// This file is part of the Universal Laboratory (uLab) // // © 2007 - 2019 Raptor Engineering, LLC // All Rights Reserved // // Licensed under the terms of the AGPL v3 module guest_fpga_top(clk, reset, four_bit_input, four_bit_output, eight_bit_input, eight_bit_output, sixteen_bit_input, sixteen_bit_output, lcd_data_in_address, lcd_data_in_data, lcd_data_in_enable, led_segment_bus, led_digit_select); input clk; input reset; input [3:0] four_bit_input; output reg [3:0] four_bit_output; input [7:0] eight_bit_input; output reg [7:0] eight_bit_output; input [15:0] sixteen_bit_input; output reg [15:0] sixteen_bit_output; output reg [5:0] lcd_data_in_address; output reg [7:0] lcd_data_in_data; output reg lcd_data_in_enable; output reg [7:0] led_segment_bus; output reg [3:0] led_digit_select; reg [7:0] lcd_sample_counter = 48; // Create a sample LCD display counter register reg [31:0] lcd_character_change_timer = 0; // Wait a certain number of cycles before loading a new character reg [5:0] lcd_current_character = 0; // The current character's address always @(posedge clk) begin four_bit_output = four_bit_input; // Loopback eight_bit_output = eight_bit_input[3:0] + eight_bit_input[7:4]; // Sample adder sixteen_bit_output = sixteen_bit_input[15:8] * sixteen_bit_input[7:0]; // Sample multiplier // Sample LCD display routine lcd_data_in_address = lcd_current_character; // Character location on the LCD display lcd_data_in_data = lcd_sample_counter; // Character code to display lcd_data_in_enable = 1; // Enable data transmission // Cycle through all character positions lcd_current_character = lcd_current_character + 1; if (lcd_current_character > 31) begin lcd_current_character = 16; end // Cycle through the numbers 0 to 9 at one second intervals lcd_character_change_timer = lcd_character_change_timer + 1; if (lcd_character_change_timer > 6000000) begin // Wait one second in between character changes lcd_character_change_timer = 0; lcd_sample_counter = lcd_sample_counter + 1; if (lcd_sample_counter > 57) begin // Character code for the digit 9 lcd_sample_counter = 48; // Character code for the digit 0 end end end // 7-segment LED display driver clock generator reg sseg_clock; reg [4:0] sseg_clock_counter; always @(posedge clk) begin sseg_clock_counter = sseg_clock_counter + 1; if (sseg_clock_counter > 16) begin sseg_clock_counter = 0; sseg_clock = ~sseg_clock; end end // 7-segment LED display driver // led_segment_bus and led_digit_select are active low // The bit sequence, MSB to LSB, is dp a b c d e f g // Segment letters are taken from ug130.pdf page 15 // 0: 8'b10000001 // 1: 8'b11001111 // 2: 8'b10010010 // 3: 8'b10000110 reg [2:0] current_anode; always @(posedge sseg_clock) begin current_anode = current_anode + 1; if (current_anode > 3) begin current_anode = 0; end case (current_anode) 0: begin led_digit_select = 4'b1110; led_segment_bus = 8'b10000001; end 1: begin led_digit_select = 4'b1101; led_segment_bus = 8'b11001111; end 2: begin led_digit_select = 4'b1011; led_segment_bus = 8'b10010010; end 3: begin led_digit_select = 4'b0111; led_segment_bus = 8'b10000110; end endcase end endmodule