Added a very basic execution stage, registers and a very crude adder for ALU. It finally executes instructions!

This commit is contained in:
(Tim) Efthimis Kritikos 2023-02-09 20:16:50 +00:00
parent f10d785f95
commit a5571fda12
6 changed files with 137 additions and 28 deletions

9
cpu/alu.v Normal file
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@ -0,0 +1,9 @@
module ADDER16(input [15:0]A,input [15:0]B, input oe,output [15:0]OUT, output carry);
wire c;
wire [15:0]sum;
assign {c,sum} = A+B;
assign OUT = !oe ? sum : 16'hz;
assign carry = !oe ? c : 'hz;
endmodule

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@ -1,34 +1,56 @@
[*] [*]
[*] GTKWave Analyzer v3.3.104 (w)1999-2020 BSI [*] GTKWave Analyzer v3.3.104 (w)1999-2020 BSI
[*] Thu Feb 9 14:44:08 2023 [*] Thu Feb 9 20:13:04 2023
[*] [*]
[dumpfile] "/home/user/UNI_DATA/COMS30046_2022_TB-2/projects/9086/cpu/test.lx2" [dumpfile] "/home/user/UNI_DATA/COMS30046_2022_TB-2/projects/9086/cpu/test.lx2"
[dumpfile_mtime] "Thu Feb 9 14:43:59 2023" [dumpfile_mtime] "Thu Feb 9 20:10:34 2023"
[dumpfile_size] 757 [dumpfile_size] 1043
[savefile] "/home/user/UNI_DATA/COMS30046_2022_TB-2/projects/9086/cpu/gtkwave_savefile.gtkw" [savefile] "/home/user/UNI_DATA/COMS30046_2022_TB-2/projects/9086/cpu/gtkwave_savefile.gtkw"
[timestart] 0 [timestart] 0
[size] 1630 1059 [size] 1438 1059
[pos] -1 -1 [pos] -1 -1
*-22.795050 2010000 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 *-22.795050 6163000 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1
[treeopen] tb. [treeopen] tb.
[treeopen] tb.p.
[treeopen] tb.p.exec_units.
[sst_width] 221 [sst_width] 221
[signals_width] 293 [signals_width] 293
[sst_expanded] 1 [sst_expanded] 1
[sst_vpaned_height] 313 [sst_vpaned_height] 313
@29
tb.p.clock[0]
@28 @28
tb.p.clock[0]
tb.p.reset[0] tb.p.reset[0]
@22
tb.p.state[3:0] tb.p.state[3:0]
@22
tb.p.external_address_bus[19:0] tb.p.external_address_bus[19:0]
tb.p.external_data_bus[15:0] tb.p.external_data_bus[15:0]
tb.p.CIR[15:0] tb.p.CIR[15:0]
@28 @28
tb.p.EXCEPTION[0] tb.p.EXCEPTION[0]
tb.p.ADD_INST[0] @c00022
tb.p.INC_INST[0] tb.p.exec_units.ADDER16_1.A[15:0]
@28
(0)tb.p.exec_units.ADDER16_1.A[15:0]
(1)tb.p.exec_units.ADDER16_1.A[15:0]
(2)tb.p.exec_units.ADDER16_1.A[15:0]
(3)tb.p.exec_units.ADDER16_1.A[15:0]
(4)tb.p.exec_units.ADDER16_1.A[15:0]
(5)tb.p.exec_units.ADDER16_1.A[15:0]
(6)tb.p.exec_units.ADDER16_1.A[15:0]
(7)tb.p.exec_units.ADDER16_1.A[15:0]
(8)tb.p.exec_units.ADDER16_1.A[15:0]
(9)tb.p.exec_units.ADDER16_1.A[15:0]
(10)tb.p.exec_units.ADDER16_1.A[15:0]
(11)tb.p.exec_units.ADDER16_1.A[15:0]
(12)tb.p.exec_units.ADDER16_1.A[15:0]
(13)tb.p.exec_units.ADDER16_1.A[15:0]
(14)tb.p.exec_units.ADDER16_1.A[15:0]
(15)tb.p.exec_units.ADDER16_1.A[15:0]
@1401200
-group_end
@22 @22
tb.p.PARAM1[15:0] tb.p.exec_units.ADDER16_1.B[15:0]
@29
tb.p.exec_units.register_file.write1[0]
[pattern_trace] 1 [pattern_trace] 1
[pattern_trace] 0 [pattern_trace] 0

