To perform integer division you can use `div $t1, $t2, $t3`

which will set `$t1`

to the integer division of `$t2/$t3`

, or `div $t1, $t2, imm`

where imm is an immediate.

Likewise, to compute the remainder of integer division, you can use `rem $t1, $t2, $t3`

or `rem $t1, $t2, imm`

These pseudoinstructions will basically do a `div $t1, $t2`

which stores the results in `LO`

and `HI`

special registers (for quotient and remainder) and then move those values to the target register by means of `mfhi`

and `mflo`

.

To perform floating point division you need to use floating point registers $f0 to $f31.
Once you have your floating point numbers stored in some of these registers (properly encoded as floating point numbers, e.g. in `$f1`

and `$f2`

) you issue a `div.s $f0, $f1, $f2`

instruction to get into `$f0`

the result of `$f1/$f2`

.
Now, to get the remainder you can subtract the result of the division with the truncation of the result.
For example:

```
li $a1, 20
mtc1 $a1, $f1
cvt.s.w $f1, $f1 # $f1 = 20
li $a1, 7
mtc1 $a1, $f2
cvt.s.w $f2, $f2 # $f2 = 7
div.s $f0, $f1, $f2 # $f0 = 20/7
trunc.w.s $f3, $f0
cvt.s.w $f3, $f3 # $f3 = trunc(20/7)
sub.s $f4, $f0, $f3 # $f4 = remainder of 20/7
```

`div`

– gusbro Nov 20 '12 at 15:44alsoa pseudo instruction ;). The pseudoinstruction`div $t1, $t2, $t3`

will set`$t1`

to the integer division of`$t2/$t3`

– gusbro Nov 20 '12 at 15:47