+`include "pll.v"
`include "gc.v"
`include "eval.v"
`include "reader.v"
`include "uart.v"
`include "writer.v"
+`include "controller.v"
`define GCOP_NOP 4'd0
`define GCOP_CDR 4'd1
`define UART_DIVIDE 625
`endif
-module cpu (input clk, output [4:0] led, output uart_tx, input uart_rx);
- wire [15:0] result;
+module cpu (input CLKin, output [4:0] led, output uart_tx, input uart_rx);
+ wire clk;
- reg [5:0] initial_reset = 30;
- always @ (posedge clk)
- if (initial_reset) initial_reset <= initial_reset - 1;
+ pll pll (.clock_in(CLKin), .clock_out(clk));
- wire reset = |initial_reset || reader_active || writer_clock_enable;
- reg [1:0] counter = 0;
-
- wire gc_clock_enable = counter[0] & counter[1] & !reset;
- wire eval_clock_enable = counter[0] & !counter[1] & step_eval & !reset;
- wire writer_clock_enable = counter[0] & counter[1] & writer_active;
-
- always @ (posedge clk)
- counter <= counter + 1;
-
- wire [12:0] P;
+ wire [12:0] freeptr;
wire [15:0] E1;
wire [15:0] E2;
wire [3:0] gcop;
wire [12:0] writer_ram_addr;
- wire reader_active;
-
- wire ram_we = reader_active ? reader_ram_we : gc_ram_we;
- wire [12:0] ram_addr = reader_active ? reader_ram_addr : writer_active ? writer_ram_addr : gc_ram_addr;
- wire [15:0] ram_di = reader_active ? reader_ram_di : gc_ram_di;
+ wire ram_we;
+ wire [12:0] ram_addr;
+ wire [15:0] ram_di;
wire [15:0] ram_do;
+ wire eval_finished;
+ wire reader_finished;
wire writer_finished;
- reg writer_started = 0;
- reg writer_active = 0;
+
+ wire gc_clock_enable;
+ wire eval_clock_enable;
+ wire reader_clock_enable;
+ wire writer_clock_enable;
+ wire reset;
+
+ CTRL ctrl (.clk(clk), .step_eval(step_eval), .reader_finished(reader_finished), .eval_finished(eval_finished), .writer_finished(writer_finished), .gc_clock_enable(gc_clock_enable), .eval_clock_enable(eval_clock_enable), .reader_clock_enable(reader_clock_enable), .writer_clock_enable(writer_clock_enable), .reset(reset), .gc_ram_we(gc_ram_we), .reader_ram_we(reader_ram_we), .gc_ram_addr(gc_ram_addr), .reader_ram_addr(reader_ram_addr), .writer_ram_addr(writer_ram_addr), .gc_ram_di(gc_ram_di), .reader_ram_di(reader_ram_di), .ram_we(ram_we), .ram_addr(ram_addr), .ram_di(ram_di), .uart_is_receiving(uart_is_receiving), .uart_is_transmitting(uart_is_transmitting), .led(led));
GCRAM gcram (.clk(clk), .we(ram_we), .addr(ram_addr), .di(ram_di), .do(ram_do));
- GC gc (.clk(clk), .rst(reset), .clk_enable(gc_clock_enable), .Ein(E1), .Eout(E2), .gcop(gcop), .ostate(gostate), .step_eval(step_eval), .conn_ea(conn_ea), .conn_et(conn_et), .ram_we(gc_ram_we), .ram_addr(gc_ram_addr), .ram_di(gc_ram_di), .ram_do(ram_do), .Pout(P));
+ GC gc (.clk(clk), .rst(reset), .clk_enable(gc_clock_enable), .Ein(E1), .Eout(E2), .gcop(gcop), .ostate(gostate), .step_eval(step_eval), .conn_ea(conn_ea), .conn_et(conn_et), .ram_we(gc_ram_we), .ram_addr(gc_ram_addr), .ram_di(gc_ram_di), .ram_do(ram_do), .freeptr(freeptr));
- EVAL eval (.clk(clk), .rst(reset), .clk_enable(eval_clock_enable), .Ein(E2), .Eout(E1), .gcop(gcop), .ostate(eostate), .conn_ea(conn_ea), .conn_et(conn_et));
+ EVAL eval (.clk(clk), .rst(reset), .clk_enable(eval_clock_enable), .Ein(E2), .Eout(E1), .gcop(gcop), .ostate(eostate), .conn_ea(conn_ea), .conn_et(conn_et), .eval_finished(eval_finished));
- READER reader (.clk(clk), .clk_enable(!initial_reset), .uart_rx_byte(uart_rx_byte), .uart_rx_signal(uart_rx_signal), .uart_is_receiving(uart_is_receiving), .active(reader_active), .ram_we(reader_ram_we), .ram_addr(reader_ram_addr), .ram_di(reader_ram_di));
+ READER reader (.clk(clk), .clk_enable(reader_clock_enable), .rx_byte(uart_rx_byte), .rx_signal(uart_rx_signal), .finished(reader_finished), .ram_we(reader_ram_we), .ram_addr(reader_ram_addr), .ram_di(reader_ram_di));
- WRITER writer (.clk(clk), .clk_enable(writer_clock_enable), .uart_tx_byte(uart_tx_byte), .uart_tx_signal(uart_tx_signal), .uart_is_transmitting(uart_is_transmitting), .finished(writer_finished), .ram_addr(writer_ram_addr), .ram_do(ram_do), .P(P));
+ WRITER writer (.clk(clk), .clk_enable(writer_clock_enable), .tx_byte(uart_tx_byte), .tx_signal(uart_tx_signal), .tx_busy(uart_is_transmitting), .finished(writer_finished), .ram_addr(writer_ram_addr), .ram_do(ram_do), .freeptr(freeptr));
// UART outputs
wire uart_rx_signal;
wire uart_tx_signal;
wire [7:0] uart_tx_byte;
- always @ (posedge clk) begin
- if(writer_finished)
- writer_active <= 0;
-
- if(reader_active) begin
- writer_started <= 0;
- end else if(eostate == 5'd7 && !writer_started) begin
- writer_started <= 1;
- writer_active <= 1;
- end
- end
-
- // 4800 baud uart
+ // 19200 baud uart
uart #(.CLOCK_DIVIDE(`UART_DIVIDE)) uart (.clk(clk), .rx(uart_rx), .tx(uart_tx), .transmit(uart_tx_signal), .tx_byte(uart_tx_byte), .received(uart_rx_signal), .rx_byte(uart_rx_byte), .is_receiving(uart_is_receiving), .is_transmitting(uart_is_transmitting), .recv_error (uart_rx_error));
-
- // Assign the outputs
- assign led[0] = eval_clock_enable;
- assign led[1] = uart_is_transmitting;
- assign led[2] = uart_is_receiving;
- assign led[3] = writer_finished;
- assign led[4] = !reset;
endmodule