Intel 3rd gen release date

Intel 3rd gen release date DEFAULT

Today Intel has announced that it will be holding a launch event on April 6th for the new vision of its Data Platform Group. This event is set to ‘unveil the next chapter’ in all the areas that Intel’s DPG touches, from edge to cloud, as well as offering an early look at 3rd Gen Intel Xeon Scalable systems, which we’ve come to understand is the Ice Lake Xeon platform. Key speakers at the event include Intel’s new CEO, Pat Gelsinger.

 

Update 3/22:

Intel has formally clarified today that this event on April 6th will be the formal official launch of 3rd Generation Xeon Scalable (Ice Lake). Official start time for the event is 8am PT on April 6th.

 

How Wonderful Gets Done 2021

Subtly dropped in my email today as part of the Intel weekly on data center progress, the company have announced a ‘How Wonderful Gets Done 2021’ event built upon the Data Platform Group’s progress as well as the vision for the segment of Intel looking to the future. The key headliner, present in our email but not on Intel’s website, is that the event will host an ‘early look at 3rd Gen Intel Xeon Scalable processor-based systems’. It is unclear if this means CPUs or just OEM designs, or if we’ll see benchmarks, but it is clear that Intel’s OEM partners are practically ready to go based on some of the published data already available.


From the email

One of the accompanying videos on the event website is a 10 second montage of things forming the letter ‘X’, and the words ‘what will you solve for’.

The event will be held on Tuesday April 6th, starting at 8am PT, with keynotes from new Intel CEO Pat Gelsinger, EVP and GM of DPG Navin Shenoy, and CVP and GM of the Xeon and Memory Group, Lisa Spelman.

Sessions for the day will include:

  • AI, Wei Li, VP and GM of Machine Learning Performance, Design Engineering Group
  • IoT, John Healy, VP IOTG, GM Platform Management and Customer Engineering
  • 5G Networking, Dan Rodriguez, CVP and GM, Network Platforms Group
  • HPC, Trish Damkroger, VP and GM HPC, Data Platfoms Group
  • Cloud, Rebecca Weekly, VP and GM, Hyperscale Strategy; Senior Principle Engineer, DPG

Recently it was announced that Pat Gelsinger will be hosting an event on March 23rd, and in that announcement an image of an Ice Lake Xeon Scalable wafer was given as the title image for that announcement, perhaps indicating that the release of ICL-SP is close. Intel did say at the beginning of the year that ICL-SP is expected to launch ‘within months’, and a number of Intel’s partners are already starting to demonstrate systems with appropriate processor support.

We also learned recently that Intel has already shipped 115K+ (and more) Ice Lake Xeon Scalable processors to over 30 of its high-profile customers, even though the processors have not yet been launched. This is typical for a server processor, as these customers also help test, debug, and deploy the hardware at scale so it is ready to go from day one.

Similarly, in discussions with Intel, it is clear that the company is keen to promote its combined solution efforts to the market when it comes to the data center – Intel’s value, according to the company, is in its ability to provide the CPU, the networking, the memory, the storage, the AI accelerators, the software, the optimizations, the range of options, and the support structure that its competitors cannot. This combined solution Intel believes affords its customers a better TCO offering, as well as better optimized performance especially now that workloads are hitting a variety of bottlenecks such as storage, connectivity, and acceleration.

We are all set up for the event and will be watching along. If there are opportunities to ask questions, you bet we will.

Source: Intel

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Intel Corporation

On April 6, Intel will launch the latest 3rd Gen Intel Xeon Scalable processors (code-named “Ice Lake”) and the latest additions to Intel’s hardware and software portfolio targeting data centers, 5G networks and intelligent edge infrastructure. (Credit: Intel Corporation)

On April 6, Intel will launch the latest 3rd Gen Intel Xeon Scalable processors (code-named “Ice Lake”) and the latest additions to Intel’s hardware and software portfolio targeting data centers, 5G networks and intelligent edge infrastructure. (Credit: Intel Corporation)

SANTA CLARA, Calif.--(BUSINESS WIRE)-- Join Intel’s Navin Shenoy, executive vice president in the Data Platforms Group, and Lisa Spelman, corporate vice president in the Xeon and Memory Group, on April 6 for the launch of the latest 3rd Gen Intel® Xeon® Scalable processors (code-named “Ice Lake”) and the latest additions to Intel’s hardware and software portfolio targeting data centers, 5G networks and intelligent edge infrastructure.

This press release features multimedia. View the full release here: https://www.businesswire.com/news/home/20210401005061/en/

On April 6, Intel will launch the latest 3rd Gen Intel Xeon Scalable processors (code-named “Ice Lake”) and the latest additions to Intel’s hardware and software portfolio targeting data centers, 5G networks and intelligent edge infrastructure. (Credit: Intel Corporation)

On April 6, Intel will launch the latest 3rd Gen Intel Xeon Scalable processors (code-named “Ice Lake”) and the latest additions to Intel’s hardware and software portfolio targeting data centers, 5G networks and intelligent edge infrastructure. (Credit: Intel Corporation)

The virtual “How Wonderful Gets Done 2021” launch event will feature Intel executives and ecosystem partners addressing some of today’s greatest business opportunities. The event will also include brief remarks by Intel Chief Executive Officer Pat Gelsinger.

What: “How Wonderful Gets Done 2021” Launch Event

When: 8 a.m. PDT, Tuesday, April 6, 2021

View: Watch live on the Intel website or the Intel Newsroom, where a replay will also be available.

More: Visit the Intel events website for more information or follow along on Twitter at @IntelNews and @Intel.

About Intel

Intel (Nasdaq: INTC) is an industry leader, creating world-changing technology that enables global progress and enriches lives. Inspired by Moore’s Law, we continuously work to advance the design and manufacturing of semiconductors to help address our customers’ greatest challenges. By embedding intelligence in the cloud, network, edge and every kind of computing device, we unleash the potential of data to transform business and society for the better. To learn more about Intel’s innovations, go to newsroom.intel.com and intel.com.

© Intel Corporation. Intel, the Intel logo and other Intel marks are trademarks of Intel Corporation or its subsidiaries. Other names and brands may be claimed as the property of others.

View source version on businesswire.com: https://www.businesswire.com/news/home/20210401005061/en/

Tim Schulte
1-408-609-6845
[email protected]

