World Library  
Flag as Inappropriate
Email this Article

Skylake (microarchitecture)

Article Id: WHEBN0031555577
Reproduction Date:

Title: Skylake (microarchitecture)  
Author: World Heritage Encyclopedia
Language: English
Subject: Haswell (microarchitecture), List of Intel Pentium microprocessors, Platform Controller Hub, Bonnell (microarchitecture), List of Intel Core i3 microprocessors
Publisher: World Heritage Encyclopedia

Skylake (microarchitecture)

L1 cache 128 KB per core
L2 cache 512 KB per core
L3 cache Up to 12 MB
Predecessor Haswell (tock)
Broadwell (tick)
Successor Cannonlake (tick)

Skylake is the codename used by Intel for a processor microarchitecture under development and due to launch in 2015 as the successor to the Broadwell architecture.[1] In accordance with Intel's tick-tock principle, Skylake will initially be released in a 14 nm manufacturing process;[2] as a "tock" step in the tick-tock release cycle, Skylake should be completely redesigned, bringing greater CPU and GPU performance, and reduced power consumption. Manufacturing process is expected to make a transition to 10 nm around a year later; the 10 nm die shrink version has been announced to be named "Cannonlake".

Skylake's release to market is expected to be unusually soon after that of Broadwell itself. While industry observers initially believed that the issues impacting Broadwell would also affect Skylake, newer information suggests that Intel will be seeking to recover by maintaining the traditional "tick-tock" cadence for Skylake and shortening Broadwell's release cycle instead.[3]


Like its predecessor, Broadwell, Skylake is initially expected to come in four variants, identified by the suffixes "S" (SKL-S), "H" (SKL-H), "U" (SKL-U), and "Y" (SKL-Y). An unlocked overclockable "K" variant is expected to follow,[4] but the initial release of Skylake processors will be models that have locked clock multipliers.[5]

The H, U and Y variants will be manufactured in ball grid array (BGA) packaging, while the S variant will be manufactured in land grid array (LGA) packaging using a new socket, LGA 1151.[6] Skylake will be used in conjunction with Intel 100 Series chipsets, also known as Sunrise Point.[7]

The major expected changes between the Haswell and Skylake architectures include the abandonment and removal of the fully integrated voltage regulator (FIVR) introduced with Haswell,[8] and the integration of the Platform Controller Hub (PCH) onto the die for Skylake's H, U and Y variants, effectively following a system-on-chip (SoC) design layout. The S variant will remain a two-chip design. On the variants that will use the PCH, Direct Media Interface (DMI) 2.0 will be replaced by DMI 3.0, which promises speeds of up to 8 GT/s.

Skylake's U and Y variants will support one DIMM slot per channel (of type LPDDR3 only, for the models announced as of June 2014), while H and S variants will support two DIMM slots per channel.[6] Skylake's launch and sales lifespan occur at the same time as the ongoing SDRAM market transition related to a dropoff in the DDR3 SDRAM memory as it gradually becomes replaced by the DDR4 memory. Rather than working exclusively with DDR4, the Skylake microarchitecture is expected to remain backward compatible by interoperating with both types of memory. Accompanying the microarchitecture's support for both memory standards, a new SO-DIMM type capable of carrying either DDR3 or DDR4 memory chips, called UniDIMM, was also announced.[9]

Other expected enhancements include PCI Express 4.0 support on the "-E" (extreme) version (for which the release is expected in 2016), Thunderbolt 3.0, SATA Express, Iris Pro graphics with feature level 12.0 as the norm, and four cores as the default, with up to 128 MB of L4 eDRAM cache on certain SKUs. The Skylake line of processors is expected to retire VGA support, while supporting up to five monitors connected via HDMI, DisplayPort or Embedded DisplayPort (eDP) interfaces.[10]

Instruction set enhancements are also expected with most microarchitecture releases; the Skylake instruction set changes include Advanced Vector Extensions 3.2 ("AVX-512F"), Intel SHA Extensions (for SHA-1 and SHA-256 Secure Hash Algorithms), Intel MPX (Memory Protection Extensions), and Intel ADX (Multi-Precision Add-Carry Instruction Extensions).

