You also can tell what type of motherboard you have by looking at its model name (e.g. See our list below for CPUs that are compatible with your motherboard chipset. When running at the same clock speed, a 12th-generation P-core has about 28 percent faster performance than a 10th-generation core, while an E-core is roughly equivalent to a 10th-generation core. Click on the Mainboard tab and look for your motherboard chipset under the 'Southbridge' field (e.g. To put the P- and E-cores in context, Intel compared the single-threaded performance of both to 10th-generation Comet Lake cores, the final desktop iteration of Skylake. But improved performance from Alder Lake's P-cores and the additional core count from the E-cores should at least help close the gap. Intel's benchmarks tend to avoid comparing Alder Lake CPUs to these AMD chips in multithreaded tasks, preferring instead to advertise more favorable comparisons to the thermally challenged 8-core, 16-thread i9-11900K. These processors' prices and higher core counts will help Intel compete better with AMD in multithreaded workloads-AMD will sell you a 12-core, 24-thread Ryzen 9 5900X processor for around $560 and a 16-core, 32-thread 5950X for $750. Intel announced its updated manufacturing process naming scheme earlier this year.
The process formerly known as "10 nm Enhanced SuperFin" is now called "Intel 7" because the company says that its transistor density will be comparable to 7 nm processes from competing foundries like TSMC and Samsung. The new chips are Intel's first desktop processors (outside of servers) to be manufactured on some version of the company's 10 nm manufacturing, but you won't see "10 nm" in any of Intel's marketing materials or product pages. The first six processors in the lineup are available for preorder now and will be available starting November 4. Now, Intel is attempting a course correction in the form of its 12th-generation core CPUs, codenamed Alder Lake.
But when you add features without improving the manufacturing process, you get exactly what Rocket Lake delivered: a processor that is a bit faster but also a lot hotter, with much higher power usage than either the 10th-generation Intel CPUs that preceded them or the AMD Ryzen 5000-series CPUs they compete against. They did improve performance, usually, by backporting features from newer and faster processor architectures. Further Reading Intel 11th-generation Rocket Lake-S gaming CPUs did not impress us
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