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I am working on a very low level part of the application in which performance is critical.

While investigating the generated assembly, I noticed the following instruction:

lea eax,[edx*8+8]

I am used to seeing additions when using memory references (e.g. [edx+4]), but this is the first time I see a multiplication.

  • Does this mean that the x86 processor can perform simple multiplications in the lea instruction?
  • Does this multiplication have an impact on the number of cycles needed to execute the instruction?
  • Is the multiplication limited to powers of 2 (I would assume this is the case)?

Thanks in advance.

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5  
Notice how it's a multiply by a power of two. –  Mysticial May 9 '12 at 8:04

3 Answers 3

up vote 10 down vote accepted

To expand on my comment and to answer the rest of the question...

Yes, it's limited to powers of two. (2, 4, and 8 specifically) So no multiplier is needed since it's just a shift. The point of it is to quickly generate an address from an index variable and a pointer - where the datatype is a simple 2, 4, or 8 byte word. (Though it's often abused for other uses as well.)

As for the number of cycles that are needed: According to Agner Fog's tables it looks like the lea instruction is constant on some machines and variable on others.

On Sandy Bridge there's a 2-cycle penalty if it's "complex or rip relative". But it doesn't say what "complex" means... So we can only guess unless you do a benchmark.

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Thanks. Also liked the reference to Agner Fog (although the link in your answer doesnt' seem to be correct). –  Patrick May 9 '12 at 8:29
    
Oops, bad copy+paste. Fixed now. –  Mysticial May 9 '12 at 8:30
    
@Mysticial - AFAIK, this is not lea specific. Check out my answer :) –  ArjunShankar May 9 '12 at 8:39
    
Note that while technically the multiplication is by 1,2,4 or 8, if you also consider the base register you can get multiplication by other constants, e.g: lea eax,[edx*4+edx] is equivalent to a multiplication by 5. This is very useful for strength reduction, e.g: the compiler can generate some smart code for a multiply by 1000. –  ninjalj May 9 '12 at 21:22
    
@ninjalj Yeah, I'm aware of that. I just hid it under the "often abused for other uses as well" phrase. I've also seen multi-byte NOPs done with lea. Though I mostly see it used for out-of-place arithmetic. –  Mysticial May 9 '12 at 21:24

Actually, this is not something specific to the lea instruction.

This type of addressing is called Scaled Addressing Mode. The multiplication is achieved by a bit shift, which is trivial:

A Left Shift

You could do 'scaled addressing' with a mov too, for example (note that this is not the same operation, the only similarity is the fact that ebx*4 represents an address multiplication):

 mov edx, [esi+4*ebx]

(source: http://www.cs.virginia.edu/~evans/cs216/guides/x86.html#memory)

For a more complete listing, see this Intel document. Table 2-3 shows that a scaling of 2, 4, or 8 is allowed. Nothing else.

Latency (in terms of number of cycles): I don't think this should be affected at all. A shift is a matter of connections, and selecting between three possible shifts is the matter of 1 multiplexer worth of delay.

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That mov gets the contents of the memory at the generated "address", while lea gets the generated "address" –  ninjalj May 9 '12 at 21:31
    
@ninjalj - The point is not what the mov does, but the fact that 'scaled addressing' (i.e. pointer math involving multiplying a pointer by 2,4,8) is not specific to lea. –  ArjunShankar May 10 '12 at 8:08
    
@ninjalj - And since it appears to me that it was the wording of that part of my answer which was somewhat vague, I have explained the mov somewhat better now. Thanks. –  ArjunShankar May 10 '12 at 8:12
1  
the multiplexer thing is called a barrel shifter I believe. –  v.oddou Mar 20 at 2:53

To expand on your last question:

Is the multiplication limited to powers of 2 (I would assume this is the case)?

Note that you get the result of base + scale * index, so while scale has to be 1, 2, 4 or 8 (the size of x86 integer datatypes), you can get the equivalent of a multiplication by some different constants by using the same register as base and index, e.g.:

lea eax, [eax*4 + eax]   ; multiply by 5

This is used by the compiler to do strength reduction, e.g: for a multiplication by 100, depending on compiler options (target CPU model, optimization options), you may get:

lea    (%edx,%edx,4),%eax   ; eax = orig_edx * 5
lea    (%eax,%eax,4),%eax   ; eax = eax * 5 = orig_edx * 25
shl    $0x2,%eax            ; eax = eax * 4 = orig_edx * 100
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See this SO question: stackoverflow.com/questions/6120207/imul-or-shift-instruction for why you should leave strength reduction to the compiler. –  ninjalj May 9 '12 at 21:39
    
+1, I love the second answer on that linked question. :) –  Mysticial May 9 '12 at 21:40

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