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// SPDX-License-Identifier: Apache-2.0
// Copyright 2019 Western Digital Corporation or its affiliates.
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//
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// 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
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// 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.
//********************************************************************************
// $Id$
//
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//
// Owner:
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// Function: lsu interface with interface queue
// Comments:
//
//********************************************************************************
// Function to do 8 to 3 bit encoding
function automatic logic [ 2 : 0 ] f_Enc8to3 ;
input logic [ 7 : 0 ] Dec_value ;
logic [ 2 : 0 ] Enc_value ;
Enc_value [ 0 ] = Dec_value [ 1 ] | Dec_value [ 3 ] | Dec_value [ 5 ] | Dec_value [ 7 ] ;
Enc_value [ 1 ] = Dec_value [ 2 ] | Dec_value [ 3 ] | Dec_value [ 6 ] | Dec_value [ 7 ] ;
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Enc_value [ 2 ] = Dec_value [ 4 ] | Dec_value [ 5 ] | Dec_value [ 6 ] | Dec_value [ 7 ] ;
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return Enc_value [ 2 : 0 ] ;
endfunction // f_Enc8to3
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module lsu_bus_buffer
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import swerv_types::* ;
(
input logic clk ,
input logic rst_l ,
input logic scan_mode ,
input logic dec_tlu_non_blocking_disable , // disable non block
input logic dec_tlu_wb_coalescing_disable , // disable write buffer coalescing
input logic dec_tlu_ld_miss_byp_wb_disable , // disable ld miss bypass of the write buffer
input logic dec_tlu_sideeffect_posted_disable , // disable posted writes to sideeffect addr to the bus
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// various clocks needed for the bus reads and writes
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input logic lsu_c1_dc3_clk ,
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input logic lsu_c1_dc4_clk ,
input logic lsu_c1_dc5_clk ,
input logic lsu_c2_dc3_clk ,
input logic lsu_c2_dc4_clk ,
input logic lsu_c2_dc5_clk ,
input logic lsu_freeze_c1_dc2_clk ,
input logic lsu_freeze_c1_dc3_clk ,
input logic lsu_freeze_c2_dc2_clk ,
input logic lsu_freeze_c2_dc3_clk ,
input logic lsu_bus_ibuf_c1_clk ,
input logic lsu_bus_obuf_c1_clk ,
input logic lsu_bus_buf_c1_clk ,
input logic lsu_free_c2_clk ,
input logic lsu_busm_clk ,
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input lsu_pkt_t lsu_pkt_dc1 , // lsu packet flowing down the pipe
input lsu_pkt_t lsu_pkt_dc2 , // lsu packet flowing down the pipe
input lsu_pkt_t lsu_pkt_dc3 , // lsu packet flowing down the pipe
input lsu_pkt_t lsu_pkt_dc4 , // lsu packet flowing down the pipe
input lsu_pkt_t lsu_pkt_dc5 , // lsu packet flowing down the pipe
input logic [ 31 : 0 ] lsu_addr_dc2 , // lsu address flowing down the pipe
input logic [ 31 : 0 ] end_addr_dc2 , // lsu address flowing down the pipe
input logic [ 31 : 0 ] lsu_addr_dc5 , // lsu address flowing down the pipe
input logic [ 31 : 0 ] end_addr_dc5 , // lsu address flowing down the pipe
input logic [ 31 : 0 ] store_data_dc5 , // store data flowing down the pipe
input logic no_word_merge_dc5 , // dc5 store doesn't need to wait in ibuf since it will not coalesce
input logic no_dword_merge_dc5 , // dc5 store doesn't need to wait in ibuf since it will not coalesce
input logic lsu_busreq_dc2 , // bus request is in dc2
output logic lsu_busreq_dc3 , // bus request is in dc2
output logic lsu_busreq_dc4 , // bus request is in dc4
output logic lsu_busreq_dc5 , // bus request is in dc5
input logic ld_full_hit_dc2 , // load can get all its byte from a write buffer entry
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input logic flush_dc2_up , // flush
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input logic flush_dc3 , // flush
input logic flush_dc4 , // flush
input logic flush_dc5 , // flush
input logic lsu_freeze_dc3 ,
input logic dec_tlu_cancel_e4 , // cancel the bus load in dc4 and reset the freeze
input logic lsu_commit_dc5 , // lsu instruction in dc5 commits
input logic is_sideeffects_dc2 , // lsu attribute is side_effects
input logic is_sideeffects_dc5 , // lsu attribute is side_effects
input logic ldst_dual_dc1 , // load/store is unaligned at 32 bit boundary
input logic ldst_dual_dc2 , // load/store is unaligned at 32 bit boundary
input logic ldst_dual_dc3 , // load/store is unaligned at 32 bit boundary
input logic ldst_dual_dc4 , // load/store is unaligned at 32 bit boundary
input logic ldst_dual_dc5 , // load/store is unaligned at 32 bit boundary
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input logic [ 7 : 0 ] ldst_byteen_ext_dc2 ,
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output logic ld_freeze_dc3 , // load goes to external and asserts freeze
output logic lsu_bus_buffer_pend_any , // bus buffer has a pending bus entry
output logic lsu_bus_buffer_full_any , // bus buffer is full
output logic lsu_bus_buffer_empty_any , // bus buffer is empty
output logic ld_bus_error_dc3 , // bus error in dc3
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output logic [ 31 : 0 ] ld_bus_error_addr_dc3 , // address of the bus error
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output logic [ 31 : 0 ] ld_bus_data_dc3 , // the Dc3 load data from bus
output logic [ 3 : 0 ] ld_byte_hit_buf_lo , ld_byte_hit_buf_hi , // Byte enables for forwarding data
output logic [ 31 : 0 ] ld_fwddata_buf_lo , ld_fwddata_buf_hi , // load forwarding data
output logic lsu_imprecise_error_load_any , // imprecise load bus error
output logic lsu_imprecise_error_store_any , // imprecise store bus error
output logic [ 31 : 0 ] lsu_imprecise_error_addr_any , // address of the imprecise error
// Non-blocking loads
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input logic dec_nonblock_load_freeze_dc2 ,
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output logic lsu_nonblock_load_valid_dc3 , // there is an external load -> put in the cam
output logic [ `RV_LSU_NUM_NBLOAD_WIDTH - 1 : 0 ] lsu_nonblock_load_tag_dc3 , // the tag of the external non block load
output logic lsu_nonblock_load_inv_dc5 , // invalidate signal for the cam entry for non block loads
output logic [ `RV_LSU_NUM_NBLOAD_WIDTH - 1 : 0 ] lsu_nonblock_load_inv_tag_dc5 , // tag of the enrty which needs to be invalidated
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output logic lsu_nonblock_load_data_valid , // the non block is valid - sending information back to the cam
output logic lsu_nonblock_load_data_error , // non block load has an error
output logic [ `RV_LSU_NUM_NBLOAD_WIDTH - 1 : 0 ] lsu_nonblock_load_data_tag , // the tag of the non block load sending the data/error
output logic [ 31 : 0 ] lsu_nonblock_load_data , // Data of the non block load
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// PMU events
output logic lsu_pmu_bus_trxn ,
output logic lsu_pmu_bus_misaligned ,
output logic lsu_pmu_bus_error ,
output logic lsu_pmu_bus_busy ,
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// AXI Write Channels
output logic lsu_axi_awvalid ,
input logic lsu_axi_awready ,
output logic [ `RV_LSU_BUS_TAG - 1 : 0 ] lsu_axi_awid ,
output logic [ 31 : 0 ] lsu_axi_awaddr ,
output logic [ 3 : 0 ] lsu_axi_awregion ,
output logic [ 7 : 0 ] lsu_axi_awlen ,
output logic [ 2 : 0 ] lsu_axi_awsize ,
output logic [ 1 : 0 ] lsu_axi_awburst ,
output logic lsu_axi_awlock ,
output logic [ 3 : 0 ] lsu_axi_awcache ,
output logic [ 2 : 0 ] lsu_axi_awprot ,