Source: Intel

Released Apr 1, 2021 • 10:00 AM EDT

Sours: https://www.intc.com
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Initially scheduled for a release in 2019 and then delayed to 2020, Intel has now pushed the release date of Ice Lake-SP once again, from Q4 2020 to Q1 2021. Intel’s release of second generation Intel Xeon Scalable processors definitely comes with the promise of higher performance. I noticed that i cannot install one. Amid that transition, Intel has unveiled its new 11th generation … Device Manufacturer. Pentium is a brand used for a series of x86 architecture-compatible microprocessors produced by Intel since 1993. At the time of release, the processor cost $3286. We’re closer than ever to the release of Apple’s first Mac powered by Apple Silicon processors. Intel wants to empower you by providing the best computing experience. 7th Generation Intel® Core™ Processor Family. Intel's price list was updated with prices and brief specifications of all … In January 2011, Intel launched the Core i5 2nd Gen processors. The processor created by a 0 nm process. 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The Intel Ethernet 800 Series adapter is sampling today, with production scheduled for 2019’s third quarter. x Register for the OC3D Newsletter. For example, 2nd Generation Intel® Xeon® Gold 6252 has 24 cores vs previous generation Intel® Xeon® Gold 6152’s 22 cores. THE WORLD IS YOUR LAB Scale from model to reality with the new 2nd Generation Intel® Xeon® Scalable processors—now enhanced for AI and the most po… Intel’s 11th Generation mobile chips are the latest laptop processors on the blue side. This success has pushed Intel to play a defensive role — it has lowered prices and has a new generation of even-faster CPUs to combat AMD’s best. ... DFR-2007-801. 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Backed by a broad ecosystem of ISVs and OEMs, Intel® Xeon® processor-based workstations are certified to run complex 3D, CAD, and media content creation applications. 1994: Intel released the second generation of Intel Pentium processors on March 7, 1994. 1st Generation Intel® Xeon® Gold processor : BASELINE: Altair RADIOSS 14 on Red Hat Enterprise Linux* 6.5, 2 Intel® Xeon® processor E5-2697 v3, 2.6GHz, 28 cores, Hyperthreading with 28 MPI x 2 OpenMP, 64GB DDR3/1833, regular DIMM, Intel® SSD DC S3700 800GB, 1Gb network, Source is Altair internal as of April 1, 2016. AMD EPYC 7452 has 32 cores and 64 Threads operating at a frequency of 2.35 GHz (Turbo mode - 3.35 GHz) with typical Thermal Design Power 155 W. Intel is promising “something big” at an event on September 2nd, where it’s likely to launch its 11th Gen CPUs. 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Subscribing to the OC3D newsletter will keep you up-to-date on the latest technology reviews, competitions and goings-on at Overclock3D. NEW FEATURES: Maintenance release, no new features CONTENTS OF THE PACKAGE: Intel® HD Graphics Driver Intel® Display Audio Driver Intel® Media SDK Runtime 0xE0. 2 nd Gen AMD EPYC™ processors feature up to 64 “Zen 2” cores in … The 2nd-Generation Intel Xeon Scalable processors, the Intel Xeon D-1600 processor, Intel Optane DC persistent memory and Intel SSD D5-P4326 are all in general availability today. It provides real-time processor package power information in watts using energy counters. It is recommended to install a later version of the driver (see the release date). At a launch event today, AMD (NASDAQ: AMD) was joined by an expansive ecosystem of datacenter partners and customers to introduce the 2 nd Generation AMD EPYC™ family of processors that deliver performance leadership across a broad number of enterprise, cloud and high-performance computing (HPC) workloads. Applications Processor. Jan 09, 2011: Earlier this week, at Consumer Electronics Show in Las Vegas, Intel announced 2nd generation Core microprocessors, based on just introduced Sandy Bridge micro-architecture.Today, Intel officially launched these processors, as well as a few models built on older Nehalem and Core technology. • Intel® Xeon® Platinum 8XXX processor The Second Generation Intel® Xeon® Scalable Processors is the next generation of 64-bit, multi-core server processor built on 14-nm process technology. Intel introduces the world’s best new processors, the 2nd Generation Intel® Core™ processor family, now with stunning visuals built-in. Intel. Intel Coffee Lake release date Originally, in February 2017, Intel stated that Coffee Lake would surface in the latter half of the year. Availability. The processor was a 60 MHz processor, incorporates 3.1 million transistors and sells for $878.00. DirectDraw. Source: Intel Corp. To decode an Intel CPU chip, you need to understand that the first digit is the processor level, the second is the processor generation (all Cascade Lake CPUs are 2nd-Gen processors), the third and fourth digits specify the processor SKU, and the last one or two numbers specify any processor options that the CPU has (Figure 2). Other distinguishing features of these processors are Intel InTru 3 D/Clear Video HD, Quick Sync Video and WiDi 2.0 which took the graphic performance of the processor to the next level. Details about these microprocessors were discovered in specifications of new Fujitsu, HP and Lenovo notebooks, and, based on May release date of one of those notebooks, we presumed that the processors will be introduced in May. 10th Gen Intel® Core™ i7-10875H processor. Amid that transition, Intel has unveiled its new 11th generation … Westmere microarchitecture (1st generation) Gulftown" (32 nm). Windows* XP. 8th Generation Intel® Core™ Processor Family. Called Coffee Lake, the range will be based on Intel’s third-generation 14nm process (14nm++) and, will use the same LGA1151 socket as the current-generation Kaby Lake (14nm+) and last-generation … Intel is expected to launch its 8th-generation Core processor lineup on August 21st. These include a maximum of 48 cores and 96 threads on the flagship processor and raw clock speeds due to … As with the launch of any new processor, Intel has a lot riding on Alder Lake. AMD Ryzen 5 4600G has 6 cores and 12 Threads operating at 3.7 GHz (Turbo mode - 4.2 GHz) with typical Thermal Design Power 65 W. Using the Dell XPS 8300 Resource CD, Under MY. Each of the two major processor makers, AMD and Intel, has its own type of socket. The 2nd-Generation Intel Xeon Scalable processors, the Intel Xeon D-1600 processor, Intel Optane DC persistent memory and Intel SSD D5-P4326 are all in general availability today. Intel launched its first model in early 2015, and now the company has released a 2nd-gen model with a slightly faster processor, an improved design, and significantly better wireless performance. the 2770 drivers can only work with 2nd generation intel hd graphics hardware and above. Description Type OS Version Date; Intel® Computing Improvement Program. 2nd Generation 10nm processors are coming! Intel® Wi-Fi 6 AX201 (Gig+) delivers peak wireless gaming performance. The 8-Core 10th Gen Intel® Core™ i7-10875H processor provides the ultimate level of performance for with 2.3GHz / 5.1GHz (Base / Max Turbo). AMD EPYC 7452 at 2.35 GHz Top Level CPU 2nd generation with Rome core name, designed for work in Servers with SP3 socket, CPU release date 2019-10-01. NEW FEATURES: Maintenance release, no new features CONTENTS OF THE PACKAGE: Intel® HD Graphics Driver Intel® Display Audio Driver Intel® Media SDK Runtime Issues Resolved: ... - 3rd Generation Intel Core processor family - 2nd Generation Intel Core processor family - Intel 100 Series chipset ... we do not recommend applying this release on platforms other than the ones specified. Intel graphics drivers v9.17.10.4229 (15.28.24) for 2nd and 3rd generation Core i Processors (Sandy Bridge and Ivy Bridge) Supported OS: Windows 8.1 / Windows 8 / Windows 7 Driver build date: 26th May 2015 ( DriverVer=05/26/2015, 9.17.10.4229 ) Intel Xeon 14nm+++ The 14nm counterparts will also coexist with an early release date. 16/10/2019. 10th Gen Intel® Core™ i7-10875H processor. Intel® Power Gadget is a software-based power estimation tool enabled for 2nd Generation Intel® Core™ processors or newer. Xeon Gold 6246 processor released by Intel; release date: 2 April 2019. Performance to make product improvements in the middle of next month processor cost $ 3286 Some handles not. In a huge move by Intel, has its own Type of socket Process Digital Floorplan Analysis for operating... Xeon Scalable Series M SKUs are the “ medium ” memory capacity reaching 2TB Intel 12th-Generation Alder Lake date! Also coexist with an early release date ) all publicly available security.. 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Ivy Bridge (microarchitecture)

This article is about the Intel microarchitecture. For other uses, see Ivy Bridge.

Ivy Bridge Codename Logo.jpg

Intel's internal Ivy Bridge logo[1]

LaunchedApril 29, 2012; 9 years ago (April 29, 2012)
DiscontinuedJune 5, 2015; 6 years ago (June 5, 2015)
CPUID code0306A9h
Product code80633 (extreme desktop)
80634 (server LGA1356)
80635 (server E5 LGA2011)
80636 (server E7 LGA2011)
80637 (desktop)
80638 (mobile)
Max. CPUclock rate1.4 to 4.1 GHz
L1 cache64 KB per core
L2 cache256 KB per core
L3 cache2 to 8 MB shared
Min. feature size22 nm
ArchitectureIvy Bridge x86
Instructionsx86, x86-64
Extensions
  • MMX, SSE, SSE2, SSE3, SSSE3, SSE4, SSE4.1, SSE4.2, AVX, F16C
  • AES-NI, CLMUL, RDRAND, TXT
  • VT-x, VT-d
Transistors
Cores
  • 2–4 (Mainstream)
    2–15 (Xeon)
GPU(s)HD Graphics 2500
650 to 1150 MHz
HD Graphics 4000
350 to 1300 MHz
HD Graphics P4000
650 to 1250 MHz
Socket(s)
Model(s)
PredecessorSandy Bridge (Tock)
SuccessorHaswell (Tock/Architecture)
An uncovered Intel Core i5-3210M (BGA) inside of a laptop, an Ivy Bridge CPU

Ivy Bridge is the codename for Intel's 22 nmmicroarchitecture used in the third generation of the Intel Core processors (Core i7, i5, i3). Ivy Bridge is a die shrink to 22 nm process based on FinFET ("3D") Tri-Gate transistors, from the former generation's 32 nmSandy Bridge microarchitecture—also known as tick–tock model. The name is also applied more broadly to the Xeon and Core i7Ivy Bridge-E series of processors released in 2013.

Ivy Bridge processors are backward compatible with the Sandy Bridge platform, but such systems might require a firmware update (vendor specific).[2] In 2011, Intel released the 7-series Panther Pointchipsets with integrated USB 3.0 and SATA 3.0 to complement Ivy Bridge.[3]

Volume production of Ivy Bridge chips began in the third quarter of 2011.[4]Quad-core and dual-core-mobile models launched on April 29, 2012 and May 31, 2012 respectively.[5] Core i3 desktop processors, as well as the first 22 nm Pentium, were announced and available the first week of September 2012.[6]

Ivy Bridge is the last Intel platform to fully support Windows XP and the earliest Intel microarchitecture to officially support Windows 10 64-bit.[7]

Overview[edit]

The Ivy Bridge CPU microarchitecture is a shrink from Sandy Bridge and remains largely unchanged. Like its predecessor, Sandy Bridge, Ivy Bridge was also primarily developed by Intel's Israel branch, located in Haifa, Israel.[8] Notable improvements include:[9][10]

Ivy Bridge features and performance[edit]

The mobile and desktop Ivy Bridge chips also include significant changes over Sandy Bridge:

CPU[edit]

GPU[edit]

IO[edit]

Benchmark comparisons[edit]

Compared to its predecessor, Sandy Bridge:

Thermal performance issues[edit]

Ivy Bridge's temperatures are reportedly 10 °C higher compared to Sandy Bridge when a CPU is overclocked, even at default voltage setting.[29] Impress PC Watch, a Japanese website, performed experiments that confirmed earlier speculations that this is because Intel used a poor quality (and perhaps lower cost) thermal interface material (thermal paste, or "TIM") between the chip and the heat spreader, instead of the fluxless solder of previous generations.[30][31][32] The mobile Ivy Bridge processors are not affected by this issue because they do not use a heat spreader between the chip and cooling system.

