As a result of these methodological differences, which have a non-trivial impact on scores, we recommend users not compare Geekbench 6.1 scores against Geekbench 6.0 scores. Thanks to these changes, Geekbench 6.1 single-core scores are up to 5% higher, and multi-core scores are up to 10% higher than Geekbench 6.0 scores. Improve Multi-Core Performance Geekbench 6.1 improves the multi-core implementations of the Background Blur and Horizon Detection workloads, especially on high-end desktop processors such as 12- and 16-core AMD Ryzens, AMD Threadrippers, and Intel Xeons. Geekbench uses fixed-point math to implement some image processing functions on systems without FP16 instructions. Introduce support for fixed-point math Geekbench 6.1 introduces fixed-point implementations of several image processing functions. Introduce support for AVX512-FP16 instructions Geekbench 6.1 includes AVX512-FP16 implementations of several image processing functions. Introduce support for SVE instructions Geekbench 6.1 includes SVE implementations of several image processing and machine learning functions. The increased workload gap minimizes thermal throttling and reduces run-to-run variability on newer smartphones such as the Samsung Galaxy S23. Increase workload gap Geekbench 6.1 increases the workload gap (the pause between workloads) from two seconds to five seconds. Geekbench 6.1 also improves the optimization switches used when building Geekbench. Upgrade to Clang 16 Geekbench 6.1 is built with Clang 16 on all platforms. Geekbench 6.1 features the following changes: Primate Labs is pleased to announce the availability of Geekbench 6.1, the latest version of our cross-platform CPU and GPU benchmark.
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