex3_req_thrd_id_offset + `THREADS - 1 ] ) ,
. din ( ctl_lsq_ex2_thrd_id ) ,
. dout ( ex3_req_thrd_id_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_req_thrd_id_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_req_act ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_req_thrd_id_offset: ex4_req_thrd_id_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex4_req_thrd_id_offset: ex4_req_thrd_id_offset + `THREADS - 1 ] ) ,
. din ( ex3_req_thrd_id_q ) ,
. dout ( ex4_req_thrd_id_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_req_thrd_id_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_req_thrd_id_offset: ex5_req_thrd_id_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex5_req_thrd_id_offset: ex5_req_thrd_id_offset + `THREADS - 1 ] ) ,
. din ( ex4_req_thrd_id_q ) ,
. dout ( ex5_req_thrd_id_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) thrd_held_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ thrd_held_offset: thrd_held_offset + `THREADS - 1 ] ) ,
. scout ( sov [ thrd_held_offset: thrd_held_offset + `THREADS - 1 ] ) ,
. din ( thrd_held_d ) ,
. dout ( thrd_held_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv0_cr_hole_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv0_cr_hole_offset: rv0_cr_hole_offset + `THREADS - 1 ] ) ,
. scout ( sov [ rv0_cr_hole_offset: rv0_cr_hole_offset + `THREADS - 1 ] ) ,
. din ( rv0_cr_hole_d ) ,
. dout ( rv0_cr_hole_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) rv1_cr_hole_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ rv1_cr_hole_offset: rv1_cr_hole_offset + `THREADS - 1 ] ) ,
. scout ( sov [ rv1_cr_hole_offset: rv1_cr_hole_offset + `THREADS - 1 ] ) ,
. din ( rv1_cr_hole_d ) ,
. dout ( rv1_cr_hole_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex0_cr_hole_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex0_cr_hole_offset: ex0_cr_hole_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex0_cr_hole_offset: ex0_cr_hole_offset + `THREADS - 1 ] ) ,
. din ( ex0_cr_hole_d ) ,
. dout ( ex0_cr_hole_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cr_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cr_ack_offset: cr_ack_offset + `THREADS - 1 ] ) ,
. scout ( sov [ cr_ack_offset: cr_ack_offset + `THREADS - 1 ] ) ,
. din ( cr_ack_d ) ,
. dout ( cr_ack_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) sync_ack_save_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ sync_ack_save_offset ] ) ,
. scout ( sov [ sync_ack_save_offset ] ) ,
. din ( sync_ack_save_d ) ,
. dout ( sync_ack_save_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cr_we_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cr_we_offset ] ) ,
. scout ( sov [ cr_we_offset ] ) ,
. din ( cr_we_d ) ,
. dout ( cr_we_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( `CR_POOL_ENC + `THREADS_POOL_ENC - 1 + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cr_wa_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( cr_we_d ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cr_wa_offset: cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC - 1 + 1 ) - 1 ] ) ,
. scout ( sov [ cr_wa_offset: cr_wa_offset + ( `CR_POOL_ENC + `THREADS_POOL_ENC - 1 + 1 ) - 1 ] ) ,
. din ( cr_wa_d ) ,
. dout ( cr_wa_q )
) ;
tri_rlmreg_p # ( . WIDTH ( 4 ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) cr_wd_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( cr_we_d ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ cr_wd_offset: cr_wd_offset + 4 - 1 ] ) ,
. scout ( sov [ cr_wd_offset: cr_wd_offset + 4 - 1 ] ) ,
. din ( cr_wd_d ) ,
. dout ( cr_wd_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stcx_thrd_fail_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stcx_thrd_fail_offset: stcx_thrd_fail_offset + `THREADS - 1 ] ) ,
