Cuda works only on nvidia hardware but there may be some libraries converting it to run on cpu cores(not igpu).
AMD is working on "hipify"ing old cuda kernels to translate them to opencl or similar codes so they can become more general.
Opencl works everywhere as long as both hardware and os supports. Amd, Nvidia, Intel, Xilinx, Altera, Qualcomm, MediaTek, Marvell, Texas Instruments .. support this. Maybe even Raspberry pi-x can support in future.
Documentation for opencl in stackoverflow.com is under development. But there are some sites:
If it is Iris Graphics 6100:
Your integrated gpu has 48 execution units each having 8 ALU units that can do add,multiply and many more operations. Its clock frequency can rise to 1GHz. This means a maximum of 48*8*2(1 add+1multiply)*1G = 768 Giga floating point operations per second but only if each ALU is capable of concurrently doing 1 addition and 1 multiplication. 768 Gflops is more than a low-end discrete gpu such as R7-240 of AMD.(As of 19.10.2017, AMD's low-end is RX550 with 1200 GFlops, faster than Intel's Iris Plus 650 which is nearly 900 GFlops). Ray tracing needs re-accessing to too many geometry data so a device should have its own memory(such as with Nvidia or Amd), to let CPU do its work.
How you install opencl on a computer can change by OS and hardware type, but building a software with an opencl-installed computer is similar:
Just before computing(or an array of computations):
- Select buffers for a kernel as its arguments.
- Enqueue buffer write(or map/unmap) operations on "input" buffers
- Enqueue nd range kernel(with specifying which kernel runs and with how many threads)
- Enqueue buffer read(or map/unmap) operations on "output" buffers
- Don't forget to synchronize with host using clFinish() if you haven't used blocking type enqueueBufferRead.
- Use your accelerated data.
After opencl is no more needed:
- Be sure all command queues are empty / finished doing kernel work.
- Release all in the opposite order of creation
If you need to accelerate an open source software, you can switch a hotspot parallelizable loop with a simple opencl kernel, if it doesn't have another acceleration support already. For example, you can accelerate air-pressure and heat-advection part of powdertoy sand-box simulator.