Intel CPU (Processor) List in Order of Performance
How are Intel CPUs ranked in order of performance – is there an easy list to check?
Keeping track of performance across modern Intel CPUs can be difficult. Intel releases new Processor SKUs every few Months and entirely new CPU generations about every year and a half.
Which Intel Processor is best for you depends on your typical workloads. If you’re a professional doing active work like Photo Editing or 3D Modeling or are playing AAA Games, a CPU that has high single-core performance is more important than a CPU with a lot of cores.
If you’re running workloads, though, that can easily be parallelized, such as 3D Rendering, Video Editing, Batch Processing, and Machine Learning, to name a few, an Intel CPU with a high number of cores is the right pick for you.
Most workloads, though, can make use of both fast single-core performance and high multi-core performance, at least to a certain degree, and that’s why I’ve created this handy little list of Intel CPUs in order of Performance that you can sort to your liking.
Also, check out our related Lists:
- AMD CPU List in order of performance
- Nvidia Graphics Card List in order of performance
- AMD Graphics Card List in order of performance
Intel CPU (Processor) List In Order Of Performance
CPU Name | Single Core Performance | Multi Core Performance | Performance Total* | Performance / Dollar* | $ Price (MSRP) |
---|---|---|---|---|---|
Intel i9 12900KS | 2082 | 27796 | 739 | ||
Intel i9 12900K | 2003 | 27483 | 589 | ||
Intel i9 12900KF | 1997 | 27472 | 574 | ||
Intel i9 12900F | 1988 | 26455 | 494 | ||
Intel i7 12700K | 1939 | 23488 | 419 | ||
Intel i5 12600K | 1918 | 17660 | 299 | ||
Intel i7 12700F | 1862 | 21568 | 324 | ||
Intel i5 12500 | 1804 | 12974 | 212 | ||
Intel i9 11900K | 1671 | 16211 | 549 | ||
Intel i5 12400F | 1648 | 12321 | 174 | ||
Intel i5 12400 | 1647 | 12344 | 199 | ||
Intel i7 11700K | 1596 | 14812 | 409 | ||
Intel i5 11600K | 1564 | 11277 | 272 | ||
Intel i9 10900K | 1415 | 18034 | 499 | ||
Intel i9 10850K | 1367 | 16820 | 464 | ||
Intel i7 10700K | 1345 | 13302 | 384 | ||
Intel i9 9900K | 1343 | 12470 | 499 | ||
Intel i7 9700K | 1285 | 9428 | 385 | ||
Intel i5 9600K | 1187 | 6596 | 262 | ||
Intel i9 9900X | 1182 | 13994 | 989 | ||
Intel i9 9980XE | 1114 | 27093 | 1979 | ||
Intel i9 9960X | 1075 | 17953 | 1684 | ||
Intel i9 9920X | 1067 | 14793 | 1189 | ||
Intel i9 10980XE | 1063 | 25490 | 979 | ||
CPU Name | Single Score | Multi Score | Performance Total* | Performance / Dollar* | $ Price (MSRP) |
*Weighted. Total Performance (column) is relative to an Intel i7 11700k, weighed equally at 50% single-core and 50% multi-core performance. This weighing will indicate good all-round performance for most workloads without going overboard on too low single-core performance or too many cores.
Note: If you’re running very specific tasks, though, that you know can make good use of, e.g., a lot of cores, sort the table by multi-core performance. Or, if you’re certain your workloads only need high single-core performance, sort by that column.
Benchmark used for this list is Cinebench R23.
Best Intel Processor for the money
Intel’s entry-level CPUs have high value considering their performance per dollar. Both the Intel i5 12400F and 12500 lead the Performance / Dollar Chart, given their very reasonable pricing.
This is not to say everyone should be buying an entry-level Intel i5. They are somewhat limited in overall performance and have fewer cores than might be necessary for your workloads, but they are a great pick for many low-level tasks such as general productivity.
If your budget is limited, the Intel Core i5 12600k is one of the best CPUs for most workloads and games. If you’re willing to spend some more, the Intel i7 12700k 12-Core CPU packs some serious performance if your workloads can use more cores.
In the end, the best Intel CPU for the money depends on your workloads and requirements and, of course, your budget limit.
Let’s take a look at the best Intel CPU within certain price ranges:
Best Intel Processor under 500$
After recent considerable price cuts, Intel’s best-performing CPU under 500$ is the Intel i9 12900F. At just 490$, the 16-Core Processor is a powerhouse of a CPU that’ll run any high-end workloads without any issues.
With a base clock of 2.4/1.8GHz (P-Core, E-Core) and a boost of up to 5.1GHz, the Intel i9 12900F sports 24 Threads at a maximum turbo power draw (TDP) of 202W.
Yes, Intel’s CPUs currently do draw considerably more power than AMD’s counterparts.
Best Intel CPU under 400$
The Intel i7 12700F is the best Intel CPU you can buy for under 400 dollars. Its price has been reduced to 324$ from its original MSRP of over 400$.
The 12 Cores and 16 Threads clock at 2.1/1.6GHz base and 4.9GHz boost. At 180W maximum turbo power draw, the 12700F won’t go too easy on your power bill, though.
Best Intel CPU under 200$
The Intel i5 12400 and 12500 are Intel’s best CPUs for under (or slightly over) 200 dollars.
Both come in at 6 performance cores & 12 Threads and have the same maximum power draw of 117W. The 12500, though, clocks at 3GHz base and 4.6GHz Boost, while the 12400 is limited to 2,4GHz Base and 4,4GHz Boost clocks.
Do give our Base / Boost Clock Guide a read to make sure you’re aware of the performance difference this can entail.
Which Intel CPU has the most Cores?
In the mainstream segment, the Intel i9 10980XE has 18 Cores / 36 Threads at its disposal. Although it is quite ancient, the CPU is still sold even though current-generation CPUs with fewer cores surpass it with higher performance. Because the 10980XE is an HEDT CPU that offers features such as a higher number of PCIe Lanes, though, it can still be interesting to some users. A better alternative for high-core-count CPUs, though, would be to get an AMD Threadripper.
On the Server-side, the Intel Xeon Platinum 8380 comes with 40 Cores / 80 Threads and is the Intel CPU with the currently highest number of cores.
What is the fastest Intel CPU?
This depends on the definition of “fast”. The highest multi-core performance is held by Intel’s highest core-count CPUs, such as the Intel Xeon Platinum 8380.
The highest single-core performance is held by the Intel Core i9 12900KS.
Is Intel i7 better than Intel i5?
Yes. Intel’s CPU segmentation is as follows:
- Core i9
- Core i7
- Core i5
- Core i3
The higher the number, the higher the core count, the higher the single-core performance, and the higher the power draw.
Is Intel Core better than Ryzen?
It depends on your needs and at what time you’re comparing the two. Both Intel and AMD have an excellent product line-up, but they release new SKUs every few months, and every 1.5 years or so, they release an entirely new generation of CPUs that usually takes back the crown from the competition for some time.
In terms of single core performance Intel is often in the lead. If we look at multi-core performance or power draw, though, AMD wins.
Check out our regularly updated Intel Ryzen vs Intel Core article here.
Over to you
I hope this Intel CPU List in order of performance helped you get closer to picking the right CPU for your needs. What Intel Processor do you want to buy? Let me know in the comments! ?
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Intel Processor List By Generation, Speed, Oldest To Newest
News / Tech News
— by Shardul — 2 Comments.
So today guys we will talk about the list of Intel processors divided based on generation, speed, oldest to newest. But do you know what are Intel processors?… OK let me help you out of this, Intel core is nothing but a central processing unit (CPU) marketed by Intel Corporation. Now following I provide you with the list of Intel processors by generations, speed, oldest to newest.
Intel processor list by generation:
The change in generation is mainly concentrated on processor microarchitecture.
Generation | Micro Processors | Size |
First Generation | Nehalem | 45 nanometer |
Second Generation | Sandy Bridge | 32 nanometer |
Third Generation | Ivy Bridge | 22 nanometer |
Fourth Generation | Haswell | 22 nanometer |
Fifth Generation | Broadwell | 14 nanometer |
Next Generation | Skylake | 14 nanometer |
Intel processor list based on speed:
Processor | Speed |
4004 | N/A |
8008 | 200 kHz |
8080 | 2MHz |
8085 | 2MHz |
8086 | 10MHz, 8MHz, 4. 77MHz |
8088 | 8MHz, 4.77MhZ |
80286 | 12MHz, 10MHz, 6MHz |
i80386 | 33MHz |
25MHz | |
20MHz | |
16MHz | |
i80486 | 25MHz to 50MHz |
Intel Pentium | 50MHz to 66MHz |
Intel Pentium MMX | 60MHz to 66MHz |
Intel Atom | 400MHz, 533MHz, 667 MHz, 2.5 GT/s |
Intel Celeron | 66Mhz, 100 MHz,
133MHz, 400 MHz 533MHz, 800 MHz |
Intel Pentium Pro | 60 MHz, 66MHz |
Intel Pentium || | 66MHz, 100 MHz |
Intel Pentium ||| | 100MHz, 133MHz |
Intel Xeon | 100MHz, 133MHz,400Mhz, 533 MHz
667MHz, 800MHz 1066MHz, 1333MHz 1600MHz, 4.8 GT/s 5.86 GT/s, 6.4 GT/s |
Pentium 4 | 400MHz, 533MHz800MHz, 1066MHz |
Pentium 4 | 800MHz, 1066MHz |
Pentium M | 400MHz, 533MHz |
Pentium D//EE | 533MHz, 800MHz, 1066MHz |
Intel Pentium Dual core | 533MHz, 667MHz,800MHz, 1066MHz |
Intel Pentium (2009) | 800 MHz, 1066MHz2. 5GT/s, 5GT/s |
Intel Core | 533MHz, 667MHz |
Intel Core 2 | 533MHz, 667MHz
800MHz, 1066MHz 1333MHz, 1600MHz |
Intel core i3 | 1066MHz, 1600 MHz2.5 to 5 GT/s |
Intel core i5 | 2.5 to 5GT/s |
Intel Core i7 | 4.8 GT/s, 6.4 GT/s |
Intel Core i7 (Extreme Edition) | 2.5GT/s, 6.4GT/s |
Intel Core i9 | 8GT/s |
Also Read: Google Update Lets You Turn Off Auto Image Download On Gmail For iPhone
Intel Processor list by date:
- i80386 (1985 to 1990)
- i80486 (1989 to 1992)
- Intel Pentium (1993 to 1999)
- Intel Pentium Pro (1995 to 1998)
- Intel Pentium MMX (1996 to 1999)
- Intel Pentium || (1997 to 1999)
- Intel Celeron (1998 to till date)
- Intel Xeon (1998 to till date)
- Intel Pentium ||| (1999 to 2003)
- Pentium 4 (2000 to 2008)
- Pentium 4 (2000 to 2008)
- Pentium M (2003 to 2008)
- Pentium D/EE (2005 to 2008)
- Intel Core (2006 to 2008)
- Intel Pentium Dual Core (2006 to 2009)
- Intel Core 2 (2006 to 2011)
- Intel Atom (2008 to 2009) also called Centrino Atom
- Intel Core i7 (2008 to till date)
- Intel Pentium (2009 to till date)
- Intel Core i5 (2009 to till date)
- Intel Core i3 (2010 to till date)
- Intel Core i7 (Extreme Edition) (2011 to till date)
- 8008 – April-72
- 8080 – April- 74
- 80286 – 1982
- 8088 – June-79
- 8086 – 8-June-78
- 8085 – March-76
- 4004 – 15,1971
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List of 9th Generation Processor (Some are yet to be released):
- Intel Core i9 Q3 (2017 to till date)
- Intel Core i9-9900KFC (14th Feb-2019)
- Intel 20XM Processor Extreme Edition (8M Intel CoreTM i9-7980XE Extreme Edition Processor, 24. 75M Cache, up to 4.20 GHz) i9-7980XE 1,933,533
- Intel® Core™ i9-7960X X-series Processor (22M Cache, up to 4.20 GHz) i9-7960X 1,855,467
- Intel® Core™ i9-7940X X-series Processor (19.25M Cache, up to 4.30 GHz) i9-7940X 1,803,167 Intel® Core™ i9-7920X X-series Processor (16.50M Cache, up to 4.30 GHz) i9-7920X 1,451,933
- Intel® Core™ i9-7900X X-series Processor (13.75M Cache, up to 4.30 GHz) i9-7900X 1,384,900
- Intel® Core™ i7-7820X X-series Processor (11M Cache, up to 4.30 GHz) i7-7820X 1,219,200
- Intel® Core™ i7-7800X X-series Processor (8.25M Cache, up to 4.00 GHz) i7-7800X 901,833
- Intel® Core™ i7-7740X X-series Processor (8M Cache, up to 4.50 GHz) i7-7740X 437,167
- Intel® Core™ i5-7640X X-series Processor (6M Cache, up to 4.20 GHz) i5-7640X 406,667
- Intel® Core™ i7-6950X Processor Extreme Edition (25M Cache, up to 3.50 GHz) i7-6950X 595,500
- Intel® Core™ i7-6900K Processor (20M Cache, up to 3.70 GHz) i7-6900K 509,867
- Intel® Core™ i7-6850K Processor (15M Cache, up to 3. 80 GHz) i7-6850K 432,600
- Intel® Core™ i7-6800K Processor (15M Cache, up to 3.60 GHz) i7-6800K 408,567
- Intel® Core™ i7-5960X Processor Extreme Edition (20M Cache, up to 3.50 GHz) i7-5960X 478,000
- Intel® Core™ i7-5930K Processor (15M Cache, up to 3.70 GHz) i7-5930K 420,583
- Intel® Core™ i7-5820K Processor (15M Cache, up to 3.60 GHz) i7-5820K 396,550
- Intel® Core™ i7-4960X Processor Extreme Edition (15M Cache, up to 4.00 GHz) i7-4960X 213,600
- Intel® Core™ i7-4940MX Processor Extreme Edition (8M Cache, up to 4.00 GHz) i7-4940MX 251,100
- Intel® Core™ i7-4930K Processor (12M Cache, up to 3.90 GHz) i7-4930K 201,733
- Intel® Core™ i7-4930MX Processor Extreme Edition (8M Cache, up to 3.90 GHz) i7-4930MX 243,000
- Intel® Core™ i7-4820K Processor (10M Cache, up to 3.90 GHz) i7-4820K 148,000
- Intel® Core™ i7-3970X Processor Extreme Edition (15M Cache, up to 4.00 GHz) i7-3970X 207,667
- Intel® Core™ i7-3960X Processor Extreme Edition (15M Cache, up to 3. 90 GHz) i7-3960X 195,800
- Intel® Core™ i7-3940XM Processor Extreme Edition (8M Cache, up to 3.90 GHz) i7-3940XM 120,000
- Intel® Core™ i7-3930K Processor (12M Cache, up to 3.80 GHz) i7-3930K 189,867
- Intel® Core™ i7-3920XM Processor Extreme Edition (8M Cache, up to 3.80 GHz) i7-3920XM 116,000
- Intel® Core™ i7-3820 Processor (10M Cache, up to 3.80 GHz) i7-3820 144,000
So Intel is continuously releasing various generation of processors by increasing its efficiency and by decreasing its size
TaggedIntel Processor
About Shardul
Shardul is a contributing writer at Selectyourdelas, tech explorer by passion and love 🙂
View all posts by Shardul →
How to interpret Intel processor brand names (e.g. 8th Gen Intel® Core™ i7-8700K)
For all intents and purposes, Intel processor brand names offer a convoluted naming system to the everyday computer user. A closer inspection though reveals something totally different.
