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// SPDX-License-Identifier: Apache-2.0
// Copyright 2019 Western Digital Corporation or its affiliates.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// 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.
//********************************************************************************
// $Id$
//
//
// Owner:
// Function: LSU control
// Comments:
//
//
// DC1 -> DC2 -> DC3 -> DC4 (Commit)
//
//********************************************************************************
module lsu_lsc_ctl
import swerv_types::* ;
(
input logic rst_l ,
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input logic clk ,
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// clocks per pipe
input logic lsu_c1_dc4_clk ,
input logic lsu_c1_dc5_clk ,
input logic lsu_c2_dc4_clk ,
input logic lsu_c2_dc5_clk ,
// freez clocks per pipe
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input logic lsu_freeze_c1_dc1_clken ,
input logic lsu_freeze_c1_dc2_clken ,
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input logic lsu_freeze_c1_dc2_clk ,
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input logic lsu_freeze_c1_dc3_clken ,
input logic lsu_freeze_c1_dc3_clk ,
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input logic lsu_freeze_c2_dc1_clk ,
input logic lsu_freeze_c2_dc2_clk ,
input logic lsu_freeze_c2_dc3_clk ,
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input logic lsu_store_c1_dc1_clken ,
input logic lsu_store_c1_dc2_clken ,
input logic lsu_store_c1_dc3_clken ,
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input logic lsu_store_c1_dc4_clk ,
input logic lsu_store_c1_dc5_clk ,
input logic [ 31 : 0 ] i0_result_e4_eff ,
input logic [ 31 : 0 ] i1_result_e4_eff ,
input logic [ 31 : 0 ] i0_result_e2 ,
input logic ld_bus_error_dc3 ,
input logic [ 31 : 0 ] ld_bus_error_addr_dc3 ,
input logic lsu_single_ecc_error_dc3 ,
input logic lsu_double_ecc_error_dc3 ,
input logic lsu_freeze_dc3 ,
input logic lsu_i0_valid_dc3 ,
input logic flush_dc2_up ,
input logic flush_dc3 ,
input logic flush_dc4 ,
input logic flush_dc5 ,
input logic [ 31 : 0 ] exu_lsu_rs1_d , // address
input logic [ 31 : 0 ] exu_lsu_rs2_d , // store data
input lsu_pkt_t lsu_p , // lsu control packet
input logic [ 11 : 0 ] dec_lsu_offset_d ,
input logic [ 31 : 0 ] picm_mask_data_dc3 ,
input logic [ 31 : 0 ] lsu_ld_data_dc3 ,
input logic [ 31 : 0 ] lsu_ld_data_corr_dc3 ,
input logic [ 31 : 0 ] bus_read_data_dc3 ,
output logic [ 31 : 0 ] lsu_result_dc3 ,
output logic [ 31 : 0 ] lsu_result_corr_dc4 , // This is the ECC corrected data going to RF
// lsu address down the pipe
output logic [ 31 : 0 ] lsu_addr_dc1 ,
