Skylake (microarchitecture)

Skylake[6][7] is the codename used by Intel for a processor microarchitecture that was launched in August 2015[8] succeeding the Broadwell microarchitecture.[9] Skylake is a microarchitecture redesign using the same 14 nm manufacturing process technology[10] as its predecessor, serving as a "tock" in Intel's "tick–tock" manufacturing and design model. According to Intel, the redesign brings greater CPU and GPU performance and reduced power consumption. Skylake CPUs share their microarchitecture with Kaby Lake, Coffee Lake, Cannon Lake, Whiskey Lake, Comet Lake and Rocket Lake CPUs.

Skylake
General Info
LaunchedAugust 5, 2015 (August 5, 2015)
DiscontinuedMarch 4, 2019 (desktop processors)
CPUID code0406e3h, 0506e3h
Product code
  • 80662 (mainstream and mobile Xeon E3)
  • 80673 (enthusiast and server)
Performance
Max. CPU clock rateUp to 4.5 GHz
Cache
L1 cache64 KiB per core
L2 cache256 KiB per core
(1 MiB per core for Skylake-X)
L3 cacheUp to 2 MiB per core
(1.375 MiB per core for Skylake-X)
Architecture and classification
ArchitectureSkylake x86
InstructionsMMX, AES-NI, CLMUL, FMA3
Extensions
Physical specifications
Transistors
  • 14 nm bulk silicon 3D transistors (Tri-Gate)
Cores
  • 2–28
Socket(s)
Products, models, variants
Brand name(s)
    • Core i3
    • Core i5
    • Core i7
    • Core i9
    • Core m3
    • Core m5
    • Core m7
    • Xeon
    • Celeron
    • Pentium
History
PredecessorBroadwell (tick/process)
Successor

Skylake is the last Intel platform on which Windows earlier than Windows 10 will be officially supported by Microsoft,[11] although enthusiast-created modifications exist that allow Windows 8.1 and earlier to continue to receive updates on later platforms.[12][13][14]

Some of the processors based on the Skylake microarchitecture are marketed as "6th-generation Core".[15][16][17]

Intel officially declared end of life and discontinued Skylake LGA 1151 CPUs on March 4, 2019.[18]

Development history

Skylake's development, as with processors such as Banias, Dothan, Conroe, Sandy Bridge and Ivy Bridge, was primarily undertaken by Intel Israel[19] at its engineering research center in Haifa, Israel. The Haifa development team worked on the project for four years, and faced many challenges: "But by re-writing the microarchitecture and developing new concepts such as the Speed Shift Technology, we created a processor for 4.5 W to 45 W mobile devices, and up to 91 W for desktop devices."[20] The Skylake processors are used to power a wide range of devices, from fanless laptops, all the way to desktops.[21] "Because of Skylake's features, companies will be able to release laptop PCs that are half as thick and half as heavy as those from five years ago," according to Intel.[22]

In September 2014, Intel announced the Skylake microarchitecture at the Intel Developer Forum in San Francisco, and that volume shipments of Skylake CPUs were scheduled for the second half of 2015. Also, the Skylake development platform was announced to be available in Q1 2015. During the announcement, Intel also demonstrated two computers with desktop and mobile Skylake prototypes: the first was a desktop testbed system, running the latest version of 3DMark, while the second computer was a fully functional laptop, playing 4K video.[23]

An initial batch of Skylake CPU models (6600K and 6700K) was announced for immediate availability during the Gamescom on August 5, 2015,[24] unusually soon after the release of its predecessor, Broadwell, which had suffered from launch delays.[25] Intel acknowledged in 2014 that moving from 22 nm (Haswell) to 14 nm (Broadwell) had been its most difficult process to develop yet, causing Broadwell's planned launch to slip by several months;[26] yet, the 14 nm production was back on track and in full production as of Q3 2014.[27] Industry observers had initially believed that the issues affecting Broadwell would also cause Skylake to slip to 2016, but Intel was able to bring forward Skylake's release and shorten Broadwell's release cycle instead.[28][29] As a result, the Broadwell architecture had an unusually short run.[28]

Overclocking of unsupported processors

Officially Intel supported overclocking of only the "K" and "X" versions of Skylake processors. However, it was later discovered that other "non-K" chips could be overclocked by modifying the base clock value – a process made feasible by the base clock applying only to the CPU, RAM, and integrated graphics on Skylake. Through beta UEFI firmware updates, some motherboard vendors, such as ASRock (which prominently promoted it under the name "Sky OC") allowed the base clock to be modified in this manner.[30][31]

In February 2016, however, an ASRock firmware update removed the feature. On February 9, 2016, Intel announced that it would no longer allow such overclocking of non-K processors, and that it had issued a CPU microcode update that removes the function.[32][33][34] In April 2016, ASRock started selling motherboards that allow overclocking of unsupported CPUs using an external clock generator.[35][36]

Operating system support

In January 2016, Microsoft announced that it would end support of Windows 7 and Windows 8.1 on Skylake processors effective July 17, 2017; after this date, only the "most critical" updates for the two operating systems would be released for Skylake users if they have been judged not to affect the reliability of the OS on older hardware, and Windows 10 would be the only Microsoft Windows platform officially supported on Skylake, as well as all future Intel CPU microarchitectures beginning with Skylake's successor Kaby Lake. Terry Myerson stated that Microsoft had to make a "large investment" in order to reliably support Skylake on older versions of Windows, and that future generations of processors would require further investments. Microsoft also stated that due to the age of the platform, it would be "challenging" for newer hardware, firmware, and device driver combinations to properly run under Windows 7.[37][38]

On March 18, 2016, in response to criticism over the move, primarily from enterprise customers, Microsoft announced revisions to the support policy, changing the cutoff for support and non-critical updates to July 17, 2018 and stating that Skylake users would receive all critical security updates for Windows 7 and 8.1 through the end of extended support.[39][40] In August 2016, citing a "strong partnership with our OEM partners and Intel", Microsoft stated that it would continue to fully support 7 and 8.1 on Skylake through the end of their respective lifecycles.[41][42] In addition, an enthusiast-created modification was released that disabled the Windows Update check and allowed Windows 8.1 and earlier to continue to be updated on this and later platforms.[43]

As of Linux kernel 4.10, Skylake mobile power management is in reasonably good shape with most Package C states supported seeing some use. If this is not the case, then the cause is likely bugs in the system firmware of the particular computer, which might be resolved by updating the BIOS. The user can easily optimize power management beyond the Linux default settings with the PowerTOP utility; for those who use Lennart Poettering's systemd, PowerTOP provides a service which will start up with the computer and auto-tune various settings to reduce power usage.[44] Linux 4.11 enables Frame-Buffer Compression for the integrated graphics chipset by default, which lowers power consumption.[45] Battery runtime should be similar to Windows 10 and possibly better, but further improvements can still be made.