The supposedly alphanumeric string denotes anything from model number, processor generation, performance tweaks and what not.
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Understanding processor brand names will cue you in on PC release date, performance tweaks, whether it’s mid to high-end and eventual price, to say the least before you purchase an Intel-powered PC.
Sadly though, Intel doesn’t really put much merit in explaining these processor brand names. I mean, in the PC world, Intel (and AMD) reign supreme, so why bother.
You often need to do some bit of digging in order to find anything to that effect. Some of the misconceptions, for instance, include whether Core i7 translates to 7 cores, and Core i5 means 5 cores. (Here’s a clue: No it doesn’t). Let’s get to the meat of the story. If we are to interpret these things, we need to do it properly.
Intel Core (Core i9 vs Core i7 vs Core i5 vs Core i3)
First things first. Intel has a somewhat understandable hierarchy among its processors. The lowest end Intel processors would be non-other than the Celeron brand now followed by the once mid to high-end Pentium processors.
At some point in the last decade or so, Intel replaced this naming scheme and introduced a new scheme altogether, which still isn’t that easy to follow.
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What you should know is that each Generation of processors has its own Core i3, Core i5 and Core i7 processor variations. And contrary to what you might think, Core i7 doesn’t mean that your PC has 7 core processors. Granted what you are thinking is in line with what Intel had in mind.
The Cores are purely speaking, an indicator of the performance thresholds. A more expensive Core i7 (for professionals) will be better than a mid-range Core i5 (for intermediate users) which in turn will be better than a more affordable Core i3 (for basic users). But even so, it’s not all cut and dye.
While not always the case, a Core i3 will have dual-core processors whereas Core i5 and Core i7 will have both dual-core and quad-core processors. Quad-core processors are obviously more powerful than dual-core processors. Core i3 had hyperthreading but not all Core i5 processors do. Core i5 and Core i7 have Turbo Boost whereas Core i3 doesn’t. Confused much?
Related:
- 8th gen Intel Core i3, i5, i7: Double core count, increased cache and better DDR4 support at a sweet price
- Intel Optane Memory explained
- Intel’s First 9th Generation Processors delayed till 2019
Generations (9th Gen, 8th Gen, e.t.c.)
A typical Intel PC will have an alphanumeric string which will look like: 8th Gen Intel® Core™ i7-8650U. Let’s backtrack here for a bit. Back in 2008, Intel introduced a new naming scheme for its Core processors i.e. Core i3, Core i5, Core i7 and now Core i9.
From the 1st Generation processors which came with Nehalem micro-architecture, Intel has gone through 9 iterations and counting over a period of ten years to reach the current 9th Generation Cannon Lake micro-architecture.
Intel incorporates the processor generation in the model name. It’s rather easy to spot and once seen cannot be unseen, trust me on that. Let’s use our example above, Intel® Core™ i7-8650U, the 8 in the model number stands for 8th generation.
The SKU number 650 in Intel® Core™ i7-8650U denotes the standing of that particular processor in the product lines. Often times, the higher, the better. The end letter, on the other hand, is the Product line suffix.
The U in Intel® Core™ i7-8650U, for instance, stands for Ultra Low Power.
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Product line suffix
The Product line suffixes you see on processor names are a code within themselves. They could be anything from the following: K, U, T, H, M, C, R, S, G, Y, HQ and a few others. These suffixes could mean anything from Unlocked, Ultra Low Power, Quad Core, High-Performance graphics, e. t.c. Here’s a tabulated explainer of most of the Product lines and what the end letters signify:
Suffix | Description | Example | PC |
---|---|---|---|
K | Unlocked | 8th Gen Intel® Core™ i7-8700K processor | Desktop |
T | Power-optimized lifestyle | 7th Gen Intel® Core™ i7-7700T processor | Desktop |
H | High performance graphics | 6th Gen Intel® Core™ i3-6100H processor | Mobile |
HK | High performance graphics, unlocked | 6th Gen Intel® Core™ i7-6820HK processor | Mobile |
HQ | High performance graphics, quad core | 7th Gen Intel® Core™ i7-7920HQ processor | Mobile |
U | Ultra-low power | 7th Gen Intel® Core™ i7-7500U processor | Mobile |
Y | Extremely low power | 7th Gen Intel® Core™ i7-7Y75 processor | Mobile |
G | Includes discrete graphics on package | 8th Gen Intel® Core™ i7-8705G processor | Mobile |
C | Unlocked desktop processor based on the LGA 1150 package with high performance graphics | 5th Gen Intel® Core™ i7-5775C processor | Desktop |
R | Desktop processor based on BGA1364 (mobile) package with high performance graphics | 5th Gen Intel® Core™ i7-5775R processo | Desktop |
M | Mobile | Intel® Xeon® processor E3-1535M v5 | Mobile |
S | Performance-optimized lifestyle | Intel® Core™ i7-4770S processor | Desktop |
MQ/QM | Quad-core mobile | Intel® Core™ i7-4702MQ processor | Mobile |
MX | Mobile extreme edition | Intel® Core™ i7-4940MX processor Extreme Edition | Mobile |
Featured Image: extremetech. com
Intel 8th Generation and 9th Generation Processor Lists Leaked: Coffee Lake Refresh?
by Ian Cutresson November 24, 2017 7:45 AM EST
- Posted in
- CPUs
- Intel
- Core i5
- Core i7
- Core i3
- Celeron
- Core 8th Gen
- Core i9
- Coffee Lake
- Ice Lake
- Kaby Lake Refresh
- Pentium Gold
- Core 9th Gen
86 Comments
|
86 Comments
Officially, Intel does not comment on unreleased products, which often has the knock-on effect that processors aren’t actually known about until the day they appear on shelves. In order to find information early (in order to prepare for launches), it comes down to software and retailers to expose the details, either accidentally or on purpose. From a couple of sources today, we now have a full list of Intel’s 8th Generation processor stack, which is expected to launch during the first half of 2018, as well as some elements of Intel’s next 9th generation products.
We have already had six processors from Intel’s desktop 8th Generation launch, called Coffee Lake, and a quartet of 8th generation notebook Kaby Lake refresh processors also launched. These are both called 8th generation, which can be confusing. Historically, Intel has never mixed and matched multiple microarchitecture designs in the same generation, but this changed when Murthy Renduchintala, Intel’s VP and GM of Client Computing and IoT, stated that ‘process tech use will be fluid based on segment’, indicating that within the same generation, there will be multiple microarchitectures at play. But along with the ten 8th Generation processors already launched, we have been expecting a broader stack of desktop and mobile parts, along with enterprise CPUs with ECC support.
One of the things to also come out of these leaks is confirmation of Intel’s new product stack alignment:
- Core i9
- Core i7
- Core i5
- Core i3
- Pentium Gold (Core)
- Pentium Silver (Atom)
- Celeron G (Core)
- Celeron N/J (Atom)
Pentium is now officially split between Gold and Silver, with Gold processors for the parts that use the Core microarchitecture, while Pentium Silver will be for Atom parts.
Intel’s 8th Generation Processors
The lists we have acquired starts with mobile processors. The key headline here is that Intel will be introducing the Core i9 brand to the mobile space, with one overclockable processor for now.
Intel 8th Generation Mobile Processors Coffee Lake-H |
|||||
Specifications are not confirmed |
Cores | Base Freq |
Turbo Freq |
L3 | Nominal TDP (PL1) |
Core i9-8950HK | 6 / 12 | ? | ? | 12 MB | 45 W |
Core i7-8850H | 6 / 12 | ? | ? | 12 MB | 45 W |
Core i7-8750H | 6 / 12 | ? | ? | 12 MB | 45 W |
Core i5-8400H | 6 / 6 | ? | ? | 9 MB | 45 W |
Core i3-8300H | 4 / 4 | ? | ? | 8 MB | 45 W |
What our sources do confirm is that all the i7-H and i7-HK processors will be based on Coffee Lake-H hardware, rather than Kaby Lake Refresh. This might be due to the 45W nature of the processors, and it is expected that the i3/i5/i7 naming will follow desktop Coffee Lake core counts, namely that Core i3 will be quad-core, Core i5 will be six-core and Core i7 parts will be six-core with hyperthreading. A Core i9 part in this context is undefined, but I expect it just to be an additional qualifier for a Core i7 mobile processor that is overclockable (hence it’s called an HK).
This also means that the first Core i9 Coffee Lake processor is a mobile processor.
Next up is the desktop list for 8th Generation Coffee Lake-S based processors. Six of these processors have already been launched (indicated with a *), so we can fill in a number of the gaps.
