# Shifting bits for multiplication in MIPS assembly language

I am a beginner in Mips programming, so I know I am making noob mistakes but this is the way people learn :) . Here is the code I wrote for making a multiplier by shifting bits, but answer I get after multiplication is not correct. I can't figure out what is the problem so I will appreciate your help !

``````.text

main:

li \$v0,5
syscall

move \$s0, \$v0                              # first input

li \$v0,5
syscall

move \$s1, \$v0  # second input

and \$t0,\$s2,1 # checking if second operand is ODD

li \$t1,1

li \$s2,1

srl \$s1,\$s1,\$s2  # dividing second operand by 2

sll \$a0,\$s0,\$s1 # shifting first operand by n bits stored in \$s1

beq \$t0,\$t1,ODD # checking for odd operand

j Print

ODD:

Print:

li \$v0,1

syscall

Exit:

li \$v0,10

syscall
``````

Thanks for you help

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You need a loop to perform a multiplication by shifting/adding... In each iteration you either add the right-shifted operand or not depending on whether the left-shifted operand is even or odd –  gusbro Sep 18 '12 at 16:57
actually when we shift left, we are basically multiplying \$s0 by 2^\$s1. So shifting left means multiplication and shifting right means division –  Alfred James Sep 18 '12 at 17:01
Try to do a multiplication by shifting in paper first. You'll see what I meant in my previous comment –  gusbro Sep 18 '12 at 17:27
It also might be useful to step through the algorithm in a debugger, or write the same algorithm out in a higher level language (e.g. write it in C and use register names as variable names) and see what's happening with print statements (ideally in fixed-width binary/hex/octal). –  tc. Sep 23 '12 at 14:15