Primitive types (such as `Int32`

, `Int64`

) have a finite length that it's not enough for such big number. For example:

**Data type** **Maximum positive value**
Int32 2,147,483,647
UInt32 4,294,967,295
Int64 9,223,372,036,854,775,808
UInt64 18,446,744,073,709,551,615
Your number 305,802,052,421,002,911,840,647,389,720,929,531,201

In this case to represent that number you would need 128 bits. With .NET Framework 4.0 there is a new data type for arbitrarily sized integer numbers System.Numerics.BigInteger. You do not need to specify any size because it'll be *inferred* by the number itself (it means that you may even get an `OutOfMemoryException`

when you perform, for example, a multiplication of two very big numbers).

To come back to your question, first parse your hexadecimal number:

```
string bigNumberAsText = "e60f553e42aa44aebf1d6723b0be7541";
BigInteger bigNumber = BigInteger.Parse(bigNumberAsText,
NumberStyles.AllowHexSpecifier);
```

Then simply print it to console:

```
Console.WriteLine(bigNumber.ToString());
```

You may be interested to calculate how many bits you need to represent an arbitrary number, use this function (if I remember well original implementation comes from C Numerical Recipes):

```
public static uint GetNeededBitsToRepresentInteger(BigInteger value)
{
uint neededBits = 0;
while (value != 0)
{
value >>= 1;
++neededBits;
}
return neededBits;
}
```

Then to calculate the required size of a number wrote as string:

```
public static uint GetNeededBitsToRepresentInteger(string value,
NumberStyles numberStyle = NumberStyles.None)
{
return GetNeededBitsToRepresentInteger(
BigInteger.Parse(value, numberStyle));
}
```