OpenMP 4.0 introduces a new construct called "omp simd". What is the benefit of using this construct over the old "parallel for"? When would each be a better choice over the other?
EDIT: Here is an interesting paper related to the SIMD directive.
The linked-to standard is relatively clear (p 13, lines 19+20)
So basically, you'll want to use
A simple answer:
OpenMP only used to exploit multiple threads for multiple cores. This new
(Note that a SIMD instruction is executed in a single thread and a single core, by design. However, the meaning of SIMD can be quite expanded for GPGPU. But, but I don't think you need to consider GPGPU for OpenMP 4.0.)
So, once you know SIMD instructions, you can use this new construct.
In a modern CPU, roughly there are three types of parallelism: (1) instruction-level parallelism (ILP), (2) thread-level parallelism (TLP), and (3) SIMD instructions (we could say this is vector-level or so).
ILP is done automatically by your out-of-order CPUs, or compilers. You can exploit TLP using OpenMP's
Take a very simple example:
There could be multiple ways to parallelize this loop. For example, until OpenMP 4.0, this can be parallelized using only
However, you might think using multiple threads for such simple addition would be a overkill. That is why there is vectorization, which is mostly implemented by SIMD instructions.
Using a SIMD would be like this:
This code assumes that (1) the SIMD instruction (
An 8-way SIMD instruction means that 8 items in a vector can be executed in a single machine instruction. Note that Intel's latest AVX provides such 8-way (32-bit * 8 = 256 bits) vector instructions.
In SIMD, you still use a single core (again, this is only for conventional CPUs, not GPU). But, you can use a hidden parallelism in hardware. Modern CPUs dedicate hardware resources for SIMD instructions, where each SIMD lane can be executed in parallel.
You can use thread-level parallelism at the same time. The above example can be further parallelized by
(However, I have a doubt how many loops can be really transformed to SIMDized loops. The OpenMP 4.0 specification seems a bit unclear on this. So, real performance and practical restrictions would be dependent on actual compilers' implementations.)