I'm a little confused about terms of an AMD wavefront and workgroupsize of OpenCL. I found different sources were different statements are done.

My question is: How much is the wavefront-size of AMDs GCN technology and according to this: How big should a workgroup on opencl at least be to not waste occupancy.

The information i got out of this document of amd is, that the wavefront-size of GCN is 16. I can run 4 wavefronts on CU at a time and there is a maximum of 40 in-flight wavefronts per cu. so what i imply out of this is, that a workgroup should be at least of size 16 in opencl.

But the common information (for example in this or this) is that wavefrontsize is 64 and according to this workgroupsize should be at least 64 an if higher a multiple of 64. This is also what matches with the meassurements on my kernel, which are that with workgroupsize 64 i get highest performance, for everything below 64 its getting worse.

Thanks very much for clarification.

  • if work group size is 16, an amd gpu's minimum hardware simd width is wasted by %75 because each of them is 64 wide. You waste 48 units per CU. Wavefronts are applied to same area, not distributed to all CU. Aug 2, 2015 at 15:23
  • yeah thats what i get out of the most sources. but whats about link nr.1 there it says in a cu there are 4 16-wide SIMDs and each of that is able to have 10 wavefronts in flight. for me that means that a wavefront is 16 and not 64. remember my question is especially about amd's GCN tecnology. Aug 2, 2015 at 15:34
  • When you have 16-width work group, you use only one 16-width simd. Other 3 waits idle while all wavefronts issued on that single simd so its not dynamic parallelism I think. Aug 2, 2015 at 16:19
  • i think you don't understand exactly what my question is. where do you get the information that wavefront size is 64 and not 16 at GCN? Aug 2, 2015 at 16:31

1 Answer 1


You got it out wrong. Read this document carefully once again. SIMD unit has got 16 work items and wavefront size is 64 work items. Here are the important quotes:

page 3:

In GCN, each CU includes 4 separate SIMD units for vector processing. Each of these SIMD units simultaneously executes a single operation across 16 work items, but each can be working on a separate wavefront.

page 5:

This is essential for wavefront control flow; for example, comparisons will generate a result for each of the 64 work-items in a wavefront.

  • Okay you're right. But then my next question is: How it is possible that each Vector16-SIMD can have 10 Wavefronts in flight, when a wavefront is 64 wide and not 16? Aug 3, 2015 at 8:25
  • 3
    Each 16-wide SIMD processes one 64-wide wavefront over 4 clock cycles. On each clock cycle the instruction scheduler can issue one vector instruction from one wavefront active on the CU to one of the four SIMD units. So over 4 cycles each SIMD has an instruction issued to it and the scheduler is back to the start. There are 10 waves in flight based on resources - 10 program counter registers per SIMD, 40 per CU. I gave a couple of talks that try to explain aspects of this, maybe they would help: leehowes.com/files/talks/…
    – Lee
    Aug 3, 2015 at 16:17

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