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I have a security library in C and try to import that into my Android project using NDK. The library depends on three other libraries: pbc, gmp, and openssl. I've built the first two libraries as static libraries and the last one as shared libraries.

I timed the encrypt() and decrypt() functions in my library.

On my laptop, it is:

  • encrypt() 30ms
  • decrypt() 160ms

On my Android device(Droid 2.2.3), it is:

  • encrypt() 190ms
  • decrypt() 1300ms

The time is only for calling those two functions from the C library. The JNI overhead is very small.

Is this expected?


Both encrypt() and decrypt() do not have any IO operation, mainly float point operation. And I compiled the code for armeabi-v7a.

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It depends on what those two functions do. –  Mārtiņš Možeiko Jan 29 '12 at 5:53
no IO operations involved. –  SteveFan Jan 29 '12 at 9:23
But what is involved? Do you expect us to guess what are you calulating there? –  Mārtiņš Možeiko Jan 29 '12 at 21:20
... so, I take it your laptop doesn't have a substantially more powerful processor than the Android device has? –  Julian Fondren Jan 29 '12 at 23:30
What it does is to encrypt and decrypt arbitrary length char array using SHA256(openssl) and arbitrary precision arithmetic(gmp). –  SteveFan Jan 30 '12 at 1:41

1 Answer 1

up vote 5 down vote accepted

First of all I would say that you are lucky - your port works only 8 times slower than laptop version. It is quite a good result for ARM-based platforms.

There are several reasons to be slower on ARM:

  • ARM processors simply have less computational power than Intel/AMD desktop CPUs
  • Slower memory and lower bandwidth
  • Different architectural restrictions (for example floating point unit is separated from integer CPU core in ARM)

You can try the following things to improve the performance of you code:

  • If your phone has modern FPU then you can try to recompile all the libraries with additional compiler flag -mfpu=vfpv3 (or -mfpu=neon). It can slightly improve the speed of floating-point calculations because of doubled number of FPU registers.
  • Try to build your code with newer compiler. Latest Crystax NDK which is modified version of Google NDK includes gcc 4.6 toolchain. Sometimes newer compiler can produce more effective code.
  • Profile your code and optimize bottlenecks. You can use a number of arm specific optimization tricks (here is a bit outdated but good guide) or vertorize code with NEON SIMD.
share|improve this answer
I tested it on Nexus S and the time dropped to half of the original. Droid's 600MHz processor is just too slow :( –  SteveFan Feb 3 '12 at 18:57

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