module top //( // input logic clk, // input logic train, // output logic green, // output logic red, // output logic yellow //); // // niosII u0 ( // .clk_clk (clk), // clk.clk // .reset_reset_n (1'b1), // reset.reset_n // .sem_export_train (~train), // sem_export.train // .sem_export_red (red), // .red // .sem_export_yellow (yellow), // .yellow // .sem_export_green (green) // .green // ); ( // reset nreset, //////////// CLOCK ////////// CLOCK_50, CLOCK2_50, CLOCK3_50, //////////// LED ////////// LEDG, LEDR, FOUTA ); output FOUTA; //////////// CLOCK ////////// input CLOCK_50; input CLOCK2_50; input CLOCK3_50; input nreset; //////////// LED ////////// output [8:0] LEDG; output [17:0] LEDR; niosII u0 ( .clk_clk (CLOCK_50), // clk.clk .conduit_end_writeresponsevalid_n (LEDG[0]), // conduit_end.writeresponsevalid_n .reset_reset_n (nreset) // reset.reset_n ); assign LEDG[7:1] = 1'b0; assign LEDR[17:0] = 1'b0; assign FOUTA = LEDG[0]; endmodule