Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

In my Intel x86 Pentium handbook it says that ADD and shifts like SAL/SHR take 1/3 clock compared to things like JMP and MOV that take 1 clock. Is this really true that a bunch of adds and shifts will 3 times faster than a bunch of movs?

I guess I am doubly confused because there is table of "latencies" on the web showing "Pentium M" and none of timings are 1/3, although a few are 1/2. Is this because my book is old and on newer Pentiums shift is the same speed as JMP?

share|improve this question
Original Pentium from 1993? Some things have changed since! –  Bo Persson Oct 5 '12 at 18:58
This is the book I have: marketplace.vintage-computer.com/…. This book is the "Intel Pentium Processor Family Developer's Manual Vol 3: Architecture and Programming Manual" dated 1995. –  Tyler Durden Oct 5 '12 at 20:26

2 Answers 2

up vote 9 down vote accepted

Don't confuse "latency" with "reciprocal throughput".

  • Latency is how many cycles it takes to execute one instance of the instruction.
  • Reciprocal Throughput is how many instructions per cycle that the processor can sustain.

That 1/3 that you are seeing isn't the latency. It's the reciprocal throughput. The processor can sustain 3 ADDs per cycle. (if they are all independent) But each one still takes at least 1 cycle to execute.

If you have latency 1 and reciprocal throughput of 1/3, that means that the processor can execute up to 3 ADDs simultaneously. But each one still takes 1 cycle.

Historically, most Intel processors (since Pentium?) have 3 main execution units that can all do basic operations such as additions and shifts. That's why most of these are 1/3 reciprocal throughput.

Register-to-register MOVs should also be 1/3. But MOVs that touch memory (ie. loads and stores) are historically only 1/cycle. (Recently with Sandy Bridge and later, this has been increased.)

share|improve this answer
“since Pentium?” Architectures have changed completely several times since the Pentium, although all changes in Intel processors going back to the Pentium M seems to be rather evolutionary, according to agner.org/optimize/instruction_tables.pdf –  Pascal Cuoq Oct 5 '12 at 20:32

Assuming this is about the original Pentium (i.e., not a Pentium Pro or newer) the 1/3 does not mean "one third" (or anything like it). It means the instruction has 1 cycle throughput and 3 cycle latency (i.e., you can start one instruction every cycle, and one can finish every cycle, but the instruction takes three pipeline stages, so there's a three-cycle delay between starting and finishing a particular instruction).

The original Pentium had only two execution units and no out of order execution. In a given clock cycle, the next instruction would execute in the U pipeline. If the right conditions were met, the instruction after that could execute in the V pipeline. Under no circumstances did more than two instructions execute in any given cycle, and under no circumstance did more than one instruction execute per clock in a single pipeline.

Later processors (starting with the Pentium Pro) added out of order instruction scheduling, and the ability to execute more than two instructions in a single cycle (could have considerably more "in flight" but was limited to retiring three per cycle). The Pentium IV added the ability to execute 2 extremely simple instructions (register to register AND, OR, NOT, ADD, SUB, single-bit shift) in the same execution unit in a single clock cycle (i.e., it had an execution unit that was actually running at double the rated clock speed, so for example, on a 2.8 GHz processor a small amount of the circuitry was actually running at 5.6 GHz).

share|improve this answer
Okay, so are you saying the 1/3 means that a given ADD/SHR will always take at least 3 clocks to execute? If so, this would apparently mean that the ADD/SHR is slower than the JMP/MOV, which would make sense I think. –  Tyler Durden Oct 5 '12 at 20:24
@TylerDurden: yes, that's pretty much it. I seem to have a vague memory of a typo in a manual around that time, where something was shown as 1/3 that should have been 1/2 though (i.e., what was shown as three cycle latency was really only 2). –  Jerry Coffin Oct 5 '12 at 20:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.