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I am researching for a possible gpu based teraflop computing machine... the benchmark to be used will be LINPACK now heres the problem; going through linpack documentation it says that it calculates in full precision and not in double precision ,for some machines full precision can be single precision. Can some one plz throw some light on the difference as this will dictate if I should go for the GTX 590s or the Tesla 2070s.

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Are you asking about the difference between 32- and 64-bit floating point types? –  Kerrek SB Sep 10 '11 at 16:00
well not exactly I wanted to know what a full precision is and how different is it from double. nnjuffa and alanda's posts have hit the sweet spots thanks –  sherinkapotein Sep 13 '11 at 21:13
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2 Answers 2

I think the term "full precision" was chosen to cover both IEEE-754 double precision (this is what is used on the GPUs mentioned) and the "single precision" format of old Cray vector computers, which sported 1 sign bit, 15 exponent bits, and 48 mantissa bits, providing a larger range but slightly less precision than IEEE-754 double precision. Here is documentation for the floating-point format used on the Cray-1:


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Thanks a lot helped and head now cleared –  sherinkapotein Sep 13 '11 at 21:03
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Concerning official nVidia's HPL version 0.8 (that's what we use to benchmark our hybrid machines):

It will run only on Teslas (it works only if your GPU has more than 2 GiB of memory, which, as far as I know, is true only for Tesla)

It uses double precision, so another point for using Teslas, since double arithmetic performance is limited on mainstream GPUs.

BTW: achieving at least 50% efficiency on 6-node machine (2 GPUs per node) is considered barely possible.

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BTW: achieving at least 50% efficiency on 6-node machine (2 GPUs per node) is considered barely possible." Lost you there, could you clarify –  sherinkapotein Sep 13 '11 at 21:00
On my experience (and conversations nVidia's employees) it's barely possible to achieve more than 50% of peak efficiency (i.e. 50% of 500Gflops/GPU) on CUDA-LINPACK –  aland Sep 14 '11 at 4:52
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