# Logarithm in Verilog

I've a statement in verilog looking like `integer level = log(N)` (Where N is a parameter and level is to be determined) But I understand I cannot do complex math statements in verilog, so I'm wondering if there is an alternative solution to the above problem?

Any feedback appreciated!

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What kind of logarithm are you trying to computer? An integer log base 2 is easy. A floating point log base e is much harder. – Gabe Apr 9 '11 at 0:58
Integer log base 2 – Max Eastman Apr 9 '11 at 1:00
Is N a compile-time constant? – Andy Apr 9 '11 at 1:00
yes! Its a parameter to the module – Max Eastman Apr 9 '11 at 1:03
In that case it's pretty easy. You can use a lookup table if N is small and speed is an issue. If N can get large, you can just loop over the bits of N from left to right, until you find a 1 bit. – Gabe Apr 9 '11 at 1:08

If it is a logarithm base 2 you are trying to do, you can use the built-in function `\$clog2()`.

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The answer to ADDRESS WIDTH from RAM DEPTH describes a couple ways to evaluate constant logarithms in this situation.

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But I understand I cannot do complex math statements in Verilog

Verilog is first and foremost a hardware description language. What hardware `log(N)` statement is describing? Modern FPGAs consist of LUTs, flops, small embedded memories, simple DSPs that implement MAC (multiply-accumulate) primitives. `log(N)` and other complex math statements cannot be mapped directly into those primitives. The same goes with ASICs.

By analogy, `log(N)` doesn't get executed by a processor. It calls a bunch of lower-level assembly instructions to do so. Those assembly instructions are part of the `log(N)` library (C, C++, etc.)

To be able to synthesize `log(N)` for ASIC/FPGA it requires an instance of a `log(N)` IP core.

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