Intel Core i7 12700F 12 Core Alder Lake CPU/Processor
Intel Core i7 12700F, S 1700, Alder Lake, 12 Cores, 20 Threads, 2.1GHz, 4.9GHz Turbo, 25MB Cache, 65W, Retail
12th Gen Intel® Core™ i7-12700F Alder Lake Desktop CPU
BUILT FOR THE NEXT GENERATION OF GAMING The 12th Generation of Intel® Core™ Processors are here! The i7-12700F gives you the highest clock speeds and a groundbreaking new architecture, you will be able to push your gameplay to new heights while secondary apps run seamlessly in the background. This processor is able to give you excellent performance. The 12th Generations CPU's are compatible with most 600 series motherboards and support PCIe Gen 5, you can also take advantage of DDR5 memory and great features like Intel Turbo Boost Max Technology 3.0.
12 Cores8 Performance Cores
4 Efficient Cores
20 Threads16 on Performance Cores
4 on Efficient Cores
Divide and Conquer
REVOLUTIONARY PERFORMANCE AND MULTITASKING Intel’s new performance hybrid?architecture integrates two core families into a single CPU, keeping everything in your gaming universe running smoothly. The Intel Thread Director prioritses and manages workloads, sending tasks to the best core for the job.
8 Performance CoresP-cores are built for performance across single and lightly-threaded workloads, enhancing activities like gaming and productivity.
4 Efficient CoresE-cores are optimized for multi-threaded performance, minimizing interruptions from secondary tasks.
Performance Beyond the Cores
Ready for whats next The new processor architecture is also compatible with the latest platform innovations, giving you performance improvements throughout your PC. Support for PCIe Gen 5 and DDR5 for high-performance components like memory and graphics.
Best-in-class connectivityThunderbolt™ 4 and Intel® Killer™ Wi-Fi 6/6E (Gig+) deliver fast transfer speeds and connections to peripherals.
Streamlined overclocking Separate overclocking controls for both types of cores gives you nuanced personalization.
|Warranty Type||Manufacturer via Aria|
|Top Potential Overclock||0|