Enthusiast reports describe the TIM used by Intel as low-quality,[32] and not up to par for a "premium" CPU, with some speculation that this is by design to encourage sales of prior processors.[30] Further analyses caution that the processor can be damaged or void its warranty if home users attempt to remedy the matter.[30][33] The TIM has much lower thermal conductivity, causing heat to trap on the die.[29] Experiments with replacing this TIM with a higher-quality one or other heat removal methods showed a substantial temperature drop, and improvements to the increased voltages and overclocking sustainable by Ivy Bridge chips.[30][34]

Intel claims that the smaller die of Ivy Bridge and the related increase in thermal density is expected to result in higher temperatures when the CPU is overclocked; Intel also stated that this is as expected and will likely not improve in future revisions.[35]

Models and steppings[edit]

All Ivy Bridge processors with one, two, or four cores report the same CPUID model 0x000306A9, and are built in four different configurations differing in the number of cores, L3 cache and GPU execution units.

Ivy Bridge-based Xeon processors[edit]

Main article: Intel Ivy Bridge-based Xeon microprocessors

Intel Ivy Bridge-based Xeon microprocessors (also known as Ivy Bridge-E) is the follow-up to Sandy Bridge-E, using the same CPU core as the Ivy Bridge processor, but in LGA 2011, LGA 1356 and LGA 2011-1 packages for workstations and servers.

Additional high-end server processors based on the Ivy Bridge architecture, code named Ivytown, were announced September 10, 2013 at the Intel Developer Forum, after the usual one year interval between consumer and server product releases.[40][41][42]

The Ivy Bridge-EP processor line announced in September 2013 has up to 12 cores and 30 MB third level cache, with rumors of Ivy Bridge-EX up to 15 cores and an increased third level cache of up to 37.5 MB,[43][44] although an early leaked lineup of Ivy Bridge-E included processors with a maximum of 6 cores.[45]

Both Core-i7 and Xeon versions are produced: the Xeon versions marketed as Xeon E5-1400 V2 act as drop-in replacements for the existing Sandy Bridge-EN based Xeon E5, Xeon E5-2600 V2 versions act as drop-in replacements for the existing Sandy Bridge-EP based Xeon E5, while Core-i7 versions designated i7-4820K, i7-4930K and i7-4960X were released on September 10, 2013, remaining compatible with the X79 and LGA 2011 hardware.[44][46]

For the intermediate LGA 1356 socket, Intel launched the Xeon E5-2400 V2 (codenamed Ivy Bridge-EN) series in January 2014.[47] These have up to 10 cores.[48]

A new Ivy Bridge-EX line marketed as Xeon E7 V2 had no corresponding predecessor using the Sandy Bridge microarchitecture but instead followed the older Westmere-EX processors.

List of Ivy Bridge processors[edit]

Processors featuring Intel's HD 4000 graphics (or HD P4000 for Xeon) are set in bold. Other processors feature HD 2500 graphics or HD Graphics unless indicated by N/A.

Desktop processors[edit]

List of announced desktop processors, as follows:

Processor
branding and model
Cores
(threads)
CPU clock rateGraphics clock rateL3
cache
TDPRelease
date
Release
price
(USD)
Motherboard
Normal TurboNormal Turbo Socket Interface Memory
Core i7
Extreme
4960X6 (12) 3.6 GHz 4.0 GHz N/A 15 MB 130 W 2013-09-10 $999[49]LGA
2011
DMI 2.0
PCIe 3.0[a]
Up to quad
channel
DDR3-1866
Core i74930K3.4 GHz 3.9 GHz 12 MB $583[49]
4820K4 (8) 3.7 GHz 10 MB $323[49]
3770K3.5 GHz 650 MHz 1150 MHz 8 MB 77 W 2012-04-23 $332 LGA
1155
Up to dual
channel
DDR3-1600[50]
37703.4 GHz $294
3770S3.1 GHz 65 W
3770T2.5 GHz 3.7 GHz 45 W
Core i53570K4 (4) 3.4 GHz 3.8 GHz 6 MB 77 W $225
35702012-05-31[51]$205
3570S3.1 GHz 65 W
3570T2.3 GHz 3.3 GHz 45 W
35503.3 GHz 3.7 GHz 77 W 2012-04-23
3550S3.0 GHz 65 W
3475S2.9 GHz 3.6 GHz 1050 MHz 2012-05-31[51]$201
34703.2 GHz 77 W $184
3470S2.9 GHz 65 W
3470T2 (4) 3 MB 35 W
34504 (4) 3.1 GHz 3.5 GHz 6 MB 77 W 2012-04-23
3450S2.8 GHz 65 W
3350P3.1 GHz 3.3 GHz N/A 69 W 2012-09-03 $177
3340650 MHz 1050 MHz 77 W 2013-09-01 $182
3340S2.8 GHz 65 W
3335S2.7 GHz 3.2 GHz 2012-09-03 $194
3330S$177
33303.0 GHz 77 W $182
Core i332502 (4) 3.5 GHz N/A 3 MB 55 W 2013-06-09 $138 DMI 2.0
PCIe 2.0
32453.4 GHz $134
32402012-09-03 $138
32253.3 GHz $134
3220$117
32103.2 GHz 2013-01-20
3250T3.0 GHz 35 W 2013-06-09 $138
3240T2.9 GHz 2012-09-03
3220T2.8 GHz $117
Pentium G21402 (2) 3.3 GHz 55 W 2013-06-09 $86
G21303.2 GHz 2013-01-20
G21203.1 GHz 2012-09-03
G2120T2.7 GHz 35 W 2013-06-09 $75
G2100T2.6 GHz 2012-09-03
G20303.0 GHz 55 W 2013-06-09 $64 Dual channel DDR3-1333
G20202.9 GHz 2013-01-20
G20102.8 GHz
G2030T2.6 GHz 35 W 2013-06-09
G2020T2.5 GHz 2013-01-20
Celeron G16302 (2) 2.8 GHz 2 MB 55 W 2013-09-01 $52
G16202.7 GHz 2013-01-20
G16102.6 GHz $42
G1620T2.4 GHz 35 W 2013-09-01
G1610T2.3 GHz 2013-01-20
  1. Requires a compatible motherboard.

Suffixes to denote:

  • K – Unlocked (adjustable CPU multiplier up to 63 times)
  • S – Performance-optimized lifestyle (low power with 65 W TDP)
  • T – Power-optimized lifestyle (ultra-low power consumption with 35–45 W TDP)
  • P – No on-die video chipset
  • X – Extreme performance (adjustable CPU ratio with no ratio limit)

Server processors[edit]

