module nexys_CYBERcobra( input CLK100, input resetn, input BTND, input [15:0] SW, output CA, CB, CC, CD, CE, CF, CG, output [7:0] AN ); CYBERcobra dut( .clk_i(CLK100), .rst_i(!resetn), .sw_i({7'b0,splash,SW[7:0]}), .out_o(out) ); localparam pwm = 1000; reg [9:0] counter; reg [3:0] semseg; reg [7:0] ANreg; reg CAr, CBr, CCr, CDr, CEr, CFr, CGr; reg [3:0] btn; reg [10:0] btn_reg; wire splash; wire [31:0] out; assign AN[7:0] = ANreg[7:0]; assign {CA, CB, CC, CD, CE, CF, CG} = {CAr, CBr, CCr, CDr, CEr, CFr, CGr}; assign splash = ((btn == 4'b1111) ^ btn_reg[10]) && (btn == 4'b1111); always @(posedge CLK100) begin if (!resetn) begin counter <= 'b0; ANreg[7:0] <= 8'b11111111; {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b1111111; btn <= 4'b0; btn_reg <= 0; end else begin btn <= (btn << 1'b1) + BTND; btn_reg <= (btn_reg << 1'b1) + (btn == 4'b1111); if (counter < pwm) counter = counter + 'b1; else begin counter = 'b0; ANreg[1] <= ANreg[0]; ANreg[2] <= ANreg[1]; ANreg[3] <= ANreg[2]; ANreg[4] <= ANreg[3]; ANreg[5] <= ANreg[4]; ANreg[6] <= ANreg[5]; ANreg[7] <= ANreg[6]; ANreg[0] <= !(ANreg[6:0] == 7'b1111111); end case (1'b0) ANreg[0]: semseg <= out[3 : 0]; ANreg[1]: semseg <= out[7 : 4]; ANreg[2]: semseg <= out[11: 8]; ANreg[3]: semseg <= out[15:12]; ANreg[4]: semseg <= out[19:16]; ANreg[5]: semseg <= out[23:20]; ANreg[6]: semseg <= out[27:24]; ANreg[7]: semseg <= out[31:28]; endcase case (semseg) 4'h1: {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b1110001; //L 4'h3: {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b0110110; //? 4'h8: {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b0000001; //O 4'hA: {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b0001000; //A 4'hC: {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b1001000; //H default: {CAr, CBr, CCr, CDr, CEr, CFr, CGr} <= 7'b1111111; // endcase end end endmodule