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Is calculating an MD5 hash less CPU intensive than SHA-1 or SHA-2 on "standard" laptop x86 hardware? I'm interested in general information, not specific to a certain chip.

UPDATE: In my case, I'm interested in calculating the hash of a file. If file-size matters, let's assume its 300K.

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That's not an answer to your question, but the proponents of Skein put forward its speed, and it is certainly no weaker than the end-of-life MD5 at this time. In the messages you have to hash are very short, speed can be a disadvantage for a cryptographic hash function though (specifically, how fast someone else can implement it, not how fast it runs on your laptop). schneier.com/skein1.2.pdf –  Pascal Cuoq Apr 27 '10 at 16:30
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@Pascal: Skein is not the fastest of the SHA-3 candidates, though, especially on 32-bit platforms. On a 64-bit x86, Skein achieves about 300 MB/s (Skein-512 being somewhat faster than Skein-256), which is comparable to SHA-1, but in 32-bit mode, performance drops to less than 60 MB/s, twice slower than SHA-256. On the other hand, SHABAL, another SHA-3 candidate, offers performance similar to SHA-1 on both 32-bit and 64-bit platforms. –  Thomas Pornin Apr 27 '10 at 18:40
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3 Answers

up vote 38 down vote accepted

Yes, MD5 is somewhat less CPU-intensive. On my Intel x86 (Core2 Quad Q6600, 2.4 GHz, using one core), I get this in 32-bit mode:

MD5       411
SHA-1     218
SHA-256   118
SHA-512    46

and this in 64-bit mode:

MD5       407
SHA-1     312
SHA-256   148
SHA-512   189

Figures are in megabytes per second, for a "long" message (this is what you get for messages longer than 8 kB). This is with sphlib, a library of hash function implementations in C (and Java). All implementations are from the same author (me) and were made with comparable efforts at optimizations; thus the speed differences can be considered as really intrinsic to the functions.

As a point of comparison, consider that a recent hard disk will run at about 100 MB/s, and anything over USB will top below 60 MB/s. Even though SHA-256 appears "slow" here, it is fast enough for most purposes.

Note that OpenSSL includes a 32-bit implementation of SHA-512 which is quite faster than my code (but not as fast as the 64-bit SHA-512), because the OpenSSL implementation is in assembly and uses SSE2 registers, something which cannot be done in plain C. SHA-512 is the only function among those four which benefits from a SSE2 implementation.

Edit: on this page, one can find a report on the speed of many hash functions (click on the "Telechargez maintenant" link). The report is in French, but it is mostly full of tables and numbers, and numbers are international. The implemented hash functions do not include the SHA-3 candidates (except SHABAL) but I am working on it.

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MD5 also benefits from SSE2 usage, check out BarsWF and then tell me that it doesn't. All it takes is a little assembler knowledge and you can craft your own MD5 SSE2 routine(s). For large amounts of throughput however, there is a tradeoff of the speed during hashing as opposed to the time spent rearranging the input data to be compatible with the SIMD instructions used.

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At a first look it's not clear if SSE2 is used to speed up one MD5 thread or to pair a few parallel MD5 threads; the latter is of course easy for most algorithms, but that doesn't count as benefiting from SSE2 as usually what's needed is a single stream of data. –  lapo Mar 2 '11 at 15:28
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On my MacBook Air (Intel Core i5-3427U, 2x 1.80GHz), SHA-1 is slightly faster than MD5 (using OpenSSL in 64-bit mode):

