I would like to know what the difference between these instructions is:



  • LEA means Load Effective Address
  • MOV means Load Value

In short, LEA loads a pointer to the item you're addressing whereas MOV loads the actual value at that address.

The purpose of LEA is to allow one to perform a non-trivial address calculation and store the result [for later usage]

LEA ax, [BP+SI+5] ; Compute address of value

MOV ax, [BP+SI+5] ; Load value at that address

Where there are just constants involved, MOV (through the assembler's constant calculations) can sometimes appear to overlap with the simplest cases of usage of LEA. Its useful if you have a multi-part calculation with multiple base addresses etc.

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    +1 thanks for the clear explanation, helped me answer another question. – legends2k Sep 13 '14 at 14:24
  • It confuses me that lea has "load" in the name and people say it "loads" a computed address into a register, because all of the inputs to compute the memory location are either immediate values or registers. AFAICT lea only performs a computation, it doesn't load anything, where loading means touching memory? – Joseph Garvin Jun 25 '17 at 1:01
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    @josephGarvin IIRC the term fetch would be applied to that aspect; Load is just how you replace the value in a register with something from scratch. e.g. LAHF is: Load FLAGS into AH register. In the CLR's CIL (which is a higher level stack based abstract machine, the term load refers to putting a value onto the notional stack and is normally l..., and the s... equivalent does the inverse). These notes: cs.umd.edu/class/sum2003/cmsc311/Notes/Mips/load.html) suggest that there are indeed architectures where your distinction does apply. – Ruben Bartelink Jun 25 '17 at 4:19
  • it all reminds me of slideshare.net/pirhilton/… ;) – Ruben Bartelink Jun 25 '17 at 4:20

In NASM syntax:

mov eax, var       == lea eax, [var]   ; i.e. mov r32, imm32
lea eax, [var+16]  == mov eax, var+16
lea eax, [eax*4]   == shl eax, 2        ; but without setting flags

In MASM syntax, use OFFSET var to get a mov-immediate instead of a load.

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    in NASM syntax only. In MASM syntax, mov eax, var is a load, the same as mov eax, [var], and you have to use mov eax, OFFSET var to use a label as an immediate constant. – Peter Cordes May 26 '16 at 23:42
  • Clear, simple, and demonstrates what I was trying to confirm. Thanks. – JayArby Jan 23 '17 at 16:56
  • Note that in all of these examples, lea is the worse choice except in 64-bit mode for RIP-relative addressing. mov r32, imm32 runs on more ports. lea eax, [edx*4] is a copy-and-shift which can't be done in one instruction otherwise, but in the same register LEA just takes more bytes to encode because [eax*4] requires a disp32=0. (It runs on different ports than shifts, though.) See agner.org/optimize and stackoverflow.com/tags/x86/info. – Peter Cordes Apr 16 '18 at 3:05

The instruction MOV reg,addr means read a variable stored at address addr into register reg. The instruction LEA reg,addr means read the address (not the variable stored at the address) into register reg.

Another form of the MOV instruction is MOV reg,immdata which means read the immediate data (i.e. constant) immdata into register reg. Note that if the addr in LEA reg,addr is just a constant (i.e. a fixed offset) then that LEA instruction is essentially exactly the same as an equivalent MOV reg,immdata instruction that loads the same constant as immediate data.


If you only specify a literal, there is no difference. LEA has more abilities, though, and you can read about them here:


  • I guess, with the exception that in GNU assembler it's not true when it comes to labels in the .bss segment? AFAIR you can't really leal TextLabel, LabelFromBssSegment when you got smth. like .bss .lcomm LabelFromBssSegment, 4, you would have to movl $TextLabel, LabelFromBssSegment, isn't it? – JSmyth Feb 18 '13 at 10:32
  • @JSmyth: That's only because lea requires a register destination, but mov can have an imm32 source and a memory destination. This limitation is of course not specific to the GNU assembler. – Peter Cordes Feb 27 '18 at 23:54
  • Also, this answer is basically wrong because the question is asking about MOV AX, [TABLE-ADDR], which is a load. So there is a major difference. The equivalent instruction is mov ax, OFFSET table_addr – Peter Cordes Feb 27 '18 at 23:56

It depends on the used assembler, because

mov ax,table_addr

in MASM works as

mov ax,word ptr[table_addr]

So it loads the first bytes from table_addr and NOT the offset to table_addr. You should use instead

mov ax,offset table_addr


lea ax,table_addr

which works the same.

lea version also works fine if table_addr is a local variable e.g.

some_procedure proc

local table_addr[64]:word

lea ax,table_addr
  • thanks a lot, its just that i cannot mark more than one as answer :( – naveen Nov 9 '09 at 10:07
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    The difference between the x86 instructions MOV and LEA most definitely does NOT depend on the assembler. – I. J. Kennedy Jun 17 '12 at 23:18

Basically ... "Move into REG ... after computing it..." it seems to be nice for other purposes as well :)

if you just forget that the value is a pointer you can use it for code optimizations/minimization ...what ever..


;//with 1 instruction you got result of 2 registers in 3rd one ...

EAX = 8

originaly it would be:


The difference is subtle but important. The MOV instruction is a 'MOVe' effectively a copy of the address that the TABLE-ADDR label stands for. The LEA instruction is a 'Load Effective Address' which is an indirected instruction, which means that TABLE-ADDR points to a memory location at which the address to load is found.

Effectively using LEA is equivalent to using pointers in languages such as C, as such it is a powerful instruction.

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    I think this answer is confusing at best. "The LEA instruction is a 'Load Effective Address' which is an indirected instruction, which means that TABLE-ADDR points to a memory location at which the address to load is found." Actually LEA will load the address, not the contents of the address. I think actually the questioner needs to be reassured that MOV and LEA can overlap, and do exactly the same thing, in some circumstances – Bill Forster Nov 9 '09 at 8:52

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