Initial commit

README.md

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+# 8bit FPGA
+
+An FPGA version of the 8-bit computer built by Ben Eater in his [series of videos](https://eater.net/8bit).
+
+[Here is a blog post about it.](https://austinmorlan.com/posts/8bit_breadboard_fpga/)
+
+![Demo](https://austinmorlan.com/posts/8bit_breadboard_fpga/media/output_7seg.gif)
+

build.sh

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+#!/usr/bin/env bash
+
+CODE_DIR=$(pwd)/code
+BUILD_DIR=$(pwd)/build
+
+COMMAND=$1
+
+if [ "$1" == "build" ]; then
+	mkdir -p $BUILD_DIR
+	pushd $BUILD_DIR
+
+	yosys -q -p 'synth_ice40 -top top -blif top.blif' $CODE_DIR/top.v
+	arachne-pnr -q -d 8k -P cm81 -o top.asc -p $CODE_DIR/pins.pcf top.blif
+	icepack top.asc top.bin
+	icetime -d lp8k -mtr top.rpt top.asc
+
+	iverilog -g2005-sv -o testbench $CODE_DIR/cpu_tb.v $CODE_DIR/cpu.v
+	vvp testbench
+	popd
+elif [ "$1" == "clean" ]; then
+	rm -r $BUILD_DIR
+elif [ "$1" == "program" ]; then
+	tinyprog -p $BUILD_DIR/top.bin
+elif [ "$1" == "sim" ]; then
+	gtkwave $BUILD_DIR/testbench.vcd
+else
+	echo "Invalid arguments"
+fi
+

code/7seg.v

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+module seven_seg(
+	input wire[3:0] bcd,
+	output wire[6:0] segments
+);
+
+assign segments =
+	//              ABCDEFG
+	(bcd == 0) ? 7'b1111110 :
+	(bcd == 1) ? 7'b0110000 :
+	(bcd == 2) ? 7'b1101101 :
+	(bcd == 3) ? 7'b1111001 :
+	(bcd == 4) ? 7'b0110011 :
+	(bcd == 5) ? 7'b1011011 :
+	(bcd == 6) ? 7'b1011111 :
+	(bcd == 7) ? 7'b1110000 :
+	(bcd == 8) ? 7'b1111111 :
+	(bcd == 9) ? 7'b1110011 :
+	7'b0000000;
+
+endmodule
+

code/bin_to_bcd.v

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+module bin_to_bcd(
+	input wire[7:0] bin,
+	output reg[11:0] bcd);
+
+integer i;
+
+always @(bin) begin
+	bcd = 0;
+
+	for (i = 0; i < 8; i = i+1) begin
+		if (bcd[3:0] > 4)
+			bcd[3:0] = bcd[3:0] + 3;
+
+		if (bcd[7:4] > 4)
+			bcd[7:4] = bcd[7:4] + 3;
+
+		if (bcd[11:8] > 4)
+			bcd[11:8] = bcd[11:8] + 3;
+
+		// Concatenate acts as a shift
+		bcd = {bcd[10:0], bin[7-i]};
+	end
+end
+
+endmodule
+

