Will Intel Kaby Lake bring the strongest 14nm chip?

Last year, desktop chip giant Intel released its highly influential Skylake micro-architecture processor. Although it is the second year of the 14-nanometer process, it has become more mature and more suitable for high-performance desktop platforms. It is commendable that Intel is no longer just advocating how low-end Core processors for laptops or tablets are, but has returned to the familiar desktop field.
For this reason, Intel took a long time to show two special processors Core i5-6600K and Core i7-6700K, which are mainly positioned for gaming PCs. At the time, according to Intel CEO Brian Krzanich, the gaming market “still maintained double-digit growth.”
According to recent rumors, although Intel was the first to display the Kaby Lake chip for notebook computers at the IDF 2016 Developer Technical Information Summit, Intel is still very concerned about the gaming PC field, and the Kaby Lake desktop processor for this market segment is related Details have been released.
Fixed frequency boost
The Core i5-6600K processor of the previous generation Skylake architecture has a base frequency of 3.5GHz and the maximum turbo acceleration can reach 3.9GHz. The highest-end Core i7-6700K has a higher base frequency of 4GHz, and the Turbo frequency can reach a maximum speed of 4.2GHz.
Needless to say, the current generation Core i7-6700K processor is indeed more powerful than the previous generation 22 nm Core i7-4790. You may think it is because of the higher frequency (after all, new chips tend to be higher frequency than the old generation) . However, it is worth noting that the base frequency and core frequency of the Core i7-4790K are 4.2GHz and 4.4GHz, which are slightly higher than the Core i7-6700K.
The leaked Core i7-7700K, the latest processor based on the Kaby Lake architecture, has increased the base frequency to 4.2GHz and the highest Turbo Boost speed to 4.5GHz. This means that if the performance provided by each frequency does not change, higher frequencies should improve performance by at least 5%.
In addition, the frequency of 4.5GH is only the result of the maximum core frequency acceleration of a single core. If Intel is providing superior superpower capabilities than the previous generation, its performance space can be imagined. After all, overclocking is a great pleasure for gamers and enthusiasts. They often overclock for high-end processing (beyond the maximum core frequency), and then use the radiator to ensure long-term stability.
Second-generation 14-nanometer process
Intel’s official display at IDC 2016 is not much, but when it comes to performance, it mentioned that Kaby Lake processors will be “the highest performance product ever”, claiming that it will bring a second-generation 14-nanometer process to the desktop platform Process “14nm +”. According to Intel, the latest second-generation 14-nanometer process can improve performance by about 12% compared to the first generation.
In other words, if a more complete second-generation 14nm process is combined with the frequency boost mentioned above, it is possible that the strongest Kaby Lake processor can really bring about a small improvement, at least 15% to 25 %. Of course, the specifics still need to be tested by the players themselves after getting new products.
In any case, Kaby Lake looks like the ultimate winner, not only the improvement of the underlying architecture of Kaby Lake, but also the increase in frequency and the second-generation 14-nanometer process, which is not inferior to the Skylake platform. I believe that for those who are eager for performance but have not yet started the Core i7-6700K, Kaby Lake may be the first choice without hesitation.https://www.energyitshop.com

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