quasar/design/target/scala-2.12/classes/vsrc/mem.sv

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2021-03-03 14:35:11 +08:00
//********************************************************************************
// SPDX-License-Identifier: Apache-2.0
// Copyright 2020 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.
//********************************************************************************
typedef struct packed {
logic TEST1;
logic RME;
logic [3:0] RM;
logic LS;
logic DS;
logic SD;
logic TEST_RNM;
logic BC1;
logic BC2;
} iccm_ext_in_pkt_t;
typedef struct packed {
logic TEST1;
logic RME;
logic [3:0] RM;
logic LS;
logic DS;
logic SD;
logic TEST_RNM;
logic BC1;
logic BC2;
} dccm_ext_in_pkt_t;
typedef struct packed {
logic TEST1;
logic RME;
logic [3:0] RM;
logic LS;
logic DS;
logic SD;
logic TEST_RNM;
logic BC1;
logic BC2;
} ic_data_ext_in_pkt_t;
typedef struct packed {
logic TEST1;
logic RME;
logic [3:0] RM;
logic LS;
logic DS;
logic SD;
logic TEST_RNM;
logic BC1;
logic BC2;
} ic_tag_ext_in_pkt_t;
module mem#(
parameter ICACHE_BEAT_BITS,
parameter ICCM_BITS,
parameter ICACHE_NUM_WAYS,
parameter DCCM_BYTE_WIDTH,
parameter ICCM_BANK_INDEX_LO,
parameter ICACHE_BANK_BITS,
parameter DCCM_BITS,
parameter ICACHE_BEAT_ADDR_HI,
parameter ICCM_INDEX_BITS,
parameter ICCM_BANK_HI,
parameter ICACHE_BANKS_WAY,
parameter ICACHE_INDEX_HI,
parameter DCCM_NUM_BANKS,
parameter ICACHE_BANK_HI,
parameter ICACHE_BANK_LO,
parameter DCCM_ENABLE= 'b1,
parameter ICACHE_TAG_LO,
parameter ICACHE_DATA_INDEX_LO,
parameter ICCM_NUM_BANKS,
parameter ICACHE_ECC,
parameter ICACHE_ENABLE= 'b1,
parameter DCCM_BANK_BITS,
parameter ICCM_ENABLE= 'b1,
parameter ICCM_BANK_BITS,
parameter ICACHE_TAG_DEPTH,
parameter ICACHE_WAYPACK,
parameter DCCM_SIZE,
parameter DCCM_FDATA_WIDTH,
parameter ICACHE_TAG_INDEX_LO,
parameter ICACHE_DATA_DEPTH,
parameter DCCM_WIDTH_BITS,
parameter ICACHE_NUM_BYPASS,
parameter ICACHE_TAG_NUM_BYPASS,
parameter ICACHE_TAG_NUM_BYPASS_WIDTH,
parameter ICACHE_TAG_BYPASS_ENABLE,
parameter ICACHE_NUM_BYPASS_WIDTH,
parameter ICACHE_BYPASS_ENABLE,
parameter ICACHE_LN_SZ
)
(
input logic clk,
input logic rst_l,
input logic dccm_clk_override,
input logic icm_clk_override,
input logic dec_tlu_core_ecc_disable,
//DCCM ports
input logic dccm_wren,
input logic dccm_rden,
input logic [DCCM_BITS-1:0] dccm_wr_addr_lo,
input logic [DCCM_BITS-1:0] dccm_wr_addr_hi,
input logic [DCCM_BITS-1:0] dccm_rd_addr_lo,
input logic [DCCM_BITS-1:0] dccm_rd_addr_hi,
input logic [DCCM_FDATA_WIDTH-1:0] dccm_wr_data_lo,
input logic [DCCM_FDATA_WIDTH-1:0] dccm_wr_data_hi,
output logic [DCCM_FDATA_WIDTH-1:0] dccm_rd_data_lo,
output logic [DCCM_FDATA_WIDTH-1:0] dccm_rd_data_hi,
//`ifdef DCCM_ENABLE
//input dccm_ext_in_pkt_t [DCCM_NUM_BANKS-1:0] dccm_ext_in_pkt,
input logic dccm_ext_in_pkt_TEST1_0,
input logic dccm_ext_in_pkt_RME_0,
input logic [3:0] dccm_ext_in_pkt_RM_0,
input logic dccm_ext_in_pkt_LS_0,
input logic dccm_ext_in_pkt_DS_0,
input logic dccm_ext_in_pkt_SD_0,
input logic dccm_ext_in_pkt_TEST_RNM_0,