Further information: Intel Ivy Bridge-based Xeon microprocessors

Processor
branding and model
Cores
(threads)
CPU clock rateGraphics clock rateL3
cache
TDPRelease
date
Price
(USD)
Motherboard
Normal TurboNormal Turbo Socket Interface Memory
Xeon E7 8893v26 (12) 3.4 GHz 3.7 GHz N/A 37.5 MB 155 W 2014-02-18 $6841 LGA
2011-1
3× QPI
DMI 2.0
PCIe 3.0
Up to quad
channel
DDR3-1600
8891v210 (20) 3.2 GHz
8895v215 (30) 2.8 GHz 3.6 GHz OEM
(Oracle)[52]
8890v23.4 GHz $6841
4890v2$6619
2890v2$6451
8880Lv22.2 GHz 2.8 GHz 105 W $5729
8880v22.5 GHz 3.1 GHz 130 W
4880v2$5506
2880v2$5339
8870v22.3 GHz 2.9 GHz 30 MB $4616
4870v2$4394
2870v2$4227
8857v212 (12) 3.0 GHz 3.6 GHz $3838
4860v212 (24) 2.6 GHz 3.2 GHz
8850v22.3 GHz 2.8 GHz 24 MB 105 W $3059
4850v2$2837
2850v2$2558
4830v210 (20) 2.2 GHz 2.7 GHz 20 MB $2059
4820v28 (16) 2.0 GHz 2.5 GHz 16 MB $1446
4809v26 (12) 1.9 GHz N/A 12 MB $1223 Up to quad
channel
DDR3-1333
Xeon E5 4657Lv212 (24) 2.4 GHz 3.2 GHz 30 MB 115 W 2014-03-03 $4394 LGA
2011
2× QPI
DMI 2.0
PCIe 3.0
Up to quad
channel
DDR3-1866
4650v210 (20) 25 MB 95 W $3616
4640v22.2 GHz 2.7 GHz 20 MB $2725
4624Lv21.9 GHz 2.5 GHz 25 MB 70 W $2405
4627v28 (8) 3.3 GHz 3.6 GHz 16 MB 130 W $2108
4620v28 (16) 2.6 GHz 3.0 GHz 20 MB 95 W $1611 Up to quad
channel
DDR3-1600
4610v22.3 GHz 2.7 GHz 16 MB $1219
4607v26 (12) 2.6 GHz N/A 15 MB $885 Up to quad
channel
DDR3-1333
4603v24 (8) 2.2 GHz 10 MB $551
2697v212 (24) 2.7 GHz 3.5 GHz 30 MB 130 W 2013-09-10 $2614 Up to quad
channel
DDR3-1866
2696v2 2.5 GHz 3.3 GHz 120 W OEM
2695v22.4 GHz 3.2 GHz 115 W $2336
2692v2 2.2 GHz 3.0 GHz June 2013 OEM
(Tianhe-2)
2651v2 1.8 GHz 2.2 GHz 105 W 2013-09-10
2690v210 (20) 3.0 GHz 3.6 GHz 25 MB 130 W $2057
2680v22.8 GHz 115 W $1723
2670v22.5 GHz 3.3 GHz $1552
2660v22.2 GHz 3.0 GHz 95 W $1389
2658v22.4 GHz $1750
2650Lv21.7 GHz 2.1 GHz 70 W $1219 Up to quad
channel
DDR3-1600
2648Lv21.9 GHz 2.5 GHz $1479 Up to quad
channel
DDR3-1866
2687Wv28 (16) 3.4 GHz 4.0 GHz 150 W $2108
2667v23.3 GHz 130 W $2057
2650v22.6 GHz 3.4 GHz 20 MB 95 W $1166
2640v22.0 GHz 2.5 GHz $885 Up to quad
channel
DDR3-1600
2628Lv21.9 GHz 2.4 GHz 70 W $1216
2643v26 (12) 3.5 GHz 3.8 GHz 25 MB 130 W $1552 Up to quad
channel
DDR3-1866
2630v22.6 GHz 3.1 GHz 15 MB 80 W $612 Up to quad
channel
DDR3-1600
2630Lv22.4 GHz 2.8 GHz 60 W
2620v22.1 GHz 2.6 GHz 80 W $406
2618Lv22.0 GHz N/A 50 W $520 Up to quad
channel
DDR3-1333
2637v24 (8) 3.5 GHz 3.8 GHz 130 W $996 Up to quad
channel
DDR3-1866
2609v24 (4) 2.5 GHz N/A 10 MB 80 W $294 Up to quad
channel
DDR3-1333
2603v21.8 GHz $202
2470v210 (20) 2.4 GHz 3.2 GHz 25 MB 95 W 2014-01-09 $1440 LGA
1356
1× QPI
DMI 2.0
PCIe 3.0
Up to triple
channel
DDR3-1600
2448Lv21.8 GHz 2.4 GHz 70 W $1424
2450Lv21.7 GHz 2.1 GHz 60 W $1219
2450v28 (16) 2.5 GHz 3.3 GHz 20 MB 95 W $1107
2440v21.9 GHz 2.4 GHz $832
2428Lv21.8 GHz 2.3 GHz 60 W $1013
2430v26 (12) 2.5 GHz 3.0 GHz 15 MB 80 W $551
2420v22.2 GHz 2.7 GHz $406
2430Lv22.4 GHz 2.8 GHz 60 W $612
2418Lv22.0 GHz N/A 50 W $607 Up to triple
channel
DDR3-1333
2407v24 (4) 2.4 GHz 10 MB 80 W $250
2403v21.8 GHz $192
1680v28 (16) 3.0 GHz 3.9 GHz 25 MB 130 W 2013-09-10 $1723 LGA
2011
0× QPI
DMI 2.0
PCIe 3.0
Up to quad
channel
DDR3-1866
1660v26 (12) 3.7 GHz 4.0 GHz 15 MB $1080
1650v23.5 GHz 3.9 GHz 12 MB $583
1620v24 (8) 3.7 GHz 10 MB $294
1607v24 (4) 3.0 GHz N/A $244 Up to quad
channel
DDR3-1600
1428Lv26 (12) 2.2 GHz 2.7 GHz 15 MB 60 W 2014-01-09 $494 LGA
1356
Up to triple
channel
DDR3-1600
1410v24 (8) 2.8 GHz 3.2 GHz 10 MB 80 W OEM
Pentium 1403v22 (2) 2.6 GHz N/A 6 MB
1405v21.4 GHz 40 W $156
Xeon E3 1290v24 (8) 3.7 GHz 4.1 GHz 8 MB 87 W 2012-05-14 $885 LGA
1155
DMI 2.0
PCIe 3.0
Up to dual
channel
DDR3-1600
1280v23.6 GHz 4.0 GHz 69 W $623
1275v23.5 GHz 3.9 GHz 650 MHz 1.25 GHz 77 W $350
1270v2N/A 69 W $339
1265Lv22.5 GHz 3.5 GHz 650 MHz 1.15 GHz 45 W $305
1245v23.4 GHz 3.8 GHz 650 MHz 1.25 GHz 77 W $273
1240v2N/A 69 W $261
1230v23.3 GHz 3.7 GHz $230
1225v24 (4) 3.2 GHz 3.6 GHz 650 MHz 1.25 GHz 77 W $224
1220v23.1 GHz 3.5 GHz N/A 69 W $203
1220Lv22 (4) 2.3 GHz 3 MB 17 W $189
1135Cv24 (8) 3.0 GHz N/A 8 MB 55 W 2013-09-10 OEM BGA
1284
1125Cv22.5 GHz 40 W $448
1105Cv21.8 GHz 25 W $320

Mobile processors[edit]

Processor
branding and model
Cores
(threads)
Programmable TDP CPU Turbo Graphics clock rateL3
cache
Release
date
Price
(USD)
SDP[53]cTDP down Nominal TDP cTDP up 1-core Normal Turbo
Core i73940XM4 (8) N/A 45 W / ? GHz 55 W / 3.0 GHz 65 W / ? GHz 3.9 GHz 650 MHz 1350 MHz 8 MB 2012-09-30 $1096
3920XM45 W / ? GHz 55 W / 2.9 GHz 65 W / ? GHz 3.8 GHz 1300 MHz 2012-04-23
3840QMN/A 45 W / 2.8 GHz N/A 2012-09-30 $568
3820QM45 W / 2.7 GHz 3.7 GHz 1250 MHz 2012-04-23
3740QM1300 MHz 6 MB 2012-09-30 $378
3720QM45 W / 2.6 GHz 3.6 GHz 1250 MHz 2012-04-23
3635QM45 W / 2.4 GHz 3.4 GHz 1200 MHz 2012-09-30 N/A
3632QM35 W / 2.2 GHz 3.2 GHz 1150 MHz $378
3630QM45 W / 2.4 GHz 3.4 GHz
3615QM45 W / 2.3 GHz 3.3 GHz 1200 MHz 2012-04-23
3612QM35 W / 2.1 GHz 3.1 GHz 1100 MHz
3610QM45 W / 2.3 GHz 3.3 GHz
3689Y2 (4) 7 W / ? GHz 10 W / ? GHz 13 W / 1.5 GHz 2.6 GHz 350 MHz 850 MHz 4 MB 2013-01-07 $362
3687UN/A 14 W / ? GHz 17 W / 2.1 GHz 25 W / 3.1 GHz 3.3 GHz 1200 MHz 2013-01-20 $346
3667U14 W / ? GHz 17 W / 2.0 GHz 25 W / 3.0 GHz 3.2 GHz 1150 MHz 2012-06-03
3537U14 W / ? GHz 25 W / 2.9 GHz 3.1 GHz 1200 MHz 2013-01-20
3555LEN/A 25 W / 2.5 GHz N/A 3.2 GHz 550 MHz 1000 MHz 2012-06-03 $360
3540M35 W / 3.0 GHz 3.7 GHz 650 MHz 1300 MHz 2013-01-20 $346
3525M35 W / 2.9 GHz 3.6 GHz 1350 MHz Q3 2012
3520M1250 MHz 2012-06-03 $346
3517U14 W / ? GHz 17 W / 1.9 GHz 25 W / 2.8 GHz 3.0 GHz 350 MHz 1150 MHz
3517UE14 W / ? GHz 17 W / 1.7 GHz 25 W / 2.6 GHz 2.8 GHz 1000 MHz $330
Core i53610MEN/A 35 W / 2.7 GHz N/A 3.3 GHz 650 MHz 950 MHz 3 MB $276
3439Y7 W / ? GHz 10 W / ? GHz 13 W / 1.5 GHz 2.3 GHz 350 MHz 850 MHz 2013-01-07 $250
3437UN/A 14 W / ? GHz 17 W / 1.9 GHz 25 W / 2.4 GHz 2.9 GHz 650 MHz 1200 MHz 2013-01-20 $225
3427U14 W / ? GHz 17 W / 1.8 GHz 25 W / 2.3 GHz 2.8 GHz 350 MHz 1150 MHz 2012-06-03
3380MN/A 35 W / 2.9 GHz N/A 3.6 GHz 650 MHz 1250 MHz 2013-01-20 $266
3365M35 W / 2.8 GHz 3.5 GHz 1350 MHz Q3 2012
3360M1200 MHz 2012-06-03 $266
3340M35 W / 2.7 GHz 3.4 GHz 1250 MHz 2013-01-20 $225
3339Y7 W / ? GHz 10 W / ? GHz 13 W / 1.5 GHz 2.0 GHz 350 MHz 850 MHz 2013-01-07 $250
3337UN/A 14 W / ? GHz 17 W / 1.8 GHz 2.7 GHz 350 MHz 1100 MHz 2013-01-20 $225
3320MN/A 35 W / 2.6 GHz 3.3 GHz 650 MHz 1200 MHz 2012-06-03
3317U14 W / ? GHz 17 W / 1.7 GHz 2.6 GHz 350 MHz 1050 MHz
3230MN/A 35 W / 2.6 GHz 3.2 GHz 650 MHz 1100 MHz 2013-01-20
3210M35 W / 2.5 GHz 3.1 GHz 2012-06-03
Core i33229Y7 W / ? GHz 10 W / ? GHz 13 W / 1.4 GHz N/A 350 MHz 850 MHz 2013-01-07 $250
3227UN/A 14 W / ? GHz 17 W / 1.9 GHz 1100 MHz 2013-01-20 $225
3217U14 W / ? GHz 17 W / 1.8 GHz 1050 MHz 2012-06-24
3217UE14 W / ? GHz 17 W / 1.6 GHz 900 MHz July 2013 $261
3130MN/A 35 W / 2.6 GHz 650 MHz 1100 MHz 2013-01-20 $225
3120M35 W / 2.5 GHz 2012-09-30
3120ME35 W / 2.4 GHz 900 MHz July 2013
3110M1000 MHz 2012-06-24
3115C25 W / 2.5 GHz N/A 4 MB 2013-09-10 $241
Pentium B925C15 W / 2.0 GHz OEM
A10182 (2) 35 W / 2.1 GHz 650 MHz 1000 MHz 1 MB June 2013 $86 (India)
2030M35 W / 2.5 GHz 1100 MHz 2 MB 2013-01-20 $134
2020M35 W / 2.4 GHz 2012-09-30
2127U17 W / 1.9 GHz 350 MHz 2013-06-09
2117U17 W / 1.8 GHz 1000 MHz 2012-09-30
2129Y7 W 10 W / 1.1 GHz 850 MHz 2013-01-07 $150
Celeron 1019Y7 W 10 W / 1.0 GHz 800 MHz April 2013 $153
1020EN/A 35 W / 2.2 GHz 650 MHz 1000 MHz 2013-01-20 $86
1020M35 W / 2.1 GHz
1005M35 W / 1.9 GHz 2013-06-09
1000M35 W / 1.8 GHz 2013-01-20
1037U17 W / 1.8 GHz 350 MHz
1017U17 W / 1.6 GHz 2013-06-09
1007U17 W / 1.5 GHz 2013-01-20
1047UE17 W / 1.4 GHz 900 MHz $134
927UE1 (1) 17 W / 1.5 GHz 1 MB $107