output logic [ 31 : 0 ] lsu_addr_dc2 ,
output logic [ 31 : 0 ] lsu_addr_dc3 ,
output logic [ 31 : 0 ] lsu_addr_dc4 ,
output logic [ 31 : 0 ] lsu_addr_dc5 ,
// lsu address down the pipe - needed to check unaligned
output logic [ 31 : 0 ] end_addr_dc1 ,
output logic [ 31 : 0 ] end_addr_dc2 ,
output logic [ 31 : 0 ] end_addr_dc3 ,
output logic [ 31 : 0 ] end_addr_dc4 ,
output logic [ 31 : 0 ] end_addr_dc5 ,
// store data down the pipe
output logic [ 63 : 0 ] store_data_dc2 ,
output logic [ 63 : 0 ] store_data_dc3 ,
output logic [ 31 : 0 ] store_data_dc4 ,
output logic [ 31 : 0 ] store_data_dc5 ,
input logic [ 31 : 0 ] dec_tlu_mrac_ff ,
output logic lsu_exc_dc2 ,
output lsu_error_pkt_t lsu_error_pkt_dc3 ,
output logic lsu_freeze_external_ints_dc3 ,
output logic is_sideeffects_dc2 ,
output logic is_sideeffects_dc3 ,
output logic lsu_commit_dc5 ,
// address in dccm/pic/external per pipe stage
output logic addr_in_dccm_dc1 ,
output logic addr_in_dccm_dc2 ,
output logic addr_in_dccm_dc3 ,
output logic addr_in_pic_dc1 ,
output logic addr_in_pic_dc2 ,
output logic addr_in_pic_dc3 ,
output logic addr_external_dc2 ,
output logic addr_external_dc3 ,
output logic addr_external_dc4 ,
output logic addr_external_dc5 ,
// DMA slave
input logic dma_dccm_req ,
input logic [ 31 : 0 ] dma_mem_addr ,
input logic [ 2 : 0 ] dma_mem_sz ,
input logic dma_mem_write ,
input logic [ 63 : 0 ] dma_mem_wdata ,
// Store buffer related signals
output lsu_pkt_t lsu_pkt_dc1 ,
output lsu_pkt_t lsu_pkt_dc2 ,
output lsu_pkt_t lsu_pkt_dc3 ,
output lsu_pkt_t lsu_pkt_dc4 ,
output lsu_pkt_t lsu_pkt_dc5 ,
input logic scan_mode
) ;
`include " global.h "
logic [ 31 : 0 ] full_addr_dc1 ;
logic [ 31 : 0 ] full_end_addr_dc1 ;
logic [ 31 : 0 ] lsu_rs1_d ;
logic [ 11 : 0 ] lsu_offset_d ;
logic [ 31 : 0 ] rs1_dc1 ;
logic [ 11 : 0 ] offset_dc1 ;
logic [ 12 : 0 ] end_addr_offset_dc1 ;
logic [ 31 : 0 ] lsu_ld_datafn_dc3 ;
logic [ 31 : 0 ] lsu_ld_datafn_corr_dc3 ;
logic [ 31 : 0 ] lsu_result_corr_dc3 ;
logic [ 2 : 0 ] addr_offset_dc1 ;
logic [ 63 : 0 ] dma_mem_wdata_shifted ;
logic addr_external_dc1 ;
logic access_fault_dc1 , misaligned_fault_dc1 ;
logic access_fault_dc2 , misaligned_fault_dc2 ;
logic access_fault_dc3 , misaligned_fault_dc3 ;
logic [ 63 : 0 ] store_data_d ;
logic [ 63 : 0 ] store_data_dc1 ;
logic [ 63 : 0 ] store_data_pre_dc2 ;
logic [ 63 : 0 ] store_data_pre_dc3 ;
logic [ 63 : 0 ] store_data_dc2_in ;
logic [ 31 : 0 ] rs1_dc1_raw ;
lsu_pkt_t dma_pkt_d ;
lsu_pkt_t lsu_pkt_dc1_in , lsu_pkt_dc2_in , lsu_pkt_dc3_in , lsu_pkt_dc4_in , lsu_pkt_dc5_in ;
// Premux the rs1/offset for dma
assign lsu_rs1_d [ 31 : 0 ] = dma_dccm_req ? dma_mem_addr [ 31 : 0 ] : exu_lsu_rs1_d [ 31 : 0 ] ;
