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prbs_gen_chk.sv
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prbs_gen_chk.sv
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//------------------------------------------------------------------------------
// prbs_gen_chk.sv
// Konstantin Pavlov, [email protected]
//------------------------------------------------------------------------------
// INFO ------------------------------------------------------------------------
// This module generates or checks a PRBS pattern
// See "xapp884" appnote for more info
// Set paramaters for compliance to ITU-T Recommendation O.150 Section 5
//--------------------------------- ------------------------------------------
// POLY_LEN POLY_TAP INV_PATTERN | nbr of bit seq. max 0 feedback
// | stages length sequence stages
//--------------------------------- ------------------------------------------
// 7(non standard) 6 false | 7 127 6 6, 7
// 9 5 false | 9 511 8 5, 9
// 11 9 false | 11 2047 10 9,11
// 15 14 true | 15 32767 15 14,15
// 20 3 false | 20 1048575 19 3,20
// 23 18 true | 23 8388607 23 18,23
// 29 27 true | 29 536870911 29 27,29
// 31 28 true | 31 2147483647 31 28,31
/* --- INSTANTIATION TEMPLATE BEGIN ---
prbs_gen_chk #(
.WIDTH( 32 ),
.CHK_MODE( 0 ),
.INV_PATTERN( 1 ),
.POLY_LEN( 31 ),
.POLY_TAP( 28 )
) prbs1 (
.clk( clk ),
.nrst( nrst ),
.en( 1'b1 )
.data_in( 0 ),
.data_out( d[31:0] )
)
--- INSTANTIATION TEMPLATE END ---*/
module prbs_gen_chk #( parameter
WIDTH = 32, // data_in, data_out port width
CHK_MODE = 0, // 0 - module is a gen
// 1 - module is a chk
INV_PATTERN = 1, // invert PRBS bit-wise
POLY_LEN = 31, // generator polynomial length
POLY_TAP = 28 // generator polynomial tap
)(
input clk,
input nrst,
input en,
input [(WIDTH-1):0] data_in, // CHK_MODE: data to be checked
// ~CHK_MODE: inject error
output logic [(WIDTH-1):0] data_out = {WIDTH{1'b1}}
// CHK_MODE: error found (checker), LSB is the oldest received bit
// ~CHK_MODE: generated prbs pattern, LSB is the oldest-generated bit
);
// considering inversion
logic [(WIDTH-1):0] data_in_i;
assign data_in_i[(WIDTH-1):0] = (INV_PATTERN)?
(~data_in[(WIDTH-1):0]):
(data_in[(WIDTH-1):0]);
logic [(POLY_LEN-1):0] prbs_register = {POLY_LEN{1'b1}}; // LFSR itself
logic [WIDTH:0][(POLY_LEN-1):0] shift_table;
logic [(WIDTH-1):0] xor_results;
// generating [POLY_LEN cols]x[WIDTH+1 rows] table by shifting prbs register
genvar i;
generate
assign shift_table[0] = prbs_register[(POLY_LEN-1):0];
for (i=0; i<WIDTH; i=i+1) begin : gen1
assign xor_results[i] = shift_table[i][POLY_LEN-POLY_TAP] ^ shift_table[i][0];
assign shift_table[i+1] = { (CHK_MODE)?(data_in_i[i]):(xor_results[i]),
shift_table[i][(POLY_LEN-1):1] };
end
endgenerate
always_ff @(posedge clk) begin
if(~nrst) begin
data_out[(WIDTH-1):0] <= {WIDTH{1'b1}};
prbs_register[(POLY_LEN-1):0] <= {POLY_LEN{1'b1}};
end else if (en) begin
// taking new bits generated by xor operation
data_out[(WIDTH-1):0] <= xor_results[(WIDTH-1):0] ^ data_in_i[(WIDTH-1):0];
// storing prbs register
prbs_register[(POLY_LEN-1):0] <= shift_table[WIDTH][(POLY_LEN-1):0];
end
end
endmodule