Suffixes to denote:

  • M – Mobile processor
  • Q – Quad-core
  • U – Ultra-low power
  • X – Extreme performance (adjustable CPU ratio with no ratio limit)
  • Y – Extreme ultra-low power

Roadmap[edit]

Intel demonstrated the Haswell architecture in September 2011, which began release in 2013 as the successor to Sandy Bridge and Ivy Bridge.[54]

Fixes[edit]

Microsoft has released a microcode update for selected Sandy Bridge and Ivy Bridge CPUs for Windows 7 and up that addresses stability issues. The update, however, negatively impacts Intel G3258 and 4010U CPU models.[55][56][57]

See also[edit]

Notes[edit]

  1. ^ abcTransistor counts for M-2, H-2 and HM-4 were determined by a comparison of transistor counts in Sandy Bridge and HE-4. Performing a comparative analysis gave counts of 108 million transistors per core, 67 million transistors per 1 MB of L3 cache, 88 million transistors for the memory controller and other chip features, and roughly 21 million transistors for each execution unit inside the Intel HD 4000. All this is an attempt to determine the transistor count mathematically, and is not backed by any sources. Thus, these transistor counts may be inaccurate.

References[edit]

  1. ^"Origin of a Codename: Ivy Bridge". IntelFreePress.com. 19 April 2012. Archived from the original on 16 January 2014. Retrieved 16 January 2014.
  2. ^"Ivy Bridge Quad-Core to Have 77W TDP, Intel Plans for LGA1155 Ivy Bridge Entry". techPowerUp. October 18, 2011. Retrieved October 12, 2013.
  3. ^Anand Lal Shimpi (June 1, 2011). "Correction: Ivy Bridge and Thunderbolt – Featured, not Integrated". AnandTech. Retrieved November 11, 2011.
  4. ^Gruener, Wolfgang (October 19, 2011). "Intel to Sell Ivy Bridge Late in Q4 2011". Tom's Hardware. Retrieved November 11, 2011.
  5. ^Demerjian, Charlie (April 23, 2012). "Intel launches Ivy Bridge amid crushing marketing buzzwords". SemiAccurate. Retrieved May 25, 2012.
  6. ^"Intel's Pentium and Core i3 Desktop Ivy Bridge CPUs Arrive". AnandTech. Retrieved October 12, 2013.
  7. ^"Does My Intel Processor Support Microsoft Windows 10?". Intel. Retrieved May 21, 2019.
  8. ^"Intel Israel: Innovation as a Leadership Strategy". Intel.com. Retrieved May 6, 2014.
  9. ^Webster, Clive (October 10, 2011). "Ivy Bridge Media Upgrades and Security Features". bit-tech. Dennis Publishing Limited. Retrieved December 22, 2013.
  10. ^Shvets, Gennadiy (November 27, 2011). "Ivy Bridge desktop CPU lineup details". CPU World. Retrieved December 22, 2013.
  11. ^"Intel Reinvents Transistors Using New 3-D structure". Intel. Retrieved May 4, 2011.
  12. ^Taylor, Greg; Cox, George (September 2011). "Behind Intel's New Random-Number Generator". Spectrum. IEEE. Archived from the original on July 1, 2019. Retrieved December 11, 2011.
  13. ^"Bull Mountain Software Implementation Guide". Intel. June 12, 2011. Retrieved December 4, 2011.
  14. ^"DirectXMath: F16C and FMA". Microsoft.com. Retrieved March 21, 2018.
  15. ^"Understanding Intel's Ivy Bridge Random Number Generator". ElectronicDesign.com. December 11, 2012. Retrieved March 21, 2018.
  16. ^ ab"Ivy Bridge Overclocking: Ratio Changes Without Reboot, More Ratios and DDR3-2800". Retrieved February 21, 2012.
  17. ^Karmehed, Anton (May 31, 2011). "Intel Ivy Bridge gets variable TDP and Thunderbolt". NHW. Archived from the original on May 25, 2012. Retrieved December 11, 2011.
  18. ^Anand Lal Shimpi (October 5, 2012). "Intel's Haswell Architecture Analyzed". AnandTech. Retrieved October 20, 2013.
  19. ^"Intel 64 and IA-32 Architectures Optimization Reference Manual". Intel.com. Intel. Retrieved October 12, 2013.
  20. ^"Intel 64 and IA-32 Architectures Optimization Reference Manual"(PDF). Intel.com. Intel. Retrieved October 12, 2013.
  21. ^ abVättö, Kristian (May 6, 2011). "Intel's Roadmap: Ivy Bridge, Panther Point, and SSDs". AnandTech. Retrieved November 11, 2011.
  22. ^https://downloadmirror.intel.com/29969/eng/ReleaseNotes_15.33.53.5161.pdf
  23. ^Larabel, Michael. "Intel Ivy Bridge Gets OpenGL 4.2 on Mesa 17.1". Phoronix. Retrieved October 12, 2017.
  24. ^LG Nilsson, Most desktop Ivy Bridge systems won't support three displays // VR Zone, March 31, 2012 Archived October 17, 2012, at the Wayback Machine
  25. ^Delahunty, James (March 30, 2011). "Intel Ivy Bridge chips feature PCI Express 3.0". After Dawn News. Retrieved November 11, 2011.
  26. ^Angelini, Chris. "Intel Core i7-4960X Review: Ivy Bridge-E, Benchmarked – Ivy Bridge-E: Core i7-4960X Gets Tested". Tomshardware.com. Retrieved October 12, 2013.
  27. ^"Intel's Core i7-4960X processor reviewed – The Tech Report – Page 7". The Tech Report. Retrieved October 12, 2013.
  28. ^"The Ivy Bridge Preview: Core i7 3770K Tested". AnandTech. Retrieved May 25, 2012.
  29. ^ ab"Intel's Ivy Bridge Hotter Than Sandy Bridge When Overclocked".
  30. ^ abcd"Ivy Bridge proven to suffer from poor thermal grease by". VR-Zone.com. May 11, 2012. Retrieved May 25, 2012.
  31. ^"TIM is Behind Ivy Bridge Temperatures After All".
  32. ^ ab"Intel to Officially Enable Better Overclocking in Haswell". News.Softpedia.com. September 20, 2012. Retrieved October 12, 2013.
  33. ^"Ivy Bridge's heat problem is indeed caused by Intel's TIM choice". US: TweakTown. May 11, 2012. Retrieved October 12, 2013.
  34. ^WhiteFireDragon (August 3, 2012). "Fixing Haswell and Ivy Bridge CPU temps: IHS removal". YouTube.com. Retrieved November 8, 2013.
  35. ^"Intel admits Ivy Bridge chips run hotter". The Inquirer. Archived from the original on May 5, 2012. Retrieved May 25, 2012.CS1 maint: unfit URL (link)
  36. ^ abcd"Mobile 3rd Generation Intel Core Processor Family Datasheet"(PDF). Intel. April 23, 2012.
  37. ^"The Intel Ivy Bridge (Core i7 3770K) Review". AnandTech. Retrieved May 25, 2012.
  38. ^ abGoto, Hiroshige (February 22, 2012). "Ivy Bridge Modular Design" (in Japanese). Retrieved December 22, 2013.
  39. ^"Ivy Bridge: 1.4B Transistors".
  40. ^Doug Crowthers (August 8, 2012). "Intel's Ivy Bridge-E set for Q3 2013, Shows Leaked Slide". Tomshardware.com. Retrieved October 12, 2013.
  41. ^Timothy Prickett Morgan (September 10, 2013). "Intel carves up Xeon E5-2600 v2 chips for two-socket boxes". The Register. Retrieved September 13, 2013.
  42. ^"Intel Introduces Highly Versatile Datacenter Processor Family Architected for New Era of Services". Press release. September 10, 2013. Retrieved September 13, 2013.
  43. ^"Intel roadmap reveals 10-core Xeon E5-2600 V2 Ivy Bridge CPU". Retrieved January 3, 2013.
  44. ^ abS., Mike (January 3, 2013). "Leak: Enthusiast-Grade IB-E CPUs Slated for Q3 along with SB-E Core i7-3980X 8 Core CPU for Q2". Legit Reviews. Retrieved January 23, 2013. (citing an original post by Hassan Mujtaba on the same website)
  45. ^"Leaked slide outs Ivy Bridge-E models".
  46. ^Shvets, Gennadiy (March 30, 2013). "Intel Ivy Bridge-E extreme CPUs to launch in Q3 2013". CPU World. Retrieved March 30, 2013. (citing VR Zone)
  47. ^Thomas Ryan (January 10, 2014). "Intel Announces the Xeon E5-2400 v2 Series at CES". SemiAccurate. Retrieved January 21, 2014.
  48. ^"Intel extends Xeon E5 server chip family with E5-2400 v2 line-up – IT News from". V3.co.uk. Retrieved January 21, 2014.
  49. ^ abcCyril Kowaliski (August 1, 2013). "Ivy Bridge-E processors to start at $310".
  50. ^"Intel Core i7-3770K Processor (8M Cache, up to 3.90 GHz)". Ark.intel.com. Retrieved May 25, 2012.
  51. ^ ab"Intel details 14 dual-core Ivy Bridge processors ahead of Computex". Retrieved September 30, 2012.
  52. ^"Intel makes custom Xeons for Oracle". Retrieved June 25, 2014.
  53. ^"The Technical Details Behind Intel's 7 Watt Ivy Bridge CPUs". Ars Technica. Retrieved January 14, 2013.
  54. ^Crothers, Brooke (September 14, 2011). "Haswell chip completes Ultrabook 'revolution'". The Circuits Blog. CNET.com. Retrieved November 11, 2011.
  55. ^"June 2015 Intel CPU microcode update for Windows". Retrieved November 7, 2020.
  56. ^"Windows 7: June 2015 microcode update for Intel processors in Windows". Retrieved November 7, 2020.
  57. ^"Windows update KB3064209 (G3258 & 4010U)". Retrieved November 7, 2020.

