Today we came across a CPU-Z screenshot showing the existence of an unknown CPU Intel Raptor Lake of 24 cores and 32 threads of treatment with a TDP of 65W. Specifically, we’re talking about 8x high-performance cores with 16x high-efficiency cores, all with a 3.80 GHz turbo frequencywe are therefore dealing with a “non-K” processor, so we could be dealing with an alleged Intel Core i9-13900.
Also keep in mind that it’s an engineering showtherefore the frequencies should increase further, since the Core i9-12900 reaches the 5.10GHz.
It should be remembered that one of the main novelties of the Intel Raptor Lake compared to its predecessor is the one we have just seen: increase in nuclei. Basically, from the Intel Core i9-12900K to the Intel Core i9-13900K we will go from 16 cores and 24 threads to a much more generous configuration of 24 cores with 32 processing threads.
This configuration will be divided into 8 new high performance cores (P-Core), which will be based on the architecture raptor covewhich in this case will be accompanied by 16 Gracemont low power consumption cores (E-Core), the number of these cores is therefore doubled to continue to significantly improve multi-core performance.
These nuclei are accompanied by 68 MB of cache memoryknowing that each high-performance core has 2 MB L2 cache (vs 1.25 MB on Alder Lake) while each low-power core cluster (4 cores per cluster) it has 4 MB (vs 2 MB), giving a total of 32 MB L2 cache, which added to the 36 MB L3 cache, gives us a total of 68 MB, 24MB more than Intel Alder Lake processors (Intel Core 12th Gen), while all this would involve reducing latencies.
For the rest, these processors integrate an iGPU based on the Intel Xe architecture with 32 Execution Units (256 cores), and if to this we must add a linear digital voltage regulator (Digital Linear Voltage Regulator) it promises reduce energy consumption by up to 25% providing performance improvements of up to 7%.
Going through: @wxnod | video cardz