output logic [ 3 : 0 ] lsu_axi_awqos ,
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output logic lsu_axi_wvalid ,
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input logic lsu_axi_wready ,
output logic [ 63 : 0 ] lsu_axi_wdata ,
output logic [ 7 : 0 ] lsu_axi_wstrb ,
output logic lsu_axi_wlast ,
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input logic lsu_axi_bvalid ,
output logic lsu_axi_bready ,
input logic [ 1 : 0 ] lsu_axi_bresp ,
input logic [ `RV_LSU_BUS_TAG - 1 : 0 ] lsu_axi_bid ,
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// AXI Read Channels
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output logic lsu_axi_arvalid ,
input logic lsu_axi_arready ,
output logic [ `RV_LSU_BUS_TAG - 1 : 0 ] lsu_axi_arid ,
output logic [ 31 : 0 ] lsu_axi_araddr ,
output logic [ 3 : 0 ] lsu_axi_arregion ,
output logic [ 7 : 0 ] lsu_axi_arlen ,
output logic [ 2 : 0 ] lsu_axi_arsize ,
output logic [ 1 : 0 ] lsu_axi_arburst ,
output logic lsu_axi_arlock ,
output logic [ 3 : 0 ] lsu_axi_arcache ,
output logic [ 2 : 0 ] lsu_axi_arprot ,
output logic [ 3 : 0 ] lsu_axi_arqos ,
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input logic lsu_axi_rvalid ,
output logic lsu_axi_rready ,
input logic [ `RV_LSU_BUS_TAG - 1 : 0 ] lsu_axi_rid ,
input logic [ 63 : 0 ] lsu_axi_rdata ,
input logic [ 1 : 0 ] lsu_axi_rresp ,
input logic lsu_axi_rlast ,
input logic lsu_bus_clk_en ,
input logic lsu_bus_clk_en_q
) ;
`include " global.h "
// For Ld: IDLE -> WAIT -> CMD -> RESP -> DONE -> IDLE
// For St: IDLE -> WAIT -> CMD -> RESP(?) -> IDLE
typedef enum logic [ 2 : 0 ] { IDLE = 3 'b000 , WAIT = 3 'b001 , CMD = 3 'b010 , RESP = 3 'b011 , DONE = 3 'b100 } state_t ;
localparam DEPTH = `RV_LSU_NUM_NBLOAD ;
localparam DEPTH_LOG2 = `RV_LSU_NUM_NBLOAD_WIDTH ;
localparam TIMER = 8 ; // This can be only power of 2
localparam TIMER_LOG2 = ( TIMER < 2 ) ? 1 : $clog2 ( TIMER ) ;
localparam TIMER_MAX = ( TIMER = = 0 ) ? TIMER_LOG2 ' ( 0 ) : TIMER_LOG2 ' ( TIMER - 1 ) ; // Maximum value of timer
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logic [ 3 : 0 ] ldst_byteen_hi_dc2 , ldst_byteen_lo_dc2 ;
logic [ DEPTH - 1 : 0 ] ld_addr_hitvec_lo , ld_addr_hitvec_hi ;
logic [ 3 : 0 ] [ DEPTH - 1 : 0 ] ld_byte_hitvec_lo , ld_byte_hitvec_hi ;
logic [ 3 : 0 ] [ DEPTH - 1 : 0 ] ld_byte_hitvecfn_lo , ld_byte_hitvecfn_hi ;
logic ld_addr_ibuf_hit_lo , ld_addr_ibuf_hit_hi ;
logic [ 3 : 0 ] ld_byte_ibuf_hit_lo , ld_byte_ibuf_hit_hi ;
logic [ 3 : 0 ] ldst_byteen_dc5 ;
logic [ 7 : 0 ] ldst_byteen_ext_dc5 ;
logic [ 3 : 0 ] ldst_byteen_hi_dc5 , ldst_byteen_lo_dc5 ;
logic [ 31 : 0 ] store_data_hi_dc5 , store_data_lo_dc5 ;
logic ldst_samedw_dc5 ;
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logic lsu_nonblock_load_valid_dc4 , lsu_nonblock_load_valid_dc5 ;
logic [ 31 : 0 ] lsu_nonblock_load_data_hi , lsu_nonblock_load_data_lo , lsu_nonblock_data_unalgn ;
logic [ 1 : 0 ] lsu_nonblock_addr_offset ;
logic [ 1 : 0 ] lsu_nonblock_sz ;
logic lsu_nonblock_load_data_valid_hi , lsu_nonblock_load_data_valid_lo ;
logic lsu_nonblock_load_data_error_hi , lsu_nonblock_load_data_error_lo ;
logic lsu_nonblock_unsign , lsu_nonblock_dual ;
logic dec_nonblock_load_freeze_dc3 ;
logic ld_precise_bus_error ;
logic [ DEPTH_LOG2 - 1 : 0 ] lsu_imprecise_error_load_tag ;
logic [ 31 : 0 ] ld_block_bus_data ;
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logic [ DEPTH - 1 : 0 ] CmdPtr0Dec , CmdPtr1Dec ;
logic [ DEPTH_LOG2 - 1 : 0 ] CmdPtr0 , CmdPtr1 ;
logic [ DEPTH_LOG2 - 1 : 0 ] WrPtr0_dc3 , WrPtr0_dc4 , WrPtr0_dc5 ;
logic [ DEPTH_LOG2 - 1 : 0 ] WrPtr1_dc3 , WrPtr1_dc4 , WrPtr1_dc5 ;
logic found_wrptr0 , found_wrptr1 , found_cmdptr0 , found_cmdptr1 ;
logic [ 3 : 0 ] buf_numvld_any , buf_numvld_wrcmd_any , buf_numvld_pend_any , buf_numvld_cmd_any ;
logic bus_sideeffect_pend ;
logic bus_coalescing_disable ;
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logic ld_freeze_en , ld_freeze_rst ;
logic FreezePtrEn ;
logic [ DEPTH_LOG2 - 1 : 0 ] FreezePtr ;
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logic [ DEPTH_LOG2 - 1 : 0 ] lsu_imprecise_error_store_tag ;
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logic bus_addr_match_pending ;
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logic bus_cmd_sent , bus_cmd_ready ;
logic bus_wcmd_sent , bus_wdata_sent ;
logic bus_rsp_read , bus_rsp_write ;
logic [ LSU_BUS_TAG - 1 : 0 ] bus_rsp_read_tag , bus_rsp_write_tag ;
logic bus_rsp_read_error , bus_rsp_write_error ;
logic [ 63 : 0 ] bus_rsp_rdata ;
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// Bus buffer signals
state_t [ DEPTH - 1 : 0 ] buf_state ;
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logic [ DEPTH - 1 : 0 ] [ 2 : 0 ] buf_state_out ;
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logic [ DEPTH - 1 : 0 ] [ 1 : 0 ] buf_sz ;
logic [ DEPTH - 1 : 0 ] [ 31 : 0 ] buf_addr ;
logic [ DEPTH - 1 : 0 ] [ 3 : 0 ] buf_byteen ;
logic [ DEPTH - 1 : 0 ] buf_sideeffect ;
logic [ DEPTH - 1 : 0 ] buf_write ;
logic [ DEPTH - 1 : 0 ] buf_unsign ;
logic [ DEPTH - 1 : 0 ] buf_dual ;
logic [ DEPTH - 1 : 0 ] buf_samedw ;
logic [ DEPTH - 1 : 0 ] buf_nomerge ;
logic [ DEPTH - 1 : 0 ] buf_dualhi ;
logic [ DEPTH - 1 : 0 ] [ DEPTH_LOG2 - 1 : 0 ] buf_dualtag ;
logic [ DEPTH - 1 : 0 ] buf_nb ;
logic [ DEPTH - 1 : 0 ] buf_error ;
logic [ DEPTH - 1 : 0 ] [ 31 : 0 ] buf_data ;
logic [ DEPTH - 1 : 0 ] [ DEPTH - 1 : 0 ] buf_age , buf_age_younger , buf_age_temp ;
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state_t [ DEPTH - 1 : 0 ] buf_nxtstate ;
logic [ DEPTH - 1 : 0 ] buf_rst ;
logic [ DEPTH - 1 : 0 ] buf_state_en ;
logic [ DEPTH - 1 : 0 ] buf_cmd_state_bus_en ;
logic [ DEPTH - 1 : 0 ] buf_resp_state_bus_en ;
logic [ DEPTH - 1 : 0 ] buf_state_bus_en ;
logic [ DEPTH - 1 : 0 ] buf_dual_in ;
logic [ DEPTH - 1 : 0 ] buf_samedw_in ;
logic [ DEPTH - 1 : 0 ] buf_nomerge_in ;
logic [ DEPTH - 1 : 0 ] buf_nb_in ;
logic [ DEPTH - 1 : 0 ] buf_sideeffect_in ;
logic [ DEPTH - 1 : 0 ] buf_unsign_in ;
logic [ DEPTH - 1 : 0 ] [ 1 : 0 ] buf_sz_in ;
logic [ DEPTH - 1 : 0 ] buf_write_in ;
logic [ DEPTH - 1 : 0 ] buf_wr_en ;
logic [ DEPTH - 1 : 0 ] buf_dualhi_in ;
logic [ DEPTH - 1 : 0 ] [ DEPTH_LOG2 - 1 : 0 ] buf_dualtag_in ;
logic [ DEPTH - 1 : 0 ] [ 3 : 0 ] buf_byteen_in ;
logic [ DEPTH - 1 : 0 ] [ 31 : 0 ] buf_addr_in ;
logic [ DEPTH - 1 : 0 ] [ 31 : 0 ] buf_data_in ;
logic [ DEPTH - 1 : 0 ] buf_error_en ;
logic [ DEPTH - 1 : 0 ] buf_data_en ;
logic [ DEPTH - 1 : 0 ] [ DEPTH - 1 : 0 ] buf_age_in ;
logic [ DEPTH - 1 : 0 ] [ DEPTH - 1 : 0 ] buf_ageQ ;
// Input buffer signals
logic ibuf_valid ;
logic ibuf_dual ;
logic ibuf_samedw ;
logic ibuf_nomerge ;
logic [ DEPTH_LOG2 - 1 : 0 ] ibuf_tag ;
logic [ DEPTH_LOG2 - 1 : 0 ] ibuf_dualtag ;
logic ibuf_nb ;
logic ibuf_sideeffect ;
logic ibuf_unsign ;
logic ibuf_write ;
logic [ 1 : 0 ] ibuf_sz ;
logic [ 3 : 0 ] ibuf_byteen ;
logic [ 31 : 0 ] ibuf_addr ;
logic [ 31 : 0 ] ibuf_data ;
logic [ TIMER_LOG2 - 1 : 0 ] ibuf_timer ;
logic ibuf_byp ;
logic ibuf_wr_en ;
logic ibuf_rst ;
logic ibuf_force_drain ;
logic ibuf_drain_vld ;
logic [ DEPTH - 1 : 0 ] ibuf_drainvec_vld ;
logic [ DEPTH_LOG2 - 1 : 0 ] ibuf_tag_in ;
logic [ DEPTH_LOG2 - 1 : 0 ] ibuf_dualtag_in ;
logic [ 1 : 0 ] ibuf_sz_in ;
logic [ 31 : 0 ] ibuf_addr_in ;
logic [ 3 : 0 ] ibuf_byteen_in ;
logic [ 31 : 0 ] ibuf_data_in ;
logic [ TIMER_LOG2 - 1 : 0 ] ibuf_timer_in ;
logic [ 3 : 0 ] ibuf_byteen_out ;
logic [ 31 : 0 ] ibuf_data_out ;
logic ibuf_merge_en , ibuf_merge_in ;
// Output buffer signals
logic obuf_valid ;
logic obuf_write ;
logic obuf_sideeffect ;
logic [ 31 : 0 ] obuf_addr ;
logic [ 63 : 0 ] obuf_data ;
logic [ 1 : 0 ] obuf_sz ;
logic [ 7 : 0 ] obuf_byteen ;
logic obuf_merge ;
logic obuf_cmd_done , obuf_data_done ;
logic [ LSU_BUS_TAG - 1 : 0 ] obuf_tag0 ;