assign lsu_offset_d [ 11 : 0 ] = dec_lsu_offset_d [ 11 : 0 ] & ~ { 12 { dma_dccm_req } } ;
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rvdffe # ( 32 ) rs1ff ( . * , . din ( lsu_rs1_d [ 31 : 0 ] ) , . dout ( rs1_dc1_raw [ 31 : 0 ] ) , . en ( lsu_freeze_c1_dc1_clken ) ) ;
rvdffe # ( 12 ) offsetff ( . * , . din ( lsu_offset_d [ 11 : 0 ] ) , . dout ( offset_dc1 [ 11 : 0 ] ) , . en ( lsu_freeze_c1_dc1_clken ) ) ;
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assign rs1_dc1 [ 31 : 0 ] = ( lsu_pkt_dc1 . load_ldst_bypass_c1 ) ? lsu_result_dc3 [ 31 : 0 ] : rs1_dc1_raw [ 31 : 0 ] ;
// generate the ls address
// need to refine this is memory is only 128KB
rvlsadder lsadder ( . rs1 ( rs1_dc1 [ 31 : 0 ] ) ,
. offset ( offset_dc1 [ 11 : 0 ] ) ,
. dout ( full_addr_dc1 [ 31 : 0 ] )
) ;
// Module to generate the memory map of the address
lsu_addrcheck addrcheck (
. start_addr_dc1 ( full_addr_dc1 [ 31 : 0 ] ) ,
. end_addr_dc1 ( full_end_addr_dc1 [ 31 : 0 ] ) ,
. *
) ;
// Calculate start/end address for load/store
assign addr_offset_dc1 [ 2 : 0 ] = ( { 3 { lsu_pkt_dc1 . half } } & 3 'b01 ) | ( { 3 { lsu_pkt_dc1 . word } } & 3 'b11 ) | ( { 3 { lsu_pkt_dc1 . dword } } & 3 'b111 ) ;
assign end_addr_offset_dc1 [ 12 : 0 ] = { offset_dc1 [ 11 ] , offset_dc1 [ 11 : 0 ] } + { 9 'b0 , addr_offset_dc1 [ 2 : 0 ] } ;
assign full_end_addr_dc1 [ 31 : 0 ] = rs1_dc1 [ 31 : 0 ] + { { 19 { end_addr_offset_dc1 [ 12 ] } } , end_addr_offset_dc1 [ 12 : 0 ] } ;
assign end_addr_dc1 [ 31 : 0 ] = full_end_addr_dc1 [ 31 : 0 ] ;
assign lsu_exc_dc2 = access_fault_dc2 | misaligned_fault_dc2 ;
assign lsu_freeze_external_ints_dc3 = lsu_freeze_dc3 & is_sideeffects_dc3 ;
// Generate exception packet
assign lsu_error_pkt_dc3 . exc_valid = ( access_fault_dc3 | misaligned_fault_dc3 | ld_bus_error_dc3 | lsu_double_ecc_error_dc3 ) & lsu_pkt_dc3 . valid & ~ lsu_pkt_dc3 . dma & ~ flush_dc3 ;
assign lsu_error_pkt_dc3 . single_ecc_error = lsu_single_ecc_error_dc3 ;
assign lsu_error_pkt_dc3 . inst_type = lsu_pkt_dc3 . store ;
assign lsu_error_pkt_dc3 . dma_valid = lsu_pkt_dc3 . dma ;
assign lsu_error_pkt_dc3 . inst_pipe = ~ lsu_i0_valid_dc3 ;
assign lsu_error_pkt_dc3 . exc_type = ~ misaligned_fault_dc3 ;
// assign lsu_error_pkt_dc3.addr[31:0] = (access_fault_dc3 | misaligned_fault_dc3) ? lsu_addr_dc3[31:0] : ld_bus_error_addr_dc3[31:0];
assign lsu_error_pkt_dc3 . addr [ 31 : 0 ] = lsu_addr_dc3 [ 31 : 0 ] ;
//Create DMA packet
assign dma_pkt_d . valid = dma_dccm_req ;
assign dma_pkt_d . dma = 1 'b1 ;
assign dma_pkt_d . unsign = '0 ;
assign dma_pkt_d . store = dma_mem_write ;
assign dma_pkt_d . load = ~ dma_mem_write ;
