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Basic introduction
CPU Queen tests the CPU's branch prediction capabilities and the performance impact caused by prediction errors. For CPUs with the same clock speed, shorter processing pipelines and more accurate prediction capabilities will score higher in this area. Therefore, it can be seen that the higher the frequency of the CPU, the better the performance. This score can reflect the real performance of the CPU, so that everyone no longer blindly pursues high frequency when choosing a CPU.
CPU PhotoWorxx focuses on the CPU's integer computing capabilities, multi-core computing capabilities and computing capabilities related to memory bandwidth, and uses simulated digital image processing to evaluate CPU performance. This test requires frequent and large amounts of memory access operations, so this test not only has high requirements on the processor, but also has high requirements on memory speed. For those who use a lot of video processing, such as video compression and video conversion, the higher the score, the better.
CPU ZLib is another test for CPU integer operations. It uses the Zlib compression algorithm to calculate the CPU's ability to process compressed files. If you are more demanding on the CPU's ability to compress and decompress files, you can pay attention to this score.
CPU AES is an encryption algorithm test that reflects the performance of the CPU when performing the AES encryption algorithm. This test is mainly aimed at some network servers, such as command servers, which perform frequent encryption and decryption operations, so the score is particularly important.
CPU Hash is a test using the SHA1 hash algorithm to reflect the CPU's integer computing capabilities.
FPU VP8 uses Google's VP8 video codec to test the video compression computing capabilities of the processor.
FPU Julia uses Julia fractal geometry operations to evaluate the single-precision (32bit) floating-point computing capabilities of the CPU.
FPU Mandel uses Mandelbrot fractal geometry operations to evaluate the double-precision (64bit) computing capabilities of the CPU.
FPU SinJulia uses modified Julia fractal arithmetic to evaluate the CPU's extended precision (80bit) floating point computing capabilities.
FPU Julia, FPU Mandel, and FPU SinJulia all test the floating point computing capabilities of the CPU. These tests can measure the performance of the CPU in games.
Software preview
Change log
·Optimize code and improve software stability
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