Intel introduced its 6th-generation "Skylake" CPUs on Wednesday, but for most consumers it's just a dream.
At Gamescom in Germany, Intel unveiled two new 14nm desktop Skylake CPUs aimed at PC enthusiasts and gamers. Expectations are running high for Skylake, which is a "tock" in Intel's processor roadmap. For years Intel has worked on a "tick, tock" cadence for CPUs: Ticks are used to introduce new process changes and bring fairly conservative improvements, while the follow-on tocks are expected to bring a performance boost.
The two Skylake CPUs include the 4GHz Core i7-6700K and the Core i5-6600K. Both are quad-core, desktop chips, with the key differentiator being support for Intel's virtual CPU Hyper-Threading technology.
While unattributed reports earlier this year had performance differences between the 6th-gen Skylake and the 5th-gen Haswell wildly high, Intel officials say to expect 10 percent over last year's fastest Haswell CPU, 20 percent over the fastest Haswell from two years ago, and up to 30 pecent over the fastest 3rd-generation Ivy Bridge chip. Graphics performance differences between the new Intel HD 530 and previous chips would be from 20 percent to 40 percent.
Why this matters: After the too-little, too-late launch of the desktop 5th-gen Broadwell CPU in June, many see Intel's Skylake as the true replacement for its Haswell series of CPUs. Our own reviews of Skylake confirm most of Intel's claims, with a decent 10 percent step-up over the fastest Haswell chip on compute tasks, and far more sizeable increases in graphics.
Time for a new socket
Skylake desktop CPUs use a newer LGA1151 socket that is incompatible with older LGA150 sockets. That means systems using Skylake will require different motherboards, but that may not be a bad thing for those into moving forward.
Along with the new CPUs, Intel is also unveiling the much-needed 100-series chipset that includes key improvements to all PCs. The previous 9-series chipsets were often handcuffed by a lack of internal bandwidth within the chipset itself.
If you think of a computer as a small city with congested roads, mainstream PCs have been clogged for years when a lot of hardware is installed. Getting data to multiple USB 3.0 drives, SATA drives, SATA Express and hard drives would easily overtax a PC's available bandwidth.
For example, SATA Express as implemented in the Z97 and other 9-series chipsets was limited to 10Gbps transfer speeds by design. That has been a non-starter for high-end drives, which easily exceeded that bandwidth. With the additional bandwidth on Z170, SATA Express can be now hit 16Gbps connections speeds, making it more appealing.
The new Z170 chipset doubles the internal bandwidth by going from a x4 PCIe 2.0 connection to a x4 PCIe 3.0 connection, and also now offering up to 20 PCIe Gen 3 lanes in the chipset itself. The top-end Z97 chipset, for example, offered 8 PCI Gen 2 lanes.
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