logic [ LSU_BUS_TAG - 1 : 0 ] obuf_tag1 ;
logic ibuf_buf_byp ;
logic obuf_force_wr_en ;
logic obuf_wr_wait ;
logic obuf_wr_en , obuf_wr_enQ ;
logic obuf_rst ;
logic obuf_write_in ;
logic obuf_sideeffect_in ;
logic [ 31 : 0 ] obuf_addr_in ;
logic [ 63 : 0 ] obuf_data_in ;
logic [ 1 : 0 ] obuf_sz_in ;
logic [ 7 : 0 ] obuf_byteen_in ;
logic obuf_merge_in ;
logic obuf_cmd_done_in , obuf_data_done_in ;
logic [ LSU_BUS_TAG - 1 : 0 ] obuf_tag0_in ;
logic [ LSU_BUS_TAG - 1 : 0 ] obuf_tag1_in ;
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logic obuf_merge_en ;
logic [ TIMER_LOG2 - 1 : 0 ] obuf_wr_timer , obuf_wr_timer_in ;
logic [ 7 : 0 ] obuf_byteen0_in , obuf_byteen1_in ;
logic [ 63 : 0 ] obuf_data0_in , obuf_data1_in ;
logic lsu_axi_awvalid_q , lsu_axi_awready_q ;
logic lsu_axi_wvalid_q , lsu_axi_wready_q ;
logic lsu_axi_arvalid_q , lsu_axi_arready_q ;
logic lsu_axi_bvalid_q , lsu_axi_bready_q ;
logic lsu_axi_rvalid_q , lsu_axi_rready_q ;
logic [ LSU_BUS_TAG - 1 : 0 ] lsu_axi_bid_q , lsu_axi_rid_q ;
logic [ 1 : 0 ] lsu_axi_bresp_q , lsu_axi_rresp_q ;
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logic [ 63 : 0 ] lsu_axi_rdata_q ;
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//------------------------------------------------------------------------------
// Load forwarding logic start
//------------------------------------------------------------------------------
// Buffer hit logic for bus load forwarding
assign ldst_byteen_hi_dc2 [ 3 : 0 ] = ldst_byteen_ext_dc2 [ 7 : 4 ] ;
assign ldst_byteen_lo_dc2 [ 3 : 0 ] = ldst_byteen_ext_dc2 [ 3 : 0 ] ;
for ( genvar i = 0 ; i < DEPTH ; i + + ) begin
// We can't forward from RESP for ahb since multiple writes to the same address can be in RESP and we can't find out their age
assign ld_addr_hitvec_lo [ i ] = ( lsu_addr_dc2 [ 31 : 2 ] = = buf_addr [ i ] [ 31 : 2 ] ) & buf_write [ i ] & ( ( buf_state [ i ] = = WAIT ) | ( buf_state [ i ] = = CMD ) ) & lsu_busreq_dc2 ;
assign ld_addr_hitvec_hi [ i ] = ( end_addr_dc2 [ 31 : 2 ] = = buf_addr [ i ] [ 31 : 2 ] ) & buf_write [ i ] & ( ( buf_state [ i ] = = WAIT ) | ( buf_state [ i ] = = CMD ) ) & lsu_busreq_dc2 ;
end
for ( genvar j = 0 ; j < 4 ; j + + ) begin
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assign ld_byte_hit_buf_lo [ j ] = | ( ld_byte_hitvecfn_lo [ j ] ) | ld_byte_ibuf_hit_lo [ j ] ;
assign ld_byte_hit_buf_hi [ j ] = | ( ld_byte_hitvecfn_hi [ j ] ) | ld_byte_ibuf_hit_hi [ j ] ;
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for ( genvar i = 0 ; i < DEPTH ; i + + ) begin
assign ld_byte_hitvec_lo [ j ] [ i ] = ld_addr_hitvec_lo [ i ] & buf_byteen [ i ] [ j ] & ldst_byteen_lo_dc2 [ j ] ;
assign ld_byte_hitvec_hi [ j ] [ i ] = ld_addr_hitvec_hi [ i ] & buf_byteen [ i ] [ j ] & ldst_byteen_hi_dc2 [ j ] ;
assign ld_byte_hitvecfn_lo [ j ] [ i ] = ld_byte_hitvec_lo [ j ] [ i ] & ~ ( | ( ld_byte_hitvec_lo [ j ] & buf_age_younger [ i ] ) ) & ~ ld_byte_ibuf_hit_lo [ j ] ; // Kill the byte enable if younger entry exists or byte exists in ibuf
assign ld_byte_hitvecfn_hi [ j ] [ i ] = ld_byte_hitvec_hi [ j ] [ i ] & ~ ( | ( ld_byte_hitvec_hi [ j ] & buf_age_younger [ i ] ) ) & ~ ld_byte_ibuf_hit_hi [ j ] ; // Kill the byte enable if younger entry exists or byte exists in ibuf
end
end
// Hit in the ibuf
assign ld_addr_ibuf_hit_lo = ( lsu_addr_dc2 [ 31 : 2 ] = = ibuf_addr [ 31 : 2 ] ) & ibuf_write & ibuf_valid & lsu_busreq_dc2 ;
assign ld_addr_ibuf_hit_hi = ( end_addr_dc2 [ 31 : 2 ] = = ibuf_addr [ 31 : 2 ] ) & ibuf_write & ibuf_valid & lsu_busreq_dc2 ;
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for ( genvar i = 0 ; i < 4 ; i + + ) begin
assign ld_byte_ibuf_hit_lo [ i ] = ld_addr_ibuf_hit_lo & ibuf_byteen [ i ] & ldst_byteen_lo_dc2 [ i ] ;
assign ld_byte_ibuf_hit_hi [ i ] = ld_addr_ibuf_hit_hi & ibuf_byteen [ i ] & ldst_byteen_hi_dc2 [ i ] ;
end
always_comb begin
ld_fwddata_buf_lo [ 31 : 0 ] = { { 8 { ld_byte_ibuf_hit_lo [ 3 ] } } , { 8 { ld_byte_ibuf_hit_lo [ 2 ] } } , { 8 { ld_byte_ibuf_hit_lo [ 1 ] } } , { 8 { ld_byte_ibuf_hit_lo [ 0 ] } } } & ibuf_data [ 31 : 0 ] ;
ld_fwddata_buf_hi [ 31 : 0 ] = { { 8 { ld_byte_ibuf_hit_hi [ 3 ] } } , { 8 { ld_byte_ibuf_hit_hi [ 2 ] } } , { 8 { ld_byte_ibuf_hit_hi [ 1 ] } } , { 8 { ld_byte_ibuf_hit_hi [ 0 ] } } } & ibuf_data [ 31 : 0 ] ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
ld_fwddata_buf_lo [ 7 : 0 ] | = { 8 { ld_byte_hitvecfn_lo [ 0 ] [ i ] } } & buf_data [ i ] [ 7 : 0 ] ;
ld_fwddata_buf_lo [ 15 : 8 ] | = { 8 { ld_byte_hitvecfn_lo [ 1 ] [ i ] } } & buf_data [ i ] [ 15 : 8 ] ;
ld_fwddata_buf_lo [ 23 : 16 ] | = { 8 { ld_byte_hitvecfn_lo [ 2 ] [ i ] } } & buf_data [ i ] [ 23 : 16 ] ;
ld_fwddata_buf_lo [ 31 : 24 ] | = { 8 { ld_byte_hitvecfn_lo [ 3 ] [ i ] } } & buf_data [ i ] [ 31 : 24 ] ;
ld_fwddata_buf_hi [ 7 : 0 ] | = { 8 { ld_byte_hitvecfn_hi [ 0 ] [ i ] } } & buf_data [ i ] [ 7 : 0 ] ;
ld_fwddata_buf_hi [ 15 : 8 ] | = { 8 { ld_byte_hitvecfn_hi [ 1 ] [ i ] } } & buf_data [ i ] [ 15 : 8 ] ;
ld_fwddata_buf_hi [ 23 : 16 ] | = { 8 { ld_byte_hitvecfn_hi [ 2 ] [ i ] } } & buf_data [ i ] [ 23 : 16 ] ;
ld_fwddata_buf_hi [ 31 : 24 ] | = { 8 { ld_byte_hitvecfn_hi [ 3 ] [ i ] } } & buf_data [ i ] [ 31 : 24 ] ;
end
end
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//------------------------------------------------------------------------------
// Load forwarding logic end
//------------------------------------------------------------------------------
`ifdef RV_BUILD_AHB_LITE
assign bus_coalescing_disable = 1 'b1 ; // No coalescing for ahb
`else
assign bus_coalescing_disable = dec_tlu_wb_coalescing_disable ;
`endif
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// Get the hi/lo byte enable
assign ldst_byteen_dc5 [ 3 : 0 ] = ( { 4 { lsu_pkt_dc5 . by } } & 4 'b0001 ) |
( { 4 { lsu_pkt_dc5 . half } } & 4 'b0011 ) |
( { 4 { lsu_pkt_dc5 . word } } & 4 'b1111 ) ;
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assign { ldst_byteen_hi_dc5 [ 3 : 0 ] , ldst_byteen_lo_dc5 [ 3 : 0 ] } = { 4 'b0 , ldst_byteen_dc5 [ 3 : 0 ] } < < lsu_addr_dc5 [ 1 : 0 ] ;
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assign { store_data_hi_dc5 [ 31 : 0 ] , store_data_lo_dc5 [ 31 : 0 ] } = { 32 'b0 , store_data_dc5 [ 31 : 0 ] } < < { lsu_addr_dc5 [ 1 : 0 ] , 3 'b0 } ;
assign ldst_samedw_dc5 = ( lsu_addr_dc5 [ 3 ] = = end_addr_dc5 [ 3 ] ) ;
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//------------------------------------------------------------------------------
// Input buffer logic starts here
//------------------------------------------------------------------------------
assign ibuf_byp = lsu_busreq_dc5 & ( ( lsu_pkt_dc5 . load | no_word_merge_dc5 ) & ~ ibuf_valid ) ; // Bypass if ibuf is empty and it's a load or no merge possible
assign ibuf_wr_en = lsu_busreq_dc5 & ( lsu_commit_dc5 | lsu_freeze_dc3 ) & ~ ibuf_byp ;
assign ibuf_rst = ibuf_drain_vld & ~ ibuf_wr_en ;
assign ibuf_force_drain = lsu_busreq_dc2 & ~ lsu_busreq_dc3 & ~ lsu_busreq_dc4 & ~ lsu_busreq_dc5 & ibuf_valid & ( lsu_pkt_dc2 . load | ( ibuf_addr [ 31 : 2 ] ! = lsu_addr_dc2 [ 31 : 2 ] ) ) ; // Move the ibuf to buf if there is a non-colaescable ld/st in dc2 but nothing in dc3/dc4/dc5
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assign ibuf_drain_vld = ibuf_valid & ( ( ( ibuf_wr_en | ( ibuf_timer = = TIMER_MAX ) ) & ~ ( ibuf_merge_en & ibuf_merge_in ) ) | ibuf_byp | ibuf_force_drain | ibuf_sideeffect | ~ ibuf_write | bus_coalescing_disable ) ;
assign ibuf_tag_in [ DEPTH_LOG2 - 1 : 0 ] = ( ibuf_merge_en & ibuf_merge_in ) ? ibuf_tag [ DEPTH_LOG2 - 1 : 0 ] : ( ldst_dual_dc5 ? WrPtr1_dc5 : WrPtr0_dc5 ) ;
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assign ibuf_dualtag_in [ DEPTH_LOG2 - 1 : 0 ] = WrPtr0_dc5 ;
