`define LOG2(N) (\ N < 2 ? 0 : \ N < 4 ? 1 : \ N < 8 ? 2 : \ N < 16 ? 3 : \ N < 32 ? 4 : \ N < 64 ? 5 : \ N < 128 ? 6 : \ N < 256 ? 7 : \ N < 512 ? 8 : \ N < 1024 ? 9 : \ 10) module binary_encoder #( parameter SIZE = 16 ) ( input [SIZE-1:0] in, output [`LOG2(SIZE)-1:0] out ); genvar m,n; generate // Loop enough times to represent the total number of input bits as an encoded value for (m = 0; m <= `log2(SIZE-1); m = m + 1) begin: expand_or_tree wire [SIZE-1:0] encoding; // Build enable mask by iterating through every input bit. for (n = 0; n < SIZE ; n = n + 1) begin: encode_this_bit assign encoding[n] = n[m]; end // OR tree for this output bit with appropraite bits enabled. assign out[m] = |(encoding & in); end endgenerate endmodule // binary_encoder