Intel 8th Generation Desktop Processors Coffee Lake-S |
|||||||
Specifications not confirmed except * |
Cores | Base Freq |
Turbo Freq |
L3 | TDP | List Price |
|
Core i7 | |||||||
Core i7-8700K | * | 6 / 12 | 3. 7 | 4.7 | 12 MB | 95 W | $359 |
Core i7-8700 | * | 6 / 12 | 3.2 | 4.6 | 12 MB | 65 W | $303 |
Core i7-8700B | 6 / 12 | ? | ? | 12 MB | ? | $303 | |
Core i7-8700T | 6 / 12 | ? | ? | 12 MB | 35 W | $303 | |
Core i7-8670 | 6 / 12 | ? | ? | 12 MB | 65 W | ? | |
Core i7-8670T | 6 / 12 | ? | ? | 12 MB | 35 W | ? | |
Core i5 | |||||||
Core i5-8650K | 6 / 6 | ? | ? | 9 MB | ? | ? | |
Core i5-8650 | 6 / 6 | ? | ? | 9 MB | 65 W | ? | |
Core i5-8600K | * | 6 / 6 | 3. 6 | 4.3 | 9 MB | 95 W | $257 |
Core i5-8550 | 6 / 6 | ? | ? | 9 MB | 65 W | ? | |
Core i5-8500 | 6 / 6 | ? | ? | 9 MB | 65 W | ? | |
Core i5-8500B | 6 / 6 | ? | ? | 9 MB | ? | ? | |
Core i5-8500T | 6 / 6 | ? | ? | 9 MB | 35 W | ? | |
Core i5-8420 | 6 / 6 | ? | ? | 9 MB | 65 W | ? | |
Core i5-8420T | 6 / 6 | ? | ? | 9 MB | 35 W | ? | |
Core i5-8400 | * | 6 / 6 | 2. 8 | 4.0 | 9 MB | 65 W | $182 |
Core i5-8400B | 6 / 6 | ? | ? | 9 MB | ? | $182 | |
Core i5-8400T | 6 / 6 | ? | ? | 9 MB | 35 W | $182 | |
Core i3 | |||||||
Core i3-8350K | * | 4 / 4 | 4.0 | 8 MB | 91 W | $168 | |
Core i3-8320 | 4 / 4 | ? | 8 MB | 65 W | ? | ||
Core i3-8320T | 4 / 4 | ? | 8 MB | 35 W | ? | ||
Core i3-8300T | 4 / 4 | ? | 8 MB | 35 W | ? | ||
Core i3-8120 | 4 / 4 | ? | 6 MB | 65 W | ? | ||
Core i3-8120T | 4 / 4 | ? | 6 MB | 35 W | ? | ||
Core i3-8100 | * | 4 / 4 | 3. 6 | 6 MB | 65 W | $117 | |
Core i3-8100T | 4 / 4 | ? | 6 MB | 35 W | $117 | ||
Core i3-8020 | 4 / 4 | ? | 6 MB | 65 W | ? | ||
Core i3-8020T | 4 / 4 | ? | 6 MB | 35 W | ? | ||
Core i3-8000 | 4 / 4 | ? | 6 MB | 65 W | ? | ||
Core i3-8000T | 4 / 4 | ? | 6 MB | 35 W | ? | ||
Pentium Gold | |||||||
Pentium Gold G5620 | 2 / 4 | ? | 3 MB | ? | ? | ||
Pentium Gold G5620T | 2 / 4 | ? | 3 MB | 35 W | ? | ||
Pentium Gold G5600 | 2 / 4 | ? | 3 MB | ? | ? | ||
Pentium Gold G5500 | 2 / 4 | ? | 3 MB | ? | ? | ||
Pentium Gold G5500T | 2 / 4 | ? | 3 MB | 35 W | ? | ||
Pentium Gold G5420 | 2 / 4 | ? | 3 MB | ? | ? | ||
Pentium Gold G5420T | 2 / 4 | ? | 3 MB | 35 W | ? | ||
Pentium Gold G5400 | 2 / 4 | ? | 3 MB | ? | ? | ||
Pentium Gold G5400T | 2 / 4 | ? | 3 MB | 35 W | ? | ||
Celeron | |||||||
Celeron G4950 | 2 / 2 | ? | 2 MB | ? | ? | ||
Celeron G4930 | 2 / 2 | ? | 2 MB | ? | ? | ||
Celeron G4930T | 2 / 2 | ? | 2 MB | 35 W | ? | ||
Celeron G4920 | 2 / 2 | ? | 2 MB | ? | ? | ||
Celeron G4900 | 2 / 2 | ? | 2 MB | ? | ? | ||
Celeron G4900T | 2 / 2 | ? | 2 MB | 35 W | ? |
*Processors that are already launched
There are a number of obvious blanks we can fill in. Non-lettered processors from Core i3 and above are usually 65W, while the T processors are usually 35W. Core counts for each series are known, and we assume there isn’t going to be any deviation here. Pricing on some of the processors has been generationally consistent as well: a 65W processor and its 35W variant has historically been the same list price. For caches, we know that the i7 parts have 12MB of L3, the i5 parts have 9MB of L3, the i3-83xx parts have 8MB of L3 and the i3-81xx parts have 6MB — all of these from the processors already launched. The Pentium processors usually have the same per-core as the i3-81xx parts, and the Celerons usually have another portion cut. The Pentium and Celeron processors that are not ‘T’ processors often have non-standard TDP values, such as 51 W or 54 W, so we have left these as question marks for now.
That’s a total of 46 desktop processors, all of which (we assume at this point) will be Coffee Lake-based. To put that into perspective when discussing mainstream desktop processors, we had 28 Kaby Lake desktop processors, 30 Skylake desktop processors, two Broadwell parts, and 80 Haswell processors. This puts this stack as broader than the most recent architectures, but still some way behind Haswell. Haswell was the last processor set on a mature 22nm, so we might see Intel do something similar with a final crack on a mature 14nm while 10nm ramps up.
The Core i5-8650K is an interesting addition, marking a second overclockable processor in the Core i5 line, while the i7 and i3 parts stay with a single overclockable processor. The last time Intel did this was with Devil’s Canyon, introducing the Core i5-4690K over the Core i5-4670K with some more frequency and more headroom, or back at Sandy Bridge with the i7-2700K launched over the i7-2600K with a better-binned chip. It is likely that this is the case here: the Core i5-8600K and the Core i7-8700 processors are quite different in their all-core turbo frequencies, so it is possible that this new Core i5-8650K is designed to bridge the gap.
The other interesting element here is the inclusion of the B processor line. Intel has used many letters for processors over the years: X, K, S, T, TE and P for desktop, with Y, U, H and HK for notebooks. As far as we can tell, B has never been used (unless you include the Pentium B950, a low-end dual-core mobile processor). The ‘B’ nomenclature was used by AMD for a few generations to signify their PRO processor line, but has been scrapped. It is possible that the B name is replacing the S, the TE or the P lines with a different letter, so without a complete specification sheet, it is hard to tell exactly where it fits. It isn’t replacing the Xeon-E line, at least.
Intel’s 9th Generation Processors: Coffee Lake Refresh?
So here comes the big unknown. There was no doubt that after the 8th generation there would be a 9th generation, but what exactly it could contain is a mystery. After Coffee Lake, built on Intel’s 14++ process, Intel has announced that the next major platform would be 10+ rather than 10, and they would be limiting 10nm to smaller mobile dies until the process matures. After Coffee Lake-S is supposed to be Ice Lake, speaking in Intel’s Lake cadence, as announced previously. Most arrows we know about point to 10+ being further off from consumer launch, so that offers two potentials here. The 9000 series processors could be a refresh of Coffee Lake, with some additional features, making it the second set of 14++ processors. Or it could be the names of the 10+ parts. Speculation at this point, for sure.
Intel 9th Generation Desktop Processors Unknown Microarchitecture |
|||||
Specifications are unconfirmed |
Cores | Base Freq |
Turbo Freq |
L3 | TDP |
Core i5-9600K | ? | ? | ? | ? | ? |
Core i5-9600 | ? | ? | ? | ? | 65W ? |
Core i5-9500 | ? | ? | ? | ? | 65W ? |
Core i5-9400 | ? | ? | ? | ? | 65W ? |
Core i5-9400T | ? | ? | ? | ? | 35W ? |
Core i3-9300 | ? | ? | ? | ? | 65W ? |
Core i3-9300T | ? | ? | ? | ? | 35W ? |
Core i3-9100 | ? | ? | ? | ? | 65W ? |
Core i3-9100T | ? | ? | ? | ? | 35W ? |
Core i3-9000 | ? | ? | ? | ? | 65W ? |
Core i3-9000T | ? | ? | ? | ? | 35W ? |
The other element in the equation is that Intel’s roadmaps have placed the Z390 chipset as coming in 2018 (there’s plenty of debate as to when in 2018, however). One would think that the Z390 would be an iterative upgrade over the Z370 chipset, launched with the current Coffee Lake desktop processors. The last time Intel launched a new high-end same-series chipset within a product cycle was back with Sandy Bridge, when P67 had the SATA port issue bug, and Intel subsequently launched Z68 to indicate motherboards with the fixed silicon. As far as we know, Z370 is not having any similar issues, so it is unlikely that the Z390 is going to exist to fix something. Z390 could all be about processor support, if certain processors are limited to certain chipsets (as Intel has partitioned out the Xeon processors in recent launches). There was also the ‘leak’ on the Eurocom forums where one of the engineers stated that their systems would be ready for 8-core Intel mobile parts in the second half of 2018. More information perhaps in the next few weeks, or at CES in January perhaps.
Specifications will be updated when we get them.
Source
Side Note: The title says 8th Generation and 9th Generation Processors. We’re not talking about Pentium 4s, which would probably be Intel’s 8th processor generation. Technically Coffee Lake should be Intel’s 8th Generation of Core microarchitectures, but in the same breath Kaby Lake Refresh is a new mobile quad-core with different power circuitry and binning, which is technically a 7th Generation Core product but labeled under Intel’s ‘8th Generation’.
Intel’s Core Architecture Cadence | ||||||
Microarchitecture | Core Generation | Advertised As x Gen |
Process Node | Release Year | ||
Nehalem | 1st | 1st | 45nm | 2008 | ||
Westmere | 1st | 1st | 32nm | 2010 | ||
Sandy Bridge | 2nd | 2nd | 32nm | 2011 | ||
Ivy Bridge | 3rd | 3rd | 22nm | 2012 | ||
Haswell | 4th | 4th | 22nm | 2013 | ||
Haswell Refresh | 4th | 4th | 22nm | 2014 | ||
Broadwell | 5th | 5th | 14nm | 2014 | ||
Skylake | 6th | 6th | 14nm | 2015 | ||
Kaby Lake | 7th | 7th | 14nm+ | 2016 | ||
Kaby Lake Refresh | 7th | 8th | 14nm+ | 2017 | ||
Coffee Lake | 8th | 8th | 14nm++ | 2017 | ||
Cannon Lake | ? | 8th? | 10nm | 2018? | ||
Ice Lake | ? | 9th? | 10nm+ | 2018? |
The line is getting blurred between saying ‘x Generation’ and ‘x Generation Core’. We might in future just refer to them as 8000-series and 9000-series processors.
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Intel Core i7-12700KF Core i7 (Alder Lake-S) |
12 / 20 | 3.6 GHz (up to 5 GHz) |
Intel Socket 1700 | 25MB (shared) | 125 W | 4 November 2021 |
Intel Core i7-12700K Core i7 (Alder Lake-S) |