code/cpu.v

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+module cpu(
+	input wire clk,
+	input wire reset,
+	output reg[7:0] out
+	);
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Opcodes
+///////////////////////////////////////////////////////////////////////////////
+
+parameter OP_NOP = 4'b0000;
+parameter OP_LDA = 4'b0001;
+parameter OP_ADD = 4'b0010;
+parameter OP_SUB = 4'b0011;
+parameter OP_STA = 4'b0100;
+parameter OP_LDI = 4'b0101;
+parameter OP_JMP = 4'b0110;
+parameter OP_JC  = 4'b0111;
+parameter OP_JZ  = 4'b1000;
+parameter OP_OUT = 4'b1110;
+parameter OP_HLT = 4'b1111;
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Control Signals
+///////////////////////////////////////////////////////////////////////////////
+
+// Halt
+reg ctrl_ht;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_HLT && stage == 2)
+		ctrl_ht <= 1;
+	else
+		ctrl_ht <= 0;
+end
+
+// Memory Address Register In
+reg ctrl_mi;
+always @(negedge clk) begin
+	if (stage == 0)
+		ctrl_mi <= 1;
+	else if (ir[7:4] == OP_LDA && stage == 2)
+		ctrl_mi <= 1;
+	else if (ir[7:4] == OP_ADD && stage == 2)
+		ctrl_mi <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 2)
+		ctrl_mi <= 1;
+	else if (ir[7:4] == OP_STA && stage == 2)
+		ctrl_mi <= 1;
+	else
+		ctrl_mi <= 0;
+end
+
+// RAM In
+reg ctrl_ri;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_STA && stage == 3)
+		ctrl_ri <= 1;
+	else
+		ctrl_ri <= 0;
+end
+
+// RAM Out
+reg ctrl_ro;
+always @(negedge clk) begin
+	if (stage == 1)
+		ctrl_ro <= 1;
+	else if (ir[7:4] == OP_LDA && stage == 3)
+		ctrl_ro <= 1;
+	else if (ir[7:4] == OP_ADD && stage == 3)
+		ctrl_ro <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 3)
+		ctrl_ro <= 1;
+	else
+		ctrl_ro <= 0;
+end
+
+// Instruction Register Out
+reg ctrl_io;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_LDA && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_LDI && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_ADD && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_STA && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_JMP && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_JC && stage == 2)
+		ctrl_io <= 1;
+	else if (ir[7:4] == OP_JZ && stage == 2)
+		ctrl_io <= 1;
+	else
+		ctrl_io <= 0;
+end
+
+// Instruction Register In
+reg ctrl_ii;
+always @(negedge clk) begin
+	if (stage == 1)
+		ctrl_ii <= 1;
+	else
+		ctrl_ii <= 0;
+end
+
+// A Register In
+reg ctrl_ai;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_LDI && stage == 2)
+		ctrl_ai <= 1;
+	else if (ir[7:4] == OP_LDA && stage == 3)
+		ctrl_ai <= 1;
+	else if (ir[7:4] == OP_ADD && stage == 4)
+		ctrl_ai <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 4)
+		ctrl_ai <= 1;
+	else
+		ctrl_ai <= 0;
+end
+
+// A Register Out
+reg ctrl_ao;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_STA && stage == 3)
+		ctrl_ao <= 1;
+	else if (ir[7:4] == OP_OUT && stage == 2)
+		ctrl_ao <= 1;
+	else
+		ctrl_ao <= 0;
+end
+
+// Sum Out
+reg ctrl_eo;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_ADD && stage == 4)
+		ctrl_eo <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 4)
+		ctrl_eo <= 1;
+	else
+		ctrl_eo <= 0;
+end
+
+// Subtract
+reg ctrl_su;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_SUB && stage == 4)
+		ctrl_su <= 1;
+	else
+		ctrl_su <= 0;
+end
+
+// B Register In
+reg ctrl_bi;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_ADD && stage == 3)
+		ctrl_bi <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 3)
+		ctrl_bi <= 1;
+	else
+		ctrl_bi <= 0;
+end
+
+// Output Register In
+reg ctrl_oi;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_OUT && stage == 2)
+		ctrl_oi <= 1;
+	else
+		ctrl_oi <= 0;
+end
+
+// Counter Enable
+reg ctrl_ce;
+always @(negedge clk) begin
+	if (stage == 1)
+		ctrl_ce <= 1;
+	else
+		ctrl_ce <= 0;
+end
+
+// Counter Out
+reg ctrl_co;
+always @(negedge clk) begin
+	// Always in Stage 0
+	if (stage == 0)
+		ctrl_co <= 1;
+	else
+		ctrl_co <= 0;
+end
+
+// Jump
+reg ctrl_jp;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_JMP && stage == 2)
+		ctrl_jp <= 1;
+	else if (ir[7:4] == OP_JC && stage == 2 && flags[FLAG_C] == 1)