. scout ( sov [ stcx_thrd_fail_offset: stcx_thrd_fail_offset + `THREADS - 1 ] ) ,
. din ( stcx_thrd_fail_d ) ,
. dout ( stcx_thrd_fail_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icswxr_thrd_busy_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icswxr_thrd_busy_offset: icswxr_thrd_busy_offset + `THREADS - 1 ] ) ,
. scout ( sov [ icswxr_thrd_busy_offset: icswxr_thrd_busy_offset + `THREADS - 1 ] ) ,
. din ( icswxr_thrd_busy_d ) ,
. dout ( icswxr_thrd_busy_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) icswxr_thrd_nbusy_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ icswxr_thrd_nbusy_offset: icswxr_thrd_nbusy_offset + `THREADS - 1 ] ) ,
. scout ( sov [ icswxr_thrd_nbusy_offset: icswxr_thrd_nbusy_offset + `THREADS - 1 ] ) ,
. din ( icswxr_thrd_nbusy_d ) ,
. dout ( icswxr_thrd_nbusy_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq3_cmmt_attmpt_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq3_cmmt_attmpt_offset ] ) ,
. scout ( sov [ stq3_cmmt_attmpt_offset ] ) ,
. din ( stq3_cmmt_attmpt_d ) ,
. dout ( stq3_cmmt_attmpt_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq_need_hole_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq_need_hole_offset ] ) ,
. scout ( sov [ stq_need_hole_offset ] ) ,
. din ( stq_need_hole_d ) ,
. dout ( stq_need_hole_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) any_ack_hold_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ any_ack_hold_offset: any_ack_hold_offset + `THREADS - 1 ] ) ,
. scout ( sov [ any_ack_hold_offset: any_ack_hold_offset + `THREADS - 1 ] ) ,
. din ( any_ack_hold_d ) ,
. dout ( any_ack_hold_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) any_ack_val_ok_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ any_ack_val_ok_offset: any_ack_val_ok_offset + `THREADS - 1 ] ) ,
. scout ( sov [ any_ack_val_ok_offset: any_ack_val_ok_offset + `THREADS - 1 ] ) ,
. din ( any_ack_val_ok_d ) ,
. dout ( any_ack_val_ok_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) arb_release_itag_vld_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ arb_release_itag_vld_offset: arb_release_itag_vld_offset + `THREADS - 1 ] ) ,
. scout ( sov [ arb_release_itag_vld_offset: arb_release_itag_vld_offset + `THREADS - 1 ] ) ,
. din ( arb_release_itag_vld_d ) ,
. dout ( arb_release_itag_vld_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) spr_xucr0_cls_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ spr_xucr0_cls_offset ] ) ,
. scout ( sov [ spr_xucr0_cls_offset ] ) ,
. din ( spr_xucr0_cls_d ) ,
. dout ( spr_xucr0_cls_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) spr_iucr0_icbi_ack_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ spr_iucr0_icbi_ack_offset ] ) ,
. scout ( sov [ spr_iucr0_icbi_ack_offset ] ) ,
. din ( spr_iucr0_icbi_ack_d ) ,
. dout ( spr_iucr0_icbi_ack_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) spr_lsucr0_dfwd_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ spr_lsucr0_dfwd_offset ] ) ,
. scout ( sov [ spr_lsucr0_dfwd_offset ] ) ,
. din ( spr_lsucr0_dfwd_d ) ,
. dout ( spr_lsucr0_dfwd_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_thrd_match_restart_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_thrd_match_restart_offset ] ) ,
. scout ( sov [ ex5_thrd_match_restart_offset ] ) ,
. din ( ex5_thrd_match_restart_d ) ,
. dout ( ex5_thrd_match_restart_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex6_thrd_match_restart_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex6_thrd_match_restart_offset ] ) ,
. scout ( sov [ ex6_thrd_match_restart_offset ] ) ,
. din ( ex6_thrd_match_restart_d ) ,
. dout ( ex6_thrd_match_restart_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_thrd_nomatch_restart_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_thrd_nomatch_restart_offset ] ) ,
. scout ( sov [ ex5_thrd_nomatch_restart_offset ] ) ,