assign ibuf_sz_in [ 1 : 0 ] = { lsu_pkt_dc5 . word , lsu_pkt_dc5 . half } ; // NOTE: Make sure lsu_pkt_dc3/dc4 are flopped in case of freeze (except the valid)
assign ibuf_addr_in [ 31 : 0 ] = ldst_dual_dc5 ? end_addr_dc5 [ 31 : 0 ] : lsu_addr_dc5 [ 31 : 0 ] ;
assign ibuf_byteen_in [ 3 : 0 ] = ( ibuf_merge_en & ibuf_merge_in ) ? ( ibuf_byteen [ 3 : 0 ] | ldst_byteen_lo_dc5 [ 3 : 0 ] ) : ( ldst_dual_dc5 ? ldst_byteen_hi_dc5 [ 3 : 0 ] : ldst_byteen_lo_dc5 [ 3 : 0 ] ) ;
for ( genvar i = 0 ; i < 4 ; i + + ) begin
assign ibuf_data_in [ ( 8 * i ) + 7 : ( 8 * i ) ] = ( ibuf_merge_en & ibuf_merge_in ) ? ( ldst_byteen_lo_dc5 [ i ] ? store_data_lo_dc5 [ ( 8 * i ) + 7 : ( 8 * i ) ] : ibuf_data [ ( 8 * i ) + 7 : ( 8 * i ) ] ) :
( ldst_dual_dc5 ? store_data_hi_dc5 [ ( 8 * i ) + 7 : ( 8 * i ) ] : store_data_lo_dc5 [ ( 8 * i ) + 7 : ( 8 * i ) ] ) ;
end
assign ibuf_timer_in = ibuf_wr_en ? '0 : ( ibuf_timer < TIMER_MAX ) ? ( ibuf_timer + 1 'b1 ) : ibuf_timer ;
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assign ibuf_merge_en = lsu_busreq_dc5 & lsu_commit_dc5 & lsu_pkt_dc5 . store & ibuf_valid & ibuf_write & ( lsu_addr_dc5 [ 31 : 2 ] = = ibuf_addr [ 31 : 2 ] ) & ~ is_sideeffects_dc5 & ~ bus_coalescing_disable ;
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assign ibuf_merge_in = ~ ldst_dual_dc5 ; // If it's a unaligned store, merge needs to happen on the way out of ibuf
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// ibuf signals going to bus buffer after merging
for ( genvar i = 0 ; i < 4 ; i + + ) begin
assign ibuf_byteen_out [ i ] = ( ibuf_merge_en & ~ ibuf_merge_in ) ? ( ibuf_byteen [ i ] | ldst_byteen_lo_dc5 [ i ] ) : ibuf_byteen [ i ] ;
assign ibuf_data_out [ ( 8 * i ) + 7 : ( 8 * i ) ] = ( ibuf_merge_en & ~ ibuf_merge_in ) ? ( ldst_byteen_lo_dc5 [ i ] ? store_data_lo_dc5 [ ( 8 * i ) + 7 : ( 8 * i ) ] : ibuf_data [ ( 8 * i ) + 7 : ( 8 * i ) ] ) :
ibuf_data [ ( 8 * i ) + 7 : ( 8 * i ) ] ;
end
rvdffsc # ( . WIDTH ( 1 ) ) ibuf_valid_ff ( . din ( 1 'b1 ) , . dout ( ibuf_valid ) , . en ( ibuf_wr_en ) , . clear ( ibuf_rst ) , . clk ( lsu_free_c2_clk ) , . * ) ;
rvdffs # ( . WIDTH ( DEPTH_LOG2 ) ) ibuf_tagff ( . din ( ibuf_tag_in ) , . dout ( ibuf_tag ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( DEPTH_LOG2 ) ) ibuf_dualtagff ( . din ( ibuf_dualtag_in ) , . dout ( ibuf_dualtag ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_dualff ( . din ( ldst_dual_dc5 ) , . dout ( ibuf_dual ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_samedwff ( . din ( ldst_samedw_dc5 ) , . dout ( ibuf_samedw ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_nomergeff ( . din ( no_dword_merge_dc5 ) , . dout ( ibuf_nomerge ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_nbff ( . din ( lsu_nonblock_load_valid_dc5 ) , . dout ( ibuf_nb ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_sideeffectff ( . din ( is_sideeffects_dc5 ) , . dout ( ibuf_sideeffect ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_unsignff ( . din ( lsu_pkt_dc5 . unsign ) , . dout ( ibuf_unsign ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) ibuf_writeff ( . din ( lsu_pkt_dc5 . store ) , . dout ( ibuf_write ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 2 ) ) ibuf_szff ( . din ( ibuf_sz_in [ 1 : 0 ] ) , . dout ( ibuf_sz ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 32 ) ) ibuf_addrff ( . din ( ibuf_addr_in [ 31 : 0 ] ) , . dout ( ibuf_addr ) , . en ( ibuf_wr_en ) , . * ) ;
rvdffs # ( . WIDTH ( 4 ) ) ibuf_byteenff ( . din ( ibuf_byteen_in [ 3 : 0 ] ) , . dout ( ibuf_byteen ) , . en ( ibuf_wr_en ) , . clk ( lsu_bus_ibuf_c1_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 32 ) ) ibuf_dataff ( . din ( ibuf_data_in [ 31 : 0 ] ) , . dout ( ibuf_data ) , . en ( ibuf_wr_en ) , . * ) ;
rvdff # ( . WIDTH ( TIMER_LOG2 ) ) ibuf_timerff ( . din ( ibuf_timer_in ) , . dout ( ibuf_timer ) , . clk ( lsu_free_c2_clk ) , . * ) ;
//------------------------------------------------------------------------------
// Input buffer logic ends here
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// Output buffer logic starts here
//------------------------------------------------------------------------------
assign obuf_wr_wait = ( buf_numvld_wrcmd_any [ 3 : 0 ] = = 4 'b1 ) & ( buf_numvld_cmd_any [ 3 : 0 ] = = 4 'b1 ) & ( obuf_wr_timer ! = TIMER_MAX ) & ~ bus_coalescing_disable & ~ buf_nomerge [ CmdPtr0 ] & ~ obuf_force_wr_en ;
assign obuf_wr_timer_in = obuf_wr_en ? 3 'b0 : ( ( ( buf_numvld_cmd_any > 4 'b0 ) & ( obuf_wr_timer < TIMER_MAX ) ) ? ( obuf_wr_timer + 1 'b1 ) : obuf_wr_timer ) ;
assign obuf_force_wr_en = lsu_busreq_dc2 & ~ lsu_busreq_dc3 & ~ lsu_busreq_dc4 & ~ lsu_busreq_dc5 & ~ ibuf_valid & ( buf_numvld_cmd_any [ 3 : 0 ] = = 4 'b1 ) & ( lsu_addr_dc2 [ 31 : 2 ] ! = buf_addr [ CmdPtr0 ] [ 31 : 2 ] ) ; // Entry in dc2 can't merge with entry going to obuf and there is no entry in between
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assign ibuf_buf_byp = ibuf_byp & ( buf_numvld_pend_any [ 3 : 0 ] = = 4 'b0 ) & ~ ldst_dual_dc5 & lsu_pkt_dc5 . store ;
assign obuf_wr_en = ( lsu_bus_clk_en & ( ( ibuf_buf_byp & lsu_commit_dc5 ) |
( ( buf_state [ CmdPtr0 ] = = CMD ) & found_cmdptr0 & ~ buf_cmd_state_bus_en [ CmdPtr0 ] &
( ~ ( buf_dual [ CmdPtr0 ] & buf_samedw [ CmdPtr0 ] & ~ buf_write [ CmdPtr0 ] ) | found_cmdptr1 | buf_nomerge [ CmdPtr0 ] | obuf_force_wr_en ) ) ) ) &
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( bus_cmd_ready | ~ obuf_valid ) & ~ obuf_wr_wait & ~ bus_sideeffect_pend & ~ bus_addr_match_pending ;
assign obuf_rst = bus_cmd_sent & ~ obuf_wr_en ;
assign obuf_write_in = ibuf_buf_byp ? lsu_pkt_dc5 . store : buf_write [ CmdPtr0 ] ;
assign obuf_sideeffect_in = ibuf_buf_byp ? is_sideeffects_dc5 : buf_sideeffect [ CmdPtr0 ] ;
assign obuf_addr_in [ 31 : 0 ] = ibuf_buf_byp ? lsu_addr_dc5 [ 31 : 0 ] : buf_addr [ CmdPtr0 ] ;
assign obuf_sz_in [ 1 : 0 ] = ibuf_buf_byp ? { lsu_pkt_dc5 . word , lsu_pkt_dc5 . half } : buf_sz [ CmdPtr0 ] ;
assign obuf_merge_in = obuf_merge_en ;
assign obuf_tag0_in [ LSU_BUS_TAG - 1 : 0 ] = ibuf_buf_byp ? LSU_BUS_TAG ' ( WrPtr0_dc5 ) : LSU_BUS_TAG ' ( CmdPtr0 ) ;
assign obuf_tag1_in [ LSU_BUS_TAG - 1 : 0 ] = LSU_BUS_TAG ' ( CmdPtr1 ) ;
assign obuf_cmd_done_in = ~ ( obuf_wr_en | obuf_rst ) & ( obuf_cmd_done | bus_wcmd_sent ) ;
assign obuf_data_done_in = ~ ( obuf_wr_en | obuf_rst ) & ( obuf_data_done | bus_wdata_sent ) ;
assign obuf_byteen0_in [ 7 : 0 ] = ibuf_buf_byp ? ( lsu_addr_dc5 [ 2 ] ? { ldst_byteen_lo_dc5 [ 3 : 0 ] , 4 'b0 } : { 4 'b0 , ldst_byteen_lo_dc5 [ 3 : 0 ] } ) :
( buf_addr [ CmdPtr0 ] [ 2 ] ? { buf_byteen [ CmdPtr0 ] , 4 'b0 } : { 4 'b0 , buf_byteen [ CmdPtr0 ] } ) ;
assign obuf_byteen1_in [ 7 : 0 ] = buf_addr [ CmdPtr1 ] [ 2 ] ? { buf_byteen [ CmdPtr1 ] , 4 'b0 } : { 4 'b0 , buf_byteen [ CmdPtr1 ] } ;
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assign obuf_data0_in [ 63 : 0 ] = ibuf_buf_byp ? ( lsu_addr_dc5 [ 2 ] ? { store_data_lo_dc5 [ 31 : 0 ] , 32 'b0 } : { 32 'b0 , store_data_lo_dc5 [ 31 : 0 ] } ) :
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( buf_addr [ CmdPtr0 ] [ 2 ] ? { buf_data [ CmdPtr0 ] , 32 'b0 } : { 32 'b0 , buf_data [ CmdPtr0 ] } ) ;
assign obuf_data1_in [ 63 : 0 ] = buf_addr [ CmdPtr1 ] [ 2 ] ? { buf_data [ CmdPtr1 ] , 32 'b0 } : { 32 'b0 , buf_data [ CmdPtr1 ] } ;
for ( genvar i = 0 ; i < 8 ; i + + ) begin
assign obuf_byteen_in [ i ] = obuf_byteen0_in [ i ] | ( obuf_merge_en & obuf_byteen1_in [ i ] ) ;
assign obuf_data_in [ ( 8 * i ) + 7 : ( 8 * i ) ] = ( obuf_merge_en & obuf_byteen1_in [ i ] ) ? obuf_data1_in [ ( 8 * i ) + 7 : ( 8 * i ) ] : obuf_data0_in [ ( 8 * i ) + 7 : ( 8 * i ) ] ;
end
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// No store obuf merging for AXI since all stores are sent non-posted. Can't track the second id right now