input logic dccm_ext_in_pkt_BC1_0,
input logic dccm_ext_in_pkt_BC2_0,
input logic dccm_ext_in_pkt_TEST1_1,
input logic dccm_ext_in_pkt_RME_1,
input logic [3:0] dccm_ext_in_pkt_RM_1,
input logic dccm_ext_in_pkt_LS_1,
input logic dccm_ext_in_pkt_DS_1,
input logic dccm_ext_in_pkt_SD_1,
input logic dccm_ext_in_pkt_TEST_RNM_1,
input logic dccm_ext_in_pkt_BC1_1,
input logic dccm_ext_in_pkt_BC2_1,
input logic dccm_ext_in_pkt_TEST1_2,
input logic dccm_ext_in_pkt_RME_2,
input logic [3:0] dccm_ext_in_pkt_RM_2,
input logic dccm_ext_in_pkt_LS_2,
input logic dccm_ext_in_pkt_DS_2,
input logic dccm_ext_in_pkt_SD_2,
input logic dccm_ext_in_pkt_TEST_RNM_2,
input logic dccm_ext_in_pkt_BC1_2,
input logic dccm_ext_in_pkt_BC2_2,
input logic dccm_ext_in_pkt_TEST1_3,
input logic dccm_ext_in_pkt_RME_3,
input logic [3:0] dccm_ext_in_pkt_RM_3,
input logic dccm_ext_in_pkt_LS_3,
input logic dccm_ext_in_pkt_DS_3,
input logic dccm_ext_in_pkt_SD_3,
input logic dccm_ext_in_pkt_TEST_RNM_3,
input logic dccm_ext_in_pkt_BC1_3,
input logic dccm_ext_in_pkt_BC2_3,
//`endif
//ICCM ports
input logic iccm_ext_in_pkt_TEST1_0,
input logic iccm_ext_in_pkt_RME_0,
input logic [3:0] iccm_ext_in_pkt_RM_0,
input logic iccm_ext_in_pkt_LS_0,
input logic iccm_ext_in_pkt_DS_0,
input logic iccm_ext_in_pkt_SD_0,
input logic iccm_ext_in_pkt_TEST_RNM_0,
input logic iccm_ext_in_pkt_BC1_0,
input logic iccm_ext_in_pkt_BC2_0,
input logic iccm_ext_in_pkt_TEST1_1,
input logic iccm_ext_in_pkt_RME_1,
input logic [3:0] iccm_ext_in_pkt_RM_1,
input logic iccm_ext_in_pkt_LS_1,
input logic iccm_ext_in_pkt_DS_1,
input logic iccm_ext_in_pkt_SD_1,
input logic iccm_ext_in_pkt_TEST_RNM_1,
input logic iccm_ext_in_pkt_BC1_1,
input logic iccm_ext_in_pkt_BC2_1,
input logic iccm_ext_in_pkt_TEST1_2,
input logic iccm_ext_in_pkt_RME_2,
input logic [3:0] iccm_ext_in_pkt_RM_2,
input logic iccm_ext_in_pkt_LS_2,
input logic iccm_ext_in_pkt_DS_2,
input logic iccm_ext_in_pkt_SD_2,
input logic iccm_ext_in_pkt_TEST_RNM_2,
input logic iccm_ext_in_pkt_BC1_2,
input logic iccm_ext_in_pkt_BC2_2,
input logic iccm_ext_in_pkt_TEST1_3,
input logic iccm_ext_in_pkt_RME_3,
input logic [3:0] iccm_ext_in_pkt_RM_3,
input logic iccm_ext_in_pkt_LS_3,
input logic iccm_ext_in_pkt_DS_3,
input logic iccm_ext_in_pkt_SD_3,
input logic iccm_ext_in_pkt_TEST_RNM_3,
input logic iccm_ext_in_pkt_BC1_3,
input logic iccm_ext_in_pkt_BC2_3,
input logic [ICCM_BITS-1:1] iccm_rw_addr,
input logic iccm_buf_correct_ecc, // ICCM is doing a single bit error correct cycle
input logic iccm_correction_state, // ICCM is doing a single bit error correct cycle
input logic iccm_wren,
input logic iccm_rden,
input logic [2:0] iccm_wr_size,
input logic [77:0] iccm_wr_data,
output logic [63:0] iccm_rd_data,
output logic [77:0] iccm_rd_data_ecc,
// Icache and Itag Ports
input logic [31:1] ic_rw_addr,
input logic [ICACHE_NUM_WAYS-1:0] ic_tag_valid,
input logic [ICACHE_NUM_WAYS-1:0] ic_wr_en,
input logic ic_rd_en,
input logic [63:0] ic_premux_data, // Premux data to be muxed with each way of the Icache.