Skylake is fully supported on OpenBSD 6.2 and later, including accelerated graphics.[46]

Features

Skylake i7-6700K: Top view
Skylake i7-6700K: Bottom view

Like its predecessor, Broadwell, Skylake is available in five variants, identified by the suffixes "S" (SKL-S), "X" (SKL-X), "H" (SKL-H), "U" (SKL-U), and "Y" (SKL-Y). SKL-S and SKL-X contain overclockable "K" and "X" variants with unlocked multipliers.[47] The H, U and Y variants are manufactured in ball grid array (BGA) packaging, while the S and X variants are manufactured in land grid array (LGA) packaging using a new socket, LGA 1151 (LGA 2066 for Skylake X).[48] Skylake is used in conjunction with Intel 100 Series chipsets, also known as Sunrise Point.[49]

The major changes between the Haswell and Skylake architectures include the removal of the fully integrated voltage regulator (FIVR) introduced with Haswell.[50] On the variants that will use a discrete Platform Controller Hub (PCH), Direct Media Interface (DMI) 2.0 is replaced by DMI 3.0, which allows speeds of up to 8 GT/s.

Skylake's U and Y variants support one DIMM slot per channel, while H and S variants support two DIMM slots per channel.[48] Skylake's launch and sales lifespan occur at the same time as the ongoing SDRAM market transition, with DDR3 SDRAM memory gradually being replaced by DDR4 memory. Rather than working exclusively with DDR4, the Skylake microarchitecture remains 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.[51]

Skylake's few P variants have a reduced on-die graphics unit (12 execution units enabled instead of 24 execution units) over their direct counterparts; see the table below. In contrast, with Ivy Bridge CPUs the P suffix was used for CPUs with completely disabled on-die video chipset.

Other enhancements include Thunderbolt 3.0, SATA Express, Iris Pro graphics with Direct3D feature level 12_1 with up to 128 MB of L4 eDRAM cache on certain SKUs.[52] The Skylake line of processors retires VGA support,[53] while supporting up to five monitors connected via HDMI 1.4, DisplayPort 1.2 or Embedded DisplayPort (eDP) interfaces.[54] HDMI 2.0 (4K@60 Hz) is only supported on motherboards equipped with Intel's Alpine Ridge Thunderbolt controller.[55]

The Skylake instruction set changes include Intel MPX (Memory Protection Extensions) and Intel SGX (Software Guard Extensions). Future Xeon variants will also have Advanced Vector Extensions 3.2 ("AVX-512F").[2][3]

Skylake-based laptops were predicted to use wireless technology called Rezence for charging, and other wireless technologies for communication with peripherals. Many major PC vendors agreed to use this technology in Skylake-based laptops; however, no laptops were released with the technology as of 2019.[56][57]

The integrated GPU of Skylake's S variant supports on Windows DirectX 12 Feature Level 12_1, OpenGL 4.6 with latest Windows 10 driver update[58] (OpenGL 4.5 on Linux[59]) and OpenCL 2.0 standards, as well as some modern hardware video encoding/decoding formats such as VP9 (GPU accelerated decode only), VP8 and HEVC (hardware accelerated 8-bit encode/decode and GPU accelerated 10-bit decode).[60][61]

Intel also released unlocked (capable of overclocking) mobile Skylake CPUs.[62]

Unlike previous generations, Skylake-based Xeon E3 no longer works with a desktop chipset that supports the same socket, and requires either the C232 or the C236 chipset to operate.

Known issues

Short loops with a specific combination of instruction use may cause unpredictable system behavior on CPUs with hyperthreading. A microcode update was issued to fix the issue.[63]

Skylake is vulnerable to Spectre attacks.[64] In fact, it is more vulnerable than other processors because it uses indirect branch speculation not just on indirect branches but also when the return prediction stack underflows.

The latency for the spinlock PAUSE instruction has been increased dramatically (from the usual 10 cycles to 141 cycles in Skylake), which can cause performance issues with older programs or libraries using pause instructions.[65] Intel documents the increased latency as a feature that improves power efficiency.[66]

