crc32_dat32_any_byte.v

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// baeckler - 04-03-2006
//
// CRC32 of data with any size from 1 to 4 bytes (e.g. residues)
// the input data ports typically come from the same 32 bit 
// register, but this is not a requirement.

module crc32_dat32_any_byte (
	dat_size,
	crc_in,
	crc_out,
	dat8,dat16,dat24,dat32
);

input [1:0] dat_size;
input [31:0] crc_in;

output [31:0] crc_out;
wire [31:0] crc_out;

input [7:0] dat8;
input [15:0] dat16;
input [23:0] dat24;
input [31:0] dat32;

parameter METHOD = 1; // depth optimal factored
parameter REVERSE_DATA = 0; // Use LSB first

// internal data signals
wire [7:0] dat8_w;
wire [15:0] dat16_w;
wire [23:0] dat24_w;
wire [31:0] dat32_w;

//////////////////////////////////////////////////////
// Optional reversal of the data bits to do LSB
//   of data 1st.  No area cost
//////////////////////////////////////////////////////
genvar i;
generate
if (REVERSE_DATA)
begin
		for (i=0; i<32; i=i+1)
		begin : rev_32
			assign dat32_w[i] = dat32[31-i];		
		end
		for (i=0; i<24; i=i+1)
		begin : rev_24
			assign dat24_w[i] = dat24[23-i];		
		end
		for (i=0; i<16; i=i+1)
		begin : rev_16
			assign dat16_w[i] = dat16[15-i];		
		end
		for (i=0; i<8; i=i+1)
		begin : rev_8
			assign dat8_w[i] = dat8[7-i];		
		end
end
else
begin
	// no reversal - pass along
	assign dat32_w = dat32;
	assign dat24_w = dat24;
	assign dat16_w = dat16;
	assign dat8_w = dat8;
end
endgenerate

//////////////////////////////////////////////////////
// define a parallel array of CRC units for one to 
//	eight bytes of data.
//////////////////////////////////////////////////////
	wire [31:0] co_a,co_b,co_c,co_d;
	crc32_dat8  a (.crc_in (crc_in),.crc_out (co_a),.dat_in(dat8_w));
	crc32_dat16 b (.crc_in (crc_in),.crc_out (co_b),.dat_in(dat16_w));
	crc32_dat24 c (.crc_in (crc_in),.crc_out (co_c),.dat_in(dat24_w));
	crc32_dat32 d (.crc_in (crc_in),.crc_out (co_d),.dat_in(dat32_w));
	
	defparam a .METHOD = METHOD;
	defparam b .METHOD = METHOD;
	defparam c .METHOD = METHOD;
	defparam d .METHOD = METHOD;
	
//////////////////////////////////////////////////////
// select the CRC output according to data width
//////////////////////////////////////////////////////
generate
	for (i=0; i<32;i=i+1)
	begin : parmux
		wire [3:0] tmp_m;
		assign tmp_m[0] = co_a[i];
		assign tmp_m[1] = co_b[i];
		assign tmp_m[2] = co_c[i];
		assign tmp_m[3] = co_d[i];
		assign crc_out[i] = tmp_m[dat_size];
	end	
endgenerate

endmodule