// Copyright 2020 Intel Corporation. // // This software and the related documents are Intel copyrighted materials, // and your use of them is governed by the express license under which they // were provided to you ("License"). Unless the License provides otherwise, // you may not use, modify, copy, publish, distribute, disclose or transmit // this software or the related documents without Intel's prior written // permission. // // This software and the related documents are provided as is, with no express // or implied warranties, other than those that are expressly stated in the // License. // Linear feedback shift register, maximal length sequences using only 2-input xor gates. Use Fibonacci LFSR if WIDTH has a known configuration // using only 2 taps in the single feedback xor. Otherwise use Galois LFSR (2-input xor gates inside the shift register, only 3 are needed) // // This implementation uses XNOR, which means the illegal state is all ones. With initial occupancy as 0, state will reset to 0. // // IMPORTANT: this module has only been tested up to 24 bits. The LFSR tables have been extracted from "Table of Linear Feedback Shift Registers" // by Roy Wardand and Tim Molteno, published in 2007. There is probably no easy way to validate that a sequence goes through all 2^N-1 states // exactly once as N gets large. // // This module was designed in conjunction with dla_acl_high_speed_fifo.sv. The testbench is grouped together with the fifo. // // Required files: // -dla_acl_lfsr.sv // -dla_acl_reset_handler.sv // // TEMPORARY FIX: // Reset values are set to match the behavior of before reset cleanup. See FB case:457213. This is a workaround for now. // Eventually the compiler needs to set the reset parameters correctly, at which point the default values will be set // back to the original intent, which is for someone who knows nothing about the reset in their system. `default_nettype none module dla_acl_lfsr #( parameter int WIDTH, // at least 2, up to 512 parameter bit ASYNC_RESET=1, // how do we use reset: 1 means registers are reset asynchronously, 0 means registers are reset synchronously parameter bit SYNCHRONIZE_RESET=0, // based on how reset gets to us, what do we need to do: 1 means synchronize reset before consumption (if reset arrives asynchronously), 0 means passthrough (managed externally) //RESET_EVERYTHING not needed since we already reset all registers //RESET_EXTERNALLY_HELD not needed since reset pulse stretcher is not needed parameter int INITIAL_OCCUPANCY=0 // if enable was asserted for INITIAL_OCCUPANCY clock cycles what would the state of the lfsr be, use this as the reset value instead of the original reset value ) ( input wire clock, input wire resetn, // WARNING: to enable retiming one must set ASYNC_RESET=0 and provide a register chain driving this resetn outside of this module input wire enable, output logic [WIDTH-1:0] state ); logic aclrn, sclrn; dla_acl_reset_handler #( .ASYNC_RESET (ASYNC_RESET), .USE_SYNCHRONIZER (SYNCHRONIZE_RESET), .SYNCHRONIZE_ACLRN (SYNCHRONIZE_RESET), .PIPE_DEPTH (0), .NUM_COPIES (1) ) dla_acl_reset_handler_inst ( .clk (clock), .i_resetn (resetn), .o_aclrn (aclrn), .o_resetn_synchronized (), .o_sclrn (sclrn) ); generate if (WIDTH == 2) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 1), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 3) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 2), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 4) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 3), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 5) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 3), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 6) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 5), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 7) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 6), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 8) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 6), .T2( 5), .T3( 4), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 9) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 5), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 10) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 7), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 11) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 9), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 12) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 11), .T2( 8), .T3( 6), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 13) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 12), .T2( 10), .T3( 9), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 14) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 13), .T2( 11), .T3( 9), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 15) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 14), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 16) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 14), .T2( 13), .T3( 11), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 17) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 14), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 18) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 11), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 19) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 18), .T2( 17), .T3( 14), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 20) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 17), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 21) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 19), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 22) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 21), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 23) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 18), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 24) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 23), .T2( 21), .T3( 20), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 25) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 22), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 26) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 25), .T2( 24), .T3( 20), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 27) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 26), .T2( 25), .T3( 22), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 28) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 25), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 29) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 27), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 30) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 29), .T2( 26), .T3( 24), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 31) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 28), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 32) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 30), .T2( 26), .T3( 25), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 33) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 20), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 34) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 31), .T2( 30), .T3( 26), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 35) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 33), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 36) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 25), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 37) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 36), .T2( 33), .T3( 31), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 38) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 37), .T2( 33), .T3( 32), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 39) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 35), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 40) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 37), .T2( 36), .T3( 35), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 41) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 38), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 42) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 40), .T2( 37), .T3( 35), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 43) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 42), .T2( 