Architecture

  • Improved front-end, deeper out-of-order buffers, improved execution units, more execution units (third vector integer ALU(VALU)) for five ALUs in total, more load/store bandwidth, improved hyper-threading (wider retirement), speedup of AES-GCM and AES-CBC by 17% and 33% accordingly.[67][68]
  • 14 nm manufacturing process[69]
  • LGA 1151 socket for mainstream desktop processors and LGA 2066 socket for enthusiast gaming/workstation "X-series" processors
  • 100-series chipset (Sunrise Point)[70]
  • "X"-series uses X299-series chipset
  • Thermal design power (TDP) up to 95 W (LGA 1151); up to 165 W (LGA 2066)[71]
  • Support for both DDR3L SDRAM and DDR4 SDRAM in mainstream variants, using custom UniDIMM SO-DIMM form factor[72][73][74] with up to 64 GB of RAM on LGA 1151 variants. Usual DDR3 memory is also supported by certain motherboard vendors even though Intel doesn't officially support it.[75][76]
  • Support for 16 PCI Express 3.0 lanes from CPU, 20 PCI Express 3.0 lanes from PCH (LGA 1151), 44 PCI Express 3.0 lanes for Skylake-X
  • Support for Thunderbolt 3 (Alpine Ridge)[77]
  • 64 to 128 MB L4 eDRAM cache on certain SKUs
  • Up to four cores as the default mainstream configuration[72] and up to 18 cores for X-series
  • AVX-512: F, CD, VL, BW, and DQ for some future Xeon variants, but not Xeon E3[2]
  • Intel MPX (Memory Protection Extensions)
  • Intel SGX (Software Guard Extensions)
  • Intel Speed Shift[78]
  • Skylake's integrated Gen9 GPU supports Direct3D 12 at the feature level 12_1[6][79][80]
  • Full fixed function HEVC Main/8bit encoding/decoding acceleration. Hybrid/Partial HEVC Main10/10bit decoding acceleration. JPEG encoding acceleration for resolutions up to 16,000×16,000 pixels. Partial VP9 encoding/decoding acceleration.[81]
  • L1 cache size unchanged at 32 KB (KiB) instruction and 32 KB (KiB) data cache per core.
  • Enhancements of Intel Processor Trace: fine grained timing through CYC packets (cycle-accurate mode) and support for IP (Instruction Pointer) address filtering.[82]

Configurations

Skylake processors are produced in five main families: Y, U, H, S, and X. Multiple configurations are available within each family:[48]

Feature Family
 Y   U   H  T  S  R  X  EX EP
Integrated L4 cache
Low-power mobile/embedded systems
Socket BGA LGA 1151 LGA 2066 LGA 3647
DDR3L SDRAM
DDR4 SDRAM
128 GB (GiB) of physical RAM
28 to 44 PCIe 3.0 lanes

List of Skylake processor models

Mainstream desktop processors

Common features of the mainstream desktop Skylake CPUs:

  • DMI 3.0 and PCIe 3.0 interfaces
  • Dual channel memory support in the following configurations: DDR3L-1600 1.35 V (32 GiB maximum) or DDR4-2133 1.2 V (64 GiB maximum). DDR3 is unofficially supported through some motherboard vendors[83][84][85]
  • ≥16 PCI-E 3.0 lanes
  • The Core-branded processors support the AVX2 instruction set. The Celeron and Pentium-branded ones support only SSE4.1/4.2
  • 350 MHz base graphics clock rate
Cores
(threads)
Processor
branding and model
CPU
clock
rate
Turbo clock GHz

Num of cores

GPU EUs Max
graphics
clock rate
L2
cache
L3
cache
L4 cache
(eDRAM)
TDP Socket Release
date
Release
price
(USD)
1 2 4
4 (8) Core i7 6700K 4.0 GHz 4.2 4.0 4.0 HD 530 24 1150 MHz [86] 4 ×

256 KB

8 MB N/A 91 W LGA 1151 August 5, 2015 $339
6785R 3.3 GHz 3.9 3.8 3.5 Iris Pro 580 72 128 MB 65 W FCBGA1440 May 3, 2016 $370
6700 3.4 GHz 4.0 3.9 3.7 HD 530 24 N/A LGA 1151 September 1, 2015 $303
6700T 2.8 GHz 3.6 3.5 3.4 35 W $303
4 (4) Core i5 6600K 3.5 GHz 3.9 3.8 3.6 6 MB 91 W August 5, 2015 $242
6685R 3.2 GHz 3.8 3.7 3.3 Iris Pro 580 72 128 MB 65 W FCBGA1440 May 3, 2016 $288
6600 3.3 GHz 3.9 3.8 3.6 HD 530 24 N/A LGA 1151 September 1, 2015 $213
6585R 2.8 GHz 3.6 3.5 3.1 Iris Pro 580 72 1100 MHz 128 MB FCBGA1440 May 3, 2016 $255
6500 3.2 GHz 3.3 HD 530 24 1050 MHz N/A LGA 1151 September 1, 2015 $192
6600T 2.7 GHz 3.5 3.4 3.3 1100 MHz 35 W Q3 2015 $213
6500T 2.5 GHz 3.1 3.0 2.8 $192
6402P 2.8 GHz 3.4 3.4 3.2 HD 510 12 0950 MHz 65 W December 27, 2015 $182
6400T 2.2 GHz 2.8 2.7 2.5 HD 530 24 35 W Q3 2015
6400 2.7 GHz 3.3 3.3 3.1 65 W August 5, 2015
2 (4) Core i3 6320 3.9 GHz N/A 1150 MHz 2 ×

256 KB

4 MB 51 W Q3 2015 $149
6300 3.8 GHz $138
6100 3.7 GHz 1050 MHz 3 MB October 2015 $117
6300T 3.3 GHz 0950 MHz 4 MB 35 W $138
6100T 3.2 GHz 3 MB $117
6098P 3.6 GHz HD 510 12 1050 MHz 54 W December 27, 2015
2 (2) Pentium G4520 3.6 GHz HD 530 24 51 W October 2015 $86
G4500 3.5 GHz $75
G4500T 3.0 GHz 0950 MHz 35 W Q3 2015
G4400 3.3 GHz HD 510 12 1000 MHz 54 W October 2015 $64
G4400T 2.9 GHz 0950 MHz 35 W Q3 2015
G4400TE 2.4 GHz Q4 2015 $70
Celeron G3920 2.9 GHz 2 MB 51 W $52
G3900 2.8 GHz $42
G3900TE 2.3 GHz 35 W
G3900T 2.6 GHz

High-end desktop processors (Skylake-X)

Common features of the high performance Skylake-X CPUs:

  • Quad channel memory support for DDR4-2400 (on the i7-7800X) or DDR4-2666 (on all other CPUs)[87] up to 128 GiB
  • 28 (for the i7-7800X and i7-7820X) to 44 (for all other CPUs) PCI-E 3.0 lanes
  • In addition to the AVX2 instruction set, they also support the AVX-512 instructions
  • No built-in iGPU (integrated graphics processor)
  • Turbo Boost Max Technology 3.0 for up to 2/4 threads workloads for CPUs that have 8 cores and more (7820X, 7900X, 7920X, 7940X, 7960X, 7980XE, and all 9th generation chips)[88]
  • A different cache hierarchy (in comparison to mainstream Skylake CPUs)
7th generation Skylake-X high-end desktop CPUs
Cores
(threads)
Processor
branding and model
CPU
clock
rate
Turbo clock GHz L2
cache
L3
cache
TDP Socket Release
date
Release
price
(USD)
TB 2.0 TB Max 3.0
18 (36) Core i9 [89] 7980XE 2.6 GHz 4.2 4.4 1 MB
per
core
1 MB
per
core
165 W LGA 2066 September 25,
2017[90]
$1999
16 (32) 7960X 2.8 GHz $1699
14 (28) 7940X 3.1 GHz 4.3 $1399
12 (24) 7920X 2.9 GHz 140 W August 28, 2017 $1189
10 (20) 7900X 3.3 GHz 4.5 June 19, 2017 $999
8 (16) Core i7 7820X 3.6 GHz $599
6 (12) 7800X 3.5 GHz 4.0 N/A $389
9th generation Skylake-X high-end desktop CPUs
Cores
(threads)
Processor
branding and model
CPU
clock
rate
Turbo clock GHz L2
cache
L3
cache
TDP Socket Release
date
Release
price
(USD)
TB 2.0 TB Max 3.0
14 (28) Core i9 [91] 9990XE[92] 4.0 GHz 5.0 5.0 1 MB
per
core
19.25 MB 255 W LGA 2066 January 3, 2019 OEM only
18 (36) 9980XE 3.0 GHz 4.4 4.5 24.75 MB 165 W October 9, 2018[93] $1979
16 (32) 9960X 3.1 GHz 22 MB $1684
14 (28) 9940X 3.3 GHz 19.25 MB $1387
12 (24) 9920X 3.5 GHz $1189
10 (20) 9900X 3.5 GHz $989
9820X 3.3 GHz 4.1 4.2 16.5 MB $889
8 (16) Core i7 9800X 3.8 GHz[94] 4.4 4.5 $589

Mobile processors

See also "Server, Mobile" below for mobile workstation processors.

Target
segment
Cores
(threads)
Processor
branding and
model
CPU
clock
rate
CPU Turbo clock rate GPU GPU clock rate L3
cache
L4
cache
Max.
PCIe
lanes
TDP cTDP Release date Price (USD)
Single
core
Dual
core
Quad
core
Base Max Up Down
Performance 4 (8) Core i7 6970HQ 2.8 GHz 3.7 GHz ? Iris Pro 580 350 MHz 1050 MHz 8 MB 128 MB 16 45 W N/A 35 W Q1 2016 $623
6920HQ 2.9 GHz 3.8 GHz 3.6 GHz 3.4 GHz HD 530 N/A September 1, 2015 $568
6870HQ 2.7 GHz 3.6 GHz ? Iris Pro 580 1000 MHz 128 MB Q1 2016 $434
6820HQ 3.4 GHz 3.2 GHz HD 530 1050 MHz N/A September 1, 2015 $378
6820HK
6770HQ 2.6 GHz 3.5 GHz ? Iris Pro 580 950 MHz 6 MB 128 MB Q1 2016 $434
6700HQ 3.3 GHz 3.1 GHz HD 530 1050 MHz N/A September 1, 2015 $378
Mainstream 2 (4) 6660U 2.4 GHz 3.4 GHz 3.2 GHz N/A Iris 540 300 MHz 4 MB 64 MB 12 15 W 9.5 W Q1 2016 $415
6650U 2.2 GHz Q3 2015
6600U 2.6 GHz N/A HD 520 N/A 25 W 7.5 W September 1, 2015 $393
6567U 3.3 GHz 3.6 GHz 3.4 GHz Iris 550 1100 MHz 64 MB 28 W N/A 23 W Q3 2015 TBD
6560U 2.2 GHz 3.2 GHz 3.1 GHz Iris 540 1050 MHz 15 W 9.5 W
6500U 2.5 GHz 3.1 GHz 3.0 GHz HD 520 N/A 7.5 W September 1, 2015 $393
4 (4) Core i5 6440HQ 2.6 GHz 3.5 GHz 3.3 GHz 3.1 GHz HD 530 350 MHz 950 MHz 6 MB 16 45 W 35 W $250
2 (4) 6360U 2.0 GHz 3.1 GHz 2.9 GHz N/A Iris 540 300 MHz 1000 MHz 4 MB 64 MB 12 15 W 9.5 W Q3 2015 $304
4 (4) 6350HQ 2.3 GHz 3.2 GHz ? Iris Pro 580 350 MHz 900 MHz 6 MB 128 MB 16 45 W 35 W Q1 2016 $306
6300HQ 3.0 GHz 2.8 GHz HD 530 950 MHz N/A September 1, 2015 $250
2 (4) 6300U 2.4 GHz 3.0 GHz 2.9 GHz N/A HD 520 300 MHz 1000 MHz 3 MB 12 15 W 7.5 W $281
6287U 3.1 GHz 3.5 GHz 3.3 GHz Iris 550 1100 MHz 4 MB 64 MB 28 W 23 W Q3 2015 $304
6267U 2.9 GHz 3.3 GHz 3.1 GHz 1050 MHz 23 W
6260U 1.8 GHz 2.9 GHz 2.7 GHz Iris 540 950 MHz 15 W 9.5 W $304
6200U 2.3 GHz 2.8 GHz HD 520 1000 MHz 3 MB N/A 7.5 W September 1, 2015 $281
Core i3 6167U 2.7 GHz N/A N/A Iris 550 64 MB 28 W 23 W Q3 2015 $304
6157U 2.4 GHz Q3 2016
6100H 2.7 GHz HD 530 350 MHz 900 MHz N/A 35 W N/A September 1, 2015 $225
6100U 2.3 GHz HD 520 300 MHz 1000 MHz 15 W 7.5 W $281
6006U 2.0 GHz 900 MHz N/A November, 2016 $281
Core m7 6Y75 1.2 GHz 3.1 GHz 2.9 GHz HD 515 300 MHz 1000 MHz 4 MB 10 4.5 W 7 W 3.5 W September 1, 2015 $393
Core m5 6Y57 1.1 GHz 2.8 GHz 2.4 GHz 900 MHz $281
6Y54 2.7 GHz
Core m3 6Y30 0.9 GHz 2.2 GHz 2.0 GHz 850 MHz 3.8 W
Pentium 4405U 2.1 GHz N/A N/A HD 510 950 MHz 2 MB 15 W N/A 10 W Q3 2015 $161
4405Y 1.5 GHz HD 515 800 MHz 6 W 4.5 W
2 (2) Celeron G3902E 1.6 GHz N/A HD 510 350 MHz 950 MHz 16 25 W N/A Q1 2016 $107
G3900E 2.4 GHz 35 W
3955U 2.0 GHz 300 MHz 900 MHz 10 15 W 10 W Q4 2015
3855U 1.6 GHz