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assign obuf_merge_en = ( CmdPtr0 ! = CmdPtr1 ) & found_cmdptr0 & found_cmdptr1 & ( buf_state [ CmdPtr0 ] = = CMD ) & ( buf_state [ CmdPtr1 ] = = CMD ) & ~ buf_cmd_state_bus_en [ CmdPtr0 ] & ~ buf_sideeffect [ CmdPtr0 ] &
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( ~ buf_write [ CmdPtr0 ] & buf_dual [ CmdPtr0 ] & ~ buf_dualhi [ CmdPtr0 ] & buf_samedw [ CmdPtr0 ] ) ; // CmdPtr0/CmdPtr1 are for same load which is within a DW
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rvdff # ( . WIDTH ( 1 ) ) obuf_wren_ff ( . din ( obuf_wr_en ) , . dout ( obuf_wr_enQ ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) obuf_cmd_done_ff ( . din ( obuf_cmd_done_in ) , . dout ( obuf_cmd_done ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) obuf_data_done_ff ( . din ( obuf_data_done_in ) , . dout ( obuf_data_done ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdffsc # ( . WIDTH ( 1 ) ) obuf_valid_ff ( . din ( 1 'b1 ) , . dout ( obuf_valid ) , . en ( obuf_wr_en ) , . clear ( obuf_rst ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdffs # ( . WIDTH ( LSU_BUS_TAG ) ) obuf_tag0ff ( . din ( obuf_tag0_in ) , . dout ( obuf_tag0 ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( LSU_BUS_TAG ) ) obuf_tag1ff ( . din ( obuf_tag1_in ) , . dout ( obuf_tag1 ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) obuf_mergeff ( . din ( obuf_merge_in ) , . dout ( obuf_merge ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) obuf_writeff ( . din ( obuf_write_in ) , . dout ( obuf_write ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) obuf_sideeffectff ( . din ( obuf_sideeffect_in ) , . dout ( obuf_sideeffect ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 2 ) ) obuf_szff ( . din ( obuf_sz_in [ 1 : 0 ] ) , . dout ( obuf_sz ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 32 ) ) obuf_addrff ( . din ( obuf_addr_in [ 31 : 0 ] ) , . dout ( obuf_addr ) , . en ( obuf_wr_en ) , . * ) ;
rvdffs # ( . WIDTH ( 8 ) ) obuf_byteenff ( . din ( obuf_byteen_in [ 7 : 0 ] ) , . dout ( obuf_byteen ) , . en ( obuf_wr_en ) , . clk ( lsu_bus_obuf_c1_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 64 ) ) obuf_dataff ( . din ( obuf_data_in [ 63 : 0 ] ) , . dout ( obuf_data ) , . en ( obuf_wr_en ) , . * ) ;
rvdff # ( . WIDTH ( TIMER_LOG2 ) ) obuf_timerff ( . din ( obuf_wr_timer_in ) , . dout ( obuf_wr_timer ) , . clk ( lsu_busm_clk ) , . * ) ;
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//------------------------------------------------------------------------------
// Output buffer logic ends here
//------------------------------------------------------------------------------
// Find the entry to allocate and entry to send
always_comb begin
WrPtr0_dc3 [ DEPTH_LOG2 - 1 : 0 ] = '0 ;
WrPtr1_dc3 [ DEPTH_LOG2 - 1 : 0 ] = '0 ;
found_wrptr0 = '0 ;
found_wrptr1 = '0 ;
// Find first write pointer
for ( int i = 0 ; i < DEPTH ; i + + ) begin
if ( ~ found_wrptr0 ) begin
WrPtr0_dc3 [ DEPTH_LOG2 - 1 : 0 ] = DEPTH_LOG2 ' ( i ) ;
found_wrptr0 = ( buf_state [ i ] = = IDLE ) & ~ ( ( ibuf_valid & ( ibuf_tag = = DEPTH_LOG2 ' ( i ) ) ) |
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( lsu_busreq_dc4 & ( ( WrPtr0_dc4 = = DEPTH_LOG2 ' ( i ) ) | ( ldst_dual_dc4 & ( WrPtr1_dc4 = = DEPTH_LOG2 ' ( i ) ) ) ) ) |
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( lsu_busreq_dc5 & ( ( WrPtr0_dc5 = = DEPTH_LOG2 ' ( i ) ) | ( ldst_dual_dc5 & ( WrPtr1_dc5 = = DEPTH_LOG2 ' ( i ) ) ) ) ) ) ;
//found_wrptr = (buf_state[i] == IDLE);
end
end
// Find second write pointer
for ( int i = 0 ; i < DEPTH ; i + + ) begin
if ( ~ found_wrptr1 ) begin
WrPtr1_dc3 [ DEPTH_LOG2 - 1 : 0 ] = DEPTH_LOG2 ' ( i ) ;
found_wrptr1 = ( buf_state [ i ] = = IDLE ) & ~ ( ( ibuf_valid & ( ibuf_tag = = DEPTH_LOG2 ' ( i ) ) ) |
( lsu_busreq_dc3 & ( WrPtr0_dc3 = = DEPTH_LOG2 ' ( i ) ) ) |
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( lsu_busreq_dc4 & ( ( WrPtr0_dc4 = = DEPTH_LOG2 ' ( i ) ) | ( ldst_dual_dc4 & ( WrPtr1_dc4 = = DEPTH_LOG2 ' ( i ) ) ) ) ) |
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( lsu_busreq_dc5 & ( ( WrPtr0_dc5 = = DEPTH_LOG2 ' ( i ) ) | ( ldst_dual_dc5 & ( WrPtr1_dc5 = = DEPTH_LOG2 ' ( i ) ) ) ) ) ) ;
//found_wrptr = (buf_state[i] == IDLE);
end
end
end
// Get the command ptr
for ( genvar i = 0 ; i < DEPTH ; i + + ) begin
// These should be one-hot
assign CmdPtr0Dec [ i ] = ~ ( | buf_age [ i ] ) & ( buf_state [ i ] = = CMD ) & ~ buf_cmd_state_bus_en [ i ] ;
assign CmdPtr1Dec [ i ] = ~ ( | ( buf_age [ i ] & ~ CmdPtr0Dec ) ) & ~ CmdPtr0Dec [ i ] & ( buf_state [ i ] = = CMD ) & ~ buf_cmd_state_bus_en [ i ] ;
end
assign found_cmdptr0 = | CmdPtr0Dec ;
assign found_cmdptr1 = | CmdPtr1Dec ;
assign CmdPtr0 = f_Enc8to3 ( 8 ' ( CmdPtr0Dec [ DEPTH - 1 : 0 ] ) ) ;
assign CmdPtr1 = f_Enc8to3 ( 8 ' ( CmdPtr1Dec [ DEPTH - 1 : 0 ] ) ) ;
// Age vector
for ( genvar i = 0 ; i < DEPTH ; i + + ) begin : GenAgeVec
for ( genvar j = 0 ; j < DEPTH ; j + + ) begin
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assign buf_age_in [ i ] [ j ] = ( ( ( buf_state [ i ] = = IDLE ) & buf_state_en [ i ] ) &
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( ( ( buf_state [ j ] = = WAIT ) | ( ( buf_state [ j ] = = CMD ) & ~ buf_cmd_state_bus_en [ j ] ) ) | // Set age bit for older entries
( ibuf_drain_vld & lsu_busreq_dc5 & ( ibuf_byp | ldst_dual_dc5 ) & ( DEPTH_LOG2 ' ( i ) = = WrPtr0_dc5 ) & ( DEPTH_LOG2 ' ( j ) = = ibuf_tag ) ) | // Set case for dual lo
( ibuf_byp & lsu_busreq_dc5 & ldst_dual_dc5 & ( DEPTH_LOG2 ' ( i ) = = WrPtr1_dc5 ) & ( DEPTH_LOG2 ' ( j ) = = WrPtr0_dc5 ) ) ) ) | // ibuf bypass case
buf_age [ i ] [ j ] ;
assign buf_age [ i ] [ j ] = buf_ageQ [ i ] [ j ] & ~ ( ( buf_state [ j ] = = CMD ) & buf_cmd_state_bus_en [ j ] ) ; // Reset case
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assign buf_age_younger [ i ] [ j ] = ( i = = j ) ? 1 'b0 : ( ~ buf_age [ i ] [ j ] & ( buf_state [ j ] ! = IDLE ) ) ; // Younger entries
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assign buf_age_temp [ i ] [ j ] = buf_age [ i ] [ j ] & ~ ( CmdPtr0 = = DEPTH_LOG2 ' ( j ) ) ; // Used to determine CmdPtr1
end
end
//------------------------------------------------------------------------------
// Buffer logic
//------------------------------------------------------------------------------
for ( genvar i = 0 ; i < DEPTH ; i + + ) begin
assign ibuf_drainvec_vld [ i ] = ( ibuf_drain_vld & ( i = = ibuf_tag ) ) ;
assign buf_byteen_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_byteen_out [ 3 : 0 ] : ( ( ibuf_byp & ldst_dual_dc5 & ( i = = WrPtr1_dc5 ) ) ? ldst_byteen_hi_dc5 [ 3 : 0 ] : ldst_byteen_lo_dc5 [ 3 : 0 ] ) ;
assign buf_addr_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_addr [ 31 : 0 ] : ( ( ibuf_byp & ldst_dual_dc5 & ( i = = WrPtr1_dc5 ) ) ? end_addr_dc5 [ 31 : 0 ] : lsu_addr_dc5 [ 31 : 0 ] ) ;
assign buf_dual_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_dual : ldst_dual_dc5 ;
assign buf_samedw_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_samedw : ldst_samedw_dc5 ;
assign buf_nomerge_in [ i ] = ibuf_drainvec_vld [ i ] ? ( ibuf_nomerge | ibuf_force_drain ) : no_dword_merge_dc5 ;
assign buf_dualhi_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_dual : ( ibuf_byp & ldst_dual_dc5 & ( i = = WrPtr1_dc5 ) ) ; // If it's dual, ibuf will always have the high
assign buf_dualtag_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_dualtag : ( ( ibuf_byp & ldst_dual_dc5 & ( i = = WrPtr1_dc5 ) ) ? WrPtr0_dc5 : WrPtr1_dc5 ) ;
assign buf_nb_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_nb : lsu_nonblock_load_valid_dc5 ;
assign buf_sideeffect_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_sideeffect : is_sideeffects_dc5 ;
