module ll8_to_fifo19 (input clk, input reset, input clear, input [7:0] ll_data, input ll_sof, input ll_eof, input ll_src_rdy, output ll_dst_rdy, output [18:0] f19_data, output f19_src_rdy_o, input f19_dst_rdy_i ); // Short FIFO on input to guarantee no deadlock wire [7:0] ll_data_int; wire ll_sof_int, ll_eof_int, ll_src_rdy_int, ll_dst_rdy_int; ll8_shortfifo head_fifo (.clk(clk), .reset(reset), .clear(clear), .datain(ll_data), .sof_i(ll_sof), .eof_i(ll_eof), .error_i(0), .src_rdy_i(ll_src_rdy), .dst_rdy_o(ll_dst_rdy), .dataout(ll_data_int), .sof_o(ll_sof_int), .eof_o(ll_eof_int), .error_o(), .src_rdy_o(ll_src_rdy_int), .dst_rdy_i(ll_dst_rdy_int)); // Actual ll8_to_fifo19 which could deadlock if not connected to a shortfifo localparam XFER_EMPTY = 0; localparam XFER_HALF = 1; localparam XFER_HALF_WRITE = 3; wire [18:0] f19_data_int; wire f19_sof_int, f19_eof_int, f19_occ_int, f19_src_rdy_int, f19_dst_rdy_int; wire xfer_out = f19_src_rdy_int & f19_dst_rdy_int; wire xfer_in = ll_src_rdy_int & ll_dst_rdy_int; reg hold_sof; reg [1:0] state; reg [7:0] hold_reg; always @(posedge clk) if(ll_src_rdy_int & (state==XFER_EMPTY)) hold_reg <= ll_data_int; always @(posedge clk) if(ll_sof_int & (state==XFER_EMPTY)) hold_sof <= 1; else if(xfer_out) hold_sof <= 0; always @(posedge clk) if(reset | clear) state <= XFER_EMPTY; else case(state) XFER_EMPTY : if(ll_src_rdy_int) if(ll_eof_int) state <= XFER_HALF_WRITE; else state <= XFER_HALF; XFER_HALF : if(ll_src_rdy_int & f19_dst_rdy_int) state <= XFER_EMPTY; XFER_HALF_WRITE : if(f19_dst_rdy_int) state <= XFER_EMPTY; endcase // case (state) assign ll_dst_rdy_int = (state==XFER_EMPTY) | ((state==XFER_HALF)&f19_dst_rdy_int); assign f19_src_rdy_int= (state==XFER_HALF_WRITE) | ((state==XFER_HALF)&ll_src_rdy_int); assign f19_sof_int = hold_sof | (ll_sof_int & (state==XFER_HALF)); assign f19_eof_int = (state == XFER_HALF_WRITE) | ll_eof_int; assign f19_occ_int = (state == XFER_HALF_WRITE); assign f19_data_int = {f19_occ_int,f19_eof_int,f19_sof_int,hold_reg,ll_data_int}; // Shortfifo on output to guarantee no deadlock fifo_short #(.WIDTH(19)) tail_fifo (.clk(clk),.reset(reset),.clear(clear), .datain(f19_data_int), .src_rdy_i(f19_src_rdy_int), .dst_rdy_o(f19_dst_rdy_int), .dataout(f19_data), .src_rdy_o(f19_src_rdy_o), .dst_rdy_i(f19_dst_rdy_i), .space(),.occupied() ); endmodule // ll8_to_fifo19