AMD 3rd Gen Ryzen Matisse CPU Benchmark Surfaces on 12-Core Processor
Twitter user TUM_APISAK recently discovered an AMD Engineering processor on UserBenchmark that might just be an AMD 3rd Gen Ryzen processor. The detailed performance results from this user run show an AMD Myrtle board running a single 12-core, 24-thread processor with a 3.4 GHz base clock and a 3.6 GHz average clock. Under the processor details it lists an AMD engineering sample is identified by model: 2D3212BGMCWH2_37/34_N and this is believed to be a Ryzen ‘Matisse’ 7nm CPU (check out the decoder).
The benchmark results showed that this 12-core, 24-thread AMD processor scored 116 points on the single-core test, 374 points on the quad-core test and ultimately 1,741 points on the multi-core test. The Intel Core i7-8700K 6-core, 12-thread processor averages around 138 points on the single-threaded test and 1,073 points on all available cores. The newer Intel Core i9-9900K 8-core, 16-thread processor scores 146 points on a single core and 1,503 points on all cores. The AMD Ryzen 7 2700X 8-core, 16-thread processor scored 126 points on one core and then 1,304 points on all cores. Keep in mind that this is just one run of this 3rd Gen Ryzen 12-core processor versus averages from over 227,000 runs on the 8700K, 13,000 runs on the 9900K and 61,000 runs on the 2700X!
Other tests results from the same test run show some interesting bits of information. For example only one stick of DDR4 memory was shown to be used and that might limit some performance. The UserBenchmark System Memory Latency Ladder test shows the latency of L1, L2, and L3 caches and the decline in performance at 64MB could indicate this 3rd Gen Ryzen processor has at least 32MB of L3 cache.
That said, the multi-core benchmark results are exciting to say the least and it shows that AMD is bringing more cores to the AM4 platform. Do we need 12-core, 24-thread processors in mainstream platforms? Maybe not, but software developers will eventually begin to take advantage of all the cores and then you will.