module Paella ( input wire CLK_50MHz, output wire LED, inout wire [3:0] TRG, inout wire [6:0] CON_A, inout wire [16:0] CON_B, inout wire [12:0] CON_C, input wire [1:0] CON_BCLK, input wire [1:0] CON_CCLK, input wire ADC_DCO, input wire ADC_FCO, input wire ADC_DB, input wire ADC_DC, input wire ADC_DD, output wire USB_SLRD, output wire USB_SLWR, input wire USB_IFCLK, input wire USB_FLAGA, input wire USB_FLAGB, input wire USB_FLAGC, inout wire [7:0] USB_PA, inout wire [7:0] USB_PB, output wire RAM_CLK, output wire RAM_CE1, output wire RAM_WE, output wire [19:0] RAM_ADDR, inout wire RAM_DQAP, inout wire [7:0] RAM_DQA, inout wire RAM_DQBP, inout wire [7:0] RAM_DQB ); // Turn off all output ports assign USB_SLRD = 1'b0; assign USB_SLWR = 1'b0; assign RAM_CLK = 1'b0; assign RAM_CE1 = 1'b0; assign RAM_WE = 1'b0; assign RAM_ADDR = 20'h00000; // All inout ports turn to tri-state assign TRG = 4'bz; assign CON_A = 7'bz; assign CON_B = 17'bz; assign CON_C = 12'bz; assign USB_PA = 8'bz; assign USB_PB = 8'bz; assign RAM_DQAP = 1'bz; assign RAM_DQA = 8'bz; assign RAM_DQBP = 1'bz; assign RAM_DQB = 8'bz; reg [31:0] counter; assign LED = counter[25]; always @ (posedge CLK_50MHz) begin counter <= counter + 32'd1; end endmodule