Intel also announced that the Skylake-based laptops will be using wireless technology called Rezence for charging, and other wireless technologies for communication with peripherals.[11] All major PC vendors have agreed to use this technology in Skylake-based laptops, which should be released by the end of 2015.[12]



Multiple combinations of integrated L4 eDRAM cache will be available with various Skylake configurations. Some of the available models will have configurable thermal design power (cTDP); for example, Skylake-S (SKL-S) processors will be available in two TDP variants, one around 35 W and the other around 65 W. Skylake-S processors will also have support for both DDR3 and DDR4 SDRAM.[6]

The following table details the announced Skylake configurations, as of June 2014:[6]

Variant Cores Graphics Memory eDRAM TDP
SKL-Y-1 2 GT2 LPDDR3 1600 MHz N/A 4 W
SKL-U-1 2 GT2 LPDDR3 1600 MHz N/A 15 W
SKL-U-2 2 GT3e LPDDR3 1600 MHz 64 MB 28 W
SKL-H-1 4 GT2 DDR4 2133 MHz N/A 35 W
SKL-H-2 4 GT4e DDR4 2133 MHz 128 MB 45 W
SKL-S-1 2 GT2 DDR4 2133 MHz or DDR3L/DDR3L-RS 1600 MHz N/A 35–65 W
SKL-S-2 4 GT2 DDR4 2133 MHz or DDR3L/DDR3L-RS 1600 MHz N/A 95 W
SKL-S-3 4 GT4e DDR4 2133 MHz or DDR3L/DDR3L-RS 1600 MHz 64 MB 35–65 W


In September 2014 Intel, announced Skylake microarchitecture at the Intel Developer Forum in San Francisco. Intel announced that volume shipments of Skylake CPUs are scheduled for the second half of 2015. Also, Skylake development platform is announced to be available in H1 2015. During the announcement, Intel also demonstrated two computers with desktop and mobile Skylake prototypes; the first one was a testbed system, running the latest version of 3DMark, while the second computer was a laptop, playing 4K video.[23]

Release timing

An unusual feature of Skylake's release timing is that it follows very closely on the release of its predecessor, Broadwell, which had suffered from launch delays.[24] Intel commented in 2014 that moving from 22 nm (Haswell) to 14 nm (Broadwell) had been "their most difficult process to develop yet", causing Broadwell's planned launch to slip by several months;[25] yet, the 14 nm production was back on track and in full production as of Q3 2014.[26] Industry observers had initially believed that the issues impacting Broadwell would also cause Skylake to slip to 2016, but newer information suggests that Intel would seek to recover from these delays by bringing forward Skylake's release and shortening Broadwell's release cycle instead.[3][27]

Accordingly, it is believed that Broadwell will have an unusually short run, although unlocked multiplier versions of Broadwell ("K" SKUs) are still expected to be released in parallel with Skylake in 2015.[3][4] (Extreme or unlocked versions of a number of Ivy Bridge and Haswell variants had previously also been released with staged timing and in parallel with their successors' initial release).

