AMD Kaveri 幻想曲 (推測有17%效能增長)
本帖最後由 vsp 於 2013-10-26 18:46 編輯
AMD FANS好安慰
http://juanrga.com/en/AMD-kaveri-benchmark.html
AMD Kaveri benchmark
Abstract: Chip-maker AMD will release a new family of APUs by the end of 2013. This new family will be named Kaveri and will substitute the current Richland family of APUs. In this article I will consider Kaveri performance using all the information that AMD has disclosed as well as my best guesses on the parts that remain unknown. I estimate that the the top Kaveri GPU will have a CPU clocked at 4 GHz with a maximum performance of 128 GFLOP and a GPU clocked at 900 MHz with 922 GFLOP, giving a total of 1050 GFLOP for the whole APU. Combining all this data, I predict that the CPU of the top Kaveri APU will be about 26% faster than top Trinity APU and about 17% faster than top Richland APU. This would put the multi-threaded performance of the CPU of the new quad core Kaveri APU at the same level than an Intel quad core i5 or a six-core AMD FX with traditional software. The new Kaveri APU will show its real strength with HSA software, which will exploit the performance of both the CPU and the GPU. With HSA enabled software, Kaveri has the potential to be much faster than an Intel i7 or an octo-core AMD FX. Some developers are finding accelerations of up to 500% when enabling HSA. A collection of APU and CPU benchmarks and scores is given.
Chip-maker AMD will release a new family of APUs by the end of 2013. This new family will be named Kaveri and will substitute the current Richland family of APUs. Kaveri will combine two to four 28nm CPU cores, based on the Steamroller architecture plus HSA improvements, with a HSA enabled Graphics Core Next GPU. This HSA Graphics Core Next architecture can work as a traditional graphics card (rendering graphics) or as co-processor (computing parallel tasks). Kaveri will also introduce a uniform memory model, dubbed hUMA, that will allow both the CPU and the GPU to access to a common memory pool.
Many sites report some of the specs of the upcoming Kaveri. In this article I will consider Kaveri performance using all the information that AMD has disclosed as well as my best guesses on the parts that remain unknown. |
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