Hi Martin, Just listened to
https://2459d6dc103cb5933875-c0245c5c937c5dedcca3f1764ecc9b2f.ssl.cf2.rackcdn.com/fast13/plank_screaming.mp4 from https://www.usenix.org/conference/fast13/screaming-fast-galois-field-arithmetic-using-sse2-extensions and it's very entertaining ;-) Cheers On 06/14/2013 10:13 PM, Martin Flyvbjerg wrote: > Dear Community > I am a young engineer (not software or math, please bare with me) with some > suggestions regarding erasure codes. I never used Ceph before or any other > distributed file system. > > I stumped upon the suggestion for adding erasure codes to Ceph, as > described in this article > http://wiki.Ceph.com/01Planning/02Blueprints/Dumpling/Erasure_encoding_as_a_storage_backend > > first I would like to say great initiative to add erasure codes to Ceph. > Ceph needs its own implementation and it have to be done right, I cannot > stress this enough, suggested software mentioned in that article would result > in very low performance. > > Why? > Reed-Solomon is normally something regarded as being very slow compared to > other erasure codes, because the underlying Galois-Field multiplication is > slow. Please see video at usenix.org forexplanation. > > The implementations of Zfec library and other suggested software the others > rely on the Vandermonde matrix, a matrix used in in Reed-Solomon erasure > codes, a faster approach would be to use the Cauchy-Reed-Solomon > implementation. Please see [1,2,3] > Although there is something even better, by using the Intel SSE2/3 SIMD > instructions it is possible to do the as fast as any other XOR based erasure > codes (RaptorQ LT-codes, LDPC etc.). > > The suggested FECpp lib uses the optimisation but with a relative small > Galois-field only 2^8, since Ceph aimes at unlimited scalability increasing > the size of the Galois-Field would improve performance [4]. Of course the > configured Ceph Object Size and/or Stripe width have to be taken into account. > Please see > https://www.usenix.org/conference/fast13/screaming-fast-galois-field-arithmetic-using-sse2-extensions > > > The solution > Using the GF-Complete open source library [4] to implement Reed-Solomon in > Ceph in order to allow Ceph to scale to infinity. > James S. Plank the author of GF-complete have developed a library > implementing various Reed-Solomon codes called Jerasure. > http://web.eecs.utk.edu/~plank/plank/www/software.html > Jerasure 2.0 using the GF-complete artimetric based in Intel SSE SIMD > instructions, is current in development expected release august 2013. Will be > released under the new BSD license. Jerasure 2.0 also supports arbitrary > Galois-field sizes 8,16,32,64 or 128 bit. > > The limit of this implementation would be the processors L2/L3 cache not the > underlying arithmetic. > > Best Regards > Martin Flyvbjerg > > [1] http://web.eecs.utk.edu/~plank/plank/papers/CS-05-569.pdf > [2] http://web.eecs.utk.edu/~plank/plank/papers/CS-08-625.pdf > [3] http://web.eecs.utk.edu/~plank/plank/papers/FAST-2009.pdf > [4] http://web.eecs.utk.edu/~plank/plank/papers/FAST-2013-GF.pdf > -- > To unsubscribe from this list: send the line "unsubscribe ceph-devel" in > the body of a message to [email protected] > More majordomo info at http://vger.kernel.org/majordomo-info.html -- Loïc Dachary, Artisan Logiciel Libre All that is necessary for the triumph of evil is that good people do nothing.
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