input logic ic_sel_premux_data, // Premux data sel
// input ic_data_ext_in_pkt_t [ICACHE_NUM_WAYS-1:0][ICACHE_BANKS_WAY-1:0] ic_data_ext_in_pkt,
input logic ic_tag_ext_in_pkt_TEST1_0,
input logic ic_tag_ext_in_pkt_RME_0,
input logic [3:0] ic_tag_ext_in_pkt_RM_0,
input logic ic_tag_ext_in_pkt_LS_0,
input logic ic_tag_ext_in_pkt_DS_0,
input logic ic_tag_ext_in_pkt_SD_0,
input logic ic_tag_ext_in_pkt_TEST_RNM_0,
input logic ic_tag_ext_in_pkt_BC1_0,
input logic ic_tag_ext_in_pkt_BC2_0,
input logic ic_tag_ext_in_pkt_TEST1_1,
input logic ic_tag_ext_in_pkt_RME_1,
input logic [3:0] ic_tag_ext_in_pkt_RM_1,
input logic ic_tag_ext_in_pkt_LS_1,
input logic ic_tag_ext_in_pkt_DS_1,
input logic ic_tag_ext_in_pkt_SD_1,
input logic ic_tag_ext_in_pkt_TEST_RNM_1,
input logic ic_tag_ext_in_pkt_BC1_1,
input logic ic_tag_ext_in_pkt_BC2_1,
input logic ic_data_ext_in_pkt_0_TEST1_0,
input logic ic_data_ext_in_pkt_0_RME_0,
input logic [3:0] ic_data_ext_in_pkt_0_RM_0,
input logic ic_data_ext_in_pkt_0_LS_0,
input logic ic_data_ext_in_pkt_0_DS_0,
input logic ic_data_ext_in_pkt_0_SD_0,
input logic ic_data_ext_in_pkt_0_TEST_RNM_0,
input logic ic_data_ext_in_pkt_0_BC1_0,
input logic ic_data_ext_in_pkt_0_BC2_0,
input logic ic_data_ext_in_pkt_0_TEST1_1,
input logic ic_data_ext_in_pkt_0_RME_1,
input logic [3:0] ic_data_ext_in_pkt_0_RM_1,
input logic ic_data_ext_in_pkt_0_LS_1,
input logic ic_data_ext_in_pkt_0_DS_1,
input logic ic_data_ext_in_pkt_0_SD_1,
input logic ic_data_ext_in_pkt_0_TEST_RNM_1,
input logic ic_data_ext_in_pkt_0_BC1_1,
input logic ic_data_ext_in_pkt_0_BC2_1,
input logic ic_data_ext_in_pkt_1_TEST1_0,
input logic ic_data_ext_in_pkt_1_RME_0,
input logic [3:0] ic_data_ext_in_pkt_1_RM_0,
input logic ic_data_ext_in_pkt_1_LS_0,
input logic ic_data_ext_in_pkt_1_DS_0,
input logic ic_data_ext_in_pkt_1_SD_0,
input logic ic_data_ext_in_pkt_1_TEST_RNM_0,
input logic ic_data_ext_in_pkt_1_BC1_0,
input logic ic_data_ext_in_pkt_1_BC2_0,
input logic ic_data_ext_in_pkt_1_TEST1_1,
input logic ic_data_ext_in_pkt_1_RME_1,
input logic [3:0] ic_data_ext_in_pkt_1_RM_1,
input logic ic_data_ext_in_pkt_1_LS_1,
input logic ic_data_ext_in_pkt_1_DS_1,
input logic ic_data_ext_in_pkt_1_SD_1,
input logic ic_data_ext_in_pkt_1_TEST_RNM_1,
input logic ic_data_ext_in_pkt_1_BC1_1,
input logic ic_data_ext_in_pkt_1_BC2_1,
// input logic [ICACHE_BANKS_WAY-1:0][70:0] ic_wr_data, // Data to fill to the Icache. With ECC
input logic [70:0] ic_wr_data_0, // Data to fill to the Icache. With ECC
input logic [70:0] ic_wr_data_1, // Data to fill to the Icache. With ECC
input logic [70:0] ic_debug_wr_data, // Debug wr cache.