+		ctrl_jp <= 1;
+	else if (ir[7:4] == OP_JZ && stage == 2 && flags[FLAG_Z] == 1)
+		ctrl_jp <= 1;
+	else
+		ctrl_jp <= 0;
+end
+
+// Flags Register In
+reg ctrl_fi;
+always @(negedge clk) begin
+	if (ir[7:4] == OP_ADD && stage == 4)
+		ctrl_fi <= 1;
+	else if (ir[7:4] == OP_SUB && stage == 4)
+		ctrl_fi <= 1;
+	else
+		ctrl_fi <= 0;
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Bus
+///////////////////////////////////////////////////////////////////////////////
+
+wire[7:0] bus;
+assign bus =
+	ctrl_co ? pc :
+	ctrl_ro ? mem[mar] :
+	ctrl_io ? ir[3:0] :
+	ctrl_ao ? a_reg :
+	ctrl_eo ? alu :
+	8'b0;
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Program Counter
+///////////////////////////////////////////////////////////////////////////////
+
+reg[3:0] pc;
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		pc <= 0;
+	else if (ctrl_ce)
+		pc <= pc + 1;
+	else if (ctrl_jp)
+		pc <= bus[3:0];
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Instruction Step Counter
+///////////////////////////////////////////////////////////////////////////////
+
+reg[2:0] stage;
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		stage <= 0;
+	else if (stage == 5 || ctrl_jp)
+		stage <= 0;
+	else if (ctrl_ht || stage == 6)
+		// For a halt, put it into a stage it can never get out of
+		stage <= 6;
+	else
+		stage <= stage + 1;
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Memory Address Register
+///////////////////////////////////////////////////////////////////////////////
+
+reg[3:0] mar;
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		mar <= 0;
+	else if (ctrl_mi)
+		mar <= bus[3:0];
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Memory
+///////////////////////////////////////////////////////////////////////////////
+
+reg[7:0] mem[16];
+always @(posedge clk) begin
+	if (ctrl_ri)
+		mem[mar] <= bus;
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Instruction Register
+///////////////////////////////////////////////////////////////////////////////
+
+reg[7:0] ir;
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		ir <= 0;
+	else if (ctrl_ii)
+		ir <= bus;
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// ALU
+///////////////////////////////////////////////////////////////////////////////
+
+reg[7:0] a_reg;
+reg[7:0] b_reg;
+wire[7:0] b_reg_out;
+wire[8:0] alu;
+wire flag_z, flag_c;
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		a_reg <= 0;
+	else if (ctrl_ai)
+		a_reg <= bus;
+end
+
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		b_reg <= 0;
+	else if (ctrl_bi)
+		b_reg <= bus;
+end
+
+// Zero flag is set if ALU is zero
+assign flag_z = (alu[7:0] == 0) ? 1 : 0;
+
+// Use twos-complement for subtraction
+assign b_reg_out = ctrl_su ? ~b_reg + 1 : b_reg;
+
+// Carry flag is set if there's an overflow into bit 8 of the ALU
+assign flag_c = alu[8];
+
+assign alu = a_reg + b_reg_out;
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Flags Register
+///////////////////////////////////////////////////////////////////////////////
+
+parameter FLAG_C = 1;
+parameter FLAG_Z = 0;
+
+reg[1:0] flags;
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		flags <= 0;
+	else if (ctrl_fi)
+		flags <= {flag_c, flag_z};
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Output Register
+///////////////////////////////////////////////////////////////////////////////
+
+always @(posedge clk or posedge reset) begin
+	if (reset)
+		out <= 0;
+	else if (ctrl_oi)
+		out <= bus;
+end
+
+
+///////////////////////////////////////////////////////////////////////////////
+// Program to Run
+///////////////////////////////////////////////////////////////////////////////
+
+initial begin
+	mem[0]  = {OP_OUT, 4'b0};
+	mem[1]  = {OP_ADD, 4'hF};
+	mem[2]  = {OP_JC,  4'h4};
+	mem[3]  = {OP_JMP, 4'h0};
+	mem[4]  = {OP_SUB, 4'hF};
+	mem[5]  = {OP_OUT, 4'h0};
+	mem[6]  = {OP_JZ,  4'h0};
+	mem[7]  = {OP_JMP, 4'h4};
+	mem[8]  = {OP_NOP, 4'h0};
+	mem[9]  = {OP_NOP, 4'h0};
+	mem[10] = {OP_NOP, 4'h0};
+	mem[11] = {OP_NOP, 4'h0};
+	mem[12] = {OP_NOP, 4'h0};
+	mem[13] = {OP_NOP, 4'h0};
+	mem[14] = {OP_NOP, 4'h0};
+	mem[15] = {8'h01};        // DATA = 1
+end
+
+endmodule
+