assign dma_pkt_d . by = ( dma_mem_sz [ 2 : 0 ] = = 3 'b0 ) ;
assign dma_pkt_d . half = ( dma_mem_sz [ 2 : 0 ] = = 3 'b1 ) ;
assign dma_pkt_d . word = ( dma_mem_sz [ 2 : 0 ] = = 3 'b10 ) ;
assign dma_pkt_d . dword = ( dma_mem_sz [ 2 : 0 ] = = 3 'b11 ) ;
assign dma_pkt_d . load_ldst_bypass_c1 = '0 ;
assign dma_pkt_d . store_data_bypass_c1 = '0 ;
assign dma_pkt_d . store_data_bypass_c2 = '0 ;
assign dma_pkt_d . store_data_bypass_i0_e2_c2 = '0 ;
assign dma_pkt_d . store_data_bypass_e4_c1 = '0 ;
assign dma_pkt_d . store_data_bypass_e4_c2 = '0 ;
assign dma_pkt_d . store_data_bypass_e4_c3 = '0 ;
always_comb begin
lsu_pkt_dc1_in = dma_dccm_req ? dma_pkt_d : lsu_p ;
lsu_pkt_dc2_in = lsu_pkt_dc1 ;
lsu_pkt_dc3_in = lsu_pkt_dc2 ;
lsu_pkt_dc4_in = lsu_pkt_dc3 ;
lsu_pkt_dc5_in = lsu_pkt_dc4 ;
lsu_pkt_dc1_in . valid = ( lsu_p . valid & ~ flush_dc2_up ) | dma_dccm_req ;
lsu_pkt_dc2_in . valid = lsu_pkt_dc1 . valid & ~ ( flush_dc2_up & ~ lsu_pkt_dc1 . dma ) ;
lsu_pkt_dc3_in . valid = lsu_pkt_dc2 . valid & ~ ( flush_dc2_up & ~ lsu_pkt_dc2 . dma ) ;
lsu_pkt_dc4_in . valid = lsu_pkt_dc3 . valid & ~ ( flush_dc3 & ~ lsu_pkt_dc3 . dma ) & ~ lsu_freeze_dc3 ;
lsu_pkt_dc5_in . valid = lsu_pkt_dc4 . valid & ~ ( flush_dc4 & ~ lsu_pkt_dc4 . dma ) ;
end
// C2 clock for valid and C1 for other bits of packet
rvdff # ( 1 ) lsu_pkt_vlddc1ff ( . * , . din ( lsu_pkt_dc1_in . valid ) , . dout ( lsu_pkt_dc1 . valid ) , . clk ( lsu_freeze_c2_dc1_clk ) ) ;
rvdff # ( 1 ) lsu_pkt_vlddc2ff ( . * , . din ( lsu_pkt_dc2_in . valid ) , . dout ( lsu_pkt_dc2 . valid ) , . clk ( lsu_freeze_c2_dc2_clk ) ) ;
rvdff # ( 1 ) lsu_pkt_vlddc3ff ( . * , . din ( lsu_pkt_dc3_in . valid ) , . dout ( lsu_pkt_dc3 . valid ) , . clk ( lsu_freeze_c2_dc3_clk ) ) ;
rvdff # ( 1 ) lsu_pkt_vlddc4ff ( . * , . din ( lsu_pkt_dc4_in . valid ) , . dout ( lsu_pkt_dc4 . valid ) , . clk ( lsu_c2_dc4_clk ) ) ;
rvdff # ( 1 ) lsu_pkt_vlddc5ff ( . * , . din ( lsu_pkt_dc5_in . valid ) , . dout ( lsu_pkt_dc5 . valid ) , . clk ( lsu_c2_dc5_clk ) ) ;
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rvdffe # ( $bits ( lsu_pkt_t ) - 1 ) lsu_pkt_dc1ff ( . * , . din ( lsu_pkt_dc1_in [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . dout ( lsu_pkt_dc1 [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . en ( lsu_freeze_c1_dc1_clken ) ) ;
rvdffe # ( $bits ( lsu_pkt_t ) - 1 ) lsu_pkt_dc2ff ( . * , . din ( lsu_pkt_dc2_in [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . dout ( lsu_pkt_dc2 [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . en ( lsu_freeze_c1_dc2_clken ) ) ;
rvdffe # ( $bits ( lsu_pkt_t ) - 1 ) lsu_pkt_dc3ff ( . * , . din ( lsu_pkt_dc3_in [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . dout ( lsu_pkt_dc3 [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . en ( lsu_freeze_c1_dc3_clken ) ) ;