. din ( ex5_thrd_nomatch_restart_d ) ,
. dout ( ex5_thrd_nomatch_restart_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex6_thrd_nomatch_restart_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex6_thrd_nomatch_restart_offset ] ) ,
. scout ( sov [ ex6_thrd_nomatch_restart_offset ] ) ,
. din ( ex6_thrd_nomatch_restart_d ) ,
. dout ( ex6_thrd_nomatch_restart_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_older_ldmiss_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_older_ldmiss_offset: ex5_older_ldmiss_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex5_older_ldmiss_offset: ex5_older_ldmiss_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex5_older_ldmiss_d ) ,
. dout ( ex5_older_ldmiss_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_fxu1_illeg_lswx_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_fxu1_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_fxu1_illeg_lswx_offset ] ) ,
. scout ( sov [ ex4_fxu1_illeg_lswx_offset ] ) ,
. din ( ex4_fxu1_illeg_lswx_d ) ,
. dout ( ex4_fxu1_illeg_lswx_q )
) ;
tri_rlmlatch_p # ( . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_fxu1_strg_noop_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex3_fxu1_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_fxu1_strg_noop_offset ] ) ,
. scout ( sov [ ex4_fxu1_strg_noop_offset ] ) ,
. din ( ex4_fxu1_strg_noop_d ) ,
. dout ( ex4_fxu1_strg_noop_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_fxu1_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_fxu1_val_offset: ex3_fxu1_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex3_fxu1_val_offset: ex3_fxu1_val_offset + `THREADS - 1 ] ) ,
. din ( ex3_fxu1_val_d ) ,
. dout ( ex3_fxu1_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_fxu1_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex2_fxu1_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_fxu1_itag_offset: ex3_fxu1_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex3_fxu1_itag_offset: ex3_fxu1_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( ex3_fxu1_itag_d ) ,
. dout ( ex3_fxu1_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_fxu1_dvc1_cmp_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex2_fxu1_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_fxu1_dvc1_cmp_offset: ex3_fxu1_dvc1_cmp_offset + ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) - 1 ] ) ,
. scout ( sov [ ex3_fxu1_dvc1_cmp_offset: ex3_fxu1_dvc1_cmp_offset + ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) - 1 ] ) ,
. din ( ex3_fxu1_dvc1_cmp_d ) ,
. dout ( ex3_fxu1_dvc1_cmp_q )
) ;
tri_rlmreg_p # ( . WIDTH ( ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_fxu1_dvc2_cmp_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex2_fxu1_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_fxu1_dvc2_cmp_offset: ex3_fxu1_dvc2_cmp_offset + ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) - 1 ] ) ,
. scout ( sov [ ex3_fxu1_dvc2_cmp_offset: ex3_fxu1_dvc2_cmp_offset + ( ( ( 2 * * `GPR_WIDTH_ENC ) / 8 ) - 1 - 0 + 1 ) - 1 ] ) ,
. din ( ex3_fxu1_dvc2_cmp_d ) ,
. dout ( ex3_fxu1_dvc2_cmp_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_fxu1_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_fxu1_val_offset: ex4_fxu1_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex4_fxu1_val_offset: ex4_fxu1_val_offset + `THREADS - 1 ] ) ,
. din ( ex4_fxu1_val_d ) ,
. dout ( ex4_fxu1_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_axu_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_axu_val_offset: ex3_axu_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex3_axu_val_offset: ex3_axu_val_offset + `THREADS - 1 ] ) ,
. din ( ex3_axu_val_d ) ,
