# How is this happening?

I am using an 8-bit Microcontroller. And this is the calculation that i want it to do:

``````unsigned int Vin_kl30 = 0;
unsigned int val_kl30; // val_kl30 gets the value from ADC.
int Vref = 5;
Vin_kl30 = (unsigned int) val_kl30 * Vref; // this returns 12190
Vin_kl30 =   Vin_kl30 * 100; // expected value: 1219000 but i get 39852 ???
temp_kl30 = Vin_kl30;
``````

Why does it happen this way? how can change this?

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I could explain 39352, but 48350 sure looks like a bug. –  Daniel Fischer Apr 26 '13 at 14:47
@DanielFischer Perhaps you should explain 39352 anyway, I'd like to know why it could be anything other than 12190. –  weston Apr 26 '13 at 14:59
@DanielFischer: MY MISTAKE. 39852 it is. I will update the question. –  sheetansh Apr 26 '13 at 15:00
@weston 16-bit `int` and `unsigned int`. `1219000 % 65536 = 39352`. –  Daniel Fischer Apr 26 '13 at 15:01
@sheetansh No, you need a larger type to get 1219000, use `unsigned long` for example. –  Daniel Fischer Apr 26 '13 at 15:10

I'm going out on a limb and assume the value you get is in fact

``````39352
``````

That is the correct result for 16-bit wide `unsigned int`.

The arithmetic on unsigned integer types is specified to be arithmetic modulo `2^N` where `N` is the number of value bits in the type, or its width.

``````1219000 = 18*(2^16) + 39352
``````

and with 16-bit wide `unsigned int`, the result is the remainder of the mathematical result, reduced modulo `2^16 = 65536`.

The other mentioned values, 48350, 39852, 40352 would all mean that the compiler violates the standard, since the difference between the mathematical result 1219000 and any of them is not a multiple of `2^16`, and the smallest allowed value for `UINT_MAX` is `2^16 - 1`, which means that `unsigned int` must be at least 16 bits wide.

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Thanks for your mathematical imput. I understand how it works now. So i am gonna stick to unsigned long now. But wont close the question as of now as this is just one part of the bigger problem. THanks a lot daniel!!! –  sheetansh Apr 26 '13 at 15:13