So you have a byte value (from 0 to 255), and you want to get the log base 45, and store it in another byte? As others have said, you're going to lose some accuracy in doing that. However, you *can* do better than just casting the `double`

result to a `byte`

.

The log base 45 of 255 is approximately 1.455675. You can store that in a byte, with some loss of accuracy, by multiplying it by a constant factor. What constant factor? You could use 100, which would give you a value of 145, but you're losing almost half the range of a byte. Since the largest value you want to represent is 1.455675, you can use a constant multiplier of `255/log45(255)`

, or about 175.176.

How well does this work? Let's see ...

```
var mult = 255.0 / Math.Log(255, 45);
Console.WriteLine("Scaling factor is {0}", mult);
double errMax = double.MinValue;
double errMin = double.MaxValue;
double errTot = 0;
for (int i = 1; i < 256; ++i)
{
// Get the log of the number you want
var l = Math.Log(i, 45);
// Convert to byte
var b = (byte)(l * mult);
// Now go back the other way.
var a = Math.Pow(45, (double)b / mult);
var err = (double)(i - a) / i;
errTot += err;
errMax = Math.Max(errMax, err);
errMin = Math.Min(errMin, err);
Console.WriteLine("{0,3:N0}, {1,3:N0}, {2}, {3:P4}", i, b, a, err);
}
Console.WriteLine("max error = {0:P4}", errMax);
Console.WriteLine("min error = {0:P4}", errMin);
Console.WriteLine("avg error = {0:P4}", errTot / 255);
```

Under .NET 4 on my machine, that gives me a maximum error of 2.1419%, and an average error of 1.0501%.

You can reduce the average error by rounding the result from `Math.Pow`

. That is:

```
var a = Math.Round(Math.Pow(45, (double)b / mult));
```

That reduces the average error to 0.9300%, but increases the maximum error to 3.8462%.