Workstation processors

Model
number
sSpec
number
Cores
(threads)
Frequency Turbo Boost
all-core/2.0
(/max. 3.0)
L2
cache
L3
cache
TDP Socket I/O bus Memory Release date Part
number(s)
Release
price (USD)
Xeon W-2102
  • SR3LG (U0)
4 (4) 2.9 GHz N/A 4 × 1 MiB 8.25 MiB
120 W
LGA 2066 DMI 3.0 4 × DDR4-2400 August 29, 2017
  • CD8067303532802
$202
Xeon W-2104
  • SR3LH (U0)
4 (4) 3.2 GHz N/A 4 × 1 MiB 8.25 MiB
120 W
LGA 2066 DMI 3.0 4 × DDR4-2400 August 29, 2017
  • CD8067303532903
$255
Xeon W-2123
  • SR3LJ (U0)
4 (8) 3.6 GHz /3.9 GHz 4 × 1 MiB 8.25 MiB
120 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303533002
$294
Xeon W-2125
  • SR3LM (U0)
4 (8) 4 GHz /4.5 GHz 4 × 1 MiB 8.25 MiB
120 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303533303
$444
Xeon W-2133
  • SR3LL (U0)
6 (12) 3.6 GHz /3.9 GHz 6 × 1 MiB 8.25 MiB
140 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303533204
$617
Xeon W-2135
  • SR3LN (U0)
6 (12) 3.7 GHz /4.5 GHz 6 × 1 MiB 8.25 MiB
140 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303533403
$835
Xeon W-2140B 8 (16) 3.2 GHz /4.2 GHz 8 × 1 MiB 11.00 MiB LGA 2066 DMI 3.0 4 × DDR4-2666 December 21, 2017 OEM for Apple[95][96]
Xeon W-2145
  • SR3LQ (U0)
8 (16) 3.7 GHz /4.5 GHz 8 × 1 MiB 11.00 MiB
140 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303533601
$1113
Xeon W-2150B 10 (20) 3 GHz /4.5 GHz 10 × 1 MiB 13.75 MiB LGA 2066 DMI 3.0 4 × DDR4-2666 December 21, 2017 OEM for Apple[95][96]
Xeon W-2155
  • SR3LR (U0)
10 (20) 3.3 GHz /4.5 GHz 10 × 1 MiB 13.75 MiB
140 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303533703
$1440
Xeon W-2170B 14 (28) 2.5 GHz /4.3 GHz 14 × 1 MiB 19.25 MiB LGA 2066 DMI 3.0 4 × DDR4-2666 December 21, 2018 OEM for Apple[95][96]
Xeon W-2175
  • SR3W2 (M0)
14 (28) 2.5 GHz /4.3 GHz 14 × 1 MiB 19.25 MiB
140 W
LGA 2066 DMI 3.0 4 × DDR4-2666 October 15, 2017
  • CD8067303842300
$1947
Xeon W-2191B 18 (36) 2.3 GHz /4.3 GHz 18 × 1 MiB 24.75 MiB LGA 2066 DMI 3.0 4 × DDR4-2666 December 21, 2017 OEM for Apple[95][96]
Xeon W-2195
  • SR3RX (U0)
18 (36) 2.3 GHz /4.3 GHz 18 × 1 MiB 24.75 MiB
140 W
LGA 2066 DMI 3.0 4 × DDR4-2666 August 29, 2017
  • CD8067303805901
$2553

Server processors

E3 series server chips all consist of System Bus 9 GT/s, max. memory bandwidth of 34.1 GB/s dual channel memory. Unlike its predecessor, the Skylake Xeon CPUs require C230 series (C232/C236) or C240 series (C242/C246) chipset to operate, with integrated graphics working only with C236 and C246 chipsets. Mobile counterparts uses CM230 and CM240 series chipsets.

Skylake E3-12xx and E3 15xx v5 SKUs
Target
segment
Cores
(threads)
Processor
branding and model
GPU Clock rate L3
cache
L4
cache
TDP Release
date
Release
price (USD)
tray / box
Motherboard
CPU Graphics Socket Interface Memory
Normal Turbo Normal Turbo
Server 4 (8) Xeon E3 v5 1280v5 N/A 3.7 GHz 4.0 GHz N/A 8 MB N/A 80 W Q4 15 $612 /  LGA
1151
DMI 3
PCIe 3.0