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rvdff # ( $bits ( lsu_pkt_t ) - 1 ) lsu_pkt_dc4ff ( . * , . din ( lsu_pkt_dc4_in [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . dout ( lsu_pkt_dc4 [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . clk ( lsu_c1_dc4_clk ) ) ;
rvdff # ( $bits ( lsu_pkt_t ) - 1 ) lsu_pkt_dc5ff ( . * , . din ( lsu_pkt_dc5_in [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . dout ( lsu_pkt_dc5 [ $bits ( lsu_pkt_t ) - 1 : 1 ] ) , . clk ( lsu_c1_dc5_clk ) ) ;
assign lsu_ld_datafn_dc3 [ 31 : 0 ] = addr_external_dc3 ? bus_read_data_dc3 [ 31 : 0 ] : lsu_ld_data_dc3 [ 31 : 0 ] ;
assign lsu_ld_datafn_corr_dc3 [ 31 : 0 ] = addr_external_dc3 ? bus_read_data_dc3 [ 31 : 0 ] : lsu_ld_data_corr_dc3 [ 31 : 0 ] ;
// this result must look at prior stores and merge them in
assign lsu_result_dc3 [ 31 : 0 ] = ( { 32 { lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . by } } & { 24 'b0 , lsu_ld_datafn_dc3 [ 7 : 0 ] } ) |
( { 32 { lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . half } } & { 16 'b0 , lsu_ld_datafn_dc3 [ 15 : 0 ] } ) |
( { 32 { ~ lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . by } } & { { 24 { lsu_ld_datafn_dc3 [ 7 ] } } , lsu_ld_datafn_dc3 [ 7 : 0 ] } ) |
( { 32 { ~ lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . half } } & { { 16 { lsu_ld_datafn_dc3 [ 15 ] } } , lsu_ld_datafn_dc3 [ 15 : 0 ] } ) |
( { 32 { lsu_pkt_dc3 . word } } & lsu_ld_datafn_dc3 [ 31 : 0 ] ) ;
assign lsu_result_corr_dc3 [ 31 : 0 ] = ( { 32 { lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . by } } & { 24 'b0 , lsu_ld_datafn_corr_dc3 [ 7 : 0 ] } ) |
( { 32 { lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . half } } & { 16 'b0 , lsu_ld_datafn_corr_dc3 [ 15 : 0 ] } ) |
( { 32 { ~ lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . by } } & { { 24 { lsu_ld_datafn_corr_dc3 [ 7 ] } } , lsu_ld_datafn_corr_dc3 [ 7 : 0 ] } ) |
( { 32 { ~ lsu_pkt_dc3 . unsign & lsu_pkt_dc3 . half } } & { { 16 { lsu_ld_datafn_corr_dc3 [ 15 ] } } , lsu_ld_datafn_corr_dc3 [ 15 : 0 ] } ) |
( { 32 { lsu_pkt_dc3 . word } } & lsu_ld_datafn_corr_dc3 [ 31 : 0 ] ) ;
// absence load/store all 0's
assign lsu_addr_dc1 [ 31 : 0 ] = full_addr_dc1 [ 31 : 0 ] ;
// Interrupt as a flush source allows the WB to occur
assign lsu_commit_dc5 = lsu_pkt_dc5 . valid & ( lsu_pkt_dc5 . store | lsu_pkt_dc5 . load ) & ~ flush_dc5 & ~ lsu_pkt_dc5 . dma ;
assign dma_mem_wdata_shifted [ 63 : 0 ] = dma_mem_wdata [ 63 : 0 ] > > { dma_mem_addr [ 2 : 0 ] , 3 'b000 } ; // Shift the dma data to lower bits to make it consistent to lsu stores
