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Apr
10
revised what are the compiler options for gcc-linaro-aarch64-linux-gnu-4.8-2014.04_linux?
This is not a question about ARMCC, nor about Linux.
Apr
10
suggested approved edit on what are the compiler options for gcc-linaro-aarch64-linux-gnu-4.8-2014.04_linux?
Apr
7
revised gcc 4.9 bug in structures initialization?
GCC 4.10 was renamed to GCC 5, it will be clearer for future readers to use the new name.
Apr
7
suggested approved edit on gcc 4.9 bug in structures initialization?
Mar
23
answered Translating SSE to Neon: How to pack and then extract 32bit result
Mar
18
answered GCC options for i.MX6Q in order to properly use NEON/FPU
Feb
24
comment Compiling code with active neon flags leads to almost no improvement (and even deterioration)
You probably meant to store the result somewhere after calculating it in to vals. As currently written, there is no reason for the compiler to perform any of the operations in the loop as the result is unused.
Feb
20
comment Compiling code with active neon flags leads to almost no improvement (and even deterioration)
In your timings above, you have a ~20% performance improvement for the "short" case, so the compiler has done something to improve performance.
Feb
20
comment Compiling code with active neon flags leads to almost no improvement (and even deterioration)
1: Yes, all I did was copy-paste the code in the question, then add the two extra includes to get access to rand() and std::out, 3: Forming the reciprocal for multiplication requires either a division or repeated application of the vrecpe/vrecps instructions to estimate and refine its value. Each of these approaches is only applicable for floating point values, so wouldn't help with the integer code in your question.
Feb
19
revised Compiling code with active neon flags leads to almost no improvement (and even deterioration)
Also note that GCC 4.8.2 knows how to vectors this loop.
Feb
19
answered Compiling code with active neon flags leads to almost no improvement (and even deterioration)
Feb
17
comment Coding for ARM NEON: How to start?
If you were compiling with -O3, then -ftree-vectorize would already be implied, so I wouldn't expect a change in performance. Additionally, if somebody has already written the code around the bottlenecks near-optimally, I wouldn't expect to see any improvement. The only way to truly tell is to look at some performance data for the code, find the hotspots, look at how they are currently implemented and what they currently compile to, and then take a decision as to whether you can do better.
Feb
17
comment Coding for ARM NEON: How to start?
I've updated the answer, I hope that helps.
Feb
17
revised Coding for ARM NEON: How to start?
Give an explanation of what NEON intrinsics are, and where to find more documentation.
Feb
17
answered Coding for ARM NEON: How to start?
Nov
19
revised Using IKVM and having Issues with code that appears to store driver information in memory
Removing the Neon tag as it is inappropriate for this question. "NEON is a vector-processing instruction set for ARM processors."
Nov
19
suggested approved edit on Using IKVM and having Issues with code that appears to store driver information in memory
Nov
2
comment Smoothing paddle movement in pong in C
possible duplicate of Pong: How does the paddle know where the ball will hit?
Sep
24
awarded  Autobiographer
Aug
29
comment ARM Neon C: Wrong answer
@Jake'Alquimista'LEE Recall the difference between a target processor and a target architecture. In GCC -march controls the target architecture (with values like armv7-a, armv8-a, armv6), -mcpu controls the target processor (with values like cortex-a5, cortex-a7, cortex-a8, cortex-a9, cortex-a15). Moving between micro-architectures (-mcpu values) brings different pipeline characteristics. For example, some micro-architectures feature out-of-order execution units, others are strictly in order. The compiler models these differences when scheduling instructions for a given -mcpu or -mtune value.