DDR4
2133/1866
or
DDR3L
1333/1600
with ECC
1275v5 HD P530 3.6 GHz 350 MHz 1.15 GHz $339 / 
1270v5 N/A 3.6 GHz N/A $328 / $339
1260Lv5 2.9 GHz 3.9 GHz 45 W $294 / 
1245v5 HD P530 3.5 GHz 350 MHz 1.15 GHz 80 W $284 / 
1240v5 N/A 3.5 GHz N/A $272 / $282
1240Lv5 2.1 GHz 3.2 GHz 25 W $278 / 
1230v5 3.4 GHz 3.8 GHz 80 W $250 / $260
4 (4) 1235Lv5 HD P530 2.0 GHz 3.0 GHz 350 MHz 1.15 GHz 25 W $250 / 
1225v5 3.3 GHz 3.7 GHz 80 W $213 / 
1220v5 N/A 3.0 GHz 3.5 GHz N/A $193 / 
Mobile 4 (8) 1575Mv5 Iris Pro 580 3.0 GHz 3.9 GHz 350 MHz 1.1 GHz 128 MB 45 W Q1 16 $1207 /  BGA
1440

DDR4-2133
LPDDR3-1866
DDR3L-1600
with ECC
1545Mv5 2.9 GHz 3.8 GHz 1.05 GHz $679 / 
1535Mv5 HD P530 N/A Q3 15 $623 / 
1505Mv5 2.8 GHz 3.7 GHz $434 / 
Server/
embedded
1505Lv5 2.0 GHz 2.8 GHz 1.0 GHz 25 W Q4 15 $433 / 

"Skylake-SP" (14 nm) Scalable Performance

  • Xeon Platinum supports up to 8 sockets. Xeon Gold supports up to 4 sockets. Xeon Silver and Bronze support up to 2 sockets.
    • −M: 1536 GiB RAM per socket instead of 768 GiB RAM for non−M SKUs
    • −F: integrated OmniPath fabric
    • −T: High thermal-case and extended reliability
  • Support for up to 12 DIMMs of DDR4 memory per CPU socket.
  • Xeon Platinum, Gold 61XX, and Gold 5122 have two AVX-512 FMA units per core. Xeon Gold 51XX (except 5122), Silver, and Bronze have a single AVX-512 FMA unit per core.

Xeon Bronze and Silver (dual processor)

  • Xeon Bronze 31XX has no HT or Turbo Boost support.
  • Xeon Bronze 31XX supports DDR4-2133 MHz RAM. Xeon Silver 41XX supports DDR4-2400 MHz RAM.
  • Xeon Bronze 31XX and Xeon Silver 41XX support two UPI links at 9.6 GT/s.
Model
number
sSpec
number
Cores
(threads)
Frequency Turbo Boost
all-core/2.0
(/max. 3.0)
L2
cache
L3
cache
TDP Socket I/O bus Memory Release date Part
number(s)
Release
price (USD)
Xeon Bronze 3104
  • SR3GM (U0)
6 (6) 1.7 GHz N/A 6 × 1 MiB 8.25 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2133 11 July 2017
  • CD8067303562000
  • BX806733104
$223
$213
Xeon Bronze 3106
  • SR3GL (U0)
8 (8) 1.7 GHz N/A 8 × 1 MiB 11.00 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2133 11 July 2017
  • CD8067303561900
  • BX806733106
$306
$316
Xeon Silver 4108
  • SR3GJ (U0)
8 (16) 1.8 GHz 2.1/3.0 GHz 8 × 1 MiB 11.00 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303561500
  • BX806734108
$417
$427
Xeon Silver 4109T
  • SR3GP (U0)
8 (16) 2 GHz 2.3/3.0 GHz 8 × 1 MiB 11.00 MiB
70 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303562200
$501
Xeon Silver 4110
  • SR3GH (U0)
8 (16) 2.1 GHz 2.4/3.0 GHz 8 × 1 MiB 11.00 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303561400
  • BX806734110
$501
$511
Xeon Silver 4112
  • SR3GN (U0)
4 (8) 2.6 GHz 2.9/3.0 GHz 4 × 1 MiB 8.25 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303562100
  • BX806734112
$473
$483
Xeon Silver 4114
  • SR3GK (U0)
10 (20) 2.2 GHz 2.5/3.0 GHz 10 × 1 MiB 13.75 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303561800
  • BX806734114
$694
$704
Xeon Silver 4114T
  • SR3MM (U0)
10 (20) 2.2 GHz 2.5/3.0 GHz 10 × 1 MiB 13.75 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 Q3 2017
  • CD8067303645300
$773
Xeon Silver 4116
  • SR3HQ (M0)
12 (24) 2.1 GHz 2.4/3.0 GHz 12 × 1 MiB 16.50 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303567200
  • BX806734116
$1002
$1012
Xeon Silver 4116T
  • SR3MQ (U0)
12 (24) 2.1 GHz 2.4/3.0 GHz 12 × 1 MiB 16.50 MiB
85 W
LGA 3647 2 × 9.6 GT/s UPI 6 × DDR4-2400 Q3 2017
  • CD8067303645400
$1112

Xeon Gold (quad processor)