output logic [70:0] ic_debug_rd_data , // Data read from Icache. 2x64bits + parity bits. F2 stage. With ECC
input logic [ICACHE_INDEX_HI:3] ic_debug_addr, // Read/Write addresss to the Icache.
input logic ic_debug_rd_en, // Icache debug rd
input logic ic_debug_wr_en, // Icache debug wr
input logic ic_debug_tag_array, // Debug tag array
input logic [ICACHE_NUM_WAYS-1:0] ic_debug_way, // Debug way. Rd or Wr.
output logic [63:0] ic_rd_data , // Data read from Icache. 2x64bits + parity bits. F2 stage. With ECC
output logic [25:0] ic_tag_debug_rd_data,// Debug icache tag.
output logic [ICACHE_BANKS_WAY-1:0] ic_eccerr, // ecc error per bank
output logic [ICACHE_BANKS_WAY-1:0] ic_parerr, // parity error per bank
output logic [ICACHE_NUM_WAYS-1:0] ic_rd_hit,
output logic ic_tag_perr, // Icache Tag parity error
input logic scan_mode
);
iccm_ext_in_pkt_t [ICCM_NUM_BANKS-1:0] iccm_ext_in_pkt;
dccm_ext_in_pkt_t [DCCM_NUM_BANKS-1:0] dccm_ext_in_pkt;
ic_data_ext_in_pkt_t [ICACHE_NUM_WAYS-1:0][ICACHE_BANKS_WAY-1:0] ic_data_ext_in_pkt;
ic_tag_ext_in_pkt_t [ICACHE_NUM_WAYS-1:0] ic_tag_ext_in_pkt;
assign dccm_ext_in_pkt[0].TEST1 = dccm_ext_in_pkt_TEST1_0;
assign dccm_ext_in_pkt[0].RME = dccm_ext_in_pkt_RME_0;
assign dccm_ext_in_pkt[0].RM = dccm_ext_in_pkt_RM_0[3:0];
assign dccm_ext_in_pkt[0].LS = dccm_ext_in_pkt_LS_0;
assign dccm_ext_in_pkt[0].DS = dccm_ext_in_pkt_DS_0;
assign dccm_ext_in_pkt[0].SD = dccm_ext_in_pkt_SD_0;
assign dccm_ext_in_pkt[0].TEST_RNM = dccm_ext_in_pkt_TEST_RNM_0;
assign dccm_ext_in_pkt[0].BC1 = dccm_ext_in_pkt_BC1_0;
assign dccm_ext_in_pkt[0].BC2 = dccm_ext_in_pkt_BC2_0;
assign dccm_ext_in_pkt[1].TEST1 = dccm_ext_in_pkt_TEST1_1;
assign dccm_ext_in_pkt[1].RME = dccm_ext_in_pkt_RME_1;
assign dccm_ext_in_pkt[1].RM = dccm_ext_in_pkt_RM_1[3:0];
assign dccm_ext_in_pkt[1].LS = dccm_ext_in_pkt_LS_1;
assign dccm_ext_in_pkt[1].DS = dccm_ext_in_pkt_DS_1;
assign dccm_ext_in_pkt[1].SD = dccm_ext_in_pkt_SD_1;
assign dccm_ext_in_pkt[1].TEST_RNM = dccm_ext_in_pkt_TEST_RNM_1;
assign dccm_ext_in_pkt[1].BC1 = dccm_ext_in_pkt_BC1_1;
assign dccm_ext_in_pkt[1].BC2 = dccm_ext_in_pkt_BC2_1;
assign dccm_ext_in_pkt[2].TEST1 = dccm_ext_in_pkt_TEST1_2;