38), .T3( 37), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 44) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 42), .T2( 39), .T3( 38), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 45) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 44), .T2( 42), .T3( 41), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 46) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 40), .T2( 39), .T3( 38), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 47) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 42), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 48) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 44), .T2( 41), .T3( 39), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 49) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 40), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 50) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 48), .T2( 47), .T3( 46), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 51) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 50), .T2( 48), .T3( 45), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 52) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 49), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 53) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 52), .T2( 51), .T3( 47), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 54) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 51), .T2( 48), .T3( 46), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 55) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 31), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 56) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 54), .T2( 52), .T3( 49), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 57) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 50), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 58) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 39), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 59) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 57), .T2( 55), .T3( 52), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 60) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 59), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 61) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 60), .T2( 59), .T3( 56), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 62) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 59), .T2( 57), .T3( 56), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 63) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 62), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 64) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 63), .T2( 61), .T3( 60), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 65) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 47), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 66) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 60), .T2( 58), .T3( 57), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 67) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 66), .T2( 65), .T3( 62), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 68) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 59), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 69) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 67), .T2( 64), .T3( 63), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 70) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 69), .T2( 67), .T3( 65), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 71) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 65), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 72) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 69), .T2( 63), .T3( 62), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 73) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 48), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 74) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 71), .T2( 70), .T3( 67), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 75) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 74), .T2( 72), .T3( 69), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 76) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 74), .T2( 72), .T3( 71), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 77) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 75), .T2( 72), .T3( 71), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 78) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 77), .T2( 76), .T3( 71), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 79) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 70), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 80) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 78), .T2( 76), .T3( 71), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 81) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 77), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 82) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 78), .T2( 76), .T3( 73), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 83) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 81), .T2( 79), .T3( 76), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 84) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 71), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 85) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 84), .T2( 83), .T3( 77), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 86) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 84), .T2( 81), .T3( 80), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 87) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 74), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 88) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 80), .T2( 79), .T3( 77), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 89) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 51), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 90) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 88), .T2( 87), .T3( 85), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 91) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 90), .T2( 86), .T3( 83), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 92) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 90), .T2( 87), .T3( 86), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 93) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 91), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 94) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 73), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 95) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 84), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 96) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 90), .T2( 87), .T3( 86), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 97) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 91), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 98) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 87), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 99) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 95), .T2( 94), .T3( 92), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 100) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 63), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 101) begin galois_lfsr #(.WIDTH(WIDTH), .T1(100), .T2( 95), .T3( 94), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 102) begin galois_lfsr #(.WIDTH(WIDTH), .T1( 99), .T2( 97), .T3( 96), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 103) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 94), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 104) begin galois_lfsr #(.WIDTH(WIDTH), .T1(103), .T2( 94), .T3( 93), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 105) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 89), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 106) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 91), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 107) begin galois_lfsr #(.WIDTH(WIDTH), .T1(105), .T2( 99), .T3( 98), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 108) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 77), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 109) begin galois_lfsr #(.WIDTH(WIDTH), .T1(107), .T2(105), .T3( 10), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 110) begin galois_lfsr #(.WIDTH(WIDTH), .T1(109), .T2(106), .T3( 10), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 111) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(101), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 112) begin galois_lfsr #(.WIDTH(WIDTH), .T1(108), .T2(106), .T3( 10), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 113) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(104), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 114) begin galois_lfsr #(.WIDTH(WIDTH), .T1(113), .T2(112), .T3( 10), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 115) begin galois_lfsr #(.WIDTH(WIDTH), .T1(110), .T2(108), .T3( 10), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 116) begin galois_lfsr #(.WIDTH(WIDTH), .T1(114), .T2(111), .T3( 11), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 117) begin galois_lfsr #(.WIDTH(WIDTH), .T1(116), .T2(115), .T3( 11), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 118) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 85), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 119) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(111), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 120) begin galois_lfsr #(.WIDTH(WIDTH), .T1(118), .T2(114), .T3(111), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 121) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(103), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 122) begin galois_lfsr #(.WIDTH(WIDTH), .T1(121), .T2(120), .T3(116), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 123) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(121), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 124) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 87), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 125) begin galois_lfsr #(.WIDTH(WIDTH), .T1(120), .T2(119), .T3(118), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 126) begin galois_lfsr #(.WIDTH(WIDTH), .T1(124), .T2(122), .T3(119), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 127) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(126), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 128) begin galois_lfsr #(.WIDTH(WIDTH), .T1(127), .T2(126), .T3(121), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 129) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(124), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 130) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(127), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 131) begin galois_lfsr #(.WIDTH(WIDTH), .T1(129), .T2(128), .T3(123), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 132) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(103), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 133) begin galois_lfsr #(.WIDTH(WIDTH), .T1(131), .T2(125), .T3(124), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 134) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 77), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 135) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(124), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 136) begin galois_lfsr #(.WIDTH(WIDTH), .T1(134), .T2(133), .T3(128), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 137) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(116), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 138) begin galois_lfsr #(.WIDTH(WIDTH), .T1(137), .T2(131), .T3(130), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 139) begin galois_lfsr #(.WIDTH(WIDTH), .T1(136), .T2(134), .T3(131), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 140) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(111), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 141) begin galois_lfsr #(.WIDTH(WIDTH), .T1(140), .T2(135), .T3(128), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 142) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(121), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 143) begin galois_lfsr #(.WIDTH(WIDTH), .T1(141), .T2(140), .T3(138), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 144) begin galois_lfsr #(.WIDTH(WIDTH), .T1(142), .T2(140), .T3(137), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 145) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 93), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 146) begin galois_lfsr #(.WIDTH(WIDTH), .T1(144), .T2(143), .T3(141), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 147) begin galois_lfsr #(.WIDTH(WIDTH), .T1(145), .T2(143), .T3(136), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 148) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(121), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 149) begin galois_lfsr #(.WIDTH(WIDTH), .T1(142), .T2(140), .T3(139), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 150) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 97), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 151) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(148), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 152) begin galois_lfsr #(.WIDTH(WIDTH), .T1(150), .T2(149), .T3(146), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 153) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(152), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 154) begin galois_lfsr #(.WIDTH(WIDTH), .T1(153), .T2(149), .T3(145), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 155) begin galois_lfsr #(.WIDTH(WIDTH), .T1(151), .T2(150), .T3(148), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 156) begin galois_lfsr #(.WIDTH(WIDTH), .T1(153), .T2(151), .T3(147), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 157) begin galois_lfsr #(.WIDTH(WIDTH), .T1(155), .T2(152), .T3(151), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 158) begin galois_lfsr #(.WIDTH(WIDTH), .T1(153), .T2(152), .T3(150), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 159) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(128), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 160) begin galois_lfsr #(.WIDTH(WIDTH), .T1(158), .T2(157), .T3(155), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 161) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(143), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 162) begin galois_lfsr #(.WIDTH(WIDTH), .T1(158), .T2(155), .T3(154), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 163) begin galois_lfsr #(.WIDTH(WIDTH), .T1(160), .T2(157), .T3(156), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 164) begin galois_lfsr #(.WIDTH(WIDTH), .T1(159), .T2(158), .T3(152), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 165) begin galois_lfsr #(.WIDTH(WIDTH), .T1(162), .T2(157), .T3(156), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 166) begin galois_lfsr #(.WIDTH(WIDTH), .T1(164), .T2(163), .T3(156), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 167) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(161), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 168) begin galois_lfsr #(.WIDTH(WIDTH), .T1(162), .T2(159), .T3(152), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 169) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(135), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 170) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(147), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 171) begin galois_lfsr #(.WIDTH(WIDTH), .T1(169), .T2(166), .T3(165), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 172) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(165), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 173) begin galois_lfsr #(.WIDTH(WIDTH), .T1(171), .T2(168), .T3(165), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 174) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(161), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 175) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(169), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 176) begin galois_lfsr #(.WIDTH(WIDTH), .T1(167), .T2(165), .T3(164), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 177) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(169), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 178) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1( 91), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 179) begin galois_lfsr #(.WIDTH(WIDTH), .T1(178), .T2(177), .T3(175), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 180) begin galois_lfsr #(.WIDTH(WIDTH), .T1(173), .T2(170), .T3(168), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 181) begin galois_lfsr #(.WIDTH(WIDTH), .T1(180), .T2(175), .T3(174), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 182) begin galois_lfsr #(.WIDTH(WIDTH), .T1(181), .T2(176), .T3(174), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 183) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(127), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 184) begin galois_lfsr #(.WIDTH(WIDTH), .T1(177), .T2(176), .T3(175), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 185) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(161), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 186) begin galois_lfsr #(.WIDTH(WIDTH), .T1(180), .T2(178), .T3(177), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 187) begin galois_lfsr #(.WIDTH(WIDTH), .T1(182), .T2(181), .T3(180), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 188) begin galois_lfsr #(.WIDTH(WIDTH), .T1(186), .T2(183), .T3(182), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 189) begin galois_lfsr #(.WIDTH(WIDTH), .T1(187), .T2(184), .T3(183), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 190) begin galois_lfsr #(.WIDTH(WIDTH), .T1(188), .T2(184), .T3(177), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 191) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(182), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 192) begin galois_lfsr #(.WIDTH(WIDTH), .T1(190), .T2(178), .T3(177), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 193) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(178), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 194) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(107), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 195) begin galois_lfsr #(.WIDTH(WIDTH), .T1(193), .T2(192), .T3(187), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 196) begin galois_lfsr #(.WIDTH(WIDTH), .T1(194), .T2(187), .T3(185), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 197) begin galois_lfsr #(.WIDTH(WIDTH), .T1(195), .T2(193), .T3(188), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 198) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(133), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 199) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(165), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 200) begin galois_lfsr #(.WIDTH(WIDTH), .T1(198), .T2(197), .T3(195), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 201) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(187), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 202) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(147), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 203) begin galois_lfsr #(.WIDTH(WIDTH), .T1(202), .T2(196), .T3(195), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 204) begin galois_lfsr #(.WIDTH(WIDTH), .T1(201), .T2(200), .T3(194), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 205) begin galois_lfsr #(.WIDTH(WIDTH), .T1(203), .T2(200), .T3(196), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 206) begin galois_lfsr #(.WIDTH(WIDTH), .T1(201), .T2(197), .T3(196), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 207) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(164), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 208) begin galois_lfsr #(.WIDTH(WIDTH), .T1(207), .T2(205), .T3(199), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 209) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(203), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 210) begin galois_lfsr #(.WIDTH(WIDTH), .T1(207), .T2(206), .T3(198), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 211) begin galois_lfsr #(.WIDTH(WIDTH), .T1(203), .T2(201), .T3(200), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 212) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(107), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 213) begin galois_lfsr #(.WIDTH(WIDTH), .T1(211), .T2(208), .T3(207), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 214) begin galois_lfsr #(.WIDTH(WIDTH), .T1(213), .T2(211), .T3(209), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 215) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(192), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 216) begin galois_lfsr #(.WIDTH(WIDTH), .T1(215), .T2(213), .T3(209), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 217) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(172), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 218) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(207), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 219) begin galois_lfsr #(.WIDTH(WIDTH), .T1(218), .T2(215), .T3(211), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 220) begin galois_lfsr #(.WIDTH(WIDTH), .T1(211), .T2(210), .T3(208), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 221) begin galois_lfsr #(.WIDTH(WIDTH), .T1(219), .T2(215), .T3(213), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 222) begin galois_lfsr #(.WIDTH(WIDTH), .T1(220), .T2(217), .T3(214), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 223) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(190), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 224) begin galois_lfsr #(.WIDTH(WIDTH), .T1(222), .T2(217), .T3(212), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 225) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(193), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 226) begin galois_lfsr #(.WIDTH(WIDTH), .T1(223), .T2(219), .T3(216), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 227) begin galois_lfsr #(.WIDTH(WIDTH), .T1(223), .T2(218), .T3(217), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 228) begin galois_lfsr #(.WIDTH(WIDTH), .T1(226), .T2(217), .T3(216), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 229) begin galois_lfsr #(.WIDTH(WIDTH), .T1(228), .T2(225), .T3(219), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 230) begin galois_lfsr #(.WIDTH(WIDTH), .T1(224), .T2(223), .T3(222), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 231) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(205), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 232) begin galois_lfsr #(.WIDTH(WIDTH), .T1(228), .T2(223), .T3(221), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 233) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(159), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 234) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(203), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 235) begin galois_lfsr #(.WIDTH(WIDTH), .T1(234), .T2(229), .T3(226), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 236) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(231), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 237) begin galois_lfsr #(.WIDTH(WIDTH), .T1(236), .T2(233), .T3(230), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 238) begin galois_lfsr #(.WIDTH(WIDTH), .T1(237), .T2(236), .T3(233), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 239) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(203), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 240) begin galois_lfsr #(.WIDTH(WIDTH), .T1(237), .T2(235), .T3(232), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 241) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(171), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 242) begin galois_lfsr #(.WIDTH(WIDTH), .T1(241), .T2(236), .T3(231), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 243) begin galois_lfsr #(.WIDTH(WIDTH), .T1(242), .T2(238), .T3(235), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 244) begin galois_lfsr #(.WIDTH(WIDTH), .T1(243), .T2(240), .T3(235), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 245) begin galois_lfsr #(.WIDTH(WIDTH), .T1(244), .T2(241), .T3(239), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 246) begin galois_lfsr #(.WIDTH(WIDTH), .T1(245), .T2(244), .T3(235), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 247) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(165), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 