  • Xeon Gold 51XX and F SKUs has two UPIs at 10.4 GT/s. Xeon Gold 61XX has three UPIs at 10.4 GT/s.
  • Xeon Gold 51XX support DDR4-2400 MHz RAM (except 5122). Xeon Gold 5122 and 61XX support DDR4-2666 MHz RAM.
Model
number
sSpec
number
Cores
(threads)
Frequency Turbo Boost
all-core/2.0
(/max. 3.0)
L2
cache
L3
cache
TDP Socket I/O bus Memory Release date Part
number(s)
Release
price (USD)
Xeon Gold 5115
  • SR3GB (M0)
10 (20) 2.4 GHz 2.8/3.2GHz 10 × 1 MiB 13.75 MiB
85 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303535601
$1221
Xeon Gold 5117 14 (28) 2 GHz 2.3/2.8GHz 14 × 1 MiB 19.25 MiB
105 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
Xeon Gold 5117F 14 (28) 2 GHz 2.3/2.8GHz 14 × 1 MiB 19.25 MiB
113 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
Xeon Gold 5118
  • SR3GF (M0)
12 (24) 2.3 GHz 2.7/3.2GHz 12 × 1 MiB 16.50 MiB
105 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303536100
$1273
Xeon Gold 5119T
  • SR3MN (M0)
14 (28) 1.9 GHz 2.3/3.2GHz 14 × 1 MiB 19.25 MiB
85 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303567703
$1555
Xeon Gold 5120
  • SR3GD (M0)
14 (28) 2.2 GHz 2.6/3.2GHz 14 × 1 MiB 19.25 MiB
105 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303535900
  • BX806735120
$1555
$1561
Xeon Gold 5120T
  • SR3GC (M0)
14 (28) 2.2 GHz 2.6/3.2GHz 14 × 1 MiB 19.25 MiB
105 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2400 11 July 2017
  • CD8067303535700
$1727
Xeon Gold 5122
  • SR3AT (H0)
4 (8) 3.6 GHz 3.7/3.7GHz 4 × 1 MiB 16.50 MiB
105 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303330702
  • BX806735122
$1221
$1227
Xeon Gold 6126
  • SR3B3 (H0)
12 (24) 2.6 GHz 3.3/3.7GHz 12 × 1 MiB 19.25 MiB
125 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405900
$1776
Xeon Gold 6126F
  • SR3KE (H0)
12 (24) 2.6 GHz 3.3/3.7GHz 12 × 1 MiB 19.25 MiB
135 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593400
$1931
Xeon Gold 6126T
  • SR3J9 (H0)
12 (24) 2.6 GHz 3.3/3.7GHz 12 × 1 MiB 19.25 MiB
125 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593100
$1865
Xeon Gold 6128
  • SR3J4 (H0)
6 (12) 3.4 GHz 3.7/3.7GHz 6 × 1 MiB 19.25 MiB
115 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303592600
  • BX806736128
$1691
$1697
Xeon Gold 6130
  • SR3B9 (H0)
16 (32) 2.1 GHz 2.8/3.7GHz 16 × 1 MiB 22.00 MiB
125 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303409000
  • BX806736130
$1900
Xeon Gold 6130F
  • SR3KD (H0)
16 (32) 2.1 GHz 2.8/3.7GHz 16 × 1 MiB 22.00 MiB
125 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593300
$2049
Xeon Gold 6130T
  • SR3J8 (H0)
16 (32) 2.1 GHz 2.8/3.7GHz 16 × 1 MiB 22.00 MiB
125 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593000
$1988
Xeon Gold 6132
  • SR3J3 (H0)
14 (28) 2.6 GHz 3.3/3.7GHz 14 × 1 MiB 19.25 MiB
140 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303592500
$2111
Xeon Gold 6134
  • SR3AR (H0)
8 (16) 3.2 GHz 3.7/3.7GHz 8 × 1 MiB 24.75 MiB
130 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303330302
  • BX806736134
$2214
$2220
Xeon Gold 6134M
  • SR3AS (H0)
8 (16) 3.2 GHz 3.7/3.7GHz 8 × 1 MiB 24.75 MiB
130 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303330402
$5217
Xeon Gold 6136
  • SR3B2 (H0)
12 (24) 3 GHz 3.6/3.7GHz 12 × 1 MiB 24.75 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405800
$2460
Xeon Gold 6138
  • SR3B5 (H0)
20 (40) 2 GHz 2.7/3.7GHz 20 × 1 MiB 27.50 MiB
125 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303406100
  • BX806736138
$2612
$2618
Xeon Gold 6138F
  • SR3KK (H0)
20 (40) 2 GHz 2.7/3.7GHz 20 × 1 MiB 27.50 MiB
135 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593900
$2767
Xeon Gold 6138T
  • SR3J7 (H0)
20 (40) 2 GHz 2.7/3.7GHz 20 × 1 MiB 27.50 MiB
125 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303592900
$2742
Xeon Gold 6140
  • SR3AX (H0)
18 (36) 2.3 GHz 3.0/3.7GHz 18 × 1 MiB 24.75 MiB
140 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405200
  • BX806736140
$2445
$2451
Xeon Gold 6140M
  • SR3AZ (H0)
18 (36) 2.3 GHz 3.0/3.7GHz 18 × 1 MiB 24.75 MiB
140 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405500
$5448
Xeon Gold 6142
  • SR3AY (H0)
16 (32) 2.6 GHz 3.3/3.7GHz 16 × 1 MiB 22.00 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405400
  • BX806736142
$2946
$2952
Xeon Gold 6142F
  • SR3KH (H0)
16 (32) 2.6 GHz 3.3/3.7GHz 16 × 1 MiB 22.00 MiB
160 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593700
$3101
Xeon Gold 6142M
  • SR3B1 (H0)
16 (32) 2.6 GHz 3.3/3.7GHz 16 × 1 MiB 22.00 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405700
$5949
Xeon Gold 6144
  • SR3MB (H0)
8 (16) 3.5 GHz 4.1/4.2GHz 8 × 1 MiB 24.75 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 Q3 2017
  • CD8067303657302
$2925
Xeon Gold 6145
  • SR3G4 (H0)
20 (40) 2 GHz 2.7/3.7GHz 20 × 1 MiB 27.50 MiB
145 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 2017
  • CD8067303528200
Xeon Gold 6146
  • SR3MA (H0)
12 (24) 3.2 GHz 3.9/4.2GHz 12 × 1 MiB 24.75 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303657201
$3286
Xeon Gold 6148
  • SR3B6 (H0)
20 (40) 2.4 GHz 3.1/3.7GHz 20 × 1 MiB 27.50 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303406200
  • BX806736148
$3072
$3078
Xeon Gold 6148F
  • SR3KJ (H0)
20 (40) 2.4 GHz 3.1/3.7GHz 20 × 1 MiB 27.50 MiB
150 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303593800
$3227
Xeon Gold 6149 () 3.1 GHz × 1 MiB MiB LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 OEM
Xeon Gold 6150
  • SR37K (H0)
18 (36) 2.7 GHz 3.4/3.7GHz 18 × 1 MiB 24.75 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303328000
$3358
Xeon Gold 6152
  • SR3B4 (H0)
22 (44) 2.1 GHz 2.8/3.7GHz 22 × 1 MiB 30.25 MiB
140 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303406000
  • BX806736152
$3655
$3661
Xeon Gold 6154
  • SR3J5 (H0)
18 (36) 3 GHz 3.7/3.7GHz 18 × 1 MiB 24.75 MiB
200 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303592700
$3543
Xeon Gold 6161
  • SR3G7 (H0)
22 (44) 2.2 GHz 2.7/3.0GHz 22 × 1 MiB 30.25 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 2017
  • CD8067303532100

