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Intel Core: Txxxx Lxxxx Uxxxx Yonah: 2006–2008 1.06 GHz – 2.33 GHz Socket M: 65 nm 5.5 W – 49 W 1 or 2 533 MHz, 667 MHz 64 KiB per core 2 MiB N/A Intel Core 2: Uxxxx Lxxxx Exxxx Txxxx P7xxx Xxxxx Qxxxx QXxxxx Allendale Conroe Merom Penryn Kentsfield Wolfdale Yorkfield: 2006–2011 1.06 GHz – 3.33 GHz Socket 775 Socket M Socket P Socket ...
Successor to the Willow Cove core, includes improvements to performance and power efficiency. Also includes new instructions. [18] Alder Lake: hybrid processor, succeeds Rocket Lake and Tiger Lake; uses Intel 7 process (previously known as 10ESF), [19] released on November 4, 2021. [20] Golden Cove is used in P-cores of Alder Lake processors. [21]
It was announced in November 2021 that Intel Alder Lake would use a hybrid architecture combining performance and efficiency cores, similar to ARM big.LITTLE. This was Intel's second hybrid architecture, after the mobile-only Lakefield released in June 2020. While the desktop Alder Lake processors were already on the market by January 2022, the ...
Gracemont is a microarchitecture for low-power processors used in systems on a chip (SoCs) made by Intel, and is the successor to Tremont. Like its predecessor, it is also implemented as low-power cores in a hybrid design of the Alder Lake, Raptor Lake and Raptor Lake Refresh processors. [2]
Raptor Lake is Intel's codename for the 13th and 14th generations of Intel Core processors based on a hybrid architecture, utilizing Raptor Cove performance cores and Gracemont efficient cores. [3] [4] [5] Like Alder Lake, Raptor Lake is fabricated using Intel's Intel 7 process.
Multi-core, multithreading, 2 threads per core, in-order IBM zEnterprise zEC12: 2012 15/16/17 Multi-core, 6 cores per chip, up to 5.5 GHz, superscalar, out-of-order, 48 MB L3 cache, 384 MB shared L4 cache IBM A2: 15 multicore, 4-way simultaneous multithreaded PowerPC 401: 1996 3 PowerPC 405: 1998 5 PowerPC 440: 1999 7 PowerPC 470: 2009 9
Lunar Lake's cluster of 4 Skymont E-cores exist on a 'Low Power Island' separate from the P-cores. As a result, the E-cores have their own dedicated L3 cache not accessible to the P-cores rather than sitting on a ringbus fabric with P-cores. Intel claims a massive 68% IPC gain in Skymont E-cores over Crestmont. [15]
The Conroe-L and Merom-L processors are based around the same core as Conroe and Merom, but only contain a single core and 1 MB of L2 cache, significantly reducing production cost and power consumption of the processor at the expense of performance compared to the dual-core version.