assign dccm_ext_in_pkt[2].RME = dccm_ext_in_pkt_RME_2;
assign dccm_ext_in_pkt[2].RM = dccm_ext_in_pkt_RM_2[3:0];
assign dccm_ext_in_pkt[2].LS = dccm_ext_in_pkt_LS_2;
assign dccm_ext_in_pkt[2].DS = dccm_ext_in_pkt_DS_2;
assign dccm_ext_in_pkt[2].SD = dccm_ext_in_pkt_SD_2;
assign dccm_ext_in_pkt[2].TEST_RNM = dccm_ext_in_pkt_TEST_RNM_2;
assign dccm_ext_in_pkt[2].BC1 = dccm_ext_in_pkt_BC1_2;
assign dccm_ext_in_pkt[2].BC2 = dccm_ext_in_pkt_BC2_2;
assign dccm_ext_in_pkt[3].TEST1 = dccm_ext_in_pkt_TEST1_3;
assign dccm_ext_in_pkt[3].RME = dccm_ext_in_pkt_RME_3;
assign dccm_ext_in_pkt[3].RM = dccm_ext_in_pkt_RM_3[3:0];
assign dccm_ext_in_pkt[3].LS = dccm_ext_in_pkt_LS_3;
assign dccm_ext_in_pkt[3].DS = dccm_ext_in_pkt_DS_3;
assign dccm_ext_in_pkt[3].SD = dccm_ext_in_pkt_SD_3;
assign dccm_ext_in_pkt[3].TEST_RNM = dccm_ext_in_pkt_TEST_RNM_3;
assign dccm_ext_in_pkt[3].BC1 = dccm_ext_in_pkt_BC1_3;
assign dccm_ext_in_pkt[3].BC2 = dccm_ext_in_pkt_BC2_3;
assign iccm_ext_in_pkt[0].TEST1 = iccm_ext_in_pkt_TEST1_0;
assign iccm_ext_in_pkt[0].RME = iccm_ext_in_pkt_RME_0;
assign iccm_ext_in_pkt[0].RM = iccm_ext_in_pkt_RM_0[3:0];
assign iccm_ext_in_pkt[0].LS = iccm_ext_in_pkt_LS_0;
assign iccm_ext_in_pkt[0].DS = iccm_ext_in_pkt_DS_0;
assign iccm_ext_in_pkt[0].SD = iccm_ext_in_pkt_SD_0;
assign iccm_ext_in_pkt[0].TEST_RNM = iccm_ext_in_pkt_TEST_RNM_0;
assign iccm_ext_in_pkt[0].BC1 = iccm_ext_in_pkt_BC1_0;
assign iccm_ext_in_pkt[0].BC2 = iccm_ext_in_pkt_BC2_0;
assign iccm_ext_in_pkt[1].TEST1 = iccm_ext_in_pkt_TEST1_1;
assign iccm_ext_in_pkt[1].RME = iccm_ext_in_pkt_RME_1;
assign iccm_ext_in_pkt[1].RM = iccm_ext_in_pkt_RM_1[3:0];
assign iccm_ext_in_pkt[1].LS = iccm_ext_in_pkt_LS_1;
assign iccm_ext_in_pkt[1].DS = iccm_ext_in_pkt_DS_1;
assign iccm_ext_in_pkt[1].SD = iccm_ext_in_pkt_SD_1;
assign iccm_ext_in_pkt[1].TEST_RNM = iccm_ext_in_pkt_TEST_RNM_1;
assign iccm_ext_in_pkt[1].BC1 = iccm_ext_in_pkt_BC1_1;
assign iccm_ext_in_pkt[1].BC2 = iccm_ext_in_pkt_BC2_1;
assign iccm_ext_in_pkt[2].TEST1 = iccm_ext_in_pkt_TEST1_2;
assign iccm_ext_in_pkt[2].RME = iccm_ext_in_pkt_RME_2;
assign iccm_ext_in_pkt[2].RM = iccm_ext_in_pkt_RM_2[3:0];
assign iccm_ext_in_pkt[2].LS = iccm_ext_in_pkt_LS_2;