assign buf_unsign_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_unsign : lsu_pkt_dc5 . unsign ;
assign buf_sz_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_sz : { lsu_pkt_dc5 . word , lsu_pkt_dc5 . half } ;
assign buf_write_in [ i ] = ibuf_drainvec_vld [ i ] ? ibuf_write : lsu_pkt_dc5 . store ;
// Buffer entry state machine
always_comb begin
buf_nxtstate [ i ] = IDLE ;
buf_state_en [ i ] = '0 ;
buf_cmd_state_bus_en [ i ] = '0 ;
buf_resp_state_bus_en [ i ] = '0 ;
buf_state_bus_en [ i ] = '0 ;
buf_wr_en [ i ] = '0 ;
buf_data_in [ i ] = '0 ;
buf_data_en [ i ] = '0 ;
buf_error_en [ i ] = '0 ;
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buf_rst [ i ] = '0 ;
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case ( buf_state [ i ] )
IDLE: begin
buf_nxtstate [ i ] = lsu_bus_clk_en ? CMD : WAIT ;
buf_state_en [ i ] = ( lsu_busreq_dc5 & ( lsu_commit_dc5 | lsu_freeze_dc3 ) & ( ( ( ibuf_byp | ldst_dual_dc5 ) & ~ ibuf_merge_en & ( i = = WrPtr0_dc5 ) ) | ( ibuf_byp & ldst_dual_dc5 & ( i = = WrPtr1_dc5 ) ) ) ) |
( ibuf_drain_vld & ( i = = ibuf_tag ) ) ;
buf_wr_en [ i ] = buf_state_en [ i ] ;
buf_data_en [ i ] = buf_state_en [ i ] ;
buf_data_in [ i ] = ( ibuf_drain_vld & ( i = = ibuf_tag ) ) ? ibuf_data_out [ 31 : 0 ] : store_data_lo_dc5 [ 31 : 0 ] ;
end
WAIT: begin
buf_nxtstate [ i ] = CMD ;
buf_state_en [ i ] = lsu_bus_clk_en ;
end
CMD: begin
buf_nxtstate [ i ] = RESP ;
buf_cmd_state_bus_en [ i ] = ( ( obuf_tag0 = = i ) | ( obuf_merge & ( obuf_tag1 = = i ) ) ) & obuf_valid & obuf_wr_enQ ; // Just use the recently written obuf_valid
buf_state_bus_en [ i ] = buf_cmd_state_bus_en [ i ] ;
buf_state_en [ i ] = buf_state_bus_en [ i ] & lsu_bus_clk_en ;
end
RESP: begin
buf_nxtstate [ i ] = ( buf_write [ i ] & ~ bus_rsp_write_error ) ? IDLE : DONE ; // Need to go to done to handle errors
buf_resp_state_bus_en [ i ] = ( bus_rsp_write & ( bus_rsp_write_tag = = LSU_BUS_TAG ' ( i ) ) ) |
( bus_rsp_read & ( ( bus_rsp_read_tag = = LSU_BUS_TAG ' ( i ) ) | ( buf_dual [ i ] & buf_dualhi [ i ] & ~ buf_write [ i ] & buf_samedw [ i ] & ( bus_rsp_read_tag = = LSU_BUS_TAG ' ( buf_dualtag [ i ] ) ) ) ) ) ;
buf_state_bus_en [ i ] = buf_resp_state_bus_en [ i ] ;
buf_state_en [ i ] = buf_state_bus_en [ i ] & lsu_bus_clk_en ;
buf_data_en [ i ] = buf_state_bus_en [ i ] & ~ buf_write [ i ] & bus_rsp_read & lsu_bus_clk_en ;
// Need to capture the error for stores as well for AXI
buf_error_en [ i ] = buf_state_bus_en [ i ] & lsu_bus_clk_en & ( ( bus_rsp_read_error & ( bus_rsp_read_tag = = LSU_BUS_TAG ' ( i ) ) ) |
( bus_rsp_write_error & ( bus_rsp_write_tag = = LSU_BUS_TAG ' ( i ) ) ) ) ;
buf_data_in [ i ] [ 31 : 0 ] = ( buf_state_en [ i ] & ~ buf_error_en [ i ] ) ? ( buf_addr [ i ] [ 2 ] ? bus_rsp_rdata [ 63 : 32 ] : bus_rsp_rdata [ 31 : 0 ] ) : bus_rsp_rdata [ 31 : 0 ] ;
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end
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DONE: begin
buf_nxtstate [ i ] = IDLE ;
buf_rst [ i ] = lsu_bus_clk_en_q & ( buf_write [ i ] | ~ buf_dual [ i ] | ( buf_state [ buf_dualtag [ i ] ] = = DONE ) ) ;
buf_state_en [ i ] = buf_rst [ i ] ;
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end
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default : begin
buf_nxtstate [ i ] = IDLE ;
buf_state_en [ i ] = '0 ;
buf_cmd_state_bus_en [ i ] = '0 ;
buf_resp_state_bus_en [ i ] = '0 ;
buf_state_bus_en [ i ] = '0 ;
buf_wr_en [ i ] = '0 ;
buf_data_in [ i ] = '0 ;
buf_data_en [ i ] = '0 ;
buf_error_en [ i ] = '0 ;
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buf_rst [ i ] = '0 ;
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end
endcase
end
assign buf_state [ i ] = state_t ' ( buf_state_out [ i ] ) ;
rvdffs # ( . WIDTH ( $bits ( state_t ) ) ) buf_state_ff ( . din ( buf_nxtstate [ i ] ) , . dout ( buf_state_out [ i ] ) , . en ( buf_state_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdff # ( . WIDTH ( DEPTH ) ) buf_ageff ( . din ( buf_age_in [ i ] ) , . dout ( buf_ageQ [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( DEPTH_LOG2 ) ) buf_dualtagff ( . din ( buf_dualtag_in [ i ] ) , . dout ( buf_dualtag [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_dualff ( . din ( buf_dual_in [ i ] ) , . dout ( buf_dual [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_samedwff ( . din ( buf_samedw_in [ i ] ) , . dout ( buf_samedw [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_nomergeff ( . din ( buf_nomerge_in [ i ] ) , . dout ( buf_nomerge [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_dualhiff ( . din ( buf_dualhi_in [ i ] ) , . dout ( buf_dualhi [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_nbff ( . din ( buf_nb_in [ i ] ) , . dout ( buf_nb [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_sideeffectff ( . din ( buf_sideeffect_in [ i ] ) , . dout ( buf_sideeffect [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_unsignff ( . din ( buf_unsign_in [ i ] ) , . dout ( buf_unsign [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 1 ) ) buf_writeff ( . din ( buf_write_in [ i ] ) , . dout ( buf_write [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffs # ( . WIDTH ( 2 ) ) buf_szff ( . din ( buf_sz_in [ i ] ) , . dout ( buf_sz [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 32 ) ) buf_addrff ( . din ( buf_addr_in [ i ] [ 31 : 0 ] ) , . dout ( buf_addr [ i ] ) , . en ( buf_wr_en [ i ] ) , . * ) ;
rvdffs # ( . WIDTH ( 4 ) ) buf_byteenff ( . din ( buf_byteen_in [ i ] [ 3 : 0 ] ) , . dout ( buf_byteen [ i ] ) , . en ( buf_wr_en [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 32 ) ) buf_dataff ( . din ( buf_data_in [ i ] [ 31 : 0 ] ) , . dout ( buf_data [ i ] ) , . en ( buf_data_en [ i ] ) , . * ) ;
rvdffsc # ( . WIDTH ( 1 ) ) buf_errorff ( . din ( 1 'b1 ) , . dout ( buf_error [ i ] ) , . en ( buf_error_en [ i ] ) , . clear ( buf_rst [ i ] ) , . clk ( lsu_bus_buf_c1_clk ) , . * ) ;
end
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// buffer full logic
always_comb begin
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buf_numvld_any [ 3 : 0 ] = ( { 3 'b0 , ( lsu_pkt_dc1 . valid & ~ lsu_pkt_dc1 . dma ) } < < ( lsu_pkt_dc1 . valid & ldst_dual_dc1 ) ) +
( { 3 'b0 , lsu_busreq_dc2 } < < ldst_dual_dc2 ) +
( { 3 'b0 , lsu_busreq_dc3 } < < ldst_dual_dc3 ) +
( { 3 'b0 , lsu_busreq_dc4 } < < ldst_dual_dc4 ) +
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( { 3 'b0 , lsu_busreq_dc5 } < < ldst_dual_dc5 ) +
{ 3 'b0 , ibuf_valid } ;
buf_numvld_wrcmd_any [ 3 : 0 ] = 4 'b0 ;
buf_numvld_cmd_any [ 3 : 0 ] = 4 'b0 ;
buf_numvld_pend_any [ 3 : 0 ] = 4 'b0 ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
buf_numvld_any [ 3 : 0 ] + = { 3 'b0 , ( buf_state [ i ] ! = IDLE ) } ;
buf_numvld_wrcmd_any [ 3 : 0 ] + = { 3 'b0 , ( buf_write [ i ] & ( buf_state [ i ] = = CMD ) & ~ buf_cmd_state_bus_en [ i ] ) } ;
buf_numvld_cmd_any [ 3 : 0 ] + = { 3 'b0 , ( ( buf_state [ i ] = = CMD ) & ~ buf_cmd_state_bus_en [ i ] ) } ;
buf_numvld_pend_any [ 3 : 0 ] + = { 3 'b0 , ( ( buf_state [ i ] = = WAIT ) | ( ( buf_state [ i ] = = CMD ) & ~ buf_cmd_state_bus_en [ i ] ) ) } ;
end
end
assign lsu_bus_buffer_pend_any = ( buf_numvld_pend_any ! = 0 ) ;
assign lsu_bus_buffer_full_any = ( buf_numvld_any [ 3 : 0 ] > = ( DEPTH - 1 ) ) ;
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assign lsu_bus_buffer_empty_any = ~ ( | buf_state [ DEPTH - 1 : 0 ] ) & ~ ibuf_valid & ~ obuf_valid ;
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// Freeze logic
assign FreezePtrEn = lsu_busreq_dc3 & lsu_pkt_dc3 . load & ld_freeze_dc3 ;
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assign ld_freeze_en = ( is_sideeffects_dc2 | dec_nonblock_load_freeze_dc2 | dec_tlu_non_blocking_disable ) & lsu_busreq_dc2 & lsu_pkt_dc2 . load & ~ lsu_freeze_dc3 & ~ flush_dc2_up & ~ ld_full_hit_dc2 ;