12 / 20 | 3.6 GHz (up to 5 GHz) |
Intel Socket 1700 | 25MB (shared) | 125 W | 4 November 2021 |
Intel Core i7-1195G7 Core i7 (Tiger Lake-U) |
4 / 8 | 2.9 GHz (up to 5 GHz) |
Intel BGA 1449 | 12MB (shared) | 28 W | 31 May 2021 |
Intel Core i7-11850H Core i7 (Tiger Lake-H) |
8 / 16 | 2.5 GHz (up to 4.8 GHz) |
Intel BGA 1499 | 24MB (shared) | 35 W | 11 May 2021 |
Intel Core i7-11800H Core i7 (Tiger Lake-H) |
8 / 16 | 2. 3 GHz (up to 4.6 GHz) |
Intel BGA 1499 | 24MB (shared) | 35 W | 11 May 2021 |
Intel Core i7-11700T Core i7 (Rocket Lake) |
8 / 16 | 1400 MHz (up to 4.6 GHz) |
Intel Socket 1200 | 16MB (shared) | 35 W | 16 March 2021 |
Intel Core i7-11700KF Core i7 (Rocket Lake) |
8 / 16 | 3.6 GHz (up to 5 GHz) |
Intel Socket 1200 | 16MB (shared) | 125 W | 16 March 2021 |
Intel Core i7-11700K Core i7 (Rocket Lake) |
8 / 16 | 3.6 GHz (up to 5 GHz) |
Intel Socket 1200 | 16MB (shared) | 125 W | 16 March 2021 |
Intel Core i7-11700F Core i7 (Rocket Lake) |
8 / 16 | 2.5 GHz (up to 4.9 GHz) |
Intel Socket 1200 | 16MB (shared) | 65 W | 16 March 2021 |
Intel Core i7-11700 Core i7 (Rocket Lake) |
8 / 16 | 2. 5 GHz (up to 4.9 GHz) |
Intel Socket 1200 | 16MB (shared) | 65 W | 16 March 2021 |
Intel Core i7-10870H Core i7 (Comet Lake-H) |
8 / 16 | 2.2 GHz (up to 5 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 17 September 2020 |
Intel Core i7-1185G7 Core i7 (Tiger Lake-U) |
4 / 8 | 3 GHz (up to 4.8 GHz) |
Intel BGA 1449 | 12MB (shared) | 28 W | 2 September 2020 |
Intel Core i7-1165G7 Core i7 (Tiger Lake-U) |
4 / 8 | 2.8 GHz (up to 4.7 GHz) |
Intel BGA 1449 | 12MB (shared) | 28 W | 2 September 2020 |
Intel Core i7-1160G7 Core i7 (Tiger Lake-U) |
4 / 8 | 1200 MHz (up to 4.4 GHz) |
Intel BGA 1598 | 12MB (shared) | 15 W | 2 September 2020 |
Intel Core i7-10700F Core i7 (Comet Lake) |
8 / 16 | 2. 9 GHz (up to 4.8 GHz) |
Intel Socket 1200 | 16MB (shared) | 65 W | 30 April 2020 |
Intel Core i7-10700 Core i7 (Comet Lake) |
8 / 16 | 2.9 GHz (up to 4.8 GHz) |
Intel Socket 1200 | 16MB (shared) | 65 W | 30 April 2020 |
Intel Core i7-10700K Core i7 (Comet Lake) |
8 / 16 | 3.8 GHz (up to 5.1 GHz) |
Intel Socket 1200 | 16MB (shared) | 125 W | 30 April 2020 |
Intel Core i7-10700KF Core i7 (Comet Lake) |
8 / 16 | 3.8 GHz (up to 5.1 GHz) |
Intel Socket 1200 | 16MB (shared) | 125 W | 30 April 2020 |
Intel Core i7-10875H Core i7 (Comet Lake-H) |
8 / 16 | 2.1 GHz (up to 5.1 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 2 April 2020 |
Intel Core i7-10885H Core i7 (Comet Lake-H) |
8 / 16 | 2. 4 GHz (up to 5.3 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 2 April 2020 |
Intel Core i7-10850H Core i7 (Comet Lake-H) |
6 / 12 | 2.7 GHz (up to 5.1 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 2 April 2020 |
Intel Core i7-10810U Core i7 (Comet Lake-U) |
6 / 12 | 1100 MHz (up to 4.9 GHz) |
Intel BGA 1440 | 12MB (shared) | 25 W | 2 April 2020 |
Intel Core i7-10750H Core i7 (Comet Lake-H) |
6 / 12 | 2.6 GHz (up to 5 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 2 April 2020 |
Intel Core i7-10610U Core i7 (Comet Lake-U) |
4 / 8 | 1800 MHz (up to 4.9 GHz) |
Intel BGA 1440 | 8MB (shared) | 25 W | 2 April 2020 |
Intel Core i7-10510U Core i7 (Comet Lake-U) |
4 / 8 | 1800 MHz (up to 4. 9 GHz) |
Intel BGA 1440 | 8MB (shared) | 25 W | 21 August 2019 |
Intel Core i7-10510Y Core i7 (Comet Lake-Y) |
4 / 8 | 1200 MHz (up to 4.5 GHz) |
Intel BGA 1440 | 8MB (shared) | 9 W | 21 August 2019 |
Intel Core i7-10710U Core i7 (Comet Lake-U) |
6 / 12 | 1100 MHz (up to 4.7 GHz) |
Intel BGA 1440 | 12MB (shared) | 25 W | 21 August 2019 |
Intel Core i7-1060G7 Core i7 (Ice Lake-Y) |
4 / 8 | 1000 MHz (up to 3.8 GHz) |
Intel BGA 1440 | 8MB (shared) | 12 W | 1 August 2019 |
Intel Core i7-1065G7 Core i7 (Ice Lake-U) |
4 / 8 | 1300 MHz (up to 3.9 GHz) |
Intel BGA 1440 | 8MB (shared) | 25 W | 1 August 2019 |
Intel Core i7-1068G7 Core i7 (Ice Lake-U) |
4 / 8 | 2. 3 GHz (up to 4.1 GHz) |
Intel BGA 1440 | 8MB (shared) | 28 W | 1 August 2019 |
Intel Core i7-9850HE Core i7 (Coffee Lake-HR) |
6 / 12 | 2.7 GHz (up to 4.4 GHz) |
Intel BGA 1440 | 9MB (shared) | 45 W | 1 June 2019 |
Intel Core i7-9850HL Core i7 (Coffee Lake-HR) |
6 / 12 | 1900 MHz (up to 4.1 GHz) |
Intel BGA 1440 | 9MB (shared) | 25 W | 1 June 2019 |
Intel Core i7-9850H Core i7 (Coffee Lake-HR) |
6 / 12 | 2.6 GHz (up to 4.6 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 23 April 2019 |
Intel Core i7-9700 Core i7 (Coffee Lake) |
8 / 8 | 3 GHz (up to 4.7 GHz) |
Intel Socket 1151 | 12MB (shared) | 65 W | 23 April 2019 |
Intel Core i7-9700F Core i7 (Coffee Lake) |
8 / 8 | 3 GHz (up to 4. 7 GHz) |
Intel Socket 1151 | 12MB (shared) | 65 W | 23 April 2019 |
Intel Core i7-9750H Core i7 (Coffee Lake-HR) |
6 / 12 | 2.6 GHz (up to 4.5 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 23 April 2019 |
Intel Core i7-9750HF Core i7 (Coffee Lake-HR) |
6 / 12 | 2.6 GHz (up to 4.5 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 23 April 2019 |
Intel Core i7-9700KF Core i7 (Coffee Lake) |
8 / 8 | 3.6 GHz (up to 4.9 GHz) |
Intel Socket 1151 | 12MB (shared) | 95 W | 8 January 2019 |
Intel Core i7-9800X Core i7 (Skylake-X) |
8 / 16 | 3.8 GHz (up to 4.4 GHz) |
Intel Socket 2066 | 16.5MB (shared) | 165 W | 19 October 2018 |
Intel Core i7-9700K Core i7 (Coffee Lake) |
8 / 8 | 3. 6 GHz (up to 4.9 GHz) |
Intel Socket 1151 | 12MB (shared) | 95 W | 19 October 2018 |
Intel Core i7-8565U Core i7 (Whiskey Lake-U) |
4 / 8 | 1800 MHz (up to 4.6 GHz) |
Intel BGA 1440 | 8MB (shared) | 28 W | 1 October 2018 |
Intel Core i7-8670T Core i7 (Coffee Lake) |
6 / 12 | 2.3 GHz (up to 3.7 GHz) |
Intel Socket 1151 | 12MB (shared) | 35 W | 1 September 2018 |
Intel Core i7-8559U Core i7 (Kaby Lake-R) |
4 / 8 | 2.7 GHz (up to 4.5 GHz) |
Intel BGA 1356 | 8MB (shared) | 28 W | 5 April 2018 |
Intel Core i7-8850H Core i7 (Coffee Lake-H) |
6 / 12 | 2.7 GHz (up to 4.3 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 2 April 2018 |
Intel Core i7-8750H Core i7 (Coffee Lake-H) |
6 / 12 | 2. 2 GHz (up to 4.1 GHz) |
Intel BGA 1440 | 12MB (shared) | 45 W | 2 April 2018 |
Intel Core i7-8700T Core i7 (Coffee Lake) |
6 / 12 | 2.4 GHz (up to 4 GHz) |
Intel Socket 1151 | 12MB (shared) | 35 W | 2 April 2018 |
Intel Core i7-8706G Core i7 (Kaby Lake G) |
4 / 8 | 3.1 GHz (up to 4.1 GHz) |
Intel BGA 2270 | 8MB (shared) | 65 W | 1 February 2018 |
Intel Core i7-8705G Core i7 (Kaby Lake G) |
4 / 8 | 3.1 GHz (up to 4.1 GHz) |
Intel BGA 2270 | 8MB (shared) | 65 W | 1 February 2018 |
Intel Core i7-8709G Core i7 (Kaby Lake G) |
4 / 8 | 3.1 GHz (up to 4.1 GHz) |
Intel BGA 2270 | 8MB (shared) | 65 W | 1 February 2018 |
Intel Core i7-8809G Core i7 (Kaby Lake G) |
4 / 8 | 3. 1 GHz (up to 4.2 GHz) |
Intel BGA 2270 | 8MB (shared) | 65 W | 1 February 2018 |
Intel Core i7-10700KF 10th Gen 8-Core/16 Thread 3.8GHz LGA 1200 Desktop Processor
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Intel Core i7-10700KF 10th Gen 8-Core/16 Thread 3.8GHz LGA 1200 Desktop Processor
With up to 5.1 GHz clock speed, 8 cores and 16 threads, the Intel Core i7-10700KF processor supercharges your new PC build and enables incredible experiences and productivity for gamers, content creators, and mainstream users. Shatter the performance barrier and enter the realm of immersive 4K entertainment experiences and play the latest gaming titles like never before. Or simply get work done in less time by supercharging the latest business productivity applications for a higher level of collaboration and productivity. Plus, the unlocked processor along with a suite of overclock controls empowers you to push limits and set a new record.*
MORE DETAILS:
- Product Collection: 10th Generation Intel Core i7 Processors
- Code Name: Products formerly Comet Lake
- Vertical Segment: Desktop
- Processor Number: i7-10700KF
- Lithography: 14 nm
- Use Conditions: PC/Client/Tablet
- Total Cores: 8
- Total Threads: 16
- Max Turbo Frequency: 5.10 GHz
- Intel® Turbo Boost Max Technology 3.0 Frequency: 5.10 GHz
- Intel® Turbo Boost Technology 2.0 Frequency: 5.00 GHz
- Processor Base Frequency: 3.80 GHz
- Cache: 16 MB Intel® Smart Cache
- Bus Speed: 8 GT/s
- TDP: 125 W
- Configurable TDP-down Base Frequency: 3.50 GHz
- Configurable TDP-down: 95 W
- Max Memory Size (dependent on memory type): 128 GB
- Memory Types: DDR4-2933
- Max # of Memory Channels: 2
- Max Memory Bandwidth: 45. 8 GB/s
- ECC Memory Supported: No
Product ID | 307200 |
---|---|
Age Grade | All |
Model/Vendor Part | BX8070110700KF |
Only at GameStop | No |
Product Height | 4 |
Product Dimensions: (H x W x L) | 4.00X0.10X0.10 |
Product Weight | 0.05 |
Product Length | 0.1 |
Product Width | 0.1 |
Brand Name | Intel |
Shipping and Compliance
Age Grade | All |
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System Requirements
Processor | i7-10700KF |
---|
General
Model/Vendor Part | BX8070110700KF |
---|---|
Only at GameStop | No |
Dimension
Product Height | 4 |
---|---|
Product Dimensions: (H x W x L) | 4. 00X0.10X0.10 |
Product Weight | 0.05 |
Product Length | 0.1 |
Product Width | 0.1 |
Fandom
Brand Name | Intel |
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Windows 10 21h2 processor requirements supported by Intel
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Manufacturer | Trademark | Simulation | IoT Applicability |
---|---|---|---|
Intel® | Atom® | E3805 | Enterprise IoT only |
Intel® | Atom® | E3827 | Enterprise IoT only |
Intel® | Atom® | E3826 | Enterprise IoT 9 only0034 |
Intel® | Atom® | E3815 | Enterprise IoT only |
Intel® | Atom® | E3845 | Enterprise IoT only |
