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[/] [qaz_libs/] [trunk/] [axi4_stream_lib/] [src/] [axis_down_shift.sv] - Rev 51
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//////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2019 Authors and OPENCORES.ORG ////
//// ////
//// This source file may be used and distributed without ////
//// restriction provided that this copyright statement is not ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer. ////
//// ////
//// This source file is free software; you can redistribute it ////
//// and/or modify it under the terms of the GNU Lesser General ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any ////
//// later version. ////
//// ////
//// This source 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 Lesser General Public License for more ////
//// details. ////
//// ////
//// You should have received a copy of the GNU Lesser General ////
//// Public License along with this source; if not, download it ////
//// from http://www.opencores.org/lgpl.shtml ////
//// ////
//////////////////////////////////////////////////////////////////////
// --------------------------------------------------------------------
module
axis_down_shift_tuser_mux
#(
U = 1, // TUSER width
logic [U-1:0] TUSER_MASK[3] = '{ {U{1'b0}}, // first
{U{1'b0}}, // middle
{U{1'b0}} } // last
)
(
axis_if axis_in,
axis_if axis_out,
input aclk,
input aresetn
);
// --------------------------------------------------------------------
endmodule
// --------------------------------------------------------------------
module
axis_down_shift
#(
N, // axis_in tdata bus width in bytes
S, // tdata size divisor
I = 1, // TID width
D = 1, // TDEST width
U = 1, // TUSER width
logic [U-1:0] TUSER_MASK[3] = '{ {U{1'b0}}, // first
{U{1'b0}}, // middle
{U{1'b0}} } // last
)
(
axis_if axis_in,
axis_if axis_out,
input aclk,
input aresetn
);
// --------------------------------------------------------------------
// synthesis translate_off
initial
begin
assert(S > 1) else $fatal;
assert(N % S == 0) else $fatal;
end
// synthesis translate_on
// --------------------------------------------------------------------
// --------------------------------------------------------------------
localparam N_OUT = (N / S); // width of axis_out.tdata in bytes
localparam W = N_OUT * 8; // width of axis_out.tdata in bits
localparam UB = (W*(S-1))-1;
// --------------------------------------------------------------------
axis_if #(.N(N_OUT), .I(I), .D(D), .U(U)) a_down(.*);
wire almost_last;
// --------------------------------------------------------------------
enum reg [2:0]
{
FIRST = 3'b001,
MIDDLE = 3'b010,
LAST = 3'b100
} state, next_state;
// --------------------------------------------------------------------
always_ff @(posedge aclk)
if(~aresetn)
state <= FIRST;
else
state <= next_state;
// --------------------------------------------------------------------
always_comb
case(state)
FIRST: if(axis_in.tvalid & a_down.tready)
if(almost_last)
next_state <= LAST;
else
next_state <= MIDDLE;
else
next_state <= FIRST;
MIDDLE: if(almost_last & a_down.tready)
next_state <= LAST;
else
next_state <= MIDDLE;
LAST: if(a_down.tready)
next_state <= FIRST;
else
next_state <= LAST;
default: next_state <= FIRST;
endcase
// --------------------------------------------------------------------
reg [$clog2(S)-1:0] index;
assign almost_last = (index >= S - 2);
always_ff @(posedge aclk)
if(next_state == FIRST)
index <= 0;
else if(a_down.tready)
index <= index + 1;
// --------------------------------------------------------------------
reg [UB:0] remainder;
wire [W-1:0] tdata_pass = axis_in.tdata[W-1:0];
wire [W-1:0] tdata_shift = remainder[W-1:0];
always_ff @(posedge aclk)
if(state == FIRST)
remainder <= axis_in.tdata[(N*8)-1:W];
else if(a_down.tready)
remainder <= { {W{1'b0}}, remainder[UB:W]};
// --------------------------------------------------------------------
reg [U-1:0] tuser;
generate
for(genvar j = 0; j < U; j++)
begin: tuser_gen
always_comb
case(state)
FIRST: tuser[j] = TUSER_MASK[0][j] ? axis_in.tuser[j] : 0;
MIDDLE: tuser[j] = TUSER_MASK[1][j] ? axis_in.tuser[j] : 0;
LAST: tuser[j] = TUSER_MASK[2][j] ? axis_in.tuser[j] : 0;
default: tuser[j] = 0;
endcase
end
endgenerate
// --------------------------------------------------------------------
assign axis_in.tready = (state == LAST) & (next_state != LAST);
// assign a_down.tstrb = axis_in.tstrb;
// assign a_down.tkeep = axis_in.tkeep;
assign a_down.tid = axis_in.tid;
assign a_down.tdest = axis_in.tdest;
assign a_down.tvalid = axis_in.tvalid;
assign a_down.tlast = (state == LAST) ? axis_in.tlast : 0;
assign a_down.tuser = tuser;
assign a_down.tdata = (state == FIRST) ? tdata_pass : tdata_shift;
// --------------------------------------------------------------------
axis_register_slice #(.N(N_OUT), .I(I), .D(D), .U(U))
slice_i(.axis_in(a_down), .*);
// --------------------------------------------------------------------
endmodule
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