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dynamic_delay.sv
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dynamic_delay.sv
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//--------------------------------------------------------------------------------
// dynamic_delay.sv
// published as part of https://github.com/pConst/basic_verilog
// Konstantin Pavlov, [email protected]
//--------------------------------------------------------------------------------
// INFO --------------------------------------------------------------------------------
// Dynamic delay for arbitrary signal.
//
// Incoming data elements have WIDTH bits each. Module does serialization of
// input data and outputs flattened bits, based on provided selector value.
// You can perform delays bit-wize, not just element-wize.
//
// CAUTION: Be careful selecting last, most-delayed "WIDTH" number of bits.
// The module intentionally does NOT implement "out of range"
// checks. Please handle them externally.
/* --- INSTANTIATION TEMPLATE BEGIN ---
dynamic_delay #(
.LENGTH( 3 ),
.WIDTH( 4 )
) M (
.clk( clk ),
.nrst( nrst ),
.ena( 1'b1 ),
.in( in_data[3:0] ),
.sel( sel[3:0] ),
.out( out_data[3:0] )
);
--- INSTANTIATION TEMPLATE END ---*/
module dynamic_delay #( parameter
LENGTH = 63, // maximum delay chain length
WIDTH = 4, // data width
SEL_W = $clog2( (LENGTH+1)*WIDTH ) // output selector width
// plus one is for zero delay element
)(
input clk,
input nrst,
input ena,
input [WIDTH-1:0] in, // input data
// bit in[0] is the "oldest" one
// bit in[WIDTH] is considered the most recent
input [SEL_W-1:0] sel, // output selector
output logic [WIDTH-1:0] out // output data
);
logic [(LENGTH+1)-1:0][WIDTH-1:0] data = '0;
// packed vector includes extra bits
logic [(LENGTH+1)*WIDTH-1:0] pack_data;
assign pack_data[(LENGTH+1)*WIDTH-1:0] = data;
integer i;
always_ff @(posedge clk) begin
if( ~nrst ) begin
// reset all data except zero element
for( i=1; i<(LENGTH+1); i=i+1 ) begin
data[i][WIDTH-1:0] <= '0;
end
end else if (ena) begin
for( i=1; i<(LENGTH+1); i=i+1 ) begin
data[i][WIDTH-1:0] <= data[i-1][WIDTH-1:0];
end
end
end
integer j;
always_comb begin
// zero element assignment
data[0][WIDTH-1:0] <= in[WIDTH-1:0];
// output selector, sel==0 gives non-delayed output
for( j=0; j<WIDTH; j=j+1 ) begin
out[j] <= pack_data[sel[SEL_W-1:0]+j];
end
end
endmodule