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always_comb begin
ld_freeze_rst = flush_dc3 | ( dec_tlu_cancel_e4 & ld_freeze_dc3 ) ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
ld_freeze_rst | = ( buf_rst [ i ] & ( DEPTH_LOG2 ' ( i ) = = FreezePtr ) & ~ FreezePtrEn & ld_freeze_dc3 ) ;
end
end
// Load signals for freeze
assign ld_block_bus_data [ 31 : 0 ] = 32 ' ( ( { ( { 32 { buf_dual [ FreezePtr ] } } & buf_data [ buf_dualtag [ FreezePtr ] ] ) , buf_data [ FreezePtr ] [ 31 : 0 ] } ) > > ( 8 * buf_addr [ FreezePtr ] [ 1 : 0 ] ) ) ;
assign ld_precise_bus_error = ( buf_error [ FreezePtr ] | ( buf_dual [ FreezePtr ] & buf_error [ buf_dualtag [ FreezePtr ] ] ) ) & ~ buf_write [ FreezePtr ] & buf_rst [ FreezePtr ] & lsu_freeze_dc3 & ld_freeze_rst & ~ flush_dc3 ; // Don't give bus error for interrupts
assign ld_bus_error_addr_dc3 [ 31 : 0 ] = buf_addr [ FreezePtr ] [ 31 : 0 ] ;
// Non blocking ports
assign lsu_nonblock_load_valid_dc3 = lsu_busreq_dc3 & lsu_pkt_dc3 . valid & lsu_pkt_dc3 . load & ~ flush_dc3 & ~ dec_nonblock_load_freeze_dc3 & ~ lsu_freeze_dc3 & ~ dec_tlu_non_blocking_disable ;
assign lsu_nonblock_load_tag_dc3 [ DEPTH_LOG2 - 1 : 0 ] = WrPtr0_dc3 [ DEPTH_LOG2 - 1 : 0 ] ;
assign lsu_nonblock_load_inv_dc5 = lsu_nonblock_load_valid_dc5 & ~ lsu_commit_dc5 ;
assign lsu_nonblock_load_inv_tag_dc5 [ DEPTH_LOG2 - 1 : 0 ] = WrPtr0_dc5 [ DEPTH_LOG2 - 1 : 0 ] ; // dc5 tag needs to be accurate even if there is no invalidate
always_comb begin
lsu_nonblock_load_data_valid_lo = '0 ;
lsu_nonblock_load_data_valid_hi = '0 ;
lsu_nonblock_load_data_error_lo = '0 ;
lsu_nonblock_load_data_error_hi = '0 ;
lsu_nonblock_load_data_tag [ DEPTH_LOG2 - 1 : 0 ] = '0 ;
lsu_nonblock_load_data_lo [ 31 : 0 ] = '0 ;
lsu_nonblock_load_data_hi [ 31 : 0 ] = '0 ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
// Use buf_rst[i] instead of buf_state_en[i] for timing
lsu_nonblock_load_data_valid_hi | = lsu_bus_clk_en_q & ( buf_state [ i ] = = DONE ) & buf_rst [ i ] & ~ dec_tlu_non_blocking_disable & buf_nb [ i ] & ~ buf_error [ i ] & ( buf_dual [ i ] & buf_dualhi [ i ] ) ;
lsu_nonblock_load_data_valid_lo | = lsu_bus_clk_en_q & ( buf_state [ i ] = = DONE ) & buf_rst [ i ] & ~ dec_tlu_non_blocking_disable & buf_nb [ i ] & ~ buf_error [ i ] & ( ~ buf_dual [ i ] | ~ buf_dualhi [ i ] ) ;
lsu_nonblock_load_data_error_hi | = lsu_bus_clk_en_q & ( buf_state [ i ] = = DONE ) & buf_rst [ i ] & ~ dec_tlu_non_blocking_disable & buf_error [ i ] & buf_nb [ i ] & ( buf_dual [ i ] & buf_dualhi [ i ] ) ;
lsu_nonblock_load_data_error_lo | = lsu_bus_clk_en_q & ( buf_state [ i ] = = DONE ) & buf_rst [ i ] & ~ dec_tlu_non_blocking_disable & buf_error [ i ] & buf_nb [ i ] & ( ~ buf_dual [ i ] | ~ buf_dualhi [ i ] ) ;
lsu_nonblock_load_data_tag [ DEPTH_LOG2 - 1 : 0 ] | = DEPTH_LOG2 ' ( i ) & { DEPTH_LOG2 { ( ( buf_state [ i ] = = DONE ) & buf_nb [ i ] & buf_rst [ i ] & ( ~ buf_dual [ i ] | ~ buf_dualhi [ i ] ) ) } } ;
lsu_nonblock_load_data_lo [ 31 : 0 ] | = buf_data [ i ] [ 31 : 0 ] & { 32 { ( ( buf_state [ i ] = = DONE ) & buf_nb [ i ] & buf_rst [ i ] & ( ~ buf_dual [ i ] | ~ buf_dualhi [ i ] ) ) } } ;
lsu_nonblock_load_data_hi [ 31 : 0 ] | = buf_data [ i ] [ 31 : 0 ] & { 32 { ( ( buf_state [ i ] = = DONE ) & buf_nb [ i ] & buf_rst [ i ] & ( buf_dual [ i ] & buf_dualhi [ i ] ) ) } } ;
end
end
assign lsu_nonblock_addr_offset [ 1 : 0 ] = buf_addr [ lsu_nonblock_load_data_tag ] [ 1 : 0 ] ;
assign lsu_nonblock_sz [ 1 : 0 ] = buf_sz [ lsu_nonblock_load_data_tag ] [ 1 : 0 ] ;
assign lsu_nonblock_unsign = buf_unsign [ lsu_nonblock_load_data_tag ] ;
assign lsu_nonblock_dual = buf_dual [ lsu_nonblock_load_data_tag ] ;
assign lsu_nonblock_data_unalgn [ 31 : 0 ] = 32 ' ( { lsu_nonblock_load_data_hi [ 31 : 0 ] , lsu_nonblock_load_data_lo [ 31 : 0 ] } > > 8 * lsu_nonblock_addr_offset [ 1 : 0 ] ) ;
assign lsu_nonblock_load_data_valid = lsu_nonblock_load_data_valid_lo & ( ~ lsu_nonblock_dual | lsu_nonblock_load_data_valid_hi ) ;
assign lsu_nonblock_load_data_error = lsu_nonblock_load_data_error_lo | ( lsu_nonblock_dual & lsu_nonblock_load_data_error_hi ) ;
assign lsu_nonblock_load_data = ( { 32 { lsu_nonblock_unsign & ( lsu_nonblock_sz [ 1 : 0 ] = = 2 'b00 ) } } & { 24 'b0 , lsu_nonblock_data_unalgn [ 7 : 0 ] } ) |
( { 32 { lsu_nonblock_unsign & ( lsu_nonblock_sz [ 1 : 0 ] = = 2 'b01 ) } } & { 16 'b0 , lsu_nonblock_data_unalgn [ 15 : 0 ] } ) |
( { 32 { ~ lsu_nonblock_unsign & ( lsu_nonblock_sz [ 1 : 0 ] = = 2 'b00 ) } } & { { 24 { lsu_nonblock_data_unalgn [ 7 ] } } , lsu_nonblock_data_unalgn [ 7 : 0 ] } ) |
( { 32 { ~ lsu_nonblock_unsign & ( lsu_nonblock_sz [ 1 : 0 ] = = 2 'b01 ) } } & { { 16 { lsu_nonblock_data_unalgn [ 15 ] } } , lsu_nonblock_data_unalgn [ 15 : 0 ] } ) |
( { 32 { ( lsu_nonblock_sz [ 1 : 0 ] = = 2 'b10 ) } } & lsu_nonblock_data_unalgn [ 31 : 0 ] ) ;
// Determine if there is a pending return to sideeffect load/store
always_comb begin
bus_sideeffect_pend = obuf_valid & obuf_sideeffect & dec_tlu_sideeffect_posted_disable ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
bus_sideeffect_pend | = ( ( buf_state [ i ] = = RESP ) & buf_sideeffect [ i ] & dec_tlu_sideeffect_posted_disable ) ;
end
end
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// Imprecise bus errors
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assign lsu_imprecise_error_load_any = lsu_nonblock_load_data_error ; // This is to make sure we send only one imprecise error for loads
// We have no ordering rules for AXI. Need to check outstanding trxns to same address for AXI
always_comb begin
bus_addr_match_pending = '0 ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
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bus_addr_match_pending | = ( obuf_valid & ( obuf_addr [ 31 : 3 ] = = buf_addr [ i ] [ 31 : 3 ] ) & ( buf_state [ i ] = = RESP ) & ~ ( ( obuf_tag0 = = LSU_BUS_TAG ' ( i ) ) | ( obuf_merge & ( obuf_tag1 = = LSU_BUS_TAG ' ( i ) ) ) ) ) ;
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end
end
// Store imprecise error logic
always_comb begin
lsu_imprecise_error_store_any = '0 ;
lsu_imprecise_error_store_tag = '0 ;
for ( int i = 0 ; i < DEPTH ; i + + ) begin
lsu_imprecise_error_store_any | = lsu_bus_clk_en_q & ( buf_state [ i ] = = DONE ) & buf_error [ i ] & buf_write [ i ] ;
lsu_imprecise_error_store_tag | = DEPTH_LOG2 ' ( i ) & { DEPTH_LOG2 { ( ( buf_state [ i ] = = DONE ) & buf_error [ i ] & buf_write [ i ] ) } } ;
end
end
assign lsu_imprecise_error_addr_any [ 31 : 0 ] = lsu_imprecise_error_load_any ? buf_addr [ lsu_nonblock_load_data_tag ] : buf_addr [ lsu_imprecise_error_store_tag ] ;
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// Generic bus signals
assign bus_cmd_ready = obuf_write ? ( ( obuf_cmd_done | obuf_data_done ) ? ( obuf_cmd_done ? lsu_axi_wready : lsu_axi_awready ) : ( lsu_axi_awready & lsu_axi_wready ) ) : lsu_axi_arready ;
assign bus_wcmd_sent = lsu_axi_awvalid & lsu_axi_awready ;
assign bus_wdata_sent = lsu_axi_wvalid & lsu_axi_wready ;
assign bus_cmd_sent = ( ( obuf_cmd_done | bus_wcmd_sent ) & ( obuf_data_done | bus_wdata_sent ) ) | ( lsu_axi_arvalid & lsu_axi_arready ) ;
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assign bus_rsp_read = lsu_axi_rvalid_q & lsu_axi_rready_q ;
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assign bus_rsp_write = lsu_axi_bvalid_q & lsu_axi_bready_q ;
assign bus_rsp_read_tag [ LSU_BUS_TAG - 1 : 0 ] = lsu_axi_rid_q [ LSU_BUS_TAG - 1 : 0 ] ;
assign bus_rsp_write_tag [ LSU_BUS_TAG - 1 : 0 ] = lsu_axi_bid_q [ LSU_BUS_TAG - 1 : 0 ] ;
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assign bus_rsp_write_error = bus_rsp_write & ( lsu_axi_bresp_q [ 1 : 0 ] ! = 2 'b0 ) ;
