We assign each multi-processor in the GPU to sweep a layered system. Like CUDA and OpenCL are alternatives to one another, OpenGL is an alternative to systems like DirectX on Windows. OpenGL has access to more fixed function hardware (like other answers have said). If you intend to run very computationally expensive workloads like CPU rendering or physics simulations, you probably want something with many cores and threads, like the AMD Ryzen 9 5900HX or Intel Core i9-10980HK, both of which have 8 cores and 16 threads. See the subsection descriptions above for a summary on what each subsection measures. To call one to have more features than the other doesn't make much sense as they're both gaining 80% the same features, just under different nomenclature. I have now the same OpenCL Score like my old RX580 on macOS and on Windows about 40,000 Points more! While OpenGL is supported pretty much everywhere, OpenCL is totally lacking support on mobile devices and, imho, is highly unlikely to appear on Android or iOS in the next few years. It means that the A770 as configured is a long way behind high end AMD and Nvidia offerings. However, this means that statistics like gigahertz or core count are no longer a good way to compare the performance of two different laptops. Cinebench multi-core scores were 12,358 (Pro) and 12,377 (Max). image processing. Chrome OS:Android APK, version 5.2.5. By clicking Accept all cookies, you agree Stack Exchange can store cookies on your device and disclose information in accordance with our Cookie Policy. He enjoys covering the full breadth of PC tech; from business and semiconductor design to products approaching the edge of reason. That means two languages to learn, two APIs to figure out. How fast is your OpenCL? Note:The Vulkan API is most commonly used as a graphical backend in video games. Geekbench 4 provides three different kinds of scores: Workload Scores Each time a workload is executed Geekbench calculates a score based on the computer's performance compared to the baseline performance.