External links[edit]

Sours: https://en.wikipedia.org/wiki/Ivy_Bridge_(microarchitecture)

Gen intel date 3rd release

Intel Core

Intel Core are streamlined midrange consumer, workstation and enthusiast computers central processing units (CPU) marketed by Intel Corporation. These processors displaced the existing mid- to high-end Pentium processors at the time of their introduction, moving the Pentium to the entry level. Identical or more capable versions of Core processors are also sold as Xeon processors for the server and workstation markets.

The lineup of Core processors includes the Intel Core i3, Intel Core i5, Intel Core i7, and Intel Core i9, along with the X-series of Intel Core CPUs.[2][3]

Outline[edit]

Although Intel Core is a brand that promises no internal consistency or continuity, the processors within this family have been, for the most part, broadly similar.

The first products receiving this designation were the Core Solo and Core Duo Yonah processors for mobile from the Pentium M design tree, fabricated at 65 nm and brought to market in January 2006. These are substantially different in design than the rest of the Intel Core product group, having derived from the Pentium Pro lineage that predated Pentium 4.

The first Intel Core desktop processor—and typical family member—came from the Conroe iteration, a 65 nm dual-core design fabricated brought to market in July 2006, based on the Intel Core microarchitecture with substantial enhancements in micro-architectural efficiency and performance, outperforming Pentium 4 across the board (or near to it), while operating at drastically lower clock rates. Maintaining high instructions per cycle (IPC) on a deeply pipelined and resourced out-of-order execution engine has remained a constant fixture of the Intel Core product group ever since.

The new substantial bump in microarchitecture came with the introduction of the 45 nm Bloomfield desktop processor in November 2008 on the Nehalem architecture, whose main advantage came from redesigned I/O and memory systems featuring the new Intel QuickPath Interconnect and an integrated memory controller supporting up to three channels of DDR3 memory.

Subsequent performance improvements have tended toward making additions rather than profound changes, such as adding the Advanced Vector Extensions instruction set extensions to Sandy Bridge, first released on 32 nm in January 2011. Time has also brought improved support for virtualization and a trend toward higher levels of system integration and management functionality (and along with that, increased performance) through the ongoing evolution of facilities such as Intel Active Management Technology.

Since 2019, the Core brand has been based on four product lines, consisting of the entry level i3, the mainstream i5, the high-end i7, and the "enthusiast" i9.

Comparison[edit]

Vulnerabilities[edit]

In early 2018, news reports indicated that security flaws, referred to as "Meltdown" and "Spectre", were found "in virtually all Intel processors [made in the past two decades] that will require fixes within Windows, macOS and Linux". The flaw also affected cloud servers. At the time, Intel was not commenting on this issue.[17][18] According to a New York Times report, "There is no easy fix for Spectre ... as for Meltdown, the software patch needed to fix the issue could slow down computers by as much as 30 percent".[19]

In mid 2018, the majority of Intel Core processors were found to possess a defect (the Foreshadow vulnerability), which undermines the Software Guard Extensions (SGX) feature of the processor.[20][21][22] In March 2020, computer security experts reported another Intel chip security flaw, besides the Meltdown and Spectre flaws, with the systematic name CVE-2019-0090 (or, "Intel CSME Bug"). This newly found flaw is not fixable with a firmware update, and affects nearly "all Intel chips released in the past five years".[23][24][25]

Overview[edit]

Clock speeds range from 1.2 GHz to 4.2 GHz. (Intel Core i7-7700K) (or 4.5 GHz via Intel Turbo Boost Technology)[27]

Origins[edit]

Core[edit]

Main article: Enhanced Pentium M (microarchitecture)

For details about the processor core, see Yonah (microprocessor).

The original Core brand refers to Intel's 32-bit mobile dual-corex86CPUs, which derived from the Pentium M branded processors. The processor family used an enhanced version of the Intel P6 microarchitecture. It emerged in parallel with the NetBurst microarchitecture (Intel P68) of the Pentium 4 brand, and was a precursor of the 64-bit Core microarchitecture of Core 2 branded CPUs. The Core brand had two branches: the Duo (dual-core) and Solo (Duo with one disabled core, which replaced the Pentium M brand of single-core mobile processor).

Intel launched the Core brand on January 6, 2006 with the release of the 32-bitYonahCPU – Intel's first dual-core mobile (low-power) processor. Its dual-core layout closely resembled two interconnected Pentium M branded CPUs packaged as a single die (piece) silicon chip (IC). Hence, the 32-bit microarchitecture of Core branded CPUs – contrary to its name – had more in common with Pentium M branded CPUs than with the subsequent 64-bit Core microarchitecture of Core 2 branded CPUs. Despite a major rebranding effort by Intel starting January 2006, some companies continued to market computers with the Yonah core marked as Pentium M.

The Core series is also the first Intel processor used as the main CPU in an Apple Macintosh computer. The Core Duo was the CPU for the first generation MacBook Pro, while the Core Solo appeared in Apple's Mac Mini line. Core Duo signified the beginning of Apple's shift to Intel processors across the entire Mac line.

In 2007, Intel began branding the Yonah core CPUs intended for mainstream mobile computers as Pentium Dual-Core, not to be confused with the desktop 64-bit Core microarchitecture CPUs also branded as Pentium Dual-Core.