248) begin galois_lfsr #(.WIDTH(WIDTH), .T1(238), .T2(234), .T3(233), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 249) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(163), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 250) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(147), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 251) begin galois_lfsr #(.WIDTH(WIDTH), .T1(249), .T2(247), .T3(244), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 252) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(185), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 253) begin galois_lfsr #(.WIDTH(WIDTH), .T1(252), .T2(247), .T3(246), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 254) begin galois_lfsr #(.WIDTH(WIDTH), .T1(253), .T2(252), .T3(247), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 255) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(203), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 256) begin galois_lfsr #(.WIDTH(WIDTH), .T1(254), .T2(251), .T3(246), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 257) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(245), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 258) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(175), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 259) begin galois_lfsr #(.WIDTH(WIDTH), .T1(257), .T2(253), .T3(249), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 260) begin galois_lfsr #(.WIDTH(WIDTH), .T1(253), .T2(252), .T3(250), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 261) begin galois_lfsr #(.WIDTH(WIDTH), .T1(257), .T2(255), .T3(254), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 262) begin galois_lfsr #(.WIDTH(WIDTH), .T1(258), .T2(254), .T3(253), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 263) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(170), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 264) begin galois_lfsr #(.WIDTH(WIDTH), .T1(263), .T2(255), .T3(254), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 265) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(223), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 266) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(219), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 267) begin galois_lfsr #(.WIDTH(WIDTH), .T1(264), .T2(261), .T3(259), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 268) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(243), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 269) begin galois_lfsr #(.WIDTH(WIDTH), .T1(268), .T2(263), .T3(262), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 270) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(217), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 271) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(213), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 272) begin galois_lfsr #(.WIDTH(WIDTH), .T1(270), .T2(266), .T3(263), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 273) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(250), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 274) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(207), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 275) begin galois_lfsr #(.WIDTH(WIDTH), .T1(266), .T2(265), .T3(264), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 276) begin galois_lfsr #(.WIDTH(WIDTH), .T1(275), .T2(273), .T3(270), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 277) begin galois_lfsr #(.WIDTH(WIDTH), .T1(274), .T2(271), .T3(265), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 278) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(273), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 279) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(274), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 280) begin galois_lfsr #(.WIDTH(WIDTH), .T1(278), .T2(275), .T3(271), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 281) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(188), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 282) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(247), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 283) begin galois_lfsr #(.WIDTH(WIDTH), .T1(278), .T2(276), .T3(271), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 284) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(165), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 285) begin galois_lfsr #(.WIDTH(WIDTH), .T1(280), .T2(278), .T3(275), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 286) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(217), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 287) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(216), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 288) begin galois_lfsr #(.WIDTH(WIDTH), .T1(287), .T2(278), .T3(277), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 289) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(268), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 290) begin galois_lfsr #(.WIDTH(WIDTH), .T1(288), .T2(287), .T3(285), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 291) begin galois_lfsr #(.WIDTH(WIDTH), .T1(286), .T2(280), .T3(279), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 292) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(195), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 293) begin galois_lfsr #(.WIDTH(WIDTH), .T1(292), .T2(287), .T3(282), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 294) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(233), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 295) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(247), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 296) begin galois_lfsr #(.WIDTH(WIDTH), .T1(292), .T2(287), .T3(285), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 297) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(292), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 298) begin galois_lfsr #(.WIDTH(WIDTH), .T1(294), .T2(290), .T3(287), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 299) begin galois_lfsr #(.WIDTH(WIDTH), .T1(295), .T2(293), .T3(288), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 300) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(293), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 301) begin galois_lfsr #(.WIDTH(WIDTH), .T1(299), .T2(296), .T3(292), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 302) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(261), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 303) begin galois_lfsr #(.WIDTH(WIDTH), .T1(297), .T2(291), .T3(290), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 304) begin galois_lfsr #(.WIDTH(WIDTH), .T1(303), .T2(302), .T3(293), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 305) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(203), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 306) begin galois_lfsr #(.WIDTH(WIDTH), .T1(305), .T2(303), .T3(299), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 307) begin galois_lfsr #(.WIDTH(WIDTH), .T1(305), .T2(303), .T3(299), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 308) begin galois_lfsr #(.WIDTH(WIDTH), .T1(306), .T2(299), .T3(293), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 309) begin galois_lfsr #(.WIDTH(WIDTH), .T1(307), .T2(302), .T3(299), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 310) begin galois_lfsr #(.WIDTH(WIDTH), .T1(309), .T2(305), .T3(302), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 311) begin galois_lfsr #(.WIDTH(WIDTH), .T1(308), .T2(306), .T3(304), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 312) begin galois_lfsr #(.WIDTH(WIDTH), .T1(307), .T2(302), .T3(301), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 313) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(234), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 314) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(299), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 315) begin galois_lfsr #(.WIDTH(WIDTH), .T1(314), .T2(306), .T3(305), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 316) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(181), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 