See also


  1. ^ Demerjian, Charlie. "After Intel's Haswell comes Broadwell". Retrieved 2012-01-04. 
  2. ^ "Intel Presentation: 22nm Details" (PDF). Retrieved 2012-01-04. 
  3. ^ a b c "Intel’s 14nm puzzle: As Skylake details leak, everybody asks – is the chip coming in 2015 or not? - ExtremeTech". ExtremeTech. Retrieved 17 October 2014. 
  4. ^ a b "Intel Announcing Broadwell SKUs in CES 2015". WCCFtech. Retrieved 17 October 2014. 
  5. ^ Shvets, Gennadiy (2014-05-25). "Intel Skylake desktop CPUs to launch in Q2 2015". Cpu-World. Retrieved 2014-05-25. 
  6. ^ a b c d Pirzada, Syed Muhammad Usman (27 June 2014). "Massive Intel 14nm Skylake Leak – Multiple eDRAM Configurations and Desktop Variant to have Configurable TDP". WCCFTech. WCCFTech Prvt. Ltd. Retrieved 28 June 2014. 
  7. ^ "Intel Core "Skylake" CPUs Accompanied by 100-series Chipset". techPowerUp. Retrieved 2014-05-08. 
  8. ^ Pirzada, Syed Muhammad Usman (5 June 2014). "Intel to Abandon the Internal Voltage Regulator (IVR) with Skylake Microarchitecture". WCCFTech. WCCFTech Prvt. Ltd. Retrieved 28 June 2014. 
  9. ^ "How Intel Plans to Transition Between DDR3 and DDR4 for the Mainstream". September 14, 2014. Retrieved November 19, 2014. 
  10. ^ "[Phoronix] Intel Publishes Initial Skylake Linux Graphics Support". 
  11. ^ "Wire-free PCs, tablets and phones coming in 2015 says Intel". ZDNet. 10 September 2014. 
  12. ^ "Wire-free PCs, tablets and phones coming in 2015 says Intel". ZDNet. 10 September 2014. 
  13. ^ "Intel's Cannonlake 10nm Microarchitecture is Due For 2016 - Compatible On Union Bay With Union Point PCH". 2014-06-06. Retrieved 2014-06-15. 
  14. ^ "Intel 14nm Skylake Desktop 'Sky Bay" Platform Detailed - TDPs For DT, H-Series, U-Series, Y-Series Unveiled, Quad Core With GT4e GPU Has 95W TDP". 2014-06-05. Retrieved 2014-06-09. 
  15. ^ a b "Intel Skylake Processors To Launch in 2H 2015 - Compatible With LGA 1151 Socket and Z170 Chipset, Will Feature DDR3 / DDR4 Memory Support". 2014-06-04. Retrieved 2014-06-09. 
  16. ^ Shilov, Anton (2012-04-04). "Intel to Start DDR4 Usage with Server Platforms in 2014.". X-bit laboratories. Retrieved 2013-10-05. 
  17. ^ "Intel Skylake Could Feature Dual DDR3/DDR4 Memory Support with Double IMCs". 2014-09-14. Retrieved 2014-11-20. 
  18. ^ a b Iyer, Tarun (2013-07-03). "Report: Intel Skylake to Have PCIe 4.0, DDR4, SATA Express". Tom's Hardware. Retrieved 2013-10-05. 
  19. ^ Reynolds, Sam (2013-11-07). "New details on Intel's upcoming Skylake processor". Retrieved 2014-05-08. 
  20. ^ Kirsch, Nathan. "Intel 2015 Platform Roadmap Shows Skylake CPUs, 100 Series Chipset and DDR4". Legit Reviews. Retrieved 2014-05-08. 
  21. ^ "AVX-512 instructions". 
  22. ^ "IDF 2014: Skylake-Prozessorgrafik wird erste echte Direct-X-12-Hardware". PC GAMES HARDWARE ONLINE. 10 September 2014. Retrieved 17 October 2014. 
  23. ^ "Intel announces Skylake microarchitecture". 
  24. ^ "Intel Corporation Launching Broadwell, Skylake Chips Back to Back". ValueWalk. Retrieved 17 October 2014. 
  25. ^ Ryan Smith. "AnandTech - Intel’s 14nm Technology in Detail". 
  26. ^ "Intel Broadwell and Skylake client CPUs both launching in 2015". 
  27. ^ Piyush Arora (15 October 2014). "Intel: Skylake Development Appears To Be On Schedule". 
This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.

Copyright © World Library Foundation. All rights reserved. eBooks from Project Gutenberg are sponsored by the World Library Foundation,
a 501c(4) Member's Support Non-Profit Organization, and is NOT affiliated with any governmental agency or department.