. dout ( ex3_axu_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `ITAG_SIZE_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_axu_itag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( ex2_axu_val ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_axu_itag_offset: ex3_axu_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. scout ( sov [ ex3_axu_itag_offset: ex3_axu_itag_offset + `ITAG_SIZE_ENC - 1 ] ) ,
. din ( ex3_axu_itag_d ) ,
. dout ( ex3_axu_itag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex4_axu_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex4_axu_val_offset: ex4_axu_val_offset + `THREADS - 1 ] ) ,
. scout ( sov [ ex4_axu_val_offset: ex4_axu_val_offset + `THREADS - 1 ] ) ,
. din ( ex4_axu_val_d ) ,
. dout ( ex4_axu_val_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_qHit_set_oth_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_qHit_set_oth_offset: ex5_qHit_set_oth_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex5_qHit_set_oth_offset: ex5_qHit_set_oth_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex5_qHit_set_oth_d ) ,
. dout ( ex5_qHit_set_oth_q [ 0 : `STQ_ENTRIES - 1 ] )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex5_qHit_set_miss_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex5_qHit_set_miss_offset: ex5_qHit_set_miss_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex5_qHit_set_miss_offset: ex5_qHit_set_miss_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex5_qHit_set_miss_d ) ,
. dout ( ex5_qHit_set_miss_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) ex3_nxt_oldest_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ ex3_nxt_oldest_offset: ex3_nxt_oldest_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ ex3_nxt_oldest_offset: ex3_nxt_oldest_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( ex3_nxt_oldest_d ) ,
. dout ( ex3_nxt_oldest_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq_tag_val_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq_tag_val_offset: stq_tag_val_offset + `STQ_ENTRIES - 1 ] ) ,
. scout ( sov [ stq_tag_val_offset: stq_tag_val_offset + `STQ_ENTRIES - 1 ] ) ,
. din ( stq_tag_val_d ) ,
. dout ( stq_tag_val_q )
) ;
generate
begin : xhdl56
genvar i ;
for ( i = 0 ; i < = `STQ_ENTRIES - 1 ; i = i + 1 )
begin : stq_tag_ptr_latch_gen
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq_tag_ptr_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq_tag_act [ i ] ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq_tag_ptr_offset + `STQ_ENTRIES * i: stq_tag_ptr_offset + `STQ_ENTRIES * ( i + 1 ) - 1 ] ) ,
. scout ( sov [ stq_tag_ptr_offset + `STQ_ENTRIES * i: stq_tag_ptr_offset + `STQ_ENTRIES * ( i + 1 ) - 1 ] ) ,
. din ( stq_tag_ptr_d [ i ] ) ,
. dout ( stq_tag_ptr_q [ i ] )
) ;
end
end
endgenerate
tri_rlmreg_p # ( . WIDTH ( `STQ_ENTRIES_ENC ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) stq4_cmmt_tag_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( stq3_cmmt_val_q ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ stq4_cmmt_tag_offset: stq4_cmmt_tag_offset + `STQ_ENTRIES_ENC - 1 ] ) ,
. scout ( sov [ stq4_cmmt_tag_offset: stq4_cmmt_tag_offset + `STQ_ENTRIES_ENC - 1 ] ) ,
. din ( stq4_cmmt_tag_d ) ,
. dout ( stq4_cmmt_tag_q )
) ;
tri_rlmreg_p # ( . WIDTH ( `THREADS ) , . INIT ( 0 ) , . NEEDS_SRESET ( 1 ) ) dbg_int_en_latch (
. nclk ( nclk ) ,
. vd ( vdd ) ,
. gd ( gnd ) ,
. act ( tiup ) ,
. force_t ( func_sl_force ) ,
. d_mode ( d_mode_dc ) ,
. delay_lclkr ( delay_lclkr_dc ) ,
. mpw1_b ( mpw1_dc_b ) ,
. mpw2_b ( mpw2_dc_b ) ,
. thold_b ( func_sl_thold_0_b ) ,
. sg ( sg_0 ) ,
. scin ( siv [ dbg_int_en_offset: dbg_int_en_offset + `THREADS - 1 ] ) ,
. scout ( sov [ dbg_int_en_offset: dbg_int_en_offset + `THREADS - 1 ] ) ,
. din ( dbg_int_en_d ) ,
. dout ( dbg_int_en_q )
) ;
assign siv [ 0 : scan_right - 1 ] = { sov [ 1 : scan_right - 1 ] , scan_in } ;
assign scan_out = sov [ 0 ] ;
endmodule