I need to find the number of digits of very large multiplications (about 300 digits each). I was wondering if there is a trick to predict the number of digits that the product will be without actually performing the calculation.
The number of digits can be calculated exactly by the rounded (down) sum of the base 10 log of the two multiplicands, as follows:
Output:
This will work for arbitrarily large numbers. 


Cristobalito's answer pretty much gets it. Let me make the "about" more precise: Suppose the first number has n digits, and the second has m. The lowest they could be is 10^(n1) and 10^(m1) respectively. That product would the lowest it could be, and would be 10^(m+n2), which is m+n1 digits. The highest they could be is 10^n  1 and 10^m  1 respectively. That product would be the highest it could be, and would be 10^(n+m)  10^n  10^m + 1, which has at most m+n digits. Thus if you are multiplying an ndigit number by an mdigit number, the product will have either m+n1 or m+n digits. Similar logic holds for other bases, such as base 2. 


Considering two numbers, a and b: It should never be more than



floor(log x)*floor(log y) <= digits(x*y) <= ceil(log x)*ceil(log y)
log base 10. – davin Jul 3 '11 at 23:309*9=81
999*9=8991
– Lynch Jul 3 '11 at 23:34floor(log(x) + log(y)) + 1
, for x, y positive? – Will A Jul 3 '11 at 23:35