Intel® | Atom® | E3825 | Enterprise IoT only |
Intel® | Atom® | x5-E3930 | Enterprise IoT only |
Intel® | Atom® | x5-E3940 | Enterprise IoT only |
Intel® | Atom® | x5-E3950 | Enterprise IoT only |
Intel® | Atom® | x5-E8000 | Enterprise IoT only |
Intel® | Atom® | x6200FE | |
Intel® | Atom® | x6211E | |
Intel® | Atom® | x6212RE | |
Intel® | Atom® | x6413E | |
Intel® | Atom® | x6414RE | |
Intel® | Atom® | x6425E | |
Intel® | Atom® | x6425RE | |
Intel® | Atom® | x6427FE | |
Intel® | Celeron® | 3205U | |
Intel® | Celeron® | 3215U | |
Intel® | Celeron® | 3755U | |
Intel® | Celeron® | 3765U | |
Intel® | Celeron® | 3855U | |
Intel® | Celeron® | 3865U | |
Intel® | Celeron® | 3867U | |
Intel® | Celeron® | 3955U | |
Intel® | Celeron® | 3965U | |
Intel® | Celeron® | 3965Y | |
Intel® | Celeron® | 4205U | |
Intel® | Celeron® | 4305U | |
Intel® | Celeron® | 4305UE | |
Intel® | Celeron® | 5205U | |
Intel® | Celeron® | 5305U | |
Intel® | Celeron® | 6305 | |
Intel® | Celeron® | 6305E | |
Intel® | Celeron® | G3900 | |
Intel® | Celeron® | G3900E | |
Intel® | Celeron® | G3900T | |
Intel® | Celeron® | G3900TE | |
Intel® | Celeron® | G3902E | |
Intel® | Celeron® | G3920 | |
Intel® | Celeron® | G3930 | |
Intel® | Celeron® | G3930E | |
Intel® | Celeron® | G3930T | |
Intel® | Celeron® | G3930TE | |
Intel® | Celeron® | G3950 | |
Intel® | Celeron® | G4900 | |
Intel® | Celeron® | G4900T | |
Intel® | Celeron® | G4920 | |
Intel® | Celeron® | G4930 | |
Intel® | Celeron® | G4930E | |
Intel® | Celeron® | G4930T | |
Intel® | Celeron® | G4932E | |
Intel® | Celeron® | G4950 | |
Intel® | Celeron® | G5900 | |
Intel® | Celeron® | G5900E | |
Intel® | Celeron® | G5900T | |
Intel® | Celeron® | G5900TE | |
Intel® | Celeron® | G5905 | |
Intel® | Celeron® | G5905T | |
Intel® | Celeron® | G5920 | |
Intel® | Celeron® | G5925 | |
Intel® | Celeron® | J1900 | Enterprise IoT only |
Intel® | Celeron® | J3355 | Enterprise IoT only |
Intel® | Celeron® | J3355E | Enterprise IoT only |
Intel® | Celeron® | J3455 | Enterprise IoT only |
Intel® | Celeron® | J3455E | Enterprise IoT only |
Intel® | Celeron® | J4005 | |
Intel® | Celeron® | J4025 | |
Intel® | Celeron® | J4105 | |
Intel® | Celeron® | J4125 | |
Intel® | Celeron® | J6412 | |
Intel® | Celeron® | J6413 | |
Intel® | Celeron® | N2807 | Enterprise IoT only |
Intel® | Celeron® | N2920 | Enterprise IoT only |
Intel® | Celeron® | N2930 | Enterprise IoT only |
Intel® | Celeron® | N3010 | Enterprise IoT only |
Intel® | Celeron® | N3060 | Enterprise IoT only |
Intel® | Celeron® | N3160 | Enterprise IoT only |
Intel® | Celeron® | N3350 | Enterprise IoT only |
Intel® | Celeron® | N4000 | |
Intel® | Celeron® | N4020 | |
Intel® | Celeron® | N4100 | |
Intel® | Celeron® | N4120 | |
Intel® | Celeron® | N4500 | |
Intel® | Celeron® | N4505 | |
Intel® | Celeron® | N5100 | |
Intel® | Celeron® | N5105 | |
Intel® | Celeron® | N6210 | |
Intel® | Celeron® | N6211 | |
Intel® | Basic™ | i3-1000G1 | |
Intel® | Basic™ | i3-1000G4 | |
Intel® | Basic™ | i3-1005G1 | |
Intel® | Basic™ | i3-10100 | |
Intel® | Basic™ | i3-10100E | |
Intel® | Basic™ | i3-10100F | |
Intel® | Basic™ | i3-10100T | |
Intel® | Basic™ | i3-10100TE | |
Intel® | Basic™ | i3-10100Y | |
Intel® | Basic™ | i3-10105 | |
Intel® | Basic™ | i3-10105F | |
Intel® | Basic™ | i3-10105T | |
Intel® | Basic™ | i3-10110U | |
Intel® | Basic™ | i3-10110Y | |
Intel® | Basic™ | i3-10300 | |
Intel® | Basic™ | i3-10300T | |
Intel® | Basic™ | i3-10305 | |
Intel® | Basic™ | i3-10305T | |
Intel® | Basic™ | i3-10320 | |
Intel® | Basic™ | i3-10325 | |
Intel® | Basic™ | i3-1110G4 | |
Intel® | Basic™ | i3-1115G4 | |
Intel® | Basic™ | i3-1115G4E | |
Intel® | Basic™ | i3-1115GRE | |
Intel® | Basic™ | i3-1120G4 | |
Intel® | Basic™ | i3-1125G4 | |
Intel® | Basic™ | i3-5005U | |
Intel® | Basic™ | i3-5010U | |
Intel® | Basic™ | i3-5015U | |
Intel® | Basic™ | i3-5020U | |
Intel® | Basic™ | i3-5157U | |
Intel® | Basic™ | i3-6006U | |
Intel® | Basic™ | i3-6098P | |
Intel® | Basic™ | i3-6100 | |
Intel® | Basic™ | i3-6100E | |
Intel® | Basic™ | i3-6100H | |
Intel® | Basic™ | i3-6100T | |
Intel® | Basic™ | i3-6100TE | |
Intel® | Basic™ | i3-6100U | |
Intel® | Basic™ | i3-6102E | |
Intel® | Basic™ | i3-6157U | |
Intel® | Basic™ | i3-6167U | |
Intel® | Basic™ | i3-6300 | |
Intel® | Basic™ | i3-6300T | |
Intel® | Basic™ | i3-6320 | |
Intel® | Basic™ | i3-7020U | |
Intel® | Basic™ | i3-7100 | |
Intel® | Basic™ | i3-7100E | |
Intel® | Basic™ | i3-7100H | |
Intel® | Basic™ | i3-7100T | |
Intel® | Basic™ | i3-7100U | |
Intel® | Basic™ | i3-7101E | |
Intel® | Basic™ | i3-7101TE | |
Intel® | Basic™ | i3-7102E | |
Intel® | Basic™ | i3-7130U | |
Intel® | Basic™ | i3-7167U | |
Intel® | Basic™ | i3-7300 | |
Intel® | Basic™ | i3-7300T | |
Intel® | Basic™ | i3-7320 | |
Intel® | Basic™ | i3-7350K | |
Intel® | Basic™ | i3-8100 | |
Intel® | Basic™ | i3-8100B | |
Intel® | Basic™ | i3-8100H | |
Intel® | Basic™ | i3-8100T | |
Intel® | Basic™ | i3-8109U | |
Intel® | Basic™ | i3-8130U | |
Intel® | Basic™ | i3-8140U | |
Intel® | Basic™ | i3-8145U | |
Intel® | Basic™ | i3-8145UE | |
Intel® | Basic™ | i3-8300 | |
Intel® | Basic™ | i3-8300T | |
Intel® | Basic™ | i3-8350K | |
Intel® | Basic™ | i3-9100 | |
Intel® | Basic™ | i3-9100E | |
Intel® | Basic™ | i3-9100F | |
Intel® | Basic™ | i3-9100HL | |
Intel® | Basic™ | i3-9100T | |
Intel® | Basic™ | i3-9100TE | |
Intel® | Basic™ | i3-9300 | |
Intel® | Basic™ | i3-9300T | |
Intel® | Basic™ | i3-9320 | |
Intel® | Basic™ | i3-9350K | |
Intel® | Basic™ | i3-9350KF | |
Intel® | Basic™ | i3-L13G4 | |
Intel® | Basic™ | i5+8400 | |
Intel® | Basic™ | i5+8500 | |
Intel® | Basic™ | i5-10200H | |
Intel® | Basic™ | i5-10210U | |
Intel® | Basic™ | i5-10210Y | |
Intel® | Basic™ | i5-10300H | |
Intel® | Basic™ | i5-1030G4 | |
Intel® | Basic™ | i5-1030G7 | |
Intel® | Basic™ | i5-10310U | |
Intel® | Basic™ | i5-10310Y | |
Intel® | Basic™ | i5-1035G1 | |
Intel® | Basic™ | i5-1035G4 | |
Intel® | Basic™ | i5-1035G7 | |
Intel® | Basic™ | i5-1038NG7 | |
Intel® | Basic™ | i5-10400 | |
Intel® | Basic™ | i5-10400F | |
Intel® | Basic™ | i5-10400H | |
Intel® | Basic™ | i5-10400T | |
Intel® | Basic™ | i5-10500 | |
Intel® | Basic™ | i5-10500E | |
Intel® | Basic™ | i5-10500H | |
Intel® | Basic™ | i5-10500T | |
Intel® | Basic™ | i5-10500TE | |
Intel® | Basic™ | i5-10600 | |
Intel® | Basic™ | i5-10600K | |
Intel® | Basic™ | i5-10600KF | |
Intel® | Basic™ | i5-10600T | |
Intel® | Basic™ | i5-11300H | |
Intel® | Basic™ | i5-1130G7 | |
Intel® | Basic™ | i5-1135G7 | |
Intel® | Basic™ | i5-11400 | |
Intel® | Basic™ | i5-11400F | |
Intel® | Basic™ | i5-11400T | |
Intel® | Basic™ | i5-1140G7 | |
Intel® | Basic™ | i5-1145G7 | |
Intel® | Basic™ | i5-1145G7E | |
Intel® | Basic™ | i5-1145GRE | |
Intel® | Basic™ | i5-11500 | |
Intel® | Basic™ | i5-11500T | |
Intel® | Basic™ | i5-11600 | |
Intel® | Basic™ | i5-11600K | |
Intel® | Basic™ | i5-11600KF | |
Intel® | Basic™ | i5-11600T | |
Intel® | Basic™ | i5-5200U | |
Intel® | Basic™ | i5-5250U | |
Intel® | Basic™ | i5-5257U | |
Intel® | Basic™ | i5-5287U | |
Intel® | Basic™ | i5-5300U | |
Intel® | Basic™ | i5-5350H | |
Intel® | Basic™ | i5-5350U | |
Intel® | Basic™ | i5-5575R | |
Intel® | Basic™ | i5-5675C | |
Intel® | Basic™ | i5-5675R | |
Intel® | Basic™ | i5-6200U | |
Intel® | Basic™ | i5-6260U | |
Intel® | Basic™ | i5-6267U | |
Intel® | Basic™ | i5-6287U | |
Intel® | Basic™ | i5-6300HQ | |
Intel® | Basic™ | i5-6300U | |
Intel® | Basic™ | i5-6350HQ | |
Intel® | Basic™ | i5-6360U | |
Intel® | Basic™ | i5-6400 | |
Intel® | Basic™ | i5-6400T | |
Intel® | Basic™ | i5-6402P | |
Intel® | Basic™ | i5-6440EQ | |
Intel® | Basic™ | i5-6440HQ | |
Intel® | Basic™ | i5-6442EQ | |
Intel® | Basic™ | i5-6500 | |
Intel® | Basic™ | i5-6500T | |
Intel® | Basic™ | i5-6500TE | |
Intel® | Basic™ | i5-6585R | |
Intel® | Basic™ | i5-6600 | |
Intel® | Basic™ | i5-6600K | |
Intel® | Basic™ | i5-6600T | |
Intel® | Basic™ | i5-6685R | |
Intel® | Basic™ | i5-7200U | |
Intel® | Basic™ | i5-7260U | |
Intel® | Basic™ | i5-7267U | |
Intel® | Basic™ | i5-7287U | |
Intel® | Basic™ | i5-7300HQ | |
Intel® | Basic™ | i5-7300U | |
Intel® | Basic™ | i5-7360U | |
Intel® | Basic™ | i5-7400 | |
Intel® | Basic™ | i5-7400T | |
Intel® | Basic™ | i5-7440EQ | |
Intel® | Basic™ | i5-7440HQ | |
Intel® | Basic™ | i5-7442EQ | |
Intel® | Basic™ | i5-7500 | |
Intel® | Basic™ | i5-7500T | |
Intel® | Basic™ | i5-7600 | |
Intel® | Basic™ | i5-7600K | |
Intel® | Basic™ | i5-7600T | |
Intel® | Basic™ | i5-7640X | |
Intel® | Basic™ | i5-7Y54 | |
Intel® | Basic™ | i5-7Y57 | |
Intel® | Basic™ | i5-8200Y | |
Intel® | Basic™ | i5-8210Y | |
Intel® | Basic™ | i5-8250U | |
Intel® | Basic™ | i5-8257U | |
Intel® | Basic™ | i5-8259U | |
Intel® | Basic™ | i5-8260U | |
Intel® | Basic™ | i5-8265U | |
Intel® | Basic™ | i5-8269U | |
Intel® | Basic™ | i5-8279U | |
Intel® | Basic™ | i5-8300H | |
Intel® | Basic™ | i5-8310Y | |
Intel® | Basic™ | i5-8350U | |
Intel® | Basic™ | i5-8365U | |
Intel® | Basic™ | i5-8365UE | |
Intel® | Basic™ | i5-8400 | |
Intel® | Basic™ | i5-8400B | |
Intel® | Basic™ | i5-8400H | |
Intel® | Basic™ | i5-8400T | |
Intel® | Basic™ | i5-8500 | |
Intel® | Basic™ | i5-8500B | |
Intel® | Basic™ | i5-8500T | |
Intel® | Basic™ | i5-8600 | |
Intel® | Basic™ | i5-8600K | |
Intel® | Basic™ | i5-8600T | |
Intel® | Basic™ | i5-9300H | |
Intel® | Basic™ | i5-9300HF | |
Intel® | Basic™ | i5-9400 | |
Intel® | Basic™ | i5-9400F | |
Intel® | Basic™ | i5-9400H | |
Intel® | Basic™ | i5-9400T | |
Intel® | Basic™ | i5-9500 | |
Intel® | Basic™ | i5-9500E | |
Intel® | Basic™ | i5-9500F | |
Intel® | Basic™ | i5-9500T | |
