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I need a rightrotate function in Verilog for 32-Bit inputs, since it is not defined as an operator (x >>> y).

It is easy rightrotate such input by hand:

wire [31:0] test = 32'd12345; 
wire [31:0] rotated_1 = {test[0:0],test[31:1]};
wire [31:0] rotated_3 = {test[2:0],test[31:3]};

The output of a testbench is as expected:

original: 00000000000000000011000000111001
rotate_1: 10000000000000000001100000011100
rotate_3: 00100000000000000000011000000111

We see, that a function rotate(inp,x) should work like this:

function rotate;
   input [31:0] inp; 
   input [4:0]  x;
      rotate = {inp[x-1:0],inp[31:x]};

Problem is: x is no constant, so it doesn't compile. To specify a range with [a:b], both a and b have to be constants.

A solution seems to be using parameters:

function rotate;
   parameter integer x = 1;
   input [31:0] inp;
      rotate = {inp[x-1:0],inp[31:x]};

Well, it does compile, but unlike modules, which you can instantiate with a changed parameter like this

param_module #(3) pm_inst(...);

,that does not work with functions. In fact, from reading the grammar of Verilog, I cannot see a way at all to specify the parameter:

::= <name_of_function> ( <expression> <,<expression>>* )

My experiments with defparam only worked with modules, not functions.

Since parametrized macros do not exist in Verilog either, how should i implement the rotate function without declaring one for each possible rotation? - and i need lots of them :-(

(Not like this:)

function rotate1...
function rotate2...
function rotate3...
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2 Answers 2

up vote 4 down vote accepted

You can simulate a rotate by concatenating two copies of the data and shifting:

function [31:0] rotate (input [31:0] data, input [4:0] shift);
reg [63:0] tmp;
  tmp = {data, data} >> shift;
  rotate = tmp[31:0];
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Isn't this solution rather inefficient compared to the rotation by hand, since doubles the data? –  namor Jun 11 '11 at 20:13
How are you using the function? If you call it with a constant for the shift argument, any decent synthesis tool will propagate the constant and simplify the implementation to a bit permutation. If the shift argument takes on a limited subset of the 32 possible values, then you might be better off muxing them directly. If shift can be any of the 32 values, then this will be better than a naive 32x32 mux. Results will vary depending on how good your synthesis tool is. A good tool will map an unconstrained use of this function to a circular 32-bit barrel shifter, which is what you want. –  Andy Jun 11 '11 at 20:57
Thanks a ton, this solves my question! I'm new to Verilog/FPGA programming and didn't know if such tricks get optimized away. –  namor Jun 11 '11 at 23:30


The simple solution is to use a MUX with fixed rotation in 0-31 steps of the input and then use x as the value to switch on.

For an efficient implementation take a look at the barrel shifter. Using five 2-1 32-bit MUXes in chain shifting the input either 16, 8, 4, 2, 1 steps (for mux 0, 1, 2, 3, 4) or not based on the control bit for each mux.

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