assign store_data_d [ 63 : 0 ] = dma_dccm_req ? dma_mem_wdata_shifted [ 63 : 0 ] : { 32 'b0 , exu_lsu_rs2_d [ 31 : 0 ] } ;
assign store_data_dc2_in [ 63 : 32 ] = store_data_dc1 [ 63 : 32 ] ;
assign store_data_dc2_in [ 31 : 0 ] = ( lsu_pkt_dc1 . store_data_bypass_c1 ) ? lsu_result_dc3 [ 31 : 0 ] :
( lsu_pkt_dc1 . store_data_bypass_e4_c1 [ 1 ] ) ? i1_result_e4_eff [ 31 : 0 ] :
( lsu_pkt_dc1 . store_data_bypass_e4_c1 [ 0 ] ) ? i0_result_e4_eff [ 31 : 0 ] : store_data_dc1 [ 31 : 0 ] ;
assign store_data_dc2 [ 63 : 32 ] = store_data_pre_dc2 [ 63 : 32 ] ;
assign store_data_dc2 [ 31 : 0 ] = ( lsu_pkt_dc2 . store_data_bypass_i0_e2_c2 ) ? i0_result_e2 [ 31 : 0 ] :
( lsu_pkt_dc2 . store_data_bypass_c2 ) ? lsu_result_dc3 [ 31 : 0 ] :
( lsu_pkt_dc2 . store_data_bypass_e4_c2 [ 1 ] ) ? i1_result_e4_eff [ 31 : 0 ] :
( lsu_pkt_dc2 . store_data_bypass_e4_c2 [ 0 ] ) ? i0_result_e4_eff [ 31 : 0 ] : store_data_pre_dc2 [ 31 : 0 ] ;
assign store_data_dc3 [ 63 : 32 ] = store_data_pre_dc3 [ 63 : 32 ] ;
assign store_data_dc3 [ 31 : 0 ] = ( picm_mask_data_dc3 [ 31 : 0 ] | { 32 { ~ addr_in_pic_dc3 } } ) &
( ( lsu_pkt_dc3 . store_data_bypass_e4_c3 [ 1 ] ) ? i1_result_e4_eff [ 31 : 0 ] :
( lsu_pkt_dc3 . store_data_bypass_e4_c3 [ 0 ] ) ? i0_result_e4_eff [ 31 : 0 ] : store_data_pre_dc3 [ 31 : 0 ] ) ;
rvdff # ( 32 ) lsu_result_corr_dc4ff ( . * , . din ( lsu_result_corr_dc3 [ 31 : 0 ] ) , . dout ( lsu_result_corr_dc4 [ 31 : 0 ] ) , . clk ( lsu_c1_dc4_clk ) ) ;
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rvdffe # ( 64 ) sddc1ff ( . * , . din ( store_data_d [ 63 : 0 ] ) , . dout ( store_data_dc1 [ 63 : 0 ] ) , . en ( lsu_store_c1_dc1_clken ) ) ;
rvdffe # ( 64 ) sddc2ff ( . * , . din ( store_data_dc2_in [ 63 : 0 ] ) , . dout ( store_data_pre_dc2 [ 63 : 0 ] ) , . en ( lsu_store_c1_dc2_clken ) ) ;
rvdffe # ( 64 ) sddc3ff ( . * , . din ( store_data_dc2 [ 63 : 0 ] ) , . dout ( store_data_pre_dc3 [ 63 : 0 ] ) , . en ( ~ lsu_freeze_dc3 & lsu_store_c1_dc3_clken ) ) ;
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rvdff # ( 32 ) sddc4ff ( . * , . din ( store_data_dc3 [ 31 : 0 ] ) , . dout ( store_data_dc4 [ 31 : 0 ] ) , . clk ( lsu_store_c1_dc4_clk ) ) ;
rvdff # ( 32 ) sddc5ff ( . * , . din ( store_data_dc4 [ 31 : 0 ] ) , . dout ( store_data_dc5 [ 31 : 0 ] ) , . clk ( lsu_store_c1_dc5_clk ) ) ;
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rvdffe # ( 32 ) sadc2ff ( . * , . din ( lsu_addr_dc1 [ 31 : 0 ] ) , . dout ( lsu_addr_dc2 [ 31 : 0 ] ) , . en ( lsu_freeze_c1_dc2_clken ) ) ;
rvdffe # ( 32 ) sadc3ff ( . * , . din ( lsu_addr_dc2 [ 31 : 0 ] ) , . dout ( lsu_addr_dc3 [ 31 : 0 ] ) , . en ( lsu_freeze_c1_dc3_clken ) ) ;