Intel® | Basic™ | i5-9500TE | |
Intel® | Basic™ | i5-9600 | |
Intel® | Basic™ | i5-9600K | |
Intel® | Basic™ | i5-9600KF | |
Intel® | Basic™ | i5-9600T | |
Intel® | Basic™ | i5-L16G7 | |
Intel® | Basic™ | i7+8700 | |
Intel® | Basic™ | i7-10510U | |
Intel® | Basic™ | i7-10510Y | |
Intel® | Basic™ | i7-1060G7 | |
Intel® | Basic™ | i7-10610U | |
Intel® | Basic™ | i7-1065G7 | |
Intel® | Basic™ | i7-1068NG7 | |
Intel® | Basic™ | i7-10700 | |
Intel® | Basic™ | i7-10700E | |
Intel® | Basic™ | i7-10700F | |
Intel® | Basic™ | i7-10700K | |
Intel® | Basic™ | i7-10700KF | |
Intel® | Basic™ | i7-10700T | |
Intel® | Basic™ | i7-10700TE | |
Intel® | Basic™ | i7-10710U | |
Intel® | Basic™ | i7-10750H | |
Intel® | Basic™ | i7-10810U | |
Intel® | Basic™ | i7-10850H | |
Intel® | Basic™ | i7-10870H | |
Intel® | Basic™ | i7-10875H | |
Intel® | Basic™ | i7-11370H | |
Intel® | Basic™ | i7-11375H | |
Intel® | Basic™ | i7-1160G7 | |
Intel® | Basic™ | i7-1165G7 | |
Intel® | Basic™ | i7-1165G7 | |
Intel® | Basic™ | i7-11700 | |
Intel® | Basic™ | i7-11700F | |
Intel® | Basic™ | i7-11700K | |
Intel® | Basic™ | i7-11700KF | |
Intel® | Basic™ | i7-11700T | |
Intel® | Basic™ | i7-1180G7 | |
Intel® | Basic™ | i7-1185G7 | |
Intel® | Basic™ | i7-1185G7E | |
Intel® | Basic™ | i7-1185GRE | |
Intel® | Basic™ | i7-5500U | |
Intel® | Basic™ | i7-5550U | |
Intel® | Basic™ | i7-5557U | |
Intel® | Basic™ | i7-5600U | |
Intel® | Basic™ | i7-5650U | |
Intel® | Basic™ | i7-5700EQ | |
Intel® | Basic™ | i7-5700HQ | |
Intel® | Basic™ | i7-5750HQ | |
Intel® | Basic™ | i7-5775C | |
Intel® | Basic™ | i7-5775R | |
Intel® | Basic™ | i7-5850EQ | |
Intel® | Basic™ | i7-5850HQ | |
Intel® | Basic™ | i7-5950HQ | |
Intel® | Basic™ | i7-6500U | |
Intel® | Basic™ | i7-6560U | |
Intel® | Basic™ | i7-6567U | |
Intel® | Basic™ | i7-6600U | |
Intel® | Basic™ | i7-6650U | |
Intel® | Basic™ | i7-6660U | |
Intel® | Basic™ | i7-6700 | |
Intel® | Basic™ | i7-6700HQ | |
Intel® | Basic™ | i7-6700K | |
Intel® | Basic™ | i7-6700T | |
Intel® | Basic™ | i7-6700TE | |
Intel® | Basic™ | i7-6770HQ | |
Intel® | Basic™ | i7-6785R | |
Intel® | Basic™ | i7-6820EQ | |
Intel® | Basic™ | i7-6820HK | |
Intel® | Basic™ | i7-6820HQ | |
Intel® | Basic™ | i7-6822EQ | |
Intel® | Basic™ | i7-6870HQ | |
Intel® | Basic™ | i7-6920HQ | |
Intel® | Basic™ | i7-6970HQ | |
Intel® | Basic™ | i7-7500U | |
Intel® | Basic™ | i7-7560U | |
Intel® | Basic™ | i7-7567U | |
Intel® | Basic™ | i7-7600U | |
Intel® | Basic™ | i7-7660U | |
Intel® | Basic™ | i7-7700 | |
Intel® | Basic™ | i7-7700HQ | |
Intel® | Basic™ | i7-7700K | |
Intel® | Basic™ | i7-7700T | |
Intel® | Basic™ | i7-7740X | |
Intel® | Basic™ | i7-7800X | |
Intel® | Basic™ | i7-7820EQ | |
Intel® | Basic™ | i7-7820HK | |
Intel® | Basic™ | i7-7820HQ | |
Intel® | Basic™ | i7-7820X | |
Intel® | Basic™ | i7-7920HQ | |
Intel® | Basic™ | i7-7Y75 | |
Intel® | Basic™ | i7-8086K | |
Intel® | Basic™ | i7-8500Y | |
Intel® | Basic™ | i7-8550U | |
Intel® | Basic™ | i7-8557U | |
Intel® | Basic™ | i7-8559U | |
Intel® | Basic™ | i7-8565U | |
Intel® | Basic™ | i7-8569U | |
Intel® | Basic™ | i7-8650U | |
Intel® | Basic™ | i7-8665U | |
Intel® | Basic™ | i7-8665UE | |
Intel® | Basic™ | i7-8700 | |
Intel® | Basic™ | i7-8700B | |
Intel® | Basic™ | i7-8700K | |
Intel® | Basic™ | i7-8700T | |
Intel® | Basic™ | i7-8750H | |
Intel® | Basic™ | i7-8850H | |
Intel® | Basic™ | i7-9700 | |
Intel® | Basic™ | i7-9700E | |
Intel® | Basic™ | i7-9700F | |
Intel® | Basic™ | i7-9700K | |
Intel® | Basic™ | i7-9700KF | |
Intel® | Basic™ | i7-9700T | |
Intel® | Basic™ | i7-9700TE | |
Intel® | Basic™ | i7-9750H | |
Intel® | Basic™ | i7-9750HF | |
Intel® | Basic™ | i7-9800X | |
Intel® | Basic™ | i7-9850H | |
Intel® | Basic™ | i7-9850HE | |
Intel® | Basic™ | i7-9850HL | |
Intel® | Basic™ | i9-10850K | |
Intel® | Basic™ | i9-10885H | |
Intel® | Basic™ | i9-10900 | |
Intel® | Basic™ | i9-10900E | |
Intel® | Basic™ | i9-10900F | |
Intel® | Basic™ | i9-10900K | |
Intel® | Basic™ | i9-10900KF | |
Intel® | Basic™ | i9-10900T | |
Intel® | Basic™ | i9-10900TE | |
Intel® | Basic™ | i9-10900X | |
Intel® | Basic™ | i9-10920X | |
Intel® | Basic™ | i9-10940X | |
Intel® | Basic™ | i9-10980HK | |
Intel® | Basic™ | i9-10980XE | |
Intel® | Basic™ | i9-11900 | |
Intel® | Basic™ | i9-11900F | |
Intel® | Basic™ | i9-11900K | |
Intel® | Basic™ | i9-11900KF | |
Intel® | Basic™ | i9-11900T | |
Intel® | Basic™ | i9-7900X | |
Intel® | Basic™ | i9-7920X | |
Intel® | Basic™ | i9-7940X | |
Intel® | Basic™ | i9-7960X | |
Intel® | Basic™ | i9-7980XE | |
Intel® | Basic™ | i9-8950HK | |
Intel® | Basic™ | i9-9820X | |
Intel® | Basic™ | i9-9880H | |
Intel® | Basic™ | i9-9900 | |
Intel® | Basic™ | i9-9900K | |
Intel® | Basic™ | i9-9900KF | |
Intel® | Basic™ | i9-9900KS | |
Intel® | Basic™ | i9-9900T | |
Intel® | Basic™ | i9-9900X | |
Intel® | Basic™ | i9-9920X | |
Intel® | Basic™ | i9-9940X | |
Intel® | Basic™ | i9-9960X | |
Intel® | Basic™ | i9-9980HK | |
Intel® | Basic™ | i9-9980XE | |
Intel® | Basic™ | m3-6Y30 | |
Intel® | Basic™ | m3-7Y30 | |
Intel® | Basic™ | m3-7Y32 | |
Intel® | Basic™ | m3-8100Y | |
Intel® | Basic™ | m5-6Y54 | |
Intel® | Basic™ | m5-6Y57 | |
Intel® | Basic™ | M-5Y10 | |
Intel® | Basic™ | M-5Y10a | |
Intel® | Basic™ | M-5Y10c | |
Intel® | Basic™ | M-5Y31 | |
Intel® | Basic™ | M-5Y51 | |
Intel® | Basic™ | M-5Y70 | |
Intel® | Basic™ | M-5Y71 | |
Intel® | Basic™ | m7-6Y75 | |
Intel® | Pentium® | 3805U | |
Intel® | Pentium® | 3825U | |
Intel® | Pentium® | 4405U | |
Intel® | Pentium® | 4405Y | |
Intel® | Pentium® | 6805 | |
Intel® | Pentium® | D1507 | |
Intel® | Pentium® | D1508 | |
Intel® | Pentium® | D1509 | |
Intel® | Pentium® | D1517 | |
Intel® | Pentium® | D1519 | |
Intel® | Pentium® | G4400 | |
Intel® | Pentium® | G4400T | |
Intel® | Pentium® | G4400TE | |
Intel® | Pentium® | G4500 | |
Intel® | Pentium® | G4500T | |
Intel® | Pentium® | G4520 | |
Intel® | Pentium® | G4560 | |
Intel® | Pentium® | G4560T | |
Intel® | Pentium® | G4600 | |
Intel® | Pentium® | G4600T | |
Intel® | Pentium® | G4620 | |
Intel® | Pentium® | Gold 4410Y | |
Intel® | Pentium® | Gold 4415U | |
Intel® | Pentium® | Gold 4415Y | |
Intel® | Pentium® | Gold 4417U | |
Intel® | Pentium® | Gold 4425Y | |
Intel® | Pentium® | Gold 5405U | |
Intel® | Pentium® | Gold 6405U | |
Intel® | Pentium® | Gold 6500Y | |
Intel® | Pentium® | Gold 7505 | |
Intel® | Pentium® | Gold G5400 | |
Intel® | Pentium® | Gold G5400T | |
Intel® | Pentium® | Gold G5420 | |
Intel® | Pentium® | Gold G5420T | |
Intel® | Pentium® | Gold G5500 | |
Intel® | Pentium® | Gold G5500T | |
Intel® | Pentium® | Gold G5600 | |
Intel® | Pentium® | Gold G5600T | |
Intel® | Pentium® | Gold G5620 | |
Intel® | Pentium® | Gold G6400 | |
Intel® | Pentium® | Gold G6400E | |
Intel® | Pentium® | Gold G6400T | |
Intel® | Pentium® | Gold G6400TE | |
Intel® | Pentium® | Gold G6405 | |
Intel® | Pentium® | Gold G6405T | |
Intel® | Pentium® | Gold G6500 | |
Intel® | Pentium® | Gold G6500T | |
Intel® | Pentium® | Gold G6505 | |
Intel® | Pentium® | Gold G6505T | |
Intel® | Pentium® | Gold G6600 | |
Intel® | Pentium® | Gold G6605 | |
Intel® | Pentium® | J6426 | |
Intel® | Pentium® | N3710 | Enterprise IoT only |
Intel® | Pentium® | N4200 | Enterprise IoT only |
Intel® | Pentium® | N6415 | |
Intel® | Pentium® | Silver J5005 | |
Intel® | Pentium® | Silver J5040 | |
Intel® | Pentium® | Silver N5000 | |
Intel® | Pentium® | Silver N5030 | |
Intel® | Pentium® | Silver N6000 | |
Intel® | Pentium® | Silver N6005 | |
Intel® | Xeon® | Bronze 3104 | |
Intel® | Xeon® | Bronze 3106 | |
Intel® | Xeon® | Bronze 3204 | |
Intel® | Xeon® | Bronze 3206R | |
Intel® | Xeon® | D-1513N | |
Intel® | Xeon® | D-1518 | |
Intel® | Xeon® | D-1520 | |
Intel® | Xeon® | D-1521 | |
Intel® | Xeon® | D-1523N | |
Intel® | Xeon® | D-1527 | |
Intel® | Xeon® | D-1528 | |
Intel® | Xeon® | D-1529 | |
Intel® | Xeon® | D-1531 | |
Intel® | Xeon® | D-1533N | |
Intel® | Xeon® | D-1537 | |
Intel® | Xeon® | D-1539 | |
Intel® | Xeon® | D-1540 | |
Intel® | Xeon® | D-1541 | |
Intel® | Xeon® | D-1543N | |
Intel® | Xeon® | D-1548 | |
Intel® | Xeon® | D-1553N | |
Intel® | Xeon® | D-1557 | |
Intel® | Xeon® | D-1559 | |
Intel® | Xeon® | D-1567 | |
Intel® | Xeon® | D-1571 | |
Intel® | Xeon® | D-1577 | |
Intel® | Xeon® | D-2123IT | |
Intel® | Xeon® | D-2141I | |
Intel® | Xeon® | D-2142IT | |
Intel® | Xeon® | D-2143IT | |
Intel® | Xeon® | D-2145NT | |
Intel® | Xeon® | D-2146NT | |
Intel® | Xeon® | D-2161I | |
Intel® | Xeon® | D-2163IT | |
Intel® | Xeon® | D-2166NT | |
Intel® | Xeon® | D-2173IT | |
Intel® | Xeon® | D-2177NT | |
Intel® | Xeon® | D-2183IT | |
Intel® | Xeon® | D-2187NT | |
Intel® | Xeon® | E-2124 | |
Intel® | Xeon® | E-2124G | |
Intel® | Xeon® | E-2126G | |
Intel® | Xeon® | E-2134 | |
Intel® | Xeon® | E-2136 | |
Intel® | Xeon® | E-2144G | |
Intel® | Xeon® | E-2146G | |
Intel® | Xeon® | E-2174G | |
Intel® | Xeon® | E-2176G | |
Intel® | Xeon® | E-2176M | |
Intel® | Xeon® | E-2186G | |
Intel® | Xeon® | E-2186M | |
Intel® | Xeon® | E-2224 | |
Intel® | Xeon® | E-2224G | |
Intel® | Xeon® | E-2226G | |
Intel® | Xeon® | E-2226GE | |
Intel® | Xeon® | E-2234 | |
Intel® | Xeon® | E-2236 | |
Intel® | Xeon® | E-2244G | |
Intel® | Xeon® | E-2246G | |
Intel® | Xeon® | E-2254ME | |
Intel® | Xeon® | E-2254ML | |
Intel® | Xeon® | E-2274G | |
Intel® | Xeon® | E-2276G | |
Intel® | Xeon® | E-2276M | |
Intel® | Xeon® | E-2276ME | |
Intel® | Xeon® | E-2276ML | |
Intel® | Xeon® | E-2278G | |
Intel® | Xeon® | E-2278GE | |
Intel® | Xeon® | E-2278GEL | |
Intel® | Xeon® | E-2286G | |
Intel® | Xeon® | E-2286M | |
Intel® | Xeon® | E-2288G | |
Intel® | Xeon® | E3-1220v5 | |
