# How to split a two-digit number up in Verilog

I need to split a two-digit number up so that I can display them separately. The problem is that mod only works with numbers that are a power of 2. How can this be done?

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I presume you mean a two digit decimal number ? – Paul R Mar 10 '11 at 23:45
What do you mean by "split up," and by "two-digit?" Something like turning the number `42` into `4` and `2`? – Matt Ball Mar 10 '11 at 23:47
Yes, like that. – node ninja Mar 10 '11 at 23:54
Why was this question downvoted? – node ninja Mar 11 '11 at 16:32
I downvoted it because, as I said in my answer, it is both confusing (`\$display` is a task name in Verilog, so it is not clear whether your problem is modeling or synthesis) and incorrect (some synthesis tools do support modulo with non-powers of 2.) I will remove the downvote if you clarify (also taking into account the other comments) and correct the question. – Jan Decaluwe Mar 11 '11 at 17:38

A simple brute force solution would be to use an if-else block to compare your number to multiples of 10. The largest multiple of ten that is smaller than your number is the "tens" digit, and the difference is the "ones" digit.

``````if (number >= 90) begin
tens <= 9;
ones <= number - 90;
end else if ...
``````

That said, this isn't scalable, and giant if-else blocks are generally not good practice.

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Many synthesis tools don't support integer division/modulus/remainder unless the calculation is trivial, such as division by a power of two. If your value isn't a power of two, then you are probably out of luck.

Maybe you can use another approach such as building your own math module, or using a math core from your software's IP library.

Or maybe you can approximate the division by multiplying by the fraction 1/K instead of dividing by K.

If both operands are small, you could fetch the result from a ROM lookup table.

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If this is a simple incrementing value, you should consider Binary Coded Decimal counters. You need 4 bits per digit but it makes interfacing with 7-segment displays much easier.

``````//BCD counter - I did not test this
reg [3:0] digit_one, digit_two;
always @(posedge clk)
begin : led_digits
if(reset)
begin
digit_one <= 0;
digit_two <= 0;
end
else if(increment)
begin
//BCD values wrap at 9
if(digit_one == 4'd9)
digit_one <= 0;
else
digit_one <= digit_one + 1;

//Carry when previous digit wraps
if(digit_one == 4'd9)
begin
if(digit_two == 4'd9)
digit_two <= 0;
else
digit_two <= digit_two + 1;
end
end
end
``````

If you have some arbitrary decimal value you need to display, then it gets more complicated. GuanoLoco's solution should work for a 2 digit output. A more efficient algorithm exists but the implementation is not as straightforward.

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Rather confusinq question. When you say "display", I immediately think `\$display`, hence modeling and simulation. There are no powers of 2 restrictions on modulo for modeling purposes.

But even if you mean synthesis, it is not true in general that modulo only works with powers of 2. However, doing this is probably not a very good idea, because it would be quite expensive in hardware.

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I'm not trying to use \$display. I need to light up some 7-segment LEDs to display the decimal value of a binary number. I have a module which can display a decimal number on one LED. I'm trying to use this module to display a two-digit number, so I need to split up the binary number into two decimal numbers. – node ninja Mar 11 '11 at 16:33