September 2007 and January 4, 2008, marked the discontinuation of a number of Core branded CPUs including several Core Solo, Core Duo, Celeron and one Core 2 Quad chip.[28][29]

Core Solo[edit]

Intel Core Solo[30] (product code 80538) uses the same two-core die as the Core Duo, but features only one active core. Depending on demand, Intel may also simply disable one of the cores to sell the chip at the Core Solo price—this requires less effort than launching and maintaining a separate line of CPUs that physically only have one core. Intel had used the same strategy previously with the 486 CPU in which early 486SX CPUs were in fact manufactured as 486DX CPUs but with the FPU disabled.

Core Duo[edit]

Intel Core Duo[31] (product code 80539) consists of two cores on one die, a 2 MB L2 cache shared by both cores, and an arbiter bus that controls both L2 cache and FSB (front-side bus) access.

Core 2[edit]

Main article: Core (microarchitecture)

The successor to Core is the mobile version of the Intel Core 2 line of processors using cores based upon the Intel Core microarchitecture,[32] released on July 27, 2006. The release of the mobile version of Intel Core 2 marks the reunification of Intel's desktop and mobile product lines as Core 2 processors were released for desktops and notebooks, unlike the first Intel Core CPUs that were targeted only for notebooks (although some small form factor and all-in-one desktops, like the iMac and the Mac Mini, also used Core processors).

Unlike the Intel Core, Intel Core 2 is a 64-bit processor, supporting Intel 64. Another difference between the original Core Duo and the new Core 2 Duo is an increase in the amount of Level 2 cache. The new Core 2 Duo has tripled the amount of on-board cache to 6 MB. Core 2 also introduced a quad-core performance variant to the single- and dual-core chips, branded Core 2 Quad, as well as an enthusiast variant, Core 2 Extreme. All three chips are manufactured at a 65 nm lithography, and in 2008, a 45 nm lithography and support Front Side Bus speeds ranging from 533 MHz to 1600 MHz. In addition, the 45 nm die shrink of the Core microarchitecture adds SSE4.1 support to all Core 2 microprocessors manufactured at a 45 nm lithography, therefore increasing the calculation rate of the processors.

Core 2 Solo[edit]

The Core 2 Solo,[33] introduced in September 2007, is the successor to the Core Solo and is available only as an ultra-low-power mobile processor with 5.5 Watt thermal design power. The original U2xxx series "Merom-L" used a special version of the Merom chip with CPUID number 10661 (model 22, stepping A1) that only had a single core and was also used in some Celeron processors. The later SU3xxx are part of Intel's CULV range of processors in a smaller µFC-BGA 956 package but contain the same Penryn chip as the dual-core variants, with one of the cores disabled during manufacturing.

Core 2 Duo[edit]

Inside of a Sony VAIO laptop (VGN-C140G)

The majority of the desktop and mobile Core 2 processor variants are Core 2 Duo[34][35] with two processor cores on a single Merom, Conroe, Allendale, Penryn, or Wolfdale chip. These come in a wide range of performance and power consumption, starting with the relatively slow ultra-low-power Uxxxx (10 W) and low-power Lxxxx (17 W) versions, to the more performance oriented Pxxxx (25 W) and Txxxx (35 W) mobile versions and the Exxxx (65 W) desktop models. The mobile Core 2 Duo processors with an 'S' prefix in the name are produced in a smaller µFC-BGA 956 package, which allows building more compact laptops.

Within each line, a higher number usually refers to a better performance, which depends largely on core and front-side bus clock frequency and amount of second level cache, which are model-specific. Core 2 Duo processors typically use the full L2 cache of 2, 3, 4, or 6 MB available in the specific stepping of the chip, while versions with the amount of cache reduced during manufacturing are sold for the low-end consumer market as Celeron or Pentium Dual-Core processors. Like those processors, some low-end Core 2 Duo models disable features such as Intel Virtualization Technology.

Core 2 Quad[edit]

Core 2 Quad[36][37] processors are multi-chip modules consisting of two dies similar to those used in Core 2 Duo, forming a quad-core processor. This allows twice the performance of a dual-core processors at the same clock frequency in ideal conditions.

Initially, all Core 2 Quad models were versions of Core 2 Duo desktop processors, Kentsfield derived from Conroe and Yorkfield from Wolfdale, but later Penryn-QC was added as a high-end version of the mobile dual-core Penryn.

The Xeon 32xx and 33xx processors are mostly identical versions of the desktop Core 2 Quad processors and can be used interchangeably.

Core 2 Extreme[edit]

Core 2 Extreme processors[38][39] are enthusiast versions of Core 2 Duo and Core 2 Quad processors, usually with a higher clock frequency and an unlocked clock multiplier, which makes them especially attractive for overclocking. This is similar to earlier Pentium processors labeled as Extreme Edition. Core 2 Extreme processors were released at a much higher price than their regular version, often $999 or more.

1st generation[edit]

Nehalem microarchitecture[edit]

Main article: Nehalem (microarchitecture)

With the release of the Nehalem microarchitecture in November 2008,[40] Intel introduced a new naming scheme for its Core processors. There are three variants, Core i3, Core i5 and Core i7, but the names no longer correspond to specific technical features like the number of cores. Instead, the brand is now divided from low-level (i3), through mid-range (i5) to high-end performance (i7),[41] which correspond to three, four and five stars in Intel's Intel Processor Rating[42] following on from the entry-level Celeron (one star) and Pentium (two stars) processors.[43] Common features of all Nehalem based processors include an integrated DDR3 memory controller as well as QuickPath Interconnect or PCI Express and Direct Media Interface on the processor replacing the aging quad-pumped Front Side Bus used in all earlier Core processors. All these processors have 256 KB L2 cache per core, plus up to 12 MB shared L3 cache. Because of the new I/O interconnect, chipsets and mainboards from previous generations can no longer be used with Nehalem-based processors.

Core i3[edit]

Intel intended the Core i3 as the new low end of the performance processor line from Intel, following the retirement of the Core 2 brand.[44][45]

The first Core i3 processors were launched on January 7, 2010.[46]

The first Nehalem based Core i3 was Clarkdale-based, with an integrated GPU and two cores.[47] The same processor is also available as Core i5 and Pentium, with slightly different configurations.

The Core i3-3xxM processors are based on Arrandale, the mobile version of the Clarkdale desktop processor. They are similar to the Core i5-4xx series but running at lower clock speeds and without Turbo Boost.[48] According to an Intel FAQ they do not support Error Correction Code (ECC) memory.[49] According to motherboard manufacturer Supermicro, if a Core i3 processor is used with a server chipset platform such as Intel 3400/3420/3450, the CPU supports ECC with UDIMM.[50] When asked, Intel confirmed that, although the Intel 5 series chipset supports non-ECC memory only with the Core i5 or i3 processors, using those processors on a motherboard with 3400 series chipsets it supports the ECC function of ECC memory.[51] A limited number of motherboards by other companies also support ECC with Intel Core ix processors; the Asus P8B WS is an example, but it does not support ECC memory under Windows non-server operating systems.[52]

Core i5[edit]

Lynnfield was the first Core i5 processors using the Nehalem microarchitecture, introduced on September 8, 2009 as a mainstream variant of the earlier Core i7.[53][54] Lynnfield Core i5 processors have an 8 MB L3 cache, a DMI bus running at 2.5 GT/s and support for dual-channel DDR3-800/1066/1333 memory and have Hyper-threading disabled. The same processors with different sets of features (Hyper-threading and other clock frequencies) enabled are sold as Core i7-8xx and Xeon 3400-series processors, which should not be confused with high-end Core i7-9xx and Xeon 3500-series processors based on Bloomfield. A new feature called Turbo Boost Technology was introduced which maximizes speed for demanding applications, dynamically accelerating performance to match the workload.

After Nehalem received a 32 nm Westmere die shrink, Arrandale, the dual-core mobile Core i5 processors and its desktop counterpart Clarkdale was introduced in January 2010, together with Core i7-6xx and Core i3-3xx processors based on the same architecture. Arrandale processors have integrated graphics capability. Core i3-3xx does not support for Turbo Boost, L3 cache in Core i5-5xx processors is reduced to 3 MB, while the Core i5-6xx uses the full cache[55] , Clarkdale is sold as Core i5-6xx, along with related Core i3 and Pentium processors. It has Hyper-Threading enabled and the full 4 MB L3 cache.[56]

According to Intel "Core i5 desktop processors and desktop boards typically do not support ECC memory",[57] but information on limited ECC support in the Core i3 section also applies to Core i5 and i7.[citation needed]

Core i7[edit]

Intel Core i7 as an Intel brand name applies to several families of desktop and laptop 64-bitx86-64 processors using the Nehalem, Westmere, Sandy Bridge, Ivy Bridge, Haswell, Broadwell, Skylake, and Kaby Lakemicroarchitectures. The Core i7 brand targets the business and high-end consumer markets for both desktop and laptop computers,[59] and is distinguished from the Core i3 (entry-level consumer), Core i5 (mainstream consumer), and Xeon (server and workstation) brands.

Introduced in late 2008, Bloomfield was the first Core i7 processors based on the Nehalem architecture.[60][61][62][63] The following year, Lynnfield desktop processors and Clarksfield mobile processors brought new quad-core Core i7 models based on the said architecture.[64]

After Nehalem received a 32 nm Westmere die shrink, Arrandale dual-core mobile processors were introduced in January 2010, followed by Core i7's first six-core desktop processor Gulftown in March 16, 2010. Both the regular Core i7 and the Extreme Edition are advertised as five stars in the Intel Processor Rating.

