9086/system/fpga_config/OrangeCrab_r0.2.1/fpga_top.v

206 lines
4.2 KiB
Verilog

/* top.v - Implements FPGA and Board specific circuitry
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 "error_header.v"
module fpga_top(
input clk48,
input user_button,
// output reset_n,
output rgb_led0_r,
output rgb_led0_g,
output rgb_led0_b,
inout gpio_0,/*sda*/
output gpio_1 /*scl*/
);
wire HALT;
wire [`ERROR_BITS-1:0]ERROR;
wire [19:0] address_bus;
wire [15:0] data_bus_read,data_bus_write;
wire rd,wr,BHE,IOMEM;
system system(
/* MISC */ counter[7],reset
/* MEMORY / IO */ ,address_bus,data_bus_read,data_bus_write,BHE,rd,wr,IOMEM,HALT,ERROR
);
reg [2:0]rgb_led_color;
assign rgb_led0_r=rgb_led_color[0];
assign rgb_led0_g=rgb_led_color[1];
assign rgb_led0_b=rgb_led_color[2];
// A bit useless since if the cpu ERORRS out or HALTS it will continue executing anyway
//always @(HALT or ERROR or user_button) begin
// if (HALT==1) begin
// /* yellow */
// rgb_led_color<=3'b100;
// end else if (ERROR != `ERROR_BITS'b0) begin
// /* red */
// rgb_led_color<=3'b110;
// end else begin
// /* green */
// rgb_led_color<=3'b101;
// end
//end
// Create a 27 bit register
reg [26:0] counter = 0;
// Every positive edge increment register by 1
always @(posedge clk48) begin
counter <= counter + 1;
end
/*** RESET CIRCUIT ***/
reg reset=0;
reg [1:0] state=0;
always @(posedge counter[15]) begin
if(user_button==0)
state=2'b00;
case (state)
2'b00:begin
reset<=0;
state<=2'b01;
end
2'b01:begin
reset<=1;
state<=2'b10;
end
default: begin
end
endcase
end
always @(negedge wr) begin
if(IOMEM==1'b1 && address_bus[7:0]==8'hA5 )begin
//disp_write_cache[disp_cache_end]<=data_bus_write[7:0];
disp_write_cache[disp_cache_end]<=data_bus_write[15:8];
disp_cache_end<=disp_cache_end+6'd1;
end else if(IOMEM==1'b1 && address_bus[7:0]==8'hB0 )begin
if(data_bus_write[0:0]==1)
rgb_led_color=3'b000;
else
rgb_led_color=3'b111;
end
end
//------------------------------------------//
// Cache to allow the slow display to have a
// chance to keep up with the relentless CPU
reg [5:0] disp_cache_start=0;
reg [5:0] disp_cache_end=0;
reg [7:0] disp_write_cache [63:0];
reg ascii_state=0;
always @(posedge clk48)begin
case (ascii_state)
1'b0:begin
if(ascii_data_ready&disp_cache_start!=disp_cache_end)begin
ascii_data<=disp_write_cache[disp_cache_start];
disp_cache_start<=disp_cache_start+6'd1;
ascii_data_write_req<=1;
ascii_state<=1'b1;
end
end
1'b1:begin
if(!ascii_data_ready)begin
ascii_data_write_req<=0;
ascii_state<=1'b0;
end
end
default: begin end
endcase
end
wire I2C_SPEED=counter[7];
// Display driver
wire ascii_data_ready;
reg ascii_data_write_req=0;
reg [7:0] ascii_data;
ascii_to_HD44780_driver LCD_DRIVER(
/* system */
I2C_SPEED,
1'b1,
/* Data Input */
ascii_data_ready,
ascii_data_write_req,
ascii_data,
/* write circuitry */
!pcf_busy,
pcf_write_req,
pcf_data,
pcf_command_data
);
// Port expander driver
wire pcf_write_req,pcf_command_data,pcf_busy;
wire [3:0]pcf_data;
wire [7:0]i2c_data;
pcf8574_for_HD44780 PCF8574_driver(
.clock(I2C_SPEED),
.pcf_write_req(pcf_write_req),
.pcf_command_data(pcf_command_data),
.pcf_data(pcf_data),
.pcf_busy(pcf_busy),
.new_backlight(1'b0),
.backlight_update(1'b0),
.I2C_BUSY(I2C_BUSY),
.I2C_SEND(I2C_SEND),
.i2c_data(i2c_data)
);
// I2C driver
wire SCL,SDA,I2C_BUSY,I2C_SEND;
assign gpio_1=SCL;
assign gpio_0=SDA;
reg [7:0]i2c_data;
I2C_driver i2c_driver(
.clock(I2C_SPEED),
.SDA_(SDA),
.SCL(SCL),
.address(7'h27),
.I2C_BUSY(I2C_BUSY),
.I2C_SEND(I2C_SEND),
.i2c_data(i2c_data),
);
endmodule