tinyriscv/rtl/core/id_ex.v

112 lines
4.6 KiB
Verilog

/*
Copyright 2020 Blue Liang, liangkangnan@163.com
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.
*/
`include "defines.v"
// 将译码结果向执行模块传递
module id_ex(
input wire clk,
input wire rst,
input wire[`InstBus] inst_i, // 指令内容
input wire[`InstAddrBus] inst_addr_i, // 指令地址
input wire reg_we_i, // 写通用寄存器标志
input wire[`RegAddrBus] reg_waddr_i, // 写通用寄存器地址
input wire[`RegBus] reg1_rdata_i, // 通用寄存器1读数据
input wire[`RegBus] reg2_rdata_i, // 通用寄存器2读数据
input wire csr_we_i, // 写CSR寄存器标志
input wire[`MemAddrBus] csr_waddr_i, // 写CSR寄存器地址
input wire[`RegBus] csr_rdata_i, // CSR寄存器读数据
input wire[`MemAddrBus] op1_i,
input wire[`MemAddrBus] op2_i,
input wire[`MemAddrBus] op1_jump_i,
input wire[`MemAddrBus] op2_jump_i,
input wire[`Hold_Flag_Bus] hold_flag_i, // 流水线暂停标志
output wire[`MemAddrBus] op1_o,
output wire[`MemAddrBus] op2_o,
output wire[`MemAddrBus] op1_jump_o,
output wire[`MemAddrBus] op2_jump_o,
output wire[`InstBus] inst_o, // 指令内容
output wire[`InstAddrBus] inst_addr_o, // 指令地址
output wire reg_we_o, // 写通用寄存器标志
output wire[`RegAddrBus] reg_waddr_o, // 写通用寄存器地址
output wire[`RegBus] reg1_rdata_o, // 通用寄存器1读数据
output wire[`RegBus] reg2_rdata_o, // 通用寄存器2读数据
output wire csr_we_o, // 写CSR寄存器标志
output wire[`MemAddrBus] csr_waddr_o, // 写CSR寄存器地址
output wire[`RegBus] csr_rdata_o // CSR寄存器读数据
);
wire hold_en = (hold_flag_i >= `Hold_Id);
wire[`InstBus] inst;
gen_pipe_dff #(32) inst_ff(clk, rst, hold_en, `INST_NOP, inst_i, inst);
assign inst_o = inst;
wire[`InstAddrBus] inst_addr;
gen_pipe_dff #(32) inst_addr_ff(clk, rst, hold_en, `ZeroWord, inst_addr_i, inst_addr);
assign inst_addr_o = inst_addr;
wire reg_we;
gen_pipe_dff #(1) reg_we_ff(clk, rst, hold_en, `WriteDisable, reg_we_i, reg_we);
assign reg_we_o = reg_we;
wire[`RegAddrBus] reg_waddr;
gen_pipe_dff #(5) reg_waddr_ff(clk, rst, hold_en, `ZeroReg, reg_waddr_i, reg_waddr);
assign reg_waddr_o = reg_waddr;
wire[`RegBus] reg1_rdata;
gen_pipe_dff #(32) reg1_rdata_ff(clk, rst, hold_en, `ZeroWord, reg1_rdata_i, reg1_rdata);
assign reg1_rdata_o = reg1_rdata;
wire[`RegBus] reg2_rdata;
gen_pipe_dff #(32) reg2_rdata_ff(clk, rst, hold_en, `ZeroWord, reg2_rdata_i, reg2_rdata);
assign reg2_rdata_o = reg2_rdata;
wire csr_we;
gen_pipe_dff #(1) csr_we_ff(clk, rst, hold_en, `WriteDisable, csr_we_i, csr_we);
assign csr_we_o = csr_we;
wire[`MemAddrBus] csr_waddr;
gen_pipe_dff #(32) csr_waddr_ff(clk, rst, hold_en, `ZeroWord, csr_waddr_i, csr_waddr);
assign csr_waddr_o = csr_waddr;
wire[`RegBus] csr_rdata;
gen_pipe_dff #(32) csr_rdata_ff(clk, rst, hold_en, `ZeroWord, csr_rdata_i, csr_rdata);
assign csr_rdata_o = csr_rdata;
wire[`MemAddrBus] op1;
gen_pipe_dff #(32) op1_ff(clk, rst, hold_en, `ZeroWord, op1_i, op1);
assign op1_o = op1;
wire[`MemAddrBus] op2;
gen_pipe_dff #(32) op2_ff(clk, rst, hold_en, `ZeroWord, op2_i, op2);
assign op2_o = op2;
wire[`MemAddrBus] op1_jump;
gen_pipe_dff #(32) op1_jump_ff(clk, rst, hold_en, `ZeroWord, op1_jump_i, op1_jump);
assign op1_jump_o = op1_jump;
wire[`MemAddrBus] op2_jump;
gen_pipe_dff #(32) op2_jump_ff(clk, rst, hold_en, `ZeroWord, op2_jump_i, op2_jump);
assign op2_jump_o = op2_jump;
endmodule