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[/] [socgen/] [trunk/] [common/] [opencores.org/] [cde/] [ip/] [serial/] [rtl/] [verilog/] [serial_xmit.v] - Rev 133
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module cde_serial_xmit #(parameter WIDTH=8, // Number of data bits parameter SIZE=4 // binary size of shift_cnt, must be able to hold WIDTH + 4 states ) ( input wire clk, input wire reset, input wire edge_enable, // one pulse per bit time for data rate timing input wire parity_enable, // 0 = no parity bit sent, 1= parity bit sent input wire parity_type, // 0= odd,1=even input wire parity_force, // force parity_type input wire load, // start transmiting data input wire start_value, // value out at start bit time input wire stop_value, // value out for stop bit also used for break input wire [WIDTH-1:0] data, // data byte output reg buffer_empty, // ready for next byte output reg ser_out // to pad_ring ); reg [SIZE-1:0] shift_cnt; reg [WIDTH-1:0] shift_buffer; reg parity_calc; reg delayed_edge_enable; // // shift_cnt controls the serial bit out // // 0 Start bit // 1-> WIDTH Data bit lsb first // WIDTH+1 Parity bit if enabled // 2^SIZE-1 Last stop bit and idle always@(posedge clk) if(reset || buffer_empty) shift_cnt <= {SIZE{1'b1}}; else if(!edge_enable) shift_cnt <= shift_cnt; else if(( shift_cnt == {SIZE{1'b1}} ) && ! buffer_empty ) shift_cnt <= {SIZE{1'b0}}; else if ( shift_cnt == WIDTH) case(parity_enable) (1'b0): shift_cnt <= {SIZE{1'b1}}; (1'b1): shift_cnt <= shift_cnt + 1'b1; endcase // case ({two_stop_enable,parity_enable}) else if ( shift_cnt == (WIDTH+1)) shift_cnt <= {SIZE{1'b1}}; else shift_cnt <= shift_cnt + 1'b1; // // // Clear buffer_empty upon load pulse // set it back at the start of the final stop pulse // if load happens BEFORE the next edge_enable then data transfer will have no pauses // logic ensures that having load happen on a edge_enable will work // always@(posedge clk) if(reset) delayed_edge_enable <= 1'b0; else delayed_edge_enable <= edge_enable && ! load; always@(posedge clk) if(reset) buffer_empty <= 1'b1; else if(load) buffer_empty <= 1'b0; else if((shift_cnt == {SIZE{1'b1}}) && delayed_edge_enable) buffer_empty <= 1'b1; else buffer_empty <= buffer_empty; // // // load shift_buffer during start_bit // shift down every bit // // always@(posedge clk) if(reset) shift_buffer <= {WIDTH{1'b0}}; else if(load) shift_buffer <= data; else if(!edge_enable) shift_buffer <= shift_buffer; else if(shift_cnt == {SIZE{1'b1}}) shift_buffer <= shift_buffer; else if(shift_cnt == {SIZE{1'b0}}) shift_buffer <= shift_buffer; else shift_buffer <= {1'b0,shift_buffer[WIDTH-1:1]}; // // // calculate parity on the fly // seed reg with 0 for odd and 1 for even // force reg to 0 or 1 if needed // always@(posedge clk) if(reset) parity_calc <= 1'b0; else if(!edge_enable) parity_calc <= parity_calc; else if(parity_force || (shift_cnt == {SIZE{1'b0}})) parity_calc <= parity_type; else parity_calc <= parity_calc ^ shift_buffer[0]; // send start_bit,data,parity and stop based on shift_cnt always@(posedge clk) if(reset) ser_out <= stop_value; else if( shift_cnt == {SIZE{1'b0}} ) ser_out <= start_value; else if( shift_cnt == {SIZE{1'b1}} ) ser_out <= stop_value; else if( shift_cnt == ({SIZE{1'b1}}+1'b1) ) ser_out <= stop_value; else if( shift_cnt == (WIDTH+1) ) ser_out <= parity_calc; else ser_out <= shift_buffer[0]; endmodule
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