In x86 assembly language, is there any way to obtain the upper half of the EAX register? I know that the AX register already contains the lower half of the EAX register, but I don't yet know of any way to obtain the upper half.

I know that mov bx, ax would move the lower half of eax into bx, but I want to know how to move the upper half of eax into bx as well.

  • 4
    Just shift it down by 16 bits.
    – Mysticial
    Commented Mar 5, 2013 at 17:28
  • 3
    ror eax,16 mov bx,ax ror eax,16 if you want to leave eax/the upper part of ebx untouched
    – user786653
    Commented Mar 5, 2013 at 17:44
  • 2
    @Mysticial Doing operations on bx does not automatically zero upper half of ebx. However, in x86-64 doing operations with ebx (but not bx, bl or bh) as dest zeroes the top 32 bits of rbx.
    – nrz
    Commented Mar 5, 2013 at 20:23
  • 3
    bswap or some rotate, for example. Also, avoid it if possible.
    – Jester
    Commented Jan 24, 2018 at 22:59
  • 1
    If you have BMI2, rorx edx, eax, 16 will copy+rotate efficiently. Commented Jan 24, 2018 at 23:43

6 Answers 6


If you want to preserve EAX and the upper half of EBX:

rol eax, 16
mov bx, ax
rol eax, 16

If have a scratch register available, this is more efficient (and doesn't introduce extra latency for later instructions that read EAX):

mov ecx, eax
shr ecx, 16
mov  bx, cx

If you don't need either of those, mov ebx, eax / shr ebx, 16 is the obvious way and avoids any partial-register stalls or false dependencies.

  • In this case, would eax be restored to its original value? Commented Mar 5, 2013 at 18:34
  • 2
    Yes, it would. rol and ror rotate bits cyclically. See documentation. Commented Mar 5, 2013 at 18:37
  • or just shr eax,16 ??
    – AminM
    Commented Dec 21, 2014 at 9:15
  • @JesonPark Sure, but that destroys bits 0 through 15 of the original value of eax. Commented Dec 21, 2014 at 12:38
  • if it is possible you can mov data to EAX again!
    – AminM
    Commented Dec 21, 2014 at 14:56

If you don't mind shifting the original value of bx (low 16 bits of ebx) to high 16 bits of ebx, you need only 1 instruction:

shld ebx,eax,16

This does not modify eax.

  • Or with BMI2, rorx ebx, eax, 16 to set ebx = word_swap(eax). Unlike shld, this has no dependency on the old value of EBX, and is a single uop with 1c latency on all CPUs that support it. (agner.org/optimize) Commented May 15, 2018 at 17:35

I would do it like this:

mov ebx,eax
shr ebx, 16

ebx now contains the top 16-bits of eax


IMO the best would be to shr (shift right bits) x8 and use AL to get the values you need. The use of AH register is highly unrecommended by optimization manual (from Intel): Zero-Latency MOV Instructions

In processors based on Intel microarchitecture code name Ivy Bridge, a subset of register-to-register move operations are executed in the front end (similar to zero-idioms, see Section This conserves scheduling/execution resources in the out-of-order engine. Most forms of register-to-register. MOVZX are hence Zero-Latency for reg32, reg8 (if not AH/BH/CH/DH)

movzx esi, al ; esi = eax & 0xff
shr eax, 8    ; eax >>= 8;
movzx ecx, al
shr eax, 8
movzx ebx, al
shr eax, 8

You will have first byte in eax, 2nd in ebx, 3rd in ecx and last byte (the one that was the lowest part of eax at the origin) in esi. Also it is nasm syntax I am not familiar with masm so you may need some tweaks.


Without knowing the exact purpose, it is hard to determine what would be the best method, but you can tell by the other answer and comments, there is a few different ways to skin this cat. I'm just going to share another example of a method I've used quite often.

        push    ebp
        mov     ebp, esp
        mov     eax, 141f2d72H
        push    eax

Now the contents of memory pointed to by EBP-4 or ESP is;

72 2D 1F 14

Now there are plenty of combinations you can do to address the data as a byte or word.

        mov     al, [bp-1]            AL = 14H      
        mov     ax, [bp-2]            AX = 141FH

I'm not advocating this is a better way than the other examples, just a method I've found to work effectively for some of the stuff I do.

  • 2
    Store/reload has at least 5 cycle latency (or sometimes 4 on SKL). This is normally a bad option, unless you're bottlenecked on ALU throughput. You should definitely use movzx loads, or 8-bit / 16-bit ALU instructions with memory operands, though, not mov ax, [ebp-2] Commented Jan 25, 2018 at 23:58

For 16-bit mode, this is the smallest (not fastest) code: only 4 bytes.

push eax  ; 2 bytes: prefix + opcode 
pop ax    ; 1 byte: opcode
pop bx    ; 1 byte: opcode

It's even more compact than single instruction shld ebx,eax,16 which occupies 5 bytes of memory.

  • Those instruction sizes are for 16-bit mode. In 32-bit code, it's 5 bytes total and shld ebx,eax,16 is 4 bytes. (And shld is faster on many CPUs.) Commented May 15, 2018 at 17:27
  • Thanks Peter. shld ebx, eax, 16 occupies 5 bytes (66 0F A4 D8 10). shld r32, r32, cl and shld r16, r16, immediate are 4 bytes. Why are push instructions 5 bytes?
    – kiasari
    Commented May 17, 2018 at 9:10
  • I said in 32-bit mode, where the default operand-size is 32, which is much more common than 16-bit mode on modern computers. (But still mostly obsoleted by 64-bit mode). In 32-bit mode, pop ax requires a 66 prefix but push eax doesn't, so you get a total of 1 + 2 + 2 = 5. Similarly, shld r32, r32, imm8 doesn't require any prefixes in 32 or 64-bit mode. (And BTW, you don't want to use shld r,r,cl, because it's 4 uops on Skylake vs. 1 for shld r,r,imm8. agner.org/optimize) Commented May 17, 2018 at 9:34

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