**Note**: After a lot of try&error I did found a working solution my own and I will post it here because I'm pretty sure there are a few more people then me that also gots faced with the same issue right there. So I hope, I could help :`)`

Have a look at wikipedia, as I did because theres a very nice article about baseConversion.

Below you can find a function for `Math.log(base, value)`

that is able to calculate the `log(base)`

from a value.

```
Math.log = (function() {
var log = Math.log;
return function(base, n) {
return log(n)/(base ? log(base) : 1);
};
})();
```

To calculate the `logarithmToBaseN`

for bigInt-values just use this line of code:

```
let logarithmToBaseN = (myBigInt.toString().length * Math.log(baseN, 10) + Math.log(baseN, parseFloat("0." + myBigInt))) - 1);
```

**Edit**: This soltuion is a tiny **workaround** bacause `parseFloat("0." + myBigInt)`

converts a big value like `100000`

to a really small one like `0.100000,...`

what causes that it will be in integer precision.

**According to **`@Jonas W`

's comment: *The solution is very accurate for lower bases like *`(5, 10, ...)`

combined with low values like `10, 1000, 100000`

- but for **really big values** like `bigInt(20).pow(200)`

is it not.

**Note**: Using `parseFloat`

(**IEEE 754 double precision** floating-point) means, you have a maximum of **52 bits of precision**, which is a bit more than 15 decimal places. After that - the accuracy will be killed.

**Note:** For really big values `bigInt(20).pow(200)`

combined with really **big Bases** like 100*(and more) it seems to be pretty accurate again.

Greetings, jonas.

`Number.MAX_SAFE_INTEGER`

(which OP likely works with, since he has the library). – VLAZ May 14 '18 at 15:03To add on - the conversion in my answer is not really accurate because– user3596335 May 14 '18 at 15:21`"0" + value`

after parsing to float just get it's limits.