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For the testing of this review, we were able to get a DDR5 memory kit, however, DDR4 memory works just fine for those that are looking for a more cost-effective solution for a gaming/workstation rig. With the Alder Lake name comes other features besides the new hybrid layout of the chipset, such as support for the all-new DDR5 memory. Also to note for those that overclock, the base processor power is 125W, with a max of 190W. The base clock for the efficiency cores is 2.7GHz and for performance cores, it is 3.6GHz, however, with the help of Intel’s Turbo Boost Technology, efficiency cores can reach 3.8GHz, and performance cores can reach 4.9GHz. The same can be said about Linux and other non-Windows 11 builds, this limited OS support is one of the biggest downsides to the Alder Lake portfolio.Īlong with the Intel Core i7-12700K processor is the little letter at the end, the K, which means that this i7 is designed to allow users to overclock. #INTEL QUICKSYNC AND BLENDER WINDOWS 10#This means that Windows 10 will see the difference, however, it will still operate as all cores are the same. Intel’s Thread Director makes the difference between performance and efficiency cores, however, this technology isn’t supported on all operating systems and is only being supported on Windows 11 right now. ![]() On the downside, however, not all Alder Lake chips have E-cores, chips like the Intel Core i5-12400 only feature P-cores. Intel has engineered Performance (P) cores and Efficiency (E) cores, performance cores are used for performance-intensive tasks, like processes in the foreground or hard-hitting programs, while efficiency cores are for less-intensive tasks such as processes that are running in the background. The i7-12700K is a 12-core 20-thread processor, configured with 8 performance cores and 4 efficiency cores.įor those that aren’t entirely familiar with the newer generation of Intel CPUs, Intel’s 12th Gen processors, known as Alder Lake features a new standard of chip layout and design. The i7-12700K was a default pick for us as it is the last one in the lineup for the Alder Lake portfolio and offers a performance boost from the Core i5. We have reviewed the Core i5-12600K and the Core i9-12900K and with the components from XPG, we wanted to build a system with the processor between the i5 and i9. The CPU for this review is the Intel Core i7-12700K. With these parts, we were able to build a decent system leveraging the Intel Core i7-12600K. XPG was kind enough to send us a variety of parts for this review including a case, AIO, RAM, and a power supply. Through XPG, ADATA is able to market products to the gaming industry to show off new innovations and products. ADATA makes a wide variety of computer technology ranging from SD cards to lightbulbs. #INTEL QUICKSYNC AND BLENDER PC#Combined with parts sent to us from XPG, we were able to build out a solid system for any type of use case that users can think of.įor those who aren’t entirely familiar with XPG and who they are, XPG is a PC component offshoot from ADATA. The Core i7-12700K features the ability to overclock and with the new architectural design from the Alder Lake series, users can expect maximum performance. It's a stable and well supported platform, is very energy efficient, very mature as is DDR4.The Intel Core i7-12700K is a good choice for those looking for a mid-to-high tier CPU with a performance boost over the Core i5-12600K. Me personally, I'd still go AMD and re-evaluate in 3 to 6 years. #INTEL QUICKSYNC AND BLENDER SERIES#That said a platform has to die at some point and 5000 series is looking like the last for current x5xx chipset boards. Intel 12th gen was brilliant, but AMD lowering prices to compete and their general support for keeping a chipset valid for many generations of CPUs does have me thinking that care about the user and useful lifecycle of their gear more. So as long as you have an NVIDIA GPU in the system you're set, and don't need Intel quicksync.Īs for which CPU is overall better that is a separate argument. ![]() ![]() Most creative suites support both, but 1 program cannot use both at the same time on 1 task. So between an Intel CPU and an NVIDIA GPU you end up with hardware acceleration either way. If an NVIDIA GPU it will also have NVENC which is like quicksync but in the GPU. ![]() You'll have a GPU that in some video editing suites can accelerate some tasks. If going Intel with iGFX you also gain Intel quicksync, hardware accelerated video encoding. The CPU, regardless of brand will have processing power you can apply to your work. ![]()
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