# imul assembly instruction - one operand?

I am using a run-time debugger.

EAX: 0000 0023 EDX: 5555 5556

``````imul edx
``````

EAX: aaaa aac2 EDX: 0000 000b

I am utterly confused, and can't figure out how this multiply is working. What's happening here? I notice in a similar question here that `imul ebx ; result in EDX:EAX` I don't understand the EDX:EAX notation though :/

When the one-operand form of `imul` is passed a 32 bit argument (as in your case with `EDX`) it effectively means `EAX * EDX` where both `EAX` and `EDX` are 32 bit registers.

The product of two 32 bit values doesn't necessarily fit in 32 bits: the full multiply result can take up to 64 bits. The high 32 bits of the answer will be written to the `EDX` register and the low 32 bits to the `EAX` register; this is represented with the `EDX:EAX` notation.

If you only want the low 32 bits of the result, use the 2-operand form of `imul`; it runs faster and doesn't have any implicit operands (so you can use whatever registers are most convenient).

`imul ecx, esi` does `ecx *= esi` like you'd expect, without touching `EAX` or `EDX`. It's like C where `unsigned x=...;` `x *= y;` has the same width for the result as the inputs.

`imul` also has an immediate form: `imul ecx, ebx, 1234` does `ecx = ebx * 1234`. Many assemblers will accept `imul ecx, 1234` as short-hand for `imul ecx, ecx, 1234`.

These 32x32 => 32-bit forms of `imul` work correctly for signed or unsigned; the results of one-operand `mul` and `imul` only differ in the upper half (in `EDX`), not the low-half `EAX` output.

• What happens when the register given to `imul` is `eax`? Does it still do the same thing? What if you give it something other than `eax` or `edx`, like `eax` for example? – Drew Chapin May 4 '13 at 23:35
• There are many forms of the imul instruction. The form that takes a single 32bit argument (memory or register) always returns the result in the EDX:EAX pair. – Chris Taylor May 5 '13 at 12:38