# How do I multiply two integers where one is larger than 32 bits in MIPS?

I have the following subroutine that is used to find \$a0 to the power of \$a1. It works fine for small integers, but I want it to work for something like 1000^6. I was thinking that if I store the hi register for the multiplication in \$v1.

So I guess my main question is, "How do I multiply two integers where one is larger than 32 bits?"

``````pow:
li    \$v0, 1
pow_loop:
ble   \$a1, \$zero, pow_conclude
mult  \$v0, \$a0
mflo  \$v0
j     pow_loop
pow_conclude:
jr    \$ra
``````
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After reading Ben Jackson's answer, I wrote this and checked it with MARS.

``````pow:
li    \$v0, 1
li    \$v1, 0
pow_loop:
ble   \$a1, \$zero, pow_conclude
mult  \$v1, \$a0
mflo  \$v1
mult  \$v0, \$a0
mflo  \$v0
mfhi  \$t0
j     pow_loop
pow_conclude:
jr    \$ra
``````
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Cribbing some MIPS knowledge from your answer I updated mine. –  Ben Jackson Nov 27 '12 at 15:59

Remember how you multiplied numbers on paper in school. Break your input down into 16- or 32-bit components and multiply all the partial products and add them together, minding the carry chain.

Without knowing MIPS, but based on @russjohnson09's self-answer:

Assuming you are doing 32*64 bits here (from `\$a0` and `\$v0,v1`) you will have a 96 bit result. Something like this:

``````  mult  \$v0, \$a0
mflo  \$v0
mfhi  \$v2
mult  \$v1, \$a0
mflo  \$v1
The upper 32 bits of 96 are the carry of that `add` plus `mfhi` after the the second `mult`, but I am assuming you're in the loop and this upper part will always be 0. In other words, continuous 32*64 truncated into 64 bits.