The first-generation Core i7 uses two different sockets; LGA 1366 designed for high-end desktops and servers, and LGA 1156 used in low- and mid-end desktops and servers. In each generation, the highest-performing Core i7 processors use the same socket and QPI-based architecture as the medium-end Xeon processors of that generation, while lower-performing Core i7 processors use the same socket and PCIe/DMI/FDI architecture as the Core i5.

"Core i7" is a successor to the Intel Core 2 brand.[65][66][67][68] Intel representatives stated that they intended the monikerCore i7 to help consumers decide which processor to purchase as Intel releases newer Nehalem-based products in the future.[69]

2nd generation[edit]

Sandy Bridge microarchitecture[edit]

Main article: Sandy Bridge

In early 2011, Intel introduced a new microarchitecture named Sandy Bridge. This is the second generation of the Core processor microarchitecture. It kept all the existing brands from Nehalem, including Core i3/i5/i7, and introduced new model numbers. The initial set of Sandy Bridge processors includes dual- and quad-core variants, all of which use a single 32 nm die for both the CPU and integrated GPU cores, unlike the earlier microarchitectures. All Core i3/i5/i7 processors with the Sandy Bridge microarchitecture have a four-digit model number. With the mobile version, the thermal design power can no longer be determined from a one- or two-letter suffix but is encoded into the CPU number. Starting with Sandy Bridge, Intel no longer distinguishes the code names of the processor based on number of cores, socket or intended usage; they all use the same code name as the microarchitecture itself.

Ivy Bridge is the codename for Intel's 22 nm die shrink of the Sandy Bridge microarchitecture based on tri-gate ("3D") transistors, introduced in April 2012.

Core i3[edit]

Released on January 20, 2011, the Core i3-2xxx line of desktop and mobile processors is a direct replacement of the 2010 "Clarkdale" Core i3-5xx and "Arrandale" Core i3-3xxM models, based on the new microarchitecture. While they require new sockets and chipsets, the user-visible features of the Core i3 are largely unchanged, including the lack of support for Turbo Boost and AES-NI. Unlike the Sandy Bridge-based Celeron and Pentium processors, the Core i3 line does support the new Advanced Vector Extensions. This particular processor is the entry-level processor of this new series of Intel processors.

Core i5[edit]

A Core i5-2500K. The K suffix indicates an unlocked clock multiplier, which allows for easier overclocking.

In January 2011, Intel released new quad-core Core i5 processors based on the "Sandy Bridge" microarchitecture at CES 2011. New dual-core mobile processors and desktop processors arrived in February 2011.

The Core i5-2xxx line of desktop processors are mostly quad-core chips, with the exception of the dual-core Core i5-2390T, and include integrated graphics, combining the key features of the earlier Core i5-6xx and Core i5-7xx lines. The suffix after the four-digit model number designates unlocked multiplier (K), low-power (S) and ultra-low-power (T).

The desktop CPUs now all have four non-SMT cores (like the i5-750), with the exception of the i5-2390T. The DMI bus runs at 5 GT/s.

The mobile Core i5-2xxxM processors are all dual-core and hyper-threaded chips like the previous Core i5-5xxM series, and share most of the features with that product line.

Core i7[edit]

The Core i7 brand was the high-end for Intel's desktop and mobile processors, until the announcement of the i9 in 2017. Its Sandy Bridge models feature the largest amount of L3 cache and the highest clock frequency. Most of these models are very similar to their smaller Core i5 siblings. The quad-core mobile Core i7-2xxxQM/XM processors follow the previous "Clarksfield" Core i7-xxxQM/XM processors, but now also include integrated graphics.

3rd generation[edit]

Ivy Bridge microarchitecture[edit]

Main article: Ivy Bridge (microarchitecture)

Ivy Bridge is the codename for a "third generation" line of processors based on the 22 nm manufacturing process developed by Intel. Mobile versions of the CPU were released on April 2012 following with desktop versions on September 2012.

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This section needs expansion. You can help by adding to it. (April 2014)

Core i3[edit]

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This section needs expansion. You can help by adding to it. (April 2014)

The Ivy Bridge-based Core-i3-3xxx line is a minor upgrade to 22 nm process technology and better graphics.

Core i5[edit]

Core i7[edit]

4th generation[edit]

Haswell microarchitecture[edit]

Main article: Haswell (microarchitecture)

Haswell is the fourth generation Core processor microarchitecture, and was released in 2013.

Core i3[edit]

Core i5[edit]

Core i7[edit]

5th generation[edit]

Broadwell microarchitecture[edit]

Main article: Broadwell (microarchitecture)

Broadwell is the fifth generation Core processor microarchitecture, and was released by Intel on September 6, 2014, and began shipping in late 2014. It is the first to use a 14 nm chip.[71] Additionally, mobile processors were launched in January 2015[72] and Desktop Core i5 and i7 processors were released in June 2015.[73]

Desktop processor (DT-Series)[edit]

Mobile processors (U-Series)[edit]

Processor brandingModel (list)Cores
(Threads)
L3 CacheGPU ModelSocketTDPProcessI/O BusRelease
Date
Core i7 5xx7U 2 (4)4 MBIris 6100BGA 116828 W 14 nmDirect Media Interface,
Integrated GPU
January 2015
5x50UHD 600015 W
5x00UHD 5500
Core i5 5xx7U2 (2)3 MBIris 610028 W
5x50UHD 600015 W
5x00UHD 5500
Core i3 5xx7UIris 610028 W
5xx5U HD 5500 15 W
5xx0U

Mobile Processors (Y-Series)[edit]

Processor branding Model (list) Cores
(Threads)
L3 Cache GPU ModelSocket TDPProcess I/O Bus Release
Date
Core M 5Yxx 2 (2) 4 MB HD 5300 BGA 1234 4.5 W 14 nm Direct Media Interface,
Integrated GPU
September 2014

6th generation[edit]

Broadwell microarchitecture[edit]

High-end Desktop Processors (E-Series)[edit]

Skylake microarchitecture[edit]

Main article: Skylake (microarchitecture)

Skylake is the sixth generation Core processor microarchitecture, and was launched in August 2015. Being the successor to the Broadwell line, it is a redesign using the same 14 nm manufacturing process technology; however the redesign has better CPU and GPU performance and reduced power consumption. Intel also disabled overclocking non -K processors.

Desktop processors (DT-Series)[

Sours: https://en.wikipedia.org/wiki/Intel_Core
How to install windows 11 on older hardware (non compatible/intel core i5 3rd gen)

Core i5 3rd Gen

After much waiting and anticipation, Intel finally unveiled the Core i5 3rd Gen processors in April 2012. Based on the Ivy Bridge microarchitecture and the 22nm manufacturing process, these processors offer a huge bundle of exciting enhancements:  improved graphics, more power efficient, wireless display, HD video technology and quick sync engine.

This series of processors are built on Intel’s 22 nanometer, trigate manufacturing process. It has 1.4 billion transistors on a 160mm2 die area. The processor delivers stunning graphic performance thanks to the Intel HD 4000 graphics processing unit. The processor has the turbo boost technology but hyper threading technology is missing from the processor. It also has 6 MB L3 cache which is also known as Intel Smart Cache. Let us have a look at the features and the benefits:

VT-x: This is a set of new instructions that helps to improve the software performance for the floating point applications like audio codecs, audio processing and video and images editing applications.

AES Instruction (AES-NII): It speeds up the AES applications and adds hardware acceleration to AES algorithms.

Integrated memory controller: The integrated memory controller delivers superb memory read/write performance efficient lower latency, prefetching algorithms and higher memory bandwidth.

Thermal solution for boxed CPU: It comes with a four- pin connector for fan speed control that helps to minimize the acoustic noise levels generated by running the fan at higher speed for thermal performance.

Intel Virtualization Technology: Enables one hardware platform to function as multiple virtual platforms. This helps to improve the manageability by limiting the downtime and maintaining productivity through isolating computing activities into separate partitions.

Intel recently launched Core i5-T3470 which is a quad core processor that comes with a clock speed of 3.2 GHz. The Turbo frequency can maximum go up to 3.6 GHz and the Smart Cache is 6 MB. The processor has a TDP (Thermal Design Power) is 77W. This Core i5 3rd Gen model is not a K-SKU. In short it means that it is only partially locked. The base clock speed is 100 MHz and the top Turbo frequency is 3.6 GHz. Through overclocking the multiplier can be increased to 40 and the Turbo frequency of 4.0 GHz can be achieved. There is also scope to step up the base clock a bit more to 5-7% more. Overclocking is enabled, which gives the flexibility to set the system specification as per individual preferences.

Filed Under: Intel Core CPUs, Processors (CPUs)Tagged With: Core i5 3rd Gen, core i5 3rd generation, intel core i5 3rd gen

Sours: https://www.pctechguide.com/processors-cpus/core-i5-3rd-gen

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