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I am developing Android x86 based frameweork for Intel Atom Processor. I have implemented the entire framework, but I am facing problems with the SIMD implementation for my code. When I run the basic C code, it gives a considerable performance same on the emulator as well as the hardware, however, when I enable the intrinsics option for the code, there is no actual gain but a negligible loss in performance. I have run my code on Intel i7 processor, there s approximately 200% gain. I certainly take into consideration the frequency & number of cores that a PC and a tablet utilizes but still there should be some gain when I enable SIMD code on the Android framework. Possible problems which I have analyzed so far:

1) Local C flags(can anyone suggest suitable C flags for Intel Atom Processor).

2) Is it advisable to use .so file instead of the source code in the framework.

3) Suitable NDK for Intel Atom, I am using 4.8.

4) Optimization level should be set to O2 or O3.

If there are any other reasons that may hinder the performance, please let me know. Thank you in advance.

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The question may need more clarity: could you explain what does it mean "enable the intrinsics option"? You can write intrinsics code yourself (but it's not like "enabling" something; it's more like writing some code using assembly) or you can use compiler explicit/auto-vectorization. –  zam Jun 7 '14 at 6:42

2 Answers 2

up vote 1 down vote accepted

All the Intel Atom platforms support at least SSSE3.

To know what the compiler has been able to vectorize, you can use -ftree-vectorizer-verbose flag.

1) You can compile your code using -mtune=atom -mssse3 -mfpmath=sse to fully use SSSE3, including for FP maths. (When compiling in 32bits, mfpmath is set to 387 by default which is a lot slower.)

it's safer to provide only up to SSSE3 code for the x86 ABI. If you only need to support specific platforms, 64bits Atom all supports SSE4.2, to optimize for these you can use -mtune=slm -msse4.2 -mfpmath=sse

2) I'm not sure if I understand your question 2), but if you're using a precompiled .so file, it will not be further optimized when you're compiling code linked to it.

3) The latest NDK is usually the best, current version is r9d. GCC 4.8 brings also a lot of performance optimizations compared to the default GCC 4.6, you can use it by setting NDK_TOOLCHAIN_VERSION:=4.8 inside Application.mk

4) -O3 is quite safe and brings more performance, you should use it.

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Thanks for your reply. I have done some these optimizations. Do you have any specific documents or articles that assist in optimizing the code for Intel Atom architecture. I am currently optimizing for the Saltwell architecture. –  Steve Jun 21 '14 at 5:20

Intel published general optimization tips for Android on Atom which lays out a number of things that might prevent your SIMD code from running as fast as you expect. It could be memory alignment issues -- x86 needs 16 byte alignment for best results.

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