$ openssl speed md5 sha1
To get the most accurate results, try to run this
program when this computer is idle.
Doing md5 for 3s on 16 size blocks: 5635072 md5's in 3.00s
Doing md5 for 3s on 64 size blocks: 4414628 md5's in 3.00s
Doing md5 for 3s on 256 size blocks: 2574011 md5's in 3.00s
Doing md5 for 3s on 1024 size blocks: 964147 md5's in 3.00s
Doing md5 for 3s on 8192 size blocks: 140690 md5's in 3.00s
Doing sha1 for 3s on 16 size blocks: 5861809 sha1's in 3.00s
Doing sha1 for 3s on 64 size blocks: 4485605 sha1's in 3.00s
Doing sha1 for 3s on 256 size blocks: 2629683 sha1's in 3.00s
Doing sha1 for 3s on 1024 size blocks: 975016 sha1's in 3.00s
Doing sha1 for 3s on 8192 size blocks: 145360 sha1's in 3.00s
OpenSSL 0.9.8r 8 Feb 2011
built on: Jun 22 2012
options:bn(64,64) md2(int) rc4(ptr,char) des(idx,cisc,16,int) aes(partial) blowfish(ptr2) 
compiler: -arch x86_64 -fmessage-length=0 -pipe -Wno-trigraphs -fpascal-strings -fasm-blocks -O3 -D_REENTRANT -DDSO_DLFCN -DHAVE_DLFCN_H -DL_ENDIAN -DMD32_REG_T=int -DOPENSSL_NO_IDEA -DOPENSSL_PIC -DOPENSSL_THREADS -DZLIB -mmacosx-version-min=10.6
available timing options: TIMEB USE_TOD HZ=100 [sysconf value]
timing function used: getrusage
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
md5              30055.02k    94158.96k   219602.97k   329008.21k   384150.47k
sha1             31261.12k    95676.48k   224357.36k   332756.21k   396864.62k

Update: 10 months later with OS X 10.9, SHA-1 got slower on the same machine:

$ openssl speed md5 sha1
To get the most accurate results, try to run this
program when this computer is idle.
Doing md5 for 3s on 16 size blocks: 6797853 md5's in 3.00s
Doing md5 for 3s on 64 size blocks: 4994307 md5's in 3.00s
Doing md5 for 3s on 256 size blocks: 2750778 md5's in 3.00s
Doing md5 for 3s on 1024 size blocks: 980115 md5's in 3.00s
Doing md5 for 3s on 8192 size blocks: 139821 md5's in 3.00s
Doing sha1 for 3s on 16 size blocks: 6648413 sha1's in 3.00s
Doing sha1 for 3s on 64 size blocks: 4665067 sha1's in 3.00s
Doing sha1 for 3s on 256 size blocks: 2421083 sha1's in 3.00s
Doing sha1 for 3s on 1024 size blocks: 825461 sha1's in 3.00s
Doing sha1 for 3s on 8192 size blocks: 114909 sha1's in 3.00s
OpenSSL 0.9.8y 5 Feb 2013
built on: Aug 24 2013
options:bn(64,64) md2(int) rc4(ptr,char) des(idx,cisc,16,int) aes(partial) blowfish(ptr2) 
compiler: -arch x86_64 -fmessage-length=0 -pipe -Wno-trigraphs -fpascal-strings -fasm-blocks -O3 -D_REENTRANT -DDSO_DLFCN -DHAVE_DLFCN_H -DL_ENDIAN -DMD32_REG_T=int -DOPENSSL_NO_IDEA -DOPENSSL_PIC -DOPENSSL_THREADS -DZLIB -mmacosx-version-min=10.6
available timing options: TIMEB USE_TOD HZ=100 [sysconf value]
timing function used: getrusage
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
md5              36277.35k   106558.04k   234680.17k   334469.33k   381756.70k
sha1             35453.52k    99530.85k   206635.24k   281695.48k   313881.86k
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weird, my air is the same as yours and I got opposite benchmark results. with 8192 bytes: md5 305549.52k; sha1 204668.57k –  Carlos Cunha Jan 18 at 16:58
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Hmm, I also get different results than last year on the same machine: md5 381756.70k, sha1 313881.86k. Maybe because of the upgrade to 10.9 (OpenSSL 0.9.8y). –  nwellnhof Jan 18 at 18:30
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