code/pins.pcf

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+###############################################################################
+#
+# TinyFPGA BX constraint file (.pcf)
+#
+###############################################################################
+#
+# Copyright (c) 2018, Luke Valenty
+# All rights reserved.
+# 
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are met:
+# 
+# 1. Redistributions of source code must retain the above copyright notice, this
+#    list of conditions and the following disclaimer.
+# 2. Redistributions in binary form must reproduce the above copyright notice,
+#    this list of conditions and the following disclaimer in the documentation
+#    and/or other materials provided with the distribution.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
+# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
+# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
+# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
+# ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# The views and conclusions contained in the software and documentation are those
+# of the authors and should not be interpreted as representing official policies,
+# either expressed or implied, of the <project name> project. 
+#
+###############################################################################
+
+####
+# TinyFPGA BX information: https://github.com/tinyfpga/TinyFPGA-BX/
+####
+
+# Left side of board
+set_io --warn-no-port PIN_1 A2
+set_io --warn-no-port PIN_2 A1
+set_io --warn-no-port PIN_3 B1
+set_io --warn-no-port PIN_4 C2
+set_io --warn-no-port PIN_5 C1
+set_io --warn-no-port PIN_6 D2
+set_io --warn-no-port PIN_7 D1
+set_io --warn-no-port PIN_8 E2
+set_io --warn-no-port PIN_9 E1
+set_io --warn-no-port PIN_10 G2
+set_io --warn-no-port PIN_11 H1
+set_io --warn-no-port PIN_12 J1
+set_io --warn-no-port PIN_13 H2
+
+# Right side of board
+set_io --warn-no-port PIN_14 H9
+set_io --warn-no-port PIN_15 D9
+set_io --warn-no-port PIN_16 D8
+set_io --warn-no-port PIN_17 C9
+set_io --warn-no-port PIN_18 A9
+set_io --warn-no-port PIN_19 B8
+set_io --warn-no-port PIN_20 A8
+set_io --warn-no-port PIN_21 B7
+set_io --warn-no-port PIN_22 A7
+set_io --warn-no-port PIN_23 B6
+set_io --warn-no-port PIN_24 A6
+
+# SPI flash interface on bottom of board
+set_io --warn-no-port SPI_SS F7
+set_io --warn-no-port SPI_SCK G7
+set_io --warn-no-port SPI_IO0 G6
+set_io --warn-no-port SPI_IO1 H7
+set_io --warn-no-port SPI_IO2 H4
+set_io --warn-no-port SPI_IO3 J8
+
+# General purpose pins on bottom of board
+set_io --warn-no-port PIN_25 G1
+set_io --warn-no-port PIN_26 J3
+set_io --warn-no-port PIN_27 J4
+set_io --warn-no-port PIN_28 G9
+set_io --warn-no-port PIN_29 J9
+set_io --warn-no-port PIN_30 E8
+set_io --warn-no-port PIN_31 J2
+
+# LED
+set_io --warn-no-port LED B3
+
+# USB
+set_io --warn-no-port USBP B4
+set_io --warn-no-port USBN A4
+set_io --warn-no-port USBPU A3
+
+# 16MHz clock
+set_io --warn-no-port CLK B2 # input

code/top.v

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+`include "cpu.v"
+`include "7seg.v"
+`include "bin_to_bcd.v"
+
+module top(
+	input CLK,
+	input PIN_13,
+	output PIN_9,
+	output PIN_10, output PIN_11,
+	output PIN_12, output PIN_14,
+	output PIN_15, output PIN_16,
+	output PIN_17, output PIN_18,
+	output PIN_19, output PIN_20);
+
+reg[7:0] out;
+reg[23:0] clk;
+always @(posedge CLK)
+	clk <= clk + 1;
+
+cpu cpu0(
+	.clk(clk[15]),
+	.reset(PIN_13),
+	.out(out));
+
+reg[3:0] cathode = 4'b1110;
+reg[6:0] seg_ones;
+reg[6:0] seg_tens;
+reg[6:0] seg_hundreds;
+wire[11:0] bcd;
+
+bin_to_bcd bin_to_bcd0(out, bcd);
+
+seven_seg seven_seg_ones(
+	.bcd(bcd[3:0]),
+	.segments(seg_ones));
+
+seven_seg seven_seg_tens(
+	.bcd(bcd[7:4]),
+	.segments(seg_tens));
+
+seven_seg seven_seg_hundreds(
+	.bcd(bcd[11:8]),
+	.segments(seg_hundreds));
+
+always @(posedge clk[10])
+	case (cathode)
+		4'b1110: begin
+			cathode = 4'b1011;
+			{PIN_11, PIN_9, PIN_15, PIN_18, PIN_19, PIN_10, PIN_14} = seg_hundreds;
+		end
+		4'b1011: begin
+			cathode = 4'b1101;
+			{PIN_11, PIN_9, PIN_15, PIN_18, PIN_19, PIN_10, PIN_14} = seg_tens;
+		end
+		4'b1101: begin
+			cathode = 4'b1110;
+			{PIN_11, PIN_9, PIN_15, PIN_18, PIN_19, PIN_10, PIN_14} = seg_ones;
+		end
+		default: begin
+			cathode = 4'b1111;
+		end
+	endcase
+
+assign {PIN_20, PIN_17, PIN_16, PIN_12} = cathode;
+
+endmodule
+