- Global memory amount of the device. You typically don't care, unless you use high amount of data. Anyway the OpenCL spec will complain with OUT_OF_RESOURCES error if you use more than allowed. (bytes)
- Amount of local memory for each workgroup. However this limit is just under ideal conditions. If your kernel uses high amount of WI per WG maybe some of the private WI data is being spilled out to local memory. So take it as a maximum available amount per WG.
- Maximum amount of constant memory that can be used for a single kernel. If you use constant buffers that all together have more than this amount, either it will fail, or use global normal memory instead (it may therefore be slower). (bytes)
- Maximum amount of memory in 1 single piece you can allocate in a device. (bytes)
- Maximum work group size of the device. This is the ideal maximum. Depending on the kernel code the limit may be lower.
- Maximum amount of work items per dimension. IE: The device may have 1024 WI as maximum size and 3 maximum dimensions. But you may not be able to use (1024,1,1) as size, since it may be limited to (64,64,64), so, you can only do (64,2,8) for example.
- The default kernel size given by the implementation. It may be forced to be higher, or lower, but the value already provided should be a good one already (good tradeoff of GPU usage %, memory spiloff, etc).
NOTE: All this data is the teoretical limits. But if your kernel uses a resource more than other, ie: local memory depending on the size of the work group, you may not be able to reach the maximum work items per work group, since it is possible you reach first the local memory limit.