assign bus_rsp_read_error = bus_rsp_read & ( lsu_axi_rresp_q [ 1 : 0 ] ! = 2 'b0 ) ;
assign bus_rsp_rdata [ 63 : 0 ] = lsu_axi_rdata_q [ 63 : 0 ] ;
// AXI command signals
assign lsu_axi_awvalid = obuf_valid & obuf_write & ~ obuf_cmd_done & ~ bus_addr_match_pending ;
assign lsu_axi_awid [ LSU_BUS_TAG - 1 : 0 ] = LSU_BUS_TAG ' ( obuf_tag0 ) ;
assign lsu_axi_awaddr [ 31 : 0 ] = obuf_sideeffect ? obuf_addr [ 31 : 0 ] : { obuf_addr [ 31 : 3 ] , 3 'b0 } ;
assign lsu_axi_awsize [ 2 : 0 ] = obuf_sideeffect ? { 1 'b0 , obuf_sz [ 1 : 0 ] } : 3 'b011 ;
assign lsu_axi_awprot [ 2 : 0 ] = '0 ;
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assign lsu_axi_awcache [ 3 : 0 ] = obuf_sideeffect ? 4 'b0 : 4 'b1111 ;
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assign lsu_axi_awregion [ 3 : 0 ] = obuf_addr [ 31 : 28 ] ;
assign lsu_axi_awlen [ 7 : 0 ] = '0 ;
assign lsu_axi_awburst [ 1 : 0 ] = 2 'b01 ;
assign lsu_axi_awqos [ 3 : 0 ] = '0 ;
assign lsu_axi_awlock = '0 ;
assign lsu_axi_wvalid = obuf_valid & obuf_write & ~ obuf_data_done & ~ bus_addr_match_pending ;
assign lsu_axi_wstrb [ 7 : 0 ] = obuf_byteen [ 7 : 0 ] & { 8 { obuf_write } } ;
assign lsu_axi_wdata [ 63 : 0 ] = obuf_data [ 63 : 0 ] ;
assign lsu_axi_wlast = '1 ;
assign lsu_axi_arvalid = obuf_valid & ~ obuf_write & ~ bus_addr_match_pending ;
assign lsu_axi_arid [ LSU_BUS_TAG - 1 : 0 ] = LSU_BUS_TAG ' ( obuf_tag0 ) ;
assign lsu_axi_araddr [ 31 : 0 ] = obuf_sideeffect ? obuf_addr [ 31 : 0 ] : { obuf_addr [ 31 : 3 ] , 3 'b0 } ;
assign lsu_axi_arsize [ 2 : 0 ] = obuf_sideeffect ? { 1 'b0 , obuf_sz [ 1 : 0 ] } : 3 'b011 ;
assign lsu_axi_arprot [ 2 : 0 ] = '0 ;
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assign lsu_axi_arcache [ 3 : 0 ] = obuf_sideeffect ? 4 'b0 : 4 'b1111 ;
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assign lsu_axi_arregion [ 3 : 0 ] = obuf_addr [ 31 : 28 ] ;
assign lsu_axi_arlen [ 7 : 0 ] = '0 ;
assign lsu_axi_arburst [ 1 : 0 ] = 2 'b01 ;
assign lsu_axi_arqos [ 3 : 0 ] = '0 ;
assign lsu_axi_arlock = '0 ;
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assign lsu_axi_bready = 1 ;
assign lsu_axi_rready = 1 ;
// PMU signals
assign lsu_pmu_bus_trxn = ( lsu_axi_awvalid_q & lsu_axi_awready_q ) | ( lsu_axi_wvalid_q & lsu_axi_wready_q ) | ( lsu_axi_arvalid_q & lsu_axi_arready_q ) ;
assign lsu_pmu_bus_misaligned = lsu_busreq_dc2 & ldst_dual_dc2 ;
assign lsu_pmu_bus_error = ld_bus_error_dc3 | lsu_imprecise_error_load_any | lsu_imprecise_error_store_any ;
assign lsu_pmu_bus_busy = ( lsu_axi_awvalid_q & ~ lsu_axi_awready_q ) | ( lsu_axi_wvalid_q & ~ lsu_axi_wready_q ) | ( lsu_axi_arvalid_q & ~ lsu_axi_arready_q ) ;
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rvdff # ( . WIDTH ( 1 ) ) lsu_axi_awvalid_ff ( . din ( lsu_axi_awvalid ) , . dout ( lsu_axi_awvalid_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_awready_ff ( . din ( lsu_axi_awready ) , . dout ( lsu_axi_awready_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_wvalid_ff ( . din ( lsu_axi_wvalid ) , . dout ( lsu_axi_wvalid_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_wready_ff ( . din ( lsu_axi_wready ) , . dout ( lsu_axi_wready_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_arvalid_ff ( . din ( lsu_axi_arvalid ) , . dout ( lsu_axi_arvalid_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_arready_ff ( . din ( lsu_axi_arready ) , . dout ( lsu_axi_arready_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_bvalid_ff ( . din ( lsu_axi_bvalid ) , . dout ( lsu_axi_bvalid_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_bready_ff ( . din ( lsu_axi_bready ) , . dout ( lsu_axi_bready_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 2 ) ) lsu_axi_bresp_ff ( . din ( lsu_axi_bresp [ 1 : 0 ] ) , . dout ( lsu_axi_bresp_q [ 1 : 0 ] ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( LSU_BUS_TAG ) ) lsu_axi_bid_ff ( . din ( lsu_axi_bid [ LSU_BUS_TAG - 1 : 0 ] ) , . dout ( lsu_axi_bid_q [ LSU_BUS_TAG - 1 : 0 ] ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdffe # ( . WIDTH ( 64 ) ) lsu_axi_rdata_ff ( . din ( lsu_axi_rdata [ 63 : 0 ] ) , . dout ( lsu_axi_rdata_q [ 63 : 0 ] ) , . en ( lsu_axi_rvalid & lsu_bus_clk_en ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_rvalid_ff ( . din ( lsu_axi_rvalid ) , . dout ( lsu_axi_rvalid_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_axi_rready_ff ( . din ( lsu_axi_rready ) , . dout ( lsu_axi_rready_q ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( 2 ) ) lsu_axi_rresp_ff ( . din ( lsu_axi_rresp [ 1 : 0 ] ) , . dout ( lsu_axi_rresp_q [ 1 : 0 ] ) , . clk ( lsu_busm_clk ) , . * ) ;
rvdff # ( . WIDTH ( LSU_BUS_TAG ) ) lsu_axi_rid_ff ( . din ( lsu_axi_rid [ LSU_BUS_TAG - 1 : 0 ] ) , . dout ( lsu_axi_rid_q [ LSU_BUS_TAG - 1 : 0 ] ) , . clk ( lsu_busm_clk ) , . * ) ;
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// General flops
rvdffsc # ( . WIDTH ( 1 ) ) ld_freezeff ( . din ( 1 'b1 ) , . dout ( ld_freeze_dc3 ) , . en ( ld_freeze_en ) , . clear ( ld_freeze_rst ) , . clk ( lsu_free_c2_clk ) , . * ) ;
rvdffs # ( . WIDTH ( DEPTH_LOG2 ) ) lsu_FreezePtrff ( . din ( WrPtr0_dc3 ) , . dout ( FreezePtr ) , . en ( FreezePtrEn ) , . clk ( lsu_free_c2_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) ld_bus_errorff ( . din ( ld_precise_bus_error ) , . dout ( ld_bus_error_dc3 ) , . clk ( lsu_free_c2_clk ) , . * ) ;
rvdff # ( . WIDTH ( 32 ) ) ld_bus_dataff ( . din ( ld_block_bus_data [ 31 : 0 ] ) , . dout ( ld_bus_data_dc3 [ 31 : 0 ] ) , . clk ( lsu_free_c2_clk ) , . * ) ;
rvdff # ( . WIDTH ( DEPTH_LOG2 ) ) lsu_WrPtr0_dc4ff ( . din ( WrPtr0_dc3 ) , . dout ( WrPtr0_dc4 ) , . clk ( lsu_c2_dc4_clk ) , . * ) ;
rvdff # ( . WIDTH ( DEPTH_LOG2 ) ) lsu_WrPtr0_dc5ff ( . din ( WrPtr0_dc4 ) , . dout ( WrPtr0_dc5 ) , . clk ( lsu_c2_dc5_clk ) , . * ) ;
rvdff # ( . WIDTH ( DEPTH_LOG2 ) ) lsu_WrPtr1_dc4ff ( . din ( WrPtr1_dc3 ) , . dout ( WrPtr1_dc4 ) , . clk ( lsu_c2_dc4_clk ) , . * ) ;
rvdff # ( . WIDTH ( DEPTH_LOG2 ) ) lsu_WrPtr1_dc5ff ( . din ( WrPtr1_dc4 ) , . dout ( WrPtr1_dc5 ) , . clk ( lsu_c2_dc5_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_busreq_dc3ff ( . din ( lsu_busreq_dc2 & ~ lsu_freeze_dc3 & ~ ld_full_hit_dc2 ) , . dout ( lsu_busreq_dc3 ) , . clk ( lsu_c2_dc3_clk ) , . * ) ; // Don't want dc2 to dc3 propagation during freeze. Maybe used freeze gated clock
rvdff # ( . WIDTH ( 1 ) ) lsu_busreq_dc4ff ( . din ( lsu_busreq_dc3 & ~ flush_dc4 ) , . dout ( lsu_busreq_dc4 ) , . clk ( lsu_c2_dc4_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_busreq_dc5ff ( . din ( lsu_busreq_dc4 & ~ flush_dc5 ) , . dout ( lsu_busreq_dc5 ) , . clk ( lsu_c2_dc5_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) dec_nonblock_load_freeze_dc3ff ( . din ( dec_nonblock_load_freeze_dc2 ) , . dout ( dec_nonblock_load_freeze_dc3 ) , . clk ( lsu_freeze_c2_dc3_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_nonblock_load_valid_dc4ff ( . din ( lsu_nonblock_load_valid_dc3 ) , . dout ( lsu_nonblock_load_valid_dc4 ) , . clk ( lsu_c2_dc4_clk ) , . * ) ;
rvdff # ( . WIDTH ( 1 ) ) lsu_nonblock_load_valid_dc5ff ( . din ( lsu_nonblock_load_valid_dc4 ) , . dout ( lsu_nonblock_load_valid_dc5 ) , . clk ( lsu_c2_dc5_clk ) , . * ) ;
`ifdef ASSERT_ON
for ( genvar i = 0 ; i < 4 ; i + + ) begin : GenByte
assert_ld_byte_hitvecfn_lo_onehot: assert # 0 ( $onehot0 ( ld_byte_hitvecfn_lo [ i ] [ DEPTH - 1 : 0 ] ) ) ;
assert_ld_byte_hitvecfn_hi_onehot: assert # 0 ( $onehot0 ( ld_byte_hitvecfn_hi [ i ] [ DEPTH - 1 : 0 ] ) ) ;
end
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assert_CmdPtr0Dec_onehot: assert # 0 ( $onehot0 ( CmdPtr0Dec [ DEPTH - 1 : 0 ] ) ) ;
assert_CmdPtr1Dec_onehot: assert # 0 ( $onehot0 ( CmdPtr1Dec [ DEPTH - 1 : 0 ] ) ) ;
`endif
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endmodule // lsu_bus_buffer