Intel® | Xeon® | E3-1220v6 | |
Intel® | Xeon® | E3-1225v5 | |
Intel® | Xeon® | E3-1225v6 | |
Intel® | Xeon® | E3-1230 v5 | |
Intel® | Xeon® | E3-1230v6 | |
Intel® | Xeon® | E3-1235Lv5 | |
Intel® | Xeon® | E3-1240v5 | |
Intel® | Xeon® | E3-1240v6 | |
Intel® | Xeon® | E3-1240Lv5 | |
Intel® | Xeon® | E3-1245 v5 | |
Intel® | Xeon® | E3-1245 v6 | |
Intel® | Xeon® | E3-1258Lv4 | |
Intel® | Xeon® | E3-1260Lv5 | |
Intel® | Xeon® | E3-1265Lv4 | |
Intel® | Xeon® | E3-1268Lv5 | |
Intel® | Xeon® | E3-1270v5 | |
Intel® | Xeon® | E3-1270v6 | |
Intel® | Xeon® | E3-1275v5 | |
Intel® | Xeon® | E3-1275 v6 | |
Intel® | Xeon® | E3-1278Lv4 | |
Intel® | Xeon® | E3-1280v5 | |
Intel® | Xeon® | E3-1280v6 | |
Intel® | Xeon® | E3-1285v4 | |
Intel® | Xeon® | E3-1285v6 | |
Intel® | Xeon® | E3-1285Lv4 | |
Intel® | Xeon® | E3-1501Lv6 | |
Intel® | Xeon® | E3-1501Mv6 | |
Intel® | Xeon® | E3-1505Lv5 | |
Intel® | Xeon® | E3-1505Lv6 | |
Intel® | Xeon® | E3-1505Mv5 | |
Intel® | Xeon® | E3-1505Mv6 | |
Intel® | Xeon® | E3-1515Mv5 | |
Intel® | Xeon® | E3-1535Mv5 | |
Intel® | Xeon® | E3-1535Mv6 | |
Intel® | Xeon® | E3-1545Mv5 | |
Intel® | Xeon® | E3-1558Lv5 | |
Intel® | Xeon® | E3-1565Lv5 | |
Intel® | Xeon® | E3-1575Mv5 | |
Intel® | Xeon® | E3-1578Lv5 | |
Intel® | Xeon® | E3-1585v5 | |
Intel® | Xeon® | E3-1585Lv5 | |
Intel® | Xeon® | E5-1620v4 | |
Intel® | Xeon® | E5-1630v4 | |
Intel® | Xeon® | E5-1650v4 | |
Intel® | Xeon® | E5-1660v4 | |
Intel® | Xeon® | E5-1680v4 | |
Intel® | Xeon® | E5-2603v4 | |
Intel® | Xeon® | E5-2608Lv4 | |
Intel® | Xeon® | E5-2609v4 | |
Intel® | Xeon® | E5-2618Lv4 | |
Intel® | Xeon® | E5-2620 v4 | |
Intel® | Xeon® | E5-2623v4 | |
Intel® | Xeon® | E5-2628Lv4 | |
Intel® | Xeon® | E5-2630v4 | |
Intel® | Xeon® | E5-2630Lv4 | |
Intel® | Xeon® | E5-2637v4 | |
Intel® | Xeon® | E5-2640v4 | |
Intel® | Xeon® | E5-2643v4 | |
Intel® | Xeon® | E5-2648Lv4 | |
Intel® | Xeon® | E5-2650v4 | |
Intel® | Xeon® | E5-2650Lv4 | |
Intel® | Xeon® | E5-2658v4 | |
Intel® | Xeon® | E5-2660v4 | |
Intel® | Xeon® | E5-2667v4 | |
Intel® | Xeon® | E5-2680v4 | |
Intel® | Xeon® | E5-2683v4 | |
Intel® | Xeon® | E5-2687Wv4 | |
Intel® | Xeon® | E5-2690v4 | |
Intel® | Xeon® | E5-2695v4 | |
Intel® | Xeon® | E5-2697v4 | |
Intel® | Xeon® | E5-2697Av4 | |
Intel® | Xeon® | E5-2698v4 | |
Intel® | Xeon® | E5-2699v4 | |
Intel® | Xeon® | E5-2699A v4 | |
Intel® | Xeon® | E5-2699Rv4 | |
Intel® | Xeon® | E5-4610v4 | |
Intel® | Xeon® | E5-4620v4 | |
Intel® | Xeon® | E5-4627v4 | |
Intel® | Xeon® | E5-4628Lv4 | |
Intel® | Xeon® | E5-4640v4 | |
Intel® | Xeon® | E5-4650v4 | |
Intel® | Xeon® | E5-4655v4 | |
Intel® | Xeon® | E5-4660v4 | |
Intel® | Xeon® | E5-4667v4 | |
Intel® | Xeon® | E5-4669v4 | |
Intel® | Xeon® | E7-4809v4 | |
Intel® | Xeon® | E7-4820v4 | |
Intel® | Xeon® | E7-4830v4 | |
Intel® | Xeon® | E7-4850v4 | |
Intel® | Xeon® | E7-8860v4 | |
Intel® | Xeon® | E7-8867v4 | |
Intel® | Xeon® | E7-8870v4 | |
Intel® | Xeon® | E7-8880v4 | |
Intel® | Xeon® | E7-8890v4 | |
Intel® | Xeon® | E7-8891v4 | |
Intel® | Xeon® | E7-8893v4 | |
Intel® | Xeon® | E7-8894 v4 | |
Intel® | Xeon® | Gold 5115 | |
Intel® | Xeon® | Gold 5118 | |
Intel® | Xeon® | Gold 5119T | |
Intel® | Xeon® | Gold 5120 | |
Intel® | Xeon® | Gold 5120T | |
Intel® | Xeon® | Gold 5122 | |
Intel® | Xeon® | Gold 5215 | |
Intel® | Xeon® | Gold 5215L | |
Intel® | Xeon® | Gold 5217 | |
Intel® | Xeon® | Gold 5218B | |
Intel® | Xeon® | Gold 5218N | |
Intel® | Xeon® | Gold 5218R | |
Intel® | Xeon® | Gold 5218T | |
Intel® | Xeon® | Gold 5220 | |
Intel® | Xeon® | Gold 5220R | |
Intel® | Xeon® | Gold 5220s | |
Intel® | Xeon® | Gold 5220T | |
Intel® | Xeon® | Gold 5222 | |
Intel® | Xeon® | Gold 5315Y | |
Intel® | Xeon® | Gold 5317 | |
Intel® | Xeon® | Gold 5318N | |
Intel® | Xeon® | Gold 5318s | |
Intel® | Xeon® | Gold 5320 | |
Intel® | Xeon® | Gold 5320T | |
Intel® | Xeon® | Gold 6126 | |
Intel® | Xeon® | Gold 6126F | |
Intel® | Xeon® | Gold 6126T | |
Intel® | Xeon® | Gold 6128 | |
Intel® | Xeon® | Gold 6130 | |
Intel® | Xeon® | Gold 6130F | |
Intel® | Xeon® | Gold 6130T | |
Intel® | Xeon® | Gold 6132 | |
Intel® | Xeon® | Gold 6134 | |
Intel® | Xeon® | Gold 6136 | |
Intel® | Xeon® | Gold 6138 | |
Intel® | Xeon® | Gold 6138F | |
Intel® | Xeon® | Gold 6138P | |
Intel® | Xeon® | Gold 6138T | |
Intel® | Xeon® | Gold 6140 | |
Intel® | Xeon® | Gold 6142 | |
Intel® | Xeon® | Gold 6142F | |
Intel® | Xeon® | Gold 6144 | |
Intel® | Xeon® | Gold 6146 | |
Intel® | Xeon® | Gold 6148 | |
Intel® | Xeon® | Gold 6148F | |
Intel® | Xeon® | Gold 6150 | |
Intel® | Xeon® | Gold 6152 | |
Intel® | Xeon® | Gold 6154 | |
Intel® | Xeon® | Gold 6208U | |
Intel® | Xeon® | Gold 6209U | |
Intel® | Xeon® | Gold 6210U | |
Intel® | Xeon® | Gold 6212U | |
Intel® | Xeon® | Gold 6222V | |
Intel® | Xeon® | Gold 6226 | |
Intel® | Xeon® | Gold 6226R | |
Intel® | Xeon® | Gold 6230 | |
Intel® | Xeon® | Gold 6230N | |
Intel® | Xeon® | Gold 6230R | |
Intel® | Xeon® | Gold 6230T | |
Intel® | Xeon® | Gold 6238 | |
Intel® | Xeon® | Gold 6238L | |
Intel® | Xeon® | Gold 6238T | |
Intel® | Xeon® | Gold 6240 | |
Intel® | Xeon® | Gold 6240L | |
Intel® | Xeon® | Gold 6240R | |
Intel® | Xeon® | Gold 6240Y | |
Intel® | Xeon® | Gold 6242 | |
Intel® | Xeon® | Gold 6242R | |
Intel® | Xeon® | Gold 6244 | |
Intel® | Xeon® | Gold 6246R | |
Intel® | Xeon® | Gold 6248 | |
Intel® | Xeon® | Gold 6248R | |
Intel® | Xeon® | Gold 6250 | |
Intel® | Xeon® | Gold 6250L | |
Intel® | Xeon® | Gold 6252 | |
Intel® | Xeon® | Gold 6252N | |
Intel® | Xeon® | Gold 6254 | |
Intel® | Xeon® | Gold 6256 | |
Intel® | Xeon® | Gold 6258R | |
Intel® | Xeon® | Gold 6262V | |
Intel® | Xeon® | Gold 6312U | |
Intel® | Xeon® | Gold 6314U | |
Intel® | Xeon® | Gold 6326 | |
Intel® | Xeon® | Gold 6330 | |
Intel® | Xeon® | Gold 6330N | |
Intel® | Xeon® | Gold 6334 | |
Intel® | Xeon® | Gold 6336Y | |
Intel® | Xeon® | Gold 6338 | |
Intel® | Xeon® | Gold 6338N | |
Intel® | Xeon® | Gold 6338T | |
Intel® | Xeon® | Gold 6342 | |
Intel® | Xeon® | Gold 6346 | |
Intel® | Xeon® | Gold 6348 | |
Intel® | Xeon® | Gold 6354 | |
Intel® | Xeon® | Gold 5218 | |
Intel® | Xeon® | Gold Gold 5318Y | |
Intel® | Xeon® | Gold Gold 6238R | |
Intel® | Xeon® | Gold6246 | |
Intel® | Xeon® | Goldv 6234 | |
Intel® | Xeon® | Platinum 8153 | |
Intel® | Xeon® | Platinum 8156 | |
Intel® | Xeon® | Platinum 8158 | |
Intel® | Xeon® | Platinum 8160 | |
Intel® | Xeon® | Platinum 8160F | |
Intel® | Xeon® | Platinum 8160T | |
Intel® | Xeon® | Platinum 8164 | |
Intel® | Xeon® | Platinum 8168 | |
Intel® | Xeon® | Platinum 8170 | |
Intel® | Xeon® | Platinum 8176 | |
Intel® | Xeon® | Platinum 8176F | |
Intel® | Xeon® | Platinum 8180 | |
Intel® | Xeon® | Platinum 8253 | |
Intel® | Xeon® | Platinum 8256 | |
Intel® | Xeon® | Platinum 8260 | |
Intel® | Xeon® | Platinum 8260L | |
Intel® | Xeon® | Platinum 8260Y | |
Intel® | Xeon® | Platinum 8268 | |
Intel® | Xeon® | Platinum 8270 | |
Intel® | Xeon® | Platinum 8276 | |
Intel® | Xeon® | Platinum 8276L | |
Intel® | Xeon® | Platinum 8280 | |
Intel® | Xeon® | Platinum 8280L | |
Intel® | Xeon® | Platinum 8351N | |
Intel® | Xeon® | Platinum 8352s | |
Intel® | Xeon® | Platinum 8352V | |
Intel® | Xeon® | Platinum 8352Y | |
Intel® | Xeon® | Platinum 8358 | |
Intel® | Xeon® | Platinum 8358P | |
Intel® | Xeon® | Platinum 8360Y | |
Intel® | Xeon® | Platinum 8368 | |
Intel® | Xeon® | Platinum 8368Q | |
Intel® | Xeon® | Platinum 8380 | |
Intel® | Xeon® | Platinum 9221 | |
Intel® | Xeon® | Platinum 9222 | |
Intel® | Xeon® | Platinum 9242 | |
Intel® | Xeon® | Platinum 9282 | |
Intel® | Xeon® | Silver 4108 | |
Intel® | Xeon® | Silver 4109T | |
Intel® | Xeon® | Silver 4110 | |
Intel® | Xeon® | Silver 4112 | |
Intel® | Xeon® | Silver 4114 | |
Intel® | Xeon® | Silver 4114T | |
Intel® | Xeon® | Silver 4116 | |
Intel® | Xeon® | Silver 4116T | |
Intel® | Xeon® | Silver 4208 | |
Intel® | Xeon® | Silver 4209T | |
Intel® | Xeon® | Silver 4210 | |
Intel® | Xeon® | Silver 4210R | |
Intel® | Xeon® | Silver 4210T | |
Intel® | Xeon® | Silver 4214 | |
Intel® | Xeon® | Silver 4214R | |
Intel® | Xeon® | Silver 4214Y | |
Intel® | Xeon® | Silver 4215 | |
Intel® | Xeon® | Silver 4215R | |
Intel® | Xeon® | Silver 4216 | |
Intel® | Xeon® | Silver 4309Y | |
Intel® | Xeon® | Silver 4310 | |
Intel® | Xeon® | Silver 4310T | |
Intel® | Xeon® | Silver 4314 | |
Intel® | Xeon® | Silver 4316 | |
Intel® | Xeon® | W-10855M | |
Intel® | Xeon® | W-10885M | |
Intel® | Xeon® | W-1250 | |
Intel® | Xeon® | W-1250E | |
Intel® | Xeon® | W-1250P | |
Intel® | Xeon® | W-1250TE | |
Intel® | Xeon® | W-1270 | |
Intel® | Xeon® | W-1270E | |
Intel® | Xeon® | W-1270P | |
Intel® | Xeon® | W-1270TE | |
Intel® | Xeon® | W-1290 | |
Intel® | Xeon® | W-1290E | |
Intel® | Xeon® | W-1290P | |
Intel® | Xeon® | W-1290T | |
Intel® | Xeon® | W-1290TE | |
Intel® | Xeon® | W-2123 | |
Intel® | Xeon® | W-2125 | |
Intel® | Xeon® | W-2133 | |
Intel® | Xeon® | W-2135 | |
Intel® | Xeon® | W-2145 | |
Intel® | Xeon® | W-2155 | |
Intel® | Xeon® | W-2175 | |
Intel® | Xeon® | W-2195 | |
Intel® | Xeon® | W-2223 | |
Intel® | Xeon® | W-2225 | |
Intel® | Xeon® | W-2235 | |
Intel® | Xeon® | W-2245 | |
Intel® | Xeon® | W-2255 | |
Intel® | Xeon® | W-2265 | |
Intel® | Xeon® | W-2275 | |
Intel® | Xeon® | W-2295 | |
Intel® | Xeon® | W-3175X | |
Intel® | Xeon® | W-3223 | |
Intel® | Xeon® | W-3225 | |
Intel® | Xeon® | W-3235 | |
Intel® | Xeon® | W-3245 | |
Intel® | Xeon® | W-3245M | |
Intel® | Xeon® | W-3265 | |
Intel® | Xeon® | W-3265M | |
Intel® | Xeon® | W-3275 | |
Intel® | Xeon® | W-3275M |
Intel Core i7 — frwiki.
wiki
See Core and Intel Core for articles of the same name.
