// // Copyright 2011 Ettus Research LLC // module simple_uart #(parameter CLKDIV_DEFAULT = 16'd0) (input clk_i, input rst_i, input we_i, input stb_i, input cyc_i, output reg ack_o, input [2:0] adr_i, input [31:0] dat_i, output reg [31:0] dat_o, output rx_int_o, output tx_int_o, output tx_o, input rx_i, output baud_o); // Register Map localparam SUART_CLKDIV = 0; localparam SUART_TXLEVEL = 1; localparam SUART_RXLEVEL = 2; localparam SUART_TXCHAR = 3; localparam SUART_RXCHAR = 4; wire wb_acc = cyc_i & stb_i; // WISHBONE access wire wb_wr = wb_acc & we_i; // WISHBONE write access reg [15:0] clkdiv; wire [7:0] rx_char; wire tx_fifo_full, rx_fifo_empty; wire [5:0] tx_fifo_level, rx_fifo_level; always @(posedge clk_i) if (rst_i) ack_o <= 1'b0; else ack_o <= wb_acc & ~ack_o; always @(posedge clk_i) if (rst_i) clkdiv <= CLKDIV_DEFAULT; else if (wb_wr) case(adr_i) SUART_CLKDIV : clkdiv <= dat_i[15:0]; endcase // case(adr_i) always @(posedge clk_i) case (adr_i) SUART_TXLEVEL : dat_o <= tx_fifo_level; SUART_RXLEVEL : dat_o <= rx_fifo_level; SUART_RXCHAR : dat_o <= rx_char; endcase // case(adr_i) simple_uart_tx simple_uart_tx (.clk(clk_i),.rst(rst_i), .fifo_in(dat_i[7:0]),.fifo_write(ack_o && wb_wr && (adr_i == SUART_TXCHAR)), .fifo_level(tx_fifo_level),.fifo_full(tx_fifo_full), .clkdiv(clkdiv),.baudclk(baud_o),.tx(tx_o)); simple_uart_rx simple_uart_rx (.clk(clk_i),.rst(rst_i), .fifo_out(rx_char),.fifo_read(ack_o && ~wb_wr && (adr_i == SUART_RXCHAR)), .fifo_level(rx_fifo_level),.fifo_empty(rx_fifo_empty), .clkdiv(clkdiv),.rx(rx_i)); assign tx_int_o = ~tx_fifo_full; assign rx_int_o = ~rx_fifo_empty; endmodule // simple_uart