assign iccm_ext_in_pkt[2].DS = iccm_ext_in_pkt_DS_2;
assign iccm_ext_in_pkt[2].SD = iccm_ext_in_pkt_SD_2;
assign iccm_ext_in_pkt[2].TEST_RNM = iccm_ext_in_pkt_TEST_RNM_2;
assign iccm_ext_in_pkt[2].BC1 = iccm_ext_in_pkt_BC1_2;
assign iccm_ext_in_pkt[2].BC2 = iccm_ext_in_pkt_BC2_2;
assign iccm_ext_in_pkt[3].TEST1 = iccm_ext_in_pkt_TEST1_3;
assign iccm_ext_in_pkt[3].RME = iccm_ext_in_pkt_RME_3;
assign iccm_ext_in_pkt[3].RM = iccm_ext_in_pkt_RM_3[3:0];
assign iccm_ext_in_pkt[3].LS = iccm_ext_in_pkt_LS_3;
assign iccm_ext_in_pkt[3].DS = iccm_ext_in_pkt_DS_3;
assign iccm_ext_in_pkt[3].SD = iccm_ext_in_pkt_SD_3;
assign iccm_ext_in_pkt[3].TEST_RNM = iccm_ext_in_pkt_TEST_RNM_3;
assign iccm_ext_in_pkt[3].BC1 = iccm_ext_in_pkt_BC1_3;
assign iccm_ext_in_pkt[3].BC2 = iccm_ext_in_pkt_BC2_3;
assign ic_tag_ext_in_pkt[0].TEST1 = ic_tag_ext_in_pkt_TEST1_0;
assign ic_tag_ext_in_pkt[0].RME = ic_tag_ext_in_pkt_RME_0;
assign ic_tag_ext_in_pkt[0].RM = ic_tag_ext_in_pkt_RM_0[3:0];
assign ic_tag_ext_in_pkt[0].LS = ic_tag_ext_in_pkt_LS_0;
assign ic_tag_ext_in_pkt[0].DS = ic_tag_ext_in_pkt_DS_0;
assign ic_tag_ext_in_pkt[0].SD = ic_tag_ext_in_pkt_SD_0;
assign ic_tag_ext_in_pkt[0].TEST_RNM = ic_tag_ext_in_pkt_TEST_RNM_0;
assign ic_tag_ext_in_pkt[0].BC1 = ic_tag_ext_in_pkt_BC1_0;
assign ic_tag_ext_in_pkt[0].BC2 = ic_tag_ext_in_pkt_BC2_0;
assign ic_tag_ext_in_pkt[1].TEST1 = ic_tag_ext_in_pkt_TEST1_1;
assign ic_tag_ext_in_pkt[1].RME = ic_tag_ext_in_pkt_RME_1;
assign ic_tag_ext_in_pkt[1].RM = ic_tag_ext_in_pkt_RM_1[3:0];
assign ic_tag_ext_in_pkt[1].LS = ic_tag_ext_in_pkt_LS_1;
assign ic_tag_ext_in_pkt[1].DS = ic_tag_ext_in_pkt_DS_1;
assign ic_tag_ext_in_pkt[1].SD = ic_tag_ext_in_pkt_SD_1;
assign ic_tag_ext_in_pkt[1].TEST_RNM = ic_tag_ext_in_pkt_TEST_RNM_1;
assign ic_tag_ext_in_pkt[1].BC1 = ic_tag_ext_in_pkt_BC1_1;
assign ic_tag_ext_in_pkt[1].BC2 = ic_tag_ext_in_pkt_BC2_1;
// PKT connection
assign ic_data_ext_in_pkt[0][0].TEST1 = ic_data_ext_in_pkt_0_TEST1_0;
assign ic_data_ext_in_pkt[0][0].RME = ic_data_ext_in_pkt_0_RME_0;
assign ic_data_ext_in_pkt[0][0].RM = ic_data_ext_in_pkt_0_RM_0[3:0];
assign ic_data_ext_in_pkt[0][0].LS = ic_data_ext_in_pkt_0_LS_0;
