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UHD-Fairwaves/fpga/fifo/fifo36_to_fifo72.v
Josh Blum 505b677c7a umtrx: moved new umtrx directory up one
2014-04-07 17:34:55 -07:00

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//
// Copyright 2011 Ettus Research LLC
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// Parameter LE tells us if we are little-endian.
// Little-endian means send lower 16 bits first.
// Default is big endian (network order), send upper bits first.
module fifo36_to_fifo72
#(parameter LE=0)
(input clk, input reset, input clear,
input [35:0] f36_datain,
input f36_src_rdy_i,
output f36_dst_rdy_o,
output [71:0] f72_dataout,
output f72_src_rdy_o,
input f72_dst_rdy_i,
output [31:0] debug
);
// Shortfifo on input to guarantee no deadlock
wire [35:0] f36_data_int;
wire f36_src_rdy_int, f36_dst_rdy_int;
fifo_short #(.WIDTH(36)) head_fifo
(.clk(clk),.reset(reset),.clear(clear),
.datain(f36_datain), .src_rdy_i(f36_src_rdy_i), .dst_rdy_o(f36_dst_rdy_o),
.dataout(f36_data_int), .src_rdy_o(f36_src_rdy_int), .dst_rdy_i(f36_dst_rdy_int),
.space(),.occupied() );
// Actual f36 to f72 which could deadlock if not connected to shortfifos
reg f72_sof_int, f72_eof_int;
reg [2:0] f72_occ_int;
wire [71:0] f72_data_int;
wire f72_src_rdy_int, f72_dst_rdy_int;
reg [1:0] state;
reg [31:0] dat0, dat1;
wire f36_sof_int = f36_data_int[32];
wire f36_eof_int = f36_data_int[33];
wire [1:0] f36_occ_int = f36_data_int[35:34];
wire xfer_out = f72_src_rdy_int & f72_dst_rdy_int;
always @(posedge clk)
if(f36_src_rdy_int & ((state==0)|xfer_out))
f72_sof_int <= f36_sof_int;
always @(posedge clk)
if(f36_src_rdy_int & ((state != 2)|xfer_out))
f72_eof_int <= f36_eof_int;
always @(posedge clk)
if(reset)
begin
state <= 0;
f72_occ_int <= 0;
end
else
if(f36_src_rdy_int)
case(state)
0 :
begin
dat0 <= f36_data_int;
if(f36_eof_int)
begin
state <= 2;
case (f36_occ_int)
0 : f72_occ_int <= 3'd4;
1 : f72_occ_int <= 3'd1;
2 : f72_occ_int <= 3'd2;
3 : f72_occ_int <= 3'd3;
endcase // case (f36_occ_int)
end
else
state <= 1;
end
1 :
begin
dat1 <= f36_data_int;
state <= 2;
if(f36_eof_int)
case (f36_occ_int)
0 : f72_occ_int <= 3'd0;
1 : f72_occ_int <= 3'd5;
2 : f72_occ_int <= 3'd6;
3 : f72_occ_int <= 3'd7;
endcase // case (f36_occ_int)
end
2 :
if(xfer_out)
begin
dat0 <= f36_data_int;
if(f36_eof_int) // remain in state 2 if we are at eof
case (f36_occ_int)
0 : f72_occ_int <= 3'd4;
1 : f72_occ_int <= 3'd1;
2 : f72_occ_int <= 3'd2;
3 : f72_occ_int <= 3'd3;
endcase // case (f36_occ_int)
else
state <= 1;
end
endcase // case(state)
else
if(xfer_out)
begin
state <= 0;
f72_occ_int <= 0;
end
assign f36_dst_rdy_int = xfer_out | (state != 2);
assign f72_data_int = LE ? {3'b000,f72_occ_int[2:0],f72_eof_int,f72_sof_int,dat1,dat0} :
{3'b000,f72_occ_int[2:0],f72_eof_int,f72_sof_int,dat0,dat1};
assign f72_src_rdy_int = (state == 2);
assign debug = state;
// Shortfifo on output to guarantee no deadlock
fifo_short #(.WIDTH(72)) tail_fifo
(.clk(clk),.reset(reset),.clear(clear),
.datain(f72_data_int), .src_rdy_i(f72_src_rdy_int), .dst_rdy_o(f72_dst_rdy_int),
.dataout(f72_dataout), .src_rdy_o(f72_src_rdy_o), .dst_rdy_i(f72_dst_rdy_i),
.space(),.occupied() );
endmodule // fifo36_to_fifo72
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