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hp-saturn/saturn_top.v
Raphael Jacquot f12a74a917 print a "." when the bus is active, but not reading
2019-03-05 06:47:02 +01:00

198 lines
4 KiB
Verilog
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/*
(c) Raphaël Jacquot 2019
This file is part of hp_saturn.
hp_saturn 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
any later version.
hp_saturn 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 Foobar. If not, see <https://www.gnu.org/licenses/>.
*/
`default_nettype none
`ifdef SIM
module saturn_top;
saturn_bus main_bus (
.i_clk (clk),
.i_clk_en (clk_en),
.i_reset (reset),
.o_halt (halt),
.o_char_to_send (char_to_send),
.o_char_valid (char_valid),
.i_serial_busy (serial_busy)
);
saturn_serial serial_port (
.i_clk (clk),
.i_char_to_send (char_to_send),
.i_char_valid (char_valid),
.o_serial_busy (serial_busy)
);
wire [7:0] char_to_send;
wire [0:0] char_valid;
wire [0:0] serial_busy;
wire [7:0] led;
reg [0:0] reset;
wire [0:0] halt;
reg [0:0] clk;
initial begin
$display("TOP : starting the simulation");
clk = 0;
reset = 1;
@(posedge clk);
@(posedge clk);
@(posedge clk);
reset = 0;
$display("TOP : reset done, waiting for instructions");
@(posedge halt);
$display("TOP : instructed to stop, halt is %b", halt);
$finish;
end
always
#10 clk = (clk === 1'b0);
reg [3:0] delay;
reg [0:0] clk_en;
reg [7:0] test;
initial begin
delay = 4'b0001;
clk_en = 1'b0;
test = 8'b1;
end
always @(posedge clk) begin
test <= {test[6:0], test[7]};
delay <= { delay[2:0], delay[3]};
clk_en <= delay[0]?1'b1:1'b0;
if (reset) begin
clk_en <= 1'b0;
test <= 8'b1;
end
end
endmodule
`else
/*
*
*
*
*/
module saturn_top (
clk_25mhz,
btn,
led,
wifi_gpio0,
ftdi_rxd
);
input wire [0:0] clk_25mhz;
input wire [6:0] btn;
output reg [7:0] led;
output wire [0:0] wifi_gpio0;
output wire [0:0] ftdi_rxd;
/* this is necessary, otherwise, the esp32 module reboots the fpga in passthrough */
assign wifi_gpio0 = btn[0];
saturn_bus main_bus (
.i_clk (clk_25mhz),
.i_clk_en (clk_en),
.i_reset (reset),
.o_halt (halt),
.o_phase (phase),
.o_cycle_ctr (cycle_ctr),
.o_instr_decoded (instr_decoded),
.o_debug_cycle (debug_cycle),
.o_char_to_send (char_to_send),
.o_char_counter (char_counter),
.o_char_valid (char_valid),
.o_char_send (char_send),
.i_serial_busy (serial_busy)
);
saturn_serial serial_port (
.i_clk (clk_25mhz),
.i_char_to_send (char_to_send),
.i_char_valid (char_valid),
.o_serial_tx (ftdi_rxd),
.o_serial_busy (serial_busy)
);
reg [25:0] delay;
reg [0:0] clk2;
reg [0:0] clk_en;
reg [0:0] reset;
wire [0:0] halt;
wire [1:0] phase;
wire [31:0] cycle_ctr;
wire [0:0] instr_decoded;
wire [0:0] debug_cycle;
wire [7:0] char_to_send;
wire [9:0] char_counter;
wire [0:0] char_valid;
wire [0:0] char_send;
wire [0:0] serial_busy;
/* 1/4 s */
// `define DELAY_START 26'h20A1F0
// `define TEST_BIT 23
/* 1/8 s */
// `define DELAY_START 26'h1050F8
// `define TEST_BIT 22
/* 1/16 s */
`define DELAY_START 26'h08287C
`define TEST_BIT 21
/* 1/32 s */
// `define DELAY_START 26'h4143E
// `define TEST_BIT 20
initial begin
led = 8'h00;
delay = `DELAY_START;
reset = 1'b1;
clk2 = 1'b0;
end
always @(posedge clk_25mhz) begin
reset <= btn[1];
delay <= delay[`TEST_BIT]?`DELAY_START:delay + 26'b1;
clk_en <= (delay[`TEST_BIT]?1'b1:1'b0) && !halt;
led[7] <= halt;
led[6] <= char_send;
led[5] <= serial_busy;
led[4] <= debug_cycle;
led[3] <= clk_en;
led[2] <= instr_decoded;
led[1:0] <= phase;
end
endmodule
`endif
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