9086/system/processor.v

182 lines
5.9 KiB
Verilog

/* processor.v - implementation of most functions of the 9086 processor
This file is part of the 9086 project.
Copyright (c) 2023 Efthymios Kritikos
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
`include "exec_state_def.v"
`include "alu_header.v"
`include "config.v"
//HALT: active high
//IOMEM: 1=IO 0=MEM
//BHE: active low
//write: active low
//read: active low
//reset: active low
module processor (
/* MISC */ input clock, input reset, output wire HALT,output [`ERROR_BITS-1:0] ERROR
/* MEMORY / IO */ ,output [19:0] external_address_bus, inout [15:0] external_data_bus,output read, output write,output BHE,output IOMEM
`ifdef CALCULATE_IPC
/* STATISTICS */ ,output wire new_instruction
`endif
`ifdef OTUPUT_JSON_STATISTICS
/* */ ,output wire [`L1_CACHE_SIZE-1:0] L1_SIZE_STAT, output wire VALID_INSTRUCTION_STAT, output wire jump_req_debug
`endif
);
`ifdef OTUPUT_JSON_STATISTICS
assign jump_req_debug=biu_jump_req;
`endif
/* If there is an error either from the decoder or execution unit set it to ERROR */
assign ERROR=(DE_ERROR!=`ERR_NO_ERROR)?DE_ERROR:(EXEC_ERROR!=`ERR_NO_ERROR)?EXEC_ERROR:`ERR_NO_ERROR;
/*############ Execution Unit ################################################### */
wire [1:0] in_alu_sel1, in_alu_sel2;
assign in_alu_sel1 = DE_OUTPUT[44:43];
assign in_alu_sel2 = DE_OUTPUT[46:45];
wire valid_exec_data, set_initial_values;
wire [`ERROR_BITS-1:0] EXEC_ERROR;
wire use_exec_reg_addr;
wire [3:0] EXEC_reg_read_port1_addr;
wire [15:0] ALU_O;
wire [7:0]EX2DE_FLAGS;
wire [15:0] PARAM1_INIT, PARAM2_INIT;
assign PARAM1_INIT = DE_OUTPUT[23:8];
assign PARAM2_INIT = DE_OUTPUT[39:24];
wire [2:0] IN_MOD,OUT_MOD;
assign IN_MOD=DE_OUTPUT[2:0];
assign OUT_MOD=DE_OUTPUT[49:47];
wire [`ALU_OP_BITS-1:0] ALU_OP;
assign ALU_OP = DE_OUTPUT[42:40];
wire next_exec;
execute_unit execute_unit (
/* GENERAL */ clock, reset, Wbit, valid_exec_data
/* */ ,IN_MOD, OUT_MOD,memio_address_select, ProgCount, RM, EXEC_ERROR, write
/* */ ,set_initial_values,next_exec
/* PARAM */ ,PARAM1_INIT,PARAM2_INIT
/* STATE CONTROL */ ,next_state
/* ALU CONTROL */ ,in_alu_sel1, in_alu_sel2, ALU_OP, ALU_O
/* REGISTER DATA */ ,reg_read_port1_data, reg_read_port2_data, EXEC_reg_read_port1_addr, use_exec_reg_addr, reg_write_we
/* FLAGS */ ,EX2DE_FLAGS
/* BIU */ ,BIU_ADDRESS_INPUT, biu_write_request, biu_read_request, BIU_VALID_DATA, BIU_DATA, biu_data_direction, biu_jump_req
);
/*############ Bus Interface Unit ############################################### */
wire [15:0] INSTRUCTION_LOCATION, BIU_ADDRESS_INPUT;
wire [15:0] BIU_DATA;
wire [31:0] INSTRUCTION;
wire biu_write_request, biu_read_request, BIU_VALID_DATA;
wire biu_jump_req, biu_data_direction,VALID_INSTRUCTION;
wire VALID_INSTRUCTION_ACK;
BIU BIU(
/* Outside world */ clock,reset,external_address_bus
/* */ ,external_data_bus,read,write,BHE,IOMEM
/* Internal */ ,INSTRUCTION,VALID_INSTRUCTION,INSTRUCTION_LOCATION,biu_jump_req
/* */ ,BIU_ADDRESS_INPUT,BIU_DATA,biu_write_request,biu_read_request,Wbit,BIU_VALID_DATA,MEM_OR_IO
/* */ ,VALID_INSTRUCTION_ACK
`ifdef OTUPUT_JSON_STATISTICS
/* Statistics */ ,L1_SIZE_STAT, VALID_INSTRUCTION_STAT
`endif
);
assign BIU_DATA= biu_data_direction ? 16'hz : (memio_address_select ? reg_read_port1_data : ALU_O);
/*############ Decoder ########################################################## */
/* verilator lint_off UNUSEDSIGNAL */ //TODO
wire [`EXEC_STATE_BITS+`ERROR_BITS+65:0] DE_OUTPUT;
decoder decoder(
/* GENERAL */ clock, reset,
/* INPUT FROM IF */ INSTRUCTION,VALID_INSTRUCTION,INSTRUCTION_LOCATION
/* INPUT FROM EX */ ,EX2DE_FLAGS[7:0],next_exec
/* OUTPUT TO EX */ ,DE_OUTPUT
/* */ ,ProgCount,set_initial_values,valid_exec_data
/* OUTPUT TO IF */ ,VALID_INSTRUCTION_ACK
`ifdef CALCULATE_IPC
/* STATISTICS */ , new_instruction
`endif
);
wire [2:0] RM;
assign RM = DE_OUTPUT[5:3];
wire memio_address_select;
assign memio_address_select=DE_OUTPUT[6:6];
wire [3:0] DE_reg_read_port1_addr,DE_reg_read_port2_addr;
assign DE_reg_read_port1_addr=DE_OUTPUT[53:50];
assign DE_reg_read_port2_addr=DE_OUTPUT[57:54];
wire [3:0] reg_write_addr;
assign reg_write_addr=DE_OUTPUT[61:58];
wire MEM_OR_IO;
assign MEM_OR_IO = DE_OUTPUT[7:7];
wire Wbit;
assign Wbit=DE_OUTPUT[64:64];
wire [`ERROR_BITS-1:0] DE_ERROR;
assign HALT = DE_OUTPUT[65:65];
assign DE_ERROR = DE_OUTPUT[`ERROR_BITS+65:66];
wire [`EXEC_STATE_BITS-1:0] next_state;
assign next_state=DE_OUTPUT[`EXEC_STATE_BITS+`ERROR_BITS+65:`ERROR_BITS+66];
/*############ Registers ######################################################## */
wire [15:0] ProgCount;
wire [3:0] reg_read_port1_addr;
assign reg_read_port1_addr = use_exec_reg_addr ? EXEC_reg_read_port1_addr : DE_reg_read_port1_addr;
wire [15:0] reg_read_port1_data, reg_read_port2_data;
wire reg_write_we;
register_file register_file(
/* WRITE */ .write_port1_addr(reg_write_addr),
/* */ .write_port1_data(ALU_O),
/* */ .write_port1_we(reg_write_we),
/* READ 1 */ .read_port1_addr(reg_read_port1_addr),
/* */ .read_port1_data(reg_read_port1_data),
/* READ 2 */ .read_port2_addr(DE_reg_read_port2_addr),
/* */ .read_port2_data(reg_read_port2_data)
);
/*############################################################################### */
endmodule