assign ic_data_ext_in_pkt[0][0].DS = ic_data_ext_in_pkt_0_DS_0;
assign ic_data_ext_in_pkt[0][0].SD = ic_data_ext_in_pkt_0_SD_0;
assign ic_data_ext_in_pkt[0][0].TEST_RNM = ic_data_ext_in_pkt_0_TEST_RNM_0;
assign ic_data_ext_in_pkt[0][0].BC1 = ic_data_ext_in_pkt_0_BC1_0;
assign ic_data_ext_in_pkt[0][0].BC2 = ic_data_ext_in_pkt_0_BC2_0;
assign ic_data_ext_in_pkt[0][1].TEST1 = ic_data_ext_in_pkt_1_TEST1_1;
assign ic_data_ext_in_pkt[0][1].RME = ic_data_ext_in_pkt_1_RME_1;
assign ic_data_ext_in_pkt[0][1].RM = ic_data_ext_in_pkt_1_RM_1[3:0];
assign ic_data_ext_in_pkt[0][1].LS = ic_data_ext_in_pkt_1_LS_1;
assign ic_data_ext_in_pkt[0][1].DS = ic_data_ext_in_pkt_1_DS_1;
assign ic_data_ext_in_pkt[0][1].SD = ic_data_ext_in_pkt_1_SD_1;
assign ic_data_ext_in_pkt[0][1].TEST_RNM = ic_data_ext_in_pkt_1_TEST_RNM_1;
assign ic_data_ext_in_pkt[0][1].BC1 = ic_data_ext_in_pkt_1_BC1_1;
assign ic_data_ext_in_pkt[0][1].BC2 = ic_data_ext_in_pkt_1_BC2_1;
assign ic_data_ext_in_pkt[1][0].TEST1 = ic_data_ext_in_pkt_1_TEST1_0;
assign ic_data_ext_in_pkt[1][0].RME = ic_data_ext_in_pkt_1_RME_0;
assign ic_data_ext_in_pkt[1][0].RM = ic_data_ext_in_pkt_1_RM_0[3:0];
assign ic_data_ext_in_pkt[1][0].LS = ic_data_ext_in_pkt_1_LS_0;
assign ic_data_ext_in_pkt[1][0].DS = ic_data_ext_in_pkt_1_DS_0;
assign ic_data_ext_in_pkt[1][0].SD = ic_data_ext_in_pkt_1_SD_0;
assign ic_data_ext_in_pkt[1][0].TEST_RNM = ic_data_ext_in_pkt_1_TEST_RNM_0;
assign ic_data_ext_in_pkt[1][0].BC1 = ic_data_ext_in_pkt_1_BC1_0;
assign ic_data_ext_in_pkt[1][0].BC2 = ic_data_ext_in_pkt_1_BC2_0;
assign ic_data_ext_in_pkt[1][1].TEST1 = ic_data_ext_in_pkt_1_TEST1_1;
assign ic_data_ext_in_pkt[1][1].RME = ic_data_ext_in_pkt_1_RME_1;
assign ic_data_ext_in_pkt[1][1].RM = ic_data_ext_in_pkt_1_RM_1[3:0];
assign ic_data_ext_in_pkt[1][1].LS = ic_data_ext_in_pkt_1_LS_1;
assign ic_data_ext_in_pkt[1][1].DS = ic_data_ext_in_pkt_1_DS_1;
assign ic_data_ext_in_pkt[1][1].SD = ic_data_ext_in_pkt_1_SD_1;
assign ic_data_ext_in_pkt[1][1].TEST_RNM = ic_data_ext_in_pkt_1_TEST_RNM_1;
assign ic_data_ext_in_pkt[1][1].BC1 = ic_data_ext_in_pkt_1_BC1_1;
assign ic_data_ext_in_pkt[1][1].BC2 = ic_data_ext_in_pkt_1_BC2_1;
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wire active_clk;