Xeon Platinum (octal processor)

  • Xeon Platinum non-F SKUs have three UPIs at 10.4 GT/s. Xeon Platinum F-SKUs have two UPIs at 10.4 GT/s.
  • Xeon Platinum supports DDR4-2666 MHz RAM.
Model
number
sSpec
number
Cores
(threads)
Frequency Turbo Boost
all-core/2.0
(/max. 3.0)
L2
cache
L3
cache
TDP Socket I/O bus Memory Release date Part
number(s)
Release
price (USD)
Xeon Platinum 8153
  • SR3BA (H0)
16 (32) 2 GHz 2.3/2.8 GHz 16 × 1 MiB 22.00 MiB
125 W
LGA 3647 3 × 10.4 GT/s QPI 6 × DDR4-2666 11 July 2017
  • CD8067303408900
$3115
Xeon Platinum 8156
  • SR3AV (H0)
4 (8) 3.6 GHz 3.3/3.7 GHz 4 × 1 MiB 16.50 MiB
105 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303368800
$7007
Xeon Platinum 8158
  • SR3B7 (H0)
12 (24) 3 GHz 2.7/3.7 GHz 12 × 1 MiB 24.75 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303406500
$7007
Xeon Platinum 8160
  • SR3B0 (H0)
24 (48) 2.1 GHz 2.8/3.7 GHz 24 × 1 MiB 33.00 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303405600
  • BX806738160
$4702
$4708
Xeon Platinum 8160F
  • SR3B8 (H0)
24 (48) 2.1 GHz 2.8/3.7 GHz 24 × 1 MiB 33.00 MiB
160 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303406600
$4856
Xeon Platinum 8160M
  • SR3B8 (H0)
24 (48) 2.1 GHz 2.8/3.7 GHz 24 × 1 MiB 33.00 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303406600
$7704
Xeon Platinum 8160T
  • SR3J6 (H0)
24 (48) 2.1 GHz 2.8/3.7 GHz 24 × 1 MiB 33.00 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303592800
$4936
Xeon Platinum 8163
  • SR3G1 (H0)
24 (48) 2.4 GHz 2.7/3.1 GHz 24 × 1 MiB 33.00 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 2017
  • CD8067303527200
Xeon Platinum 8164
  • SR3BB (H0)
26 (52) 2 GHz 2.7/3.7 GHz 26 × 1 MiB 35.75 MiB
150 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303408800
  • BX806738164
$6114
$6120
Xeon Platinum 8167M
  • SR3A0 (H0)
26 (52) 2 GHz 2.4/2.4 GHz 26 × 1 MiB 35.75 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 2017
  • CD8067303180701
Xeon Platinum 8168
  • SR37J (H0)
24 (48) 2.7 GHz 3.4/3.7 GHz 24 × 1 MiB 33.00 MiB
205 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303327701
$5890
Xeon Platinum 8170
  • SR37H (H0)
26 (52) 2.1 GHz 2.8/3.7 GHz 26 × 1 MiB 35.75 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303327601
  • BX806738170
$7405
$7411
Xeon Platinum 8170M
  • SR3BD (H0)
26 (52) 2.1 GHz 2.8/3.7 GHz 26 × 1 MiB 35.75 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303319201
$10,409
Xeon Platinum 8173M
  • SR37Q (H0)
28 (56) 2 GHz 2.7/3.5 GHz 28 × 1 MiB 38.50 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 2017
  • CD8067303172400
Xeon Platinum 8176
  • SR37A (H0)
28 (56) 2.1 GHz 2.8/3.8 GHz 28 × 1 MiB 38.50 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303314700
$8790
Xeon Platinum 8176F
  • SR3MK (H0)
28 (56) 2.1 GHz 2.8/3.8 GHz 28 × 1 MiB 38.50 MiB
173 W
LGA 3647 2 × 10.4 GT/s UPI 6 × DDR4-2666 Q3, 2017
  • CD8067303694600
$8874
Xeon Platinum 8176M
  • SR37U (H0)
28 (56) 2.1 GHz 2.8/3.8 GHz 28 × 1 MiB 38.50 MiB
165 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303133605
$11,722
Xeon Platinum 8180
  • SR377 (H0)
28 (56) 2.5 GHz 3.2/3.8 GHz 28 × 1 MiB 38.50 MiB
205 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303314400
$10,009
Xeon Platinum 8180M
  • SR37T (H0)
28 (56) 2.5 GHz 3.2/3.8 GHz 28 × 1 MiB 38.50 MiB
205 W
LGA 3647 3 × 10.4 GT/s UPI 6 × DDR4-2666 11 July 2017
  • CD8067303192101
$13,011
gollark: Well, if you want one owner, then randomly pick one referrer to keep the data and erase it from the others.
gollark: And I meant why not go back there.
gollark: `gc.get_referrers` obviously.
gollark: Why not?
gollark: Just use `gc.get_objects`?

See also

References

  1. Tom's Hardware: Skylake Xeon Platforms Spotted, Purley Makes A Quiet Splash At Computex. June 3, 2016
  2. "AVX-512 SIMD enabled only on Xeon models of SkyLake". Bits and Chips.
  3. "Skylake processors for the PC will not support the AVX-512". Hardware-boom.com. Retrieved January 24, 2018.
  4. "Intel Core i7-6700K Processor (8M Cache, up to 4.20 GHz)". Ark.intel.com. Retrieved January 24, 2018.
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