module sd_clk ( input clk, input reset, sd_scb.clk sd_scb, output logic sd_clk_rising, output logic sd_clk_falling, output logic sd_clk ); logic [7:0] clock_divider; always_ff @(posedge clk) begin clock_divider <= clock_divider + 1'd1; end logic selected_clock; always_comb begin selected_clock = 1'b0; case (sd_scb.clock_mode) 2'd0: selected_clock = 1'b0; 2'd1: selected_clock = clock_divider[7]; 2'd2: selected_clock = clock_divider[1]; 2'd3: selected_clock = clock_divider[0]; endcase end logic last_selected_clock; always_ff @(posedge clk) begin last_selected_clock <= selected_clock; end always_comb begin sd_clk_rising = !last_selected_clock && selected_clock; sd_clk_falling = last_selected_clock && !selected_clock; end always_ff @(posedge clk) begin sd_clk <= last_selected_clock; end endmodule