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rvdff # ( 32 ) sadc4ff ( . * , . din ( lsu_addr_dc3 [ 31 : 0 ] ) , . dout ( lsu_addr_dc4 [ 31 : 0 ] ) , . clk ( lsu_c1_dc4_clk ) ) ;
rvdff # ( 32 ) sadc5ff ( . * , . din ( lsu_addr_dc4 [ 31 : 0 ] ) , . dout ( lsu_addr_dc5 [ 31 : 0 ] ) , . clk ( lsu_c1_dc5_clk ) ) ;
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rvdffe # ( 32 ) end_addr_dc2ff ( . * , . din ( end_addr_dc1 [ 31 : 0 ] ) , . dout ( end_addr_dc2 [ 31 : 0 ] ) , . en ( lsu_freeze_c1_dc2_clken ) ) ;
rvdffe # ( 32 ) end_addr_dc3ff ( . * , . din ( end_addr_dc2 [ 31 : 0 ] ) , . dout ( end_addr_dc3 [ 31 : 0 ] ) , . en ( lsu_freeze_c1_dc3_clken ) ) ;
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rvdff # ( 32 ) end_addr_dc4ff ( . * , . din ( end_addr_dc3 [ 31 : 0 ] ) , . dout ( end_addr_dc4 [ 31 : 0 ] ) , . clk ( lsu_c1_dc4_clk ) ) ;
rvdff # ( 32 ) end_addr_dc5ff ( . * , . din ( end_addr_dc4 [ 31 : 0 ] ) , . dout ( end_addr_dc5 [ 31 : 0 ] ) , . clk ( lsu_c1_dc5_clk ) ) ;
rvdff # ( 1 ) addr_in_dccm_dc2ff ( . din ( addr_in_dccm_dc1 ) , . dout ( addr_in_dccm_dc2 ) , . clk ( lsu_freeze_c1_dc2_clk ) , . * ) ;
rvdff # ( 1 ) addr_in_dccm_dc3ff ( . din ( addr_in_dccm_dc2 ) , . dout ( addr_in_dccm_dc3 ) , . clk ( lsu_freeze_c1_dc3_clk ) , . * ) ;
rvdff # ( 1 ) addr_in_pic_dc2ff ( . din ( addr_in_pic_dc1 ) , . dout ( addr_in_pic_dc2 ) , . clk ( lsu_freeze_c1_dc2_clk ) , . * ) ;
rvdff # ( 1 ) addr_in_pic_dc3ff ( . din ( addr_in_pic_dc2 ) , . dout ( addr_in_pic_dc3 ) , . clk ( lsu_freeze_c1_dc3_clk ) , . * ) ;
rvdff # ( 1 ) addr_external_dc2ff ( . din ( addr_external_dc1 ) , . dout ( addr_external_dc2 ) , . clk ( lsu_freeze_c1_dc2_clk ) , . * ) ;
rvdff # ( 1 ) addr_external_dc3ff ( . din ( addr_external_dc2 ) , . dout ( addr_external_dc3 ) , . clk ( lsu_freeze_c1_dc3_clk ) , . * ) ;
rvdff # ( 1 ) addr_external_dc4ff ( . din ( addr_external_dc3 ) , . dout ( addr_external_dc4 ) , . clk ( lsu_c1_dc4_clk ) , . * ) ;
rvdff # ( 1 ) addr_external_dc5ff ( . din ( addr_external_dc4 ) , . dout ( addr_external_dc5 ) , . clk ( lsu_c1_dc5_clk ) , . * ) ;
rvdff # ( 1 ) access_fault_dc2ff ( . din ( access_fault_dc1 ) , . dout ( access_fault_dc2 ) , . clk ( lsu_freeze_c1_dc2_clk ) , . * ) ;
rvdff # ( 1 ) access_fault_dc3ff ( . din ( access_fault_dc2 ) , . dout ( access_fault_dc3 ) , . clk ( lsu_freeze_c1_dc3_clk ) , . * ) ;
rvdff # ( 1 ) misaligned_fault_dc2ff ( . din ( misaligned_fault_dc1 ) , . dout ( misaligned_fault_dc2 ) , . clk ( lsu_freeze_c1_dc2_clk ) , . * ) ;
rvdff # ( 1 ) misaligned_fault_dc3ff ( . din ( misaligned_fault_dc2 ) , . dout ( misaligned_fault_dc3 ) , . clk ( lsu_freeze_c1_dc3_clk ) , . * ) ;
endmodule