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@ -10,3 +10,4 @@
/*EXECUTE STATE*/ /*EXECUTE STATE*/
`define PROC_EX_STATE_ENTRY 4'b1000 `define PROC_EX_STATE_ENTRY 4'b1000
`define PROC_EX_STATE_EXIT 4'b1001

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@ -1,6 +1,38 @@
`include "proc_state_def.v" `include "proc_state_def.v"
module exec_units ( input [15:0]PARAM1, input [15:0]PARAM2, input [1:0]in1_sel, input [1:0]in2_sel, input [1:0]out_sel , input EXEC);
/*Architectural Register file*/
wire [2:0] reg_addr;
wire [15:0] reg_data;
wire reg_read;
wire reg_write;
wire [2:0] reg_read_addr;
wire [15:0] reg_read_data;
wire reg_read_read;
register_file register_file(reg_addr,reg_data,reg_read,reg_write,reg_read_addr,reg_read_data,reg_read_read);
/*Exec Unts*/
wire [15:0] ADDER16_1A;
wire [15:0] ADDER16_1B;
wire [15:0] ADDER16_1O;
wire ADDER16_1C;
ADDER16 ADDER16_1(ADDER16_1A,ADDER16_1B,EXEC,ADDER16_1O,ADDER16_1C);
/*logic*/
assign reg_addr=PARAM2[5:3];
assign reg_read=EXEC;
assign reg_write=EXEC;
assign reg_read_read=0;
assign reg_read_addr=PARAM2[2:0];
assign ADDER16_1A= (in1_sel==2'b00) ? PARAM1 : 16'b1010101010101010;
assign ADDER16_1B= (in2_sel==2'b01) ? reg_read_data : 16'b1010101010101010;
//assign reg_data = (out_sel==2'b01) ? ADDER16_1O : 'hz;
//assign reg_data = (out_sel==2'b01) ? ADDER16_1O : ADDER16_1O;
assign reg_data = ADDER16_1O;
endmodule
module processor ( input clock, input reset , output reg [19:0] external_address_bus, inout [15:0] external_data_bus,output reg read, output reg write, output reg HALT); module processor ( input clock, input reset , output reg [19:0] external_address_bus, inout [15:0] external_data_bus,output reg read, output reg write, output reg HALT);
/* State */ /* State */
reg [3:0] state; reg [3:0] state;
reg instruction_finished; reg instruction_finished;
@ -11,24 +43,30 @@ reg [15:0] CIR;
reg [15:0] PARAM1; reg [15:0] PARAM1;
reg [15:0] PARAM2; reg [15:0] PARAM2;
/* Execution units*/
reg [1:0] in1_sel;
reg [1:0] in2_sel;
reg [1:0] out_sel;
reg exec_unit_execute;
exec_units exec_units(PARAM1,PARAM2,in1_sel,in2_sel,out_sel,exec_unit_execute);
/* RESET LOGIC */ /* RESET LOGIC */
always @(negedge reset) begin always @(negedge reset) begin
if (reset==0) begin if (reset==0) begin
@(posedge clock); @(posedge clock);
ProgCount=0;//TODO: Reset Vector ProgCount=0;//TODO: Reset Vector
ADD_INST=0;
EXCEPTION=0; EXCEPTION=0;
INC_INST=0;
HALT=0; HALT=0;
exec_unit_execute=1;
@(negedge clock); @(negedge clock);
@(posedge clock); @(posedge clock);
state=`PROC_IF_STATE_ENTRY; state=`PROC_IF_STATE_ENTRY;
end end
end end
/* Processor stages */ reg EXCEPTION;
reg ADD_INST,EXCEPTION,INC_INST;
/* Processor stages */
always @(negedge clock) begin always @(negedge clock) begin
case(state) case(state)
`PROC_IF_WRITE_CIR:begin `PROC_IF_WRITE_CIR:begin
@ -36,14 +74,21 @@ always @(negedge clock) begin
ProgCount=ProgCount+1; ProgCount=ProgCount+1;
state=`PROC_DE_STATE_ENTRY; state=`PROC_DE_STATE_ENTRY;
end end
`PROC_EX_STATE_EXIT:begin
exec_unit_execute=1;
state=`PROC_IF_STATE_ENTRY;
end
endcase endcase
end end
`define invalid_instruction state=`PROC_IF_STATE_ENTRY;EXCEPTION=1;
always @(posedge clock) begin always @(posedge clock) begin
case(state) case(state)
`PROC_HALT_STATE: `PROC_HALT_STATE:
HALT=1; HALT=1;
`PROC_IF_STATE_ENTRY:begin `PROC_IF_STATE_ENTRY:begin
EXCEPTION=0;
external_address_bus <= ProgCount; external_address_bus <= ProgCount;
read <= 0; read <= 0;
write <= 1; write <= 1;
@ -53,37 +98,46 @@ always @(posedge clock) begin
external_address_bus <= ProgCount; /*Remenance from IF*/ external_address_bus <= ProgCount; /*Remenance from IF*/
case(CIR[15:10]) case(CIR[15:10])
6'b100000 : begin 6'b100000 : begin
/* ADD, ADC, SUB, SBB, CMP , AND, ... */
case (CIR[5:3]) case (CIR[5:3])
3'b000 :begin 3'b000 : begin
ADD_INST=1; /* Add Immediate to register/memory */
in1_sel=2'b00;
in2_sel=2'b01;
out_sel=2'b01;
PARAM2[2:0]=CIR[2:0];
PARAM2[5:3]=CIR[2:0];
state=`PROC_DE_LOAD_16_PARAM; state=`PROC_DE_LOAD_16_PARAM;
end end
default:begin default:begin
EXCEPTION=1; `invalid_instruction
state=`PROC_EX_STATE_ENTRY;
end end
endcase endcase
end end
6'b111111 : begin 6'b111111 : begin
/* INC */
if (CIR[9:9] == 1 ) begin if (CIR[9:9] == 1 ) begin
case (CIR[5:3]) case (CIR[5:3])
3'b000 :begin 3'b000 :begin
INC_INST=1; /* Increment Register or Memmory */
in1_sel=2'b00;
in2_sel=2'b01;
out_sel=2'b01;
PARAM1=1;
PARAM2[2:0]=CIR[2:0];
PARAM2[5:3]=CIR[2:0];
state=`PROC_EX_STATE_ENTRY; state=`PROC_EX_STATE_ENTRY;
end end
default:begin default:begin
EXCEPTION=1; `invalid_instruction
state=`PROC_EX_STATE_ENTRY;
end end
endcase endcase
end else begin end else begin
EXCEPTION=1; `invalid_instruction
state=`PROC_EX_STATE_ENTRY;
end end
end end
default:begin default:begin
EXCEPTION=1; `invalid_instruction
state=`PROC_EX_STATE_ENTRY;
end end
endcase endcase
end end
@ -93,8 +147,9 @@ always @(posedge clock) begin
state=`PROC_EX_STATE_ENTRY; state=`PROC_EX_STATE_ENTRY;
end end
`PROC_EX_STATE_ENTRY:begin `PROC_EX_STATE_ENTRY:begin
EXCEPTION=0;ADD_INST=0;INC_INST=0; EXCEPTION=0;
state=`PROC_IF_STATE_ENTRY; exec_unit_execute=0;
state=`PROC_EX_STATE_EXIT;
end end
endcase endcase
end end