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rvoclkhdr active_cg ( .en(1'b1), .l1clk(active_clk), .* );
// DCCM Instantiation
if (DCCM_ENABLE == 1) begin: Gen_dccm_enable
lsu_dccm_mem #(
.DCCM_BYTE_WIDTH(DCCM_BYTE_WIDTH),
.DCCM_BITS(DCCM_BITS),
.DCCM_NUM_BANKS(DCCM_NUM_BANKS),
.DCCM_BANK_BITS(DCCM_BANK_BITS),
.DCCM_SIZE(DCCM_SIZE),
.DCCM_FDATA_WIDTH(DCCM_FDATA_WIDTH),
.DCCM_WIDTH_BITS(DCCM_WIDTH_BITS)) dccm (
.clk_override(dccm_clk_override),
.*
);
end else begin: Gen_dccm_disable
assign dccm_rd_data_lo = '0;
assign dccm_rd_data_hi = '0;
end
if ( ICACHE_ENABLE ) begin: icache
ifu_ic_mem #(
.ICACHE_BEAT_BITS(ICACHE_BEAT_BITS),
.ICACHE_NUM_WAYS(ICACHE_NUM_WAYS),
.ICACHE_BANK_BITS(ICACHE_BANK_BITS),
.ICACHE_BEAT_ADDR_HI(ICACHE_BEAT_ADDR_HI),
.ICACHE_BANKS_WAY(ICACHE_BANKS_WAY),
.ICACHE_INDEX_HI(ICACHE_INDEX_HI),
.ICACHE_BANK_HI(ICACHE_BANK_HI),
.ICACHE_BANK_LO(ICACHE_BANK_LO),
.ICACHE_TAG_LO(ICACHE_TAG_LO),
.ICACHE_DATA_INDEX_LO(ICACHE_DATA_INDEX_LO),
.ICACHE_ECC(ICACHE_ECC),
.ICACHE_TAG_DEPTH(ICACHE_TAG_DEPTH),
.ICACHE_WAYPACK(ICACHE_WAYPACK),
.ICACHE_TAG_INDEX_LO(ICACHE_TAG_INDEX_LO),
.ICACHE_DATA_DEPTH(ICACHE_DATA_DEPTH),
.ICACHE_TAG_NUM_BYPASS(ICACHE_TAG_NUM_BYPASS),
.ICACHE_TAG_NUM_BYPASS_WIDTH(ICACHE_TAG_NUM_BYPASS_WIDTH),
.ICACHE_TAG_BYPASS_ENABLE(ICACHE_TAG_BYPASS_ENABLE),
.ICACHE_NUM_BYPASS_WIDTH(ICACHE_NUM_BYPASS_WIDTH),
.ICACHE_BYPASS_ENABLE(ICACHE_BYPASS_ENABLE),
.ICACHE_NUM_BYPASS(ICACHE_NUM_BYPASS),
.ICACHE_LN_SZ(ICACHE_LN_SZ)) icm (
.clk_override(icm_clk_override),
.*
);
end
else begin
assign ic_rd_hit[ICACHE_NUM_WAYS-1:0] = '0;
assign ic_tag_perr = '0 ;
assign ic_rd_data = '0 ;
assign ic_tag_debug_rd_data = '0 ;
end // else: !if( ICACHE_ENABLE )
if (ICCM_ENABLE) begin : iccm
ifu_iccm_mem #(
.ICCM_BITS(ICCM_BITS),
.ICCM_BANK_INDEX_LO(ICCM_BANK_INDEX_LO),
.ICCM_INDEX_BITS(ICCM_INDEX_BITS),
.ICCM_BANK_HI(ICCM_BANK_HI),
.ICCM_NUM_BANKS(ICCM_NUM_BANKS),
.ICCM_BANK_BITS(ICCM_BANK_BITS)) iccm (.*,
.clk_override(icm_clk_override),
.iccm_rw_addr(iccm_rw_addr[ICCM_BITS-1:1]),
.iccm_rd_data(iccm_rd_data[63:0])
);
end
else begin
assign iccm_rd_data = '0 ;
assign iccm_rd_data_ecc = '0 ;
end
endmodule