317) begin galois_lfsr #(.WIDTH(WIDTH), .T1(315), .T2(313), .T3(310), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 318) begin galois_lfsr #(.WIDTH(WIDTH), .T1(313), .T2(312), .T3(310), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 319) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(283), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 320) begin galois_lfsr #(.WIDTH(WIDTH), .T1(319), .T2(317), .T3(316), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 321) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(290), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 322) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(255), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 323) begin galois_lfsr #(.WIDTH(WIDTH), .T1(322), .T2(320), .T3(313), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 324) begin galois_lfsr #(.WIDTH(WIDTH), .T1(321), .T2(320), .T3(318), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 325) begin galois_lfsr #(.WIDTH(WIDTH), .T1(323), .T2(320), .T3(315), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 326) begin galois_lfsr #(.WIDTH(WIDTH), .T1(325), .T2(323), .T3(316), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 327) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(293), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 328) begin galois_lfsr #(.WIDTH(WIDTH), .T1(323), .T2(321), .T3(319), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 329) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(279), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 330) begin galois_lfsr #(.WIDTH(WIDTH), .T1(328), .T2(323), .T3(322), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 331) begin galois_lfsr #(.WIDTH(WIDTH), .T1(329), .T2(325), .T3(321), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 332) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(209), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 333) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(331), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 334) begin galois_lfsr #(.WIDTH(WIDTH), .T1(333), .T2(330), .T3(327), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 335) begin galois_lfsr #(.WIDTH(WIDTH), .T1(333), .T2(328), .T3(325), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 336) begin galois_lfsr #(.WIDTH(WIDTH), .T1(335), .T2(332), .T3(329), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 337) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(282), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 338) begin galois_lfsr #(.WIDTH(WIDTH), .T1(336), .T2(335), .T3(332), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 339) begin galois_lfsr #(.WIDTH(WIDTH), .T1(332), .T2(329), .T3(323), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 340) begin galois_lfsr #(.WIDTH(WIDTH), .T1(337), .T2(336), .T3(329), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 341) begin galois_lfsr #(.WIDTH(WIDTH), .T1(336), .T2(330), .T3(327), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 342) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(217), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 343) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(268), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 344) begin galois_lfsr #(.WIDTH(WIDTH), .T1(338), .T2(334), .T3(333), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 345) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(323), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 346) begin galois_lfsr #(.WIDTH(WIDTH), .T1(344), .T2(339), .T3(335), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 347) begin galois_lfsr #(.WIDTH(WIDTH), .T1(344), .T2(337), .T3(336), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 348) begin galois_lfsr #(.WIDTH(WIDTH), .T1(344), .T2(341), .T3(340), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 349) begin galois_lfsr #(.WIDTH(WIDTH), .T1(347), .T2(344), .T3(343), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 350) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(297), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 351) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(317), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 352) begin galois_lfsr #(.WIDTH(WIDTH), .T1(346), .T2(341), .T3(339), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 353) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(284), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 354) begin galois_lfsr #(.WIDTH(WIDTH), .T1(349), .T2(341), .T3(340), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 355) begin galois_lfsr #(.WIDTH(WIDTH), .T1(354), .T2(350), .T3(349), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 356) begin galois_lfsr #(.WIDTH(WIDTH), .T1(349), .T2(347), .T3(346), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 357) begin galois_lfsr #(.WIDTH(WIDTH), .T1(355), .T2(347), .T3(346), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 358) begin galois_lfsr #(.WIDTH(WIDTH), .T1(351), .T2(350), .T3(344), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 359) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(291), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 360) begin galois_lfsr #(.WIDTH(WIDTH), .T1(359), .T2(335), .T3(334), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 361) begin galois_lfsr #(.WIDTH(WIDTH), .T1(360), .T2(357), .T3(354), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 362) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(299), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 363) begin galois_lfsr #(.WIDTH(WIDTH), .T1(362), .T2(356), .T3(355), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 364) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(297), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 365) begin galois_lfsr #(.WIDTH(WIDTH), .T1(360), .T2(359), .T3(356), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 366) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(337), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 367) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(346), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 368) begin galois_lfsr #(.WIDTH(WIDTH), .T1(361), .T2(359), .T3(351), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 369) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(278), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 370) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(231), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 371) begin galois_lfsr #(.WIDTH(WIDTH), .T1(369), .T2(368), .T3(363), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 372) begin galois_lfsr #(.WIDTH(WIDTH), .T1(369), .T2(365), .T3(357), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 373) begin galois_lfsr #(.WIDTH(WIDTH), .T1(371), .T2(366), .T3(365), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 374) begin galois_lfsr #(.WIDTH(WIDTH), .T1(369), .T2(368), .T3(366), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 375) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(359), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 376) begin galois_lfsr #(.WIDTH(WIDTH), .T1(371), .T2(369), .T3(368), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 377) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(336), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 378) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(335), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 379) begin galois_lfsr #(.WIDTH(WIDTH), .T1(375), .T2(370), .T3(369), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 380) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(333), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 381) begin galois_lfsr #(.WIDTH(WIDTH), .T1(380), .T2(379), .T3(376), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 382) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(301), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 383) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(293), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 384) begin galois_lfsr #(.WIDTH(WIDTH), .T1(378), .T2(369), .T3(368), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 385) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(379), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 386) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(303), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 387) begin galois_lfsr #(.WIDTH(WIDTH), .T1(385), .T2(379), .T3(378), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 388) begin galois_lfsr #(.WIDTH(WIDTH), .T1(387), .T2(385), .T3(374), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 389) begin galois_lfsr #(.WIDTH(WIDTH), .T1(384), .T2(380), .T3(379), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 390) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(301), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 391) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(363), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 392) begin galois_lfsr #(.WIDTH(WIDTH), .T1(386), .T2(382), .T3(379), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 393) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(386), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 394) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(259), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 395) begin galois_lfsr #(.WIDTH(WIDTH), .T1(390), .T2(389), .T3(384), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 396) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(371), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 397) begin galois_lfsr #(.WIDTH(WIDTH), .T1(392), .T2(387), .T3(385), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 398) begin galois_lfsr #(.WIDTH(WIDTH), .T1(393), .T2(392), .T3(384), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 399) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(313), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 400) begin galois_lfsr #(.WIDTH(WIDTH), .T1(398), .T2(397), .T3(395), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 401) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(249), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 402) begin galois_lfsr #(.WIDTH(WIDTH), .T1(399), .T2(398), .T3(393), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 403) begin galois_lfsr #(.WIDTH(WIDTH), .T1(398), .T2(395), .T3(394), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 404) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(215), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 405) begin galois_lfsr #(.WIDTH(WIDTH), .T1(398), .T2(397), .T3(388), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 406) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(249), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 407) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(336), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 408) begin galois_lfsr #(.WIDTH(WIDTH), .T1(407), .T2(403), .T3(401), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 409) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(322), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 410) begin galois_lfsr #(.WIDTH(WIDTH), .T1(407), .T2(406), .T3(400), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 411) begin galois_lfsr #(.WIDTH(WIDTH), .T1(408), .T2(401), .T3(399), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 412) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(265), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 413) begin galois_lfsr #(.WIDTH(WIDTH), .T1(407), .T2(406), .T3(403), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 414) begin galois_lfsr #(.WIDTH(WIDTH), .T1(405), .T2(401), .T3(398), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 415) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(313), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 416) begin galois_lfsr #(.WIDTH(WIDTH), .T1(414), .T2(411), .T3(407), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 417) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(310), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 418) begin galois_lfsr #(.WIDTH(WIDTH), .T1(417), .T2(415), .T3(403), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 419) begin galois_lfsr #(.WIDTH(WIDTH), .T1(415), .T2(414), .T3(404), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 420) begin galois_lfsr #(.WIDTH(WIDTH), .T1(412), .T2(410), .T3(407), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 421) begin galois_lfsr #(.WIDTH(WIDTH), .T1(419), .T2(417), .T3(416), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 422) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(273), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 423) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(398), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 424) begin galois_lfsr #(.WIDTH(WIDTH), .T1(422), .T2(417), .T3(415), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 425) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(413), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 426) begin galois_lfsr #(.WIDTH(WIDTH), .T1(415), .T2(414), .T3(412), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 427) begin galois_lfsr #(.WIDTH(WIDTH), .T1(422), .T2(421), .T3(416), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 428) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(323), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 429) begin galois_lfsr #(.WIDTH(WIDTH), .T1(422), .T2(421), .T3(419), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 430) begin galois_lfsr #(.WIDTH(WIDTH), .T1(419), .T2(417), .T3(415), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 431) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(311), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 432) begin galois_lfsr #(.WIDTH(WIDTH), .T1(429), .T2(428), .T3(419), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 433) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(400), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 434) begin galois_lfsr #(.WIDTH(WIDTH), .T1(429), .T2(423), .T3(422), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 435) begin galois_lfsr #(.WIDTH(WIDTH), .T1(430), .T2(426), .T3(423), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 436) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(271), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 437) begin galois_lfsr #(.WIDTH(WIDTH), .T1(436), .T2(435), .T3(431), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 438) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(373), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 439) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(390), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 440) begin galois_lfsr #(.WIDTH(WIDTH), .T1(439), .T2(437), .T3(436), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 441) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(410), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 442) begin galois_lfsr #(.WIDTH(WIDTH), .T1(440), .T2(437), .T3(435), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 443) begin galois_lfsr #(.WIDTH(WIDTH), .T1(442), .T2(437), .T3(433), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 444) begin galois_lfsr #(.WIDTH(WIDTH), .T1(435), .T2(432), .T3(431), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 445) begin galois_lfsr #(.WIDTH(WIDTH), .T1(441), .T2(439), .T3(438), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 446) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(341), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 447) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(374), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 448) begin galois_lfsr #(.WIDTH(WIDTH), .T1(444), .T2(442), .T3(437), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 449) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(315), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 450) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(371), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 451) begin galois_lfsr #(.WIDTH(WIDTH), .T1(450), .T2(441), .T3(435), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 452) begin galois_lfsr #(.WIDTH(WIDTH), .T1(448), .T2(447), .T3(446), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 453) begin galois_lfsr #(.WIDTH(WIDTH), .T1(449), .T2(447), .T3(438), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 454) begin galois_lfsr #(.WIDTH(WIDTH), .T1(449), .T2(445), .T3(444), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 455) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(417), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 456) begin galois_lfsr #(.WIDTH(WIDTH), .T1(454), .T2(445), .T3(433), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 457) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(441), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 458) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(255), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 459) begin galois_lfsr #(.WIDTH(WIDTH), .T1(457), .T2(454), .T3(447), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 460) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(399), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 461) begin galois_lfsr #(.WIDTH(WIDTH), .T1(460), .T2(455), .T3(454), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 462) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(389), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 463) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(370), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 464) begin galois_lfsr #(.WIDTH(WIDTH), .T1(460), .T2(455), .T3(441), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 465) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(406), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 466) begin galois_lfsr #(.WIDTH(WIDTH), .T1(460), .T2(455), .T3(452), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 467) begin galois_lfsr #(.WIDTH(WIDTH), .T1(466), .T2(461), .T3(456), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 468) begin galois_lfsr #(.WIDTH(WIDTH), .T1(464), .T2(459), .T3(453), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 469) begin galois_lfsr #(.WIDTH(WIDTH), .T1(467), .T2(464), .T3(460), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 470) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(321), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 471) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(470), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 472) begin galois_lfsr #(.WIDTH(WIDTH), .T1(470), .T2(469), .T3(461), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 473) begin galois_lfsr #(.WIDTH(WIDTH), .T1(470), .T2(467), .T3(465), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 474) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(283), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 475) begin galois_lfsr #(.WIDTH(WIDTH), .T1(471), .T2(467), .T3(466), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 476) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(461), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 477) begin galois_lfsr #(.WIDTH(WIDTH), .T1(470), .T2(462), .T3(461), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 478) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(357), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 479) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(375), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 480) begin galois_lfsr #(.WIDTH(WIDTH), .T1(473), .T2(467), .T3(464), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 481) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(343), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 482) begin galois_lfsr #(.WIDTH(WIDTH), .T1(477), .T2(476), .T3(473), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 483) begin galois_lfsr #(.WIDTH(WIDTH), .T1(479), .T2(477), .T3(474), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 484) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(379), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 485) begin galois_lfsr #(.WIDTH(WIDTH), .T1(479), .T2(469), .T3(468), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 486) begin galois_lfsr #(.WIDTH(WIDTH), .T1(481), .T2(478), .T3(472), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 487) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(393), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 488) begin galois_lfsr #(.WIDTH(WIDTH), .T1(487), .T2(485), .T3(484), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 489) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(406), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 490) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(271), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 491) begin galois_lfsr #(.WIDTH(WIDTH), .T1(488), .T2(485), .T3(480), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 492) begin galois_lfsr #(.WIDTH(WIDTH), .T1(491), .T2(485), .T3(484), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 493) begin galois_lfsr #(.WIDTH(WIDTH), .T1(490), .T2(488), .T3(483), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 494) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(357), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 495) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(419), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 496) begin galois_lfsr #(.WIDTH(WIDTH), .T1(494), .T2(491), .T3(480), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 497) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(419), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 498) begin galois_lfsr #(.WIDTH(WIDTH), .T1(495), .T2(489), .T3(487), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 499) begin galois_lfsr #(.WIDTH(WIDTH), .T1(494), .T2(493), .T3(488), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 500) begin galois_lfsr #(.WIDTH(WIDTH), .T1(499), .T2(494), .T3(490), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 501) begin galois_lfsr #(.WIDTH(WIDTH), .T1(499), .T2(497), .T3(496), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 502) begin galois_lfsr #(.WIDTH(WIDTH), .T1(498), .T2(497), .T3(494), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 503) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(500), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 504) begin galois_lfsr #(.WIDTH(WIDTH), .T1(502), .T2(490), .T3(483), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 505) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(349), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 506) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(411), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 507) begin galois_lfsr #(.WIDTH(WIDTH), .T1(504), .T2(501), .T3(494), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 508) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(399), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 509) begin galois_lfsr #(.WIDTH(WIDTH), .T1(506), .T2(502), .T3(501), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 510) begin galois_lfsr #(.WIDTH(WIDTH), .T1(501), .T2(500), .T3(498), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 511) begin fibonacci_lfsr #(.WIDTH(WIDTH), .T1(501), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end if (WIDTH == 512) begin galois_lfsr #(.WIDTH(WIDTH), .T1(510), .T2(507), .T3(504), .INITIAL_OCCUPANCY(INITIAL_OCCUPANCY)) lfsr_inst (.clock(clock), .aclrn(aclrn), .sclrn(sclrn), .enable(enable), .state(state)); end endgenerate endmodule //The high speed FIFO uses LFSRs as the write and read addresses to memory. In order for the FIFO to exit reset with //a nonzero occupancy, we must be able to advance the write address forward INITIAL_OCCUPANCY times. Each of the LFSR //implementations contain a function which advances the state exactly the same way as the hardware logic gates would //when the LFSR is actually in use, but the function applies the state advancement to some temporary signals which //ultimately set the parameter RESET_VALUE. The function has no logic cost, RESET_VALUE is a compile time constant. module galois_lfsr #( parameter int WIDTH, parameter int T1, parameter int T2, parameter int T3, parameter int INITIAL_OCCUPANCY=0 ) ( input wire clock, input wire aclrn, input wire sclrn, input wire enable, output logic [WIDTH-1:0] state ); function [WIDTH-1:0] galois_lfsr_reset_value; input int T1, T2, T3, INITIAL_OCCUPANCY; begin bit [WIDTH-1:0] old_state, new_state; int INIT_OCC_DIV_4K, INIT_OCC_MOD_4K; //to get around the loop iteration problem INIT_OCC_DIV_4K = INITIAL_OCCUPANCY >> 12; INIT_OCC_MOD_4K = INITIAL_OCCUPANCY & 12'hfff; old_state = '0; for (int i=0; i> 12; INIT_OCC_MOD_4K = INITIAL_OCCUPANCY & 12'hfff; old_state = '0; for (int i=0; i