21
cpu/registers.v Normal file
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@ -0,0 +1,21 @@
module register_file ( input [2:0]addr1, inout [15:0]data1, input wire read1, input wire write1 ,input [2:0]addr2,output [15:0]data2,input wire read2);
reg [15:0] registers [7:0];
assign data2 = !read2 ? registers[0] : 'b1111000011110000 ;
//assign data2 = !read2 ? registers[addr2]: 'b1111000011110000;
assign data1 = !read1 ? registers[addr1]: 'hz;
initial begin
registers['b000]=0;
registers['b001]=0;
registers['b010]=0;
registers['b011]=0;
registers['b100]=0;
registers['b101]=0;
registers['b110]=0;
registers['b111]=0; // TODO Don't clear. Remove after we implement the MOV instruction
end
always @(negedge write1) begin
registers[addr1] = data1;
//$display("registers: 0:%04x 1:%04x 2:%04x",registers[0],registers[1],registers[2]);
$display("register %d update to %04x (data bus %04x)",addr1,registers[addr1],data1);
end
endmodule

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@ -27,6 +27,7 @@ initial begin
#(`CPU_SPEED) #(`CPU_SPEED)
reset = 1; reset = 1;
#(`CPU_SPEED*30) #(`CPU_SPEED*30)
//$writememh("register_dump.txt", registers);
#50 $finish; #50 $finish;
end end