examples/ulx3s/blinky.v - prjtrellis - Git at Google

 module top(input clk_pin, input btn_pin, output [7:0] led_pin, output gpio0_pin);

     wire clk;
     wire [7:0] led;
     wire btn;
     wire gpio0;

     (* LOC="G2" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("INPUT")) clk_buf (.B(clk_pin), .O(clk));

     (* LOC="R1" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("INPUT")) btn_buf (.B(btn_pin), .O(btn));

     (* LOC="B2" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_0 (.B(led_pin[0]), .I(led[0]));
     (* LOC="C2" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_1 (.B(led_pin[1]), .I(led[1]));
     (* LOC="C1" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_2 (.B(led_pin[2]), .I(led[2]));
     (* LOC="D2" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_3 (.B(led_pin[3]), .I(led[3]));

     (* LOC="D1" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_4 (.B(led_pin[4]), .I(led[4]));
     (* LOC="E2" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_5 (.B(led_pin[5]), .I(led[5]));
     (* LOC="E1" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_6 (.B(led_pin[6]), .I(led[6]));
     (* LOC="H3" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) led_buf_7 (.B(led_pin[7]), .I(led[7]));


     (* LOC="L2" *) (* IO_TYPE="LVCMOS33" *)
     TRELLIS_IO #(.DIR("OUTPUT")) gpio0_buf (.B(gpio0_pin), .I(gpio0));

     localparam ctr_width = 24;
     localparam ctr_max = 2**ctr_width - 1;
     reg [ctr_width-1:0] ctr = 0;
     reg [9:0] pwm_ctr = 0;
     reg dir = 0;

     always@(posedge clk) begin
     ctr <= btn ? ctr : (dir ? ctr - 1'b1 : ctr + 1'b1);
         if (ctr[ctr_width-1 : ctr_width-3] == 0 && dir == 1)
             dir <= 1'b0;
         else if (ctr[ctr_width-1 : ctr_width-3] == 7 && dir == 0)
             dir <= 1'b1;
         pwm_ctr <= pwm_ctr + 1'b1;
     end

     reg [9:0] brightness [0:7];
     localparam bright_max = 2**10 - 1;
     reg [7:0] led_reg;

     genvar i;
     generate
     for (i = 0; i < 8; i=i+1) begin
        always @ (posedge clk) begin
             if (ctr[ctr_width-1 : ctr_width-3] == i)
                 brightness[i] <= bright_max;
             else if (ctr[ctr_width-1 : ctr_width-3] == (i - 1))
                 brightness[i] <= ctr[ctr_width-4:ctr_width-13];
              else if (ctr[ctr_width-1 : ctr_width-3] == (i + 1))
                  brightness[i] <= bright_max - ctr[ctr_width-4:ctr_width-13];
             else
                 brightness[i] <= 0;
             led_reg[i] <= pwm_ctr < brightness[i];
        end
     end
     endgenerate

     assign led = led_reg;

     // Tie GPIO0, keep board from rebooting
     assign gpio0 = 1'b1;

 endmodule
	module top(input clk_pin, input btn_pin, output [7:0] led_pin, output gpio0_pin);

	wire clk;
	wire [7:0] led;
	wire btn;
	wire gpio0;

	(* LOC="G2" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("INPUT")) clk_buf (.B(clk_pin), .O(clk));

	(* LOC="R1" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("INPUT")) btn_buf (.B(btn_pin), .O(btn));

	(* LOC="B2" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_0 (.B(led_pin[0]), .I(led[0]));
	(* LOC="C2" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_1 (.B(led_pin[1]), .I(led[1]));
	(* LOC="C1" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_2 (.B(led_pin[2]), .I(led[2]));
	(* LOC="D2" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_3 (.B(led_pin[3]), .I(led[3]));

	(* LOC="D1" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_4 (.B(led_pin[4]), .I(led[4]));
	(* LOC="E2" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_5 (.B(led_pin[5]), .I(led[5]));
	(* LOC="E1" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_6 (.B(led_pin[6]), .I(led[6]));
	(* LOC="H3" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) led_buf_7 (.B(led_pin[7]), .I(led[7]));


	(* LOC="L2" ) ( IO_TYPE="LVCMOS33" *)
	TRELLIS_IO #(.DIR("OUTPUT")) gpio0_buf (.B(gpio0_pin), .I(gpio0));

	localparam ctr_width = 24;
	localparam ctr_max = 2**ctr_width - 1;
	reg [ctr_width-1:0] ctr = 0;
	reg [9:0] pwm_ctr = 0;
	reg dir = 0;

	always@(posedge clk) begin
	ctr <= btn ? ctr : (dir ? ctr - 1'b1 : ctr + 1'b1);
	if (ctr[ctr_width-1 : ctr_width-3] == 0 && dir == 1)
	dir <= 1'b0;
	else if (ctr[ctr_width-1 : ctr_width-3] == 7 && dir == 0)
	dir <= 1'b1;
	pwm_ctr <= pwm_ctr + 1'b1;
	end

	reg [9:0] brightness [0:7];
	localparam bright_max = 2**10 - 1;
	reg [7:0] led_reg;

	genvar i;
	generate
	for (i = 0; i < 8; i=i+1) begin
	always @ (posedge clk) begin
	if (ctr[ctr_width-1 : ctr_width-3] == i)
	brightness[i] <= bright_max;
	else if (ctr[ctr_width-1 : ctr_width-3] == (i - 1))
	brightness[i] <= ctr[ctr_width-4:ctr_width-13];
	else if (ctr[ctr_width-1 : ctr_width-3] == (i + 1))
	brightness[i] <= bright_max - ctr[ctr_width-4:ctr_width-13];
	else
	brightness[i] <= 0;
	led_reg[i] <= pwm_ctr < brightness[i];
	end
	end
	endgenerate

	assign led = led_reg;

	// Tie GPIO0, keep board from rebooting
	assign gpio0 = 1'b1;

	endmodule