Intel Core i7 920.
The Core i7 brand with Intel has been used for their highest-end microprocessors ever since. . Next came the Core i5, Core i3 and Core i9 brands.
Technically, Core i7s may belong to the Nehalem, Westmere, Sandy Bridge, Ivy Bridge, Haswell, Skylake, Kaby Lake, and Coffee Lake families.
These processors are commonly used for 3D rendering and other software, usually with a non-CPU graphics card.
Their Passmark indexes range from 2534 for the 4500U (2013, 1.8 GHz) and 10076 for the 10710U (2019, 1.10 GHz) laptops to 2.50 GHz at 19,000 (6950X at 3 .00 GHz ). Core i7s have between two and ten cores depending on range and generation. Note the progress made in both speed and power consumption for the U models.
Summary
-
1 Technical details
- 1.1 Used sockets
- 1.2 Hyper-Threading
- 1.3 Turbo Boost
- 1.4 Memory controller
-
1.5 Bug and other issues
- 1.5.1 Defective sockets 1156
- 1.5.2 Overheating Skylake and Kaby Lake
-
2 Office range
- 2.1 Westmere ‘Gulftown’
-
2.2 Nehalem ‘Bloomfield’
- 2.2.1 Version D0
- 2.2.2 Processor list
- 2.3 Nehalem Linnfield
- 2.4 Sand bridge
- 2.5 Ivy Bridge
- 2.6 Haswell
-
2.7 Skylake
- 2.7.1 Lake Kabi
- 2.7.2 Coffee lake
-
3 Mobile range
- 3.1 Clarksfield
- 3.2 Arrandale
- 3.3 Sand bridge
- 3.4 Ivy Bridge
- 3.5 Haswell
-
3.6 Skylake
- 3. 6.1 Lake Kabi
- 4 compatible chipsets
- 5 Initial relative performance
-
6 Notes and references
- 6.1 Notes
- 6.2 Links
-
7 See also
- 7.1 Related Articles
- 7.2 External links
Technical details
In 2008, the introduction of the Core i7 processors marked the introduction of the new Nehalem microarchitecture, which replaced the older Core .
Used sockets
- LGA 1156
- LGA 1366
- LGA 1155
- LGA 1150
- LGA 1151
- LGA 2011
- LGA 2011-3
- LGA 2066
- LGA 1200
LGA 1366 connector.
Core i7s use two different connectors: LGA 1366 for Bloomfield models (Core i7 9xx) and LGA 1156 for Lynnfield models (Core i7 8xx and Core i5). The presence of two different connectors in the same range creates a problem, on the one hand, in terms of evolution, when Intel previously offered only LGA 775, and on the other hand, in terms of communication with the consumer.
Hyper Threading
The release of the Core i7 marks the return of the Hyper-Threading (two-way SMT) technology that has disappeared since the Pentium 4 days.
Turbo Boost
The Turbo Boost technology was officially unveiled at IDF 2008 in San Francisco. This allows you to disable some cores on the fly, while increasing the frequency of others. Its effect on the processor(s) is stronger the more cores are disabled. The increase in frequency is carried out in steps of 133 MHz, called GEL Intel technical documentation. Thus, an increase of 2 bins is equivalent to an increase of 266 MHz for each active core. Thus, this solution allows better use of applications not designed for multi-core control. However, it differs from the technology used in mobile Penryns, which is based on information provided by the operating system. Turbo Boost is controlled internally by the processor.
The following month, Intel formalized its technology as Dynamic Speed Technology (DST), which has since been renamed Turbo Boost.
Memory controller
The Bloomfield processor controller communicates with memory in three channels, and the Lynnfield processor controller communicates with memory in two channels. Recently, models based on the LGA 2011-3 platform use a quad-channel controller (four memory channels).
Bug and other problems
Faulty sockets 1156
After extensive overclocking tests on the Core i7 870, AnandTech, as well as several users, have seriously damaged their P55 motherboards and their processors. According to the results of the investigations, the LGA 1156 socket developed by Foxconn will be the culprit, poor socket and processor contacts will not allow the latter to properly receive all the necessary energy. In response to this problem, motherboard manufacturers have replaced their connectors with Lotes or Tyco/AMP models. At the same time, Foxconn responded by issuing new sockets.
Skylake and Kaby Lake overheating
After many posts from dissatisfied users on the Intel forum, the brand has confirmed some i7 7700K overheating issues. The same press release does not recommend overclocking your processor. Part of the problem may be that a medium quality thermal paste is used between the crystal and the IHS, especially on models of the 6th and 7th and th generations.
Office range
Westmer ‘Gulftown’
The first six-core processor developed by Intel for the general public tried to call Core i9finally sold as the Core i7 980X. This is the first model in the Westmere line to be engraved in 32 nm.
Model | Hearts | Threads | Frequency | Turbo boost | Hidden | Mult. | Voltage | Revision | TDP | bus | Connector | Help | Marketing | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
L1 | L2 | L3 | Start | End | |||||||||||||
Core i7 900 Extreme Edition | |||||||||||||||||
990X | 6 | 12 | 3. 46 GHz | 3.60 (1) — 3.60 (1) — 3.60 (1) — 3.60 (1) — 3.73 (2) — 3.73 (2) | 6×64 KB | 6×256 KB | 12 MB | 26 year | D0 | 130 W | QPI 6.4 GT/s + 3×DDR3 1.333 GT/s | LGA 1366 | 01 Jan 2011 | ||||
980X | 6 | 12 | 3.33 GHz | 3.46 (1) — 3.46 (1) — 3.46 (1) — 3.46 (1) — 3.60 (2) — 3.60 (2) | 6×64 KB | 6×256 KB | 12 MB | 25 | D0 | 130 W | QPI 6.4 GT/s + 3×DDR3 1.333 GT/s | LGA 1366 | |||||
Core i7 900 | |||||||||||||||||
970 | 6 | 12 | 3.20 GHz | 3. 33 (1) — 3.33 (1) — 3.33 (1) — 3.33 (1) — 3.46 (2) — 3.46 (2) | 6×64 KB | 6×256 KB | 12 MB | 24 | 130 W | QPI 4.8 GT/s + 3×DDR3 1.333 GT/s | LGA 1366 |
Nehalem ‘Bloomfield’
The Core i7 9xx line fits the very high-end segment outside of Gulftown. The D0 version came after the introduction of the Core i7 975 XE and resulted in a slight revision to the lineup, with the Core i7 940 and 965 XE respectively being replaced by the 950 and 975 XE while the 920 also benefited from this new refinement. The latter, however, has been replaced by the i7 930 dated .
Revision D0
The first Bloomfield Core i7s was introduced after the launch of the Core i7 975. Although Intel has not announced the evolution of this stepping, we can see a slight improvement in performance over the C0 versions. The load consumption is slightly reduced and provides better CPU stability when overclocked, so the 975 XE can easily hit 4GHz, unlike the 965 XE which stays lower.
List of processors
Model | Hearts | Threads | Frequency | Turbo boost | Hidden | Mult. | Voltage | Revision | TDP | bus | Connector | Help | Marketing | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
L1 | L2 | L3 | Start | End | |||||||||||||
Core i7 900 Extreme Edition | |||||||||||||||||
975 XE | 4 | 8 | 3.33 GHz | 3.46 (1) — 3.46 (1) — 3.46 (1) — 3. 60 (2) | 4×64 KB | 4×256 KB | 8 MB | × 25 | 0.8 — 1.375 V | D0 | 130 W | QPI 6.4 GT/s + 3×DDR3 1.333 GT/s | LGA 1366 | AT8060
4AA |
|
|
|
965 XE | 4 | 8 | 3.20 GHz | 3.33 (1) — 3.33 (1) — 3.33 (1) — 3.46 (2) | 4×64 KB | 4×256 KB | 8 MB | × 24 | 0.8 — 1.375 V | C0 | 130 W | LGA 1366 | AT8060
1AA |
|
|
| |
Core i7 900 | |||||||||||||||||
960 | 4 | 8 | 3. 20 GHz | 3.33 (1) — 3.33 (1) — 3.33 (1) — 3.46 (2) | 4×64 KB | 4×256 KB | 8 MB | × 24 | 0.8 — 1.375 V | D0 | 130 W | QPI 4.8 GT/s + 3×DDR3 1.066 GT/s | LGA 1366 | AT8060 | |||
950 | 4 | 8 | 3.06 GHz | 3.20 (1) — 3.20 (1) — 3.20 (1) — 3.33 (2) | 4×64 KB | 4×256 KB | 8 MB | × 23 | 0.8 — 1.375 V | D0 | 130 W | LGA 1366 | AT8060 | ||||
940 | 4 | 8 | 2.93 GHz | 3. 06 (1) — 3.06 (1) — 3.06 (1) — 3.20 (2) | 4×64 KB | 4×256 KB | 8 MB | × 22 | 0.8 — 1.375 V | C0 | 130 W | LGA 1366 | AT8060 | ||||
930 | 4 | 8 | 2.80 GHz | 2.93 (1) — 2.93 (1) — 2.93 (1) — 3.06 (2) | 4×64 KB | 4×256 KB | 8 MB | × 21 | 0.8 — 1.375 V | D0 | 130 W | LGA 1366 | AT8060
7AA | |
|||
920 | 4 | 8 | 2. 66 GHz | 2.80 (1) — 2.80 (1) — 2.80 (1) — 2.93 (2) | 4×64 KB | 4×256 KB | 8 MB | × 20 | 0.8 — 1.375 V | C0-D0 | 130 W | LGA 1366 | AT8060 |
Nehalem ‘Lynnfield’
An excellent variant of the Lynnfield Core i5 line, the Lynnfield Core i7 is an affordable high-end variant thanks to the LGA1156 socket, among other things. Thanks to a lower TDP than the Bloomfield, it also features more generous Turbo Boost (up to 5 bins), but remains limited by lower starting frequencies.
Model | Hearts | Threads | Frequency | Turbo boost | Hidden | Mult. | Voltage | Revision | TDP | bus | Connector | Help | Marketing | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
L1 | L2 | L3 | Start | End | |||||||||||||
Core i7 800K | |||||||||||||||||
875 thousand | 4 | 8 | 2.93 GHz | 3.20 (2) — 3.20 (2) — 3.46 (4) — 3.60 (5) | 4×64 KB | 4×256 KB | 8 MB | 22+ | B1 | 95 W | DMI 2.5 GT/s + 2 × DDR3 + 16 × PCI-Express 2.0 | LGA 1156 | |||||
Core i7 800 | |||||||||||||||||
880 | 4 | 8 | 3.06 GHz | 3. 33 (2) — 3.33 (2) — 3.60 (4) — 3.73 (5) | 4×64 KB | 4×256 KB | 8 MB | 23 | B1 | 95 W | DMI 2.5 GT/s + 2 × DDR3 + 16 × PCI-Express 2.0 | LGA 1156 | |||||
870 | 4 | 8 | 2.93 GHz | 3.20 (2) — 3.20 (2) — 3.46 (4) — 3.60 (5) | 4×64 KB | 4×256 KB | 8 MB | 22 | B1 | 95 W | LGA 1156 | BV80605001905AI | |||||
860 | 4 | 8 | 2.80 GHz | 2.93 (1) — 2.93 (1) — 3.33 (4) — 3.46 (5) | 4×64 KB | 4×256 KB | 8 MB | 21 | B1 | 95 W | LGA 1156 | BV80605001908AK | |||||
Core i7 800S | |||||||||||||||||
870S | 4 | 8 | 2. 66 GHz | 2.80 (1) — 2.80 (1) — 3.20 (4) — 3.20 (4) | 4×64 KB | 4×256 KB | 8 MB | 20 | B1 | 82 W | DMI 2.5 GT/s + 2 × DDR3 + 16 × PCI-Express 2.0 | LGA 1156 | |||||
860S | 4 | 8 | 2.53 GHz | 2.53 (0) — 2.53 (0) — 3.33 (6) — 3.46 (7) | 4×64 KB | 4×256 KB | 8 MB | 19 | B1 | 82 W | LGA 1156 | 1- cut. 2010 |
Sandy Bridge
IGPs marked with an asterisk (*) are HD 2000 models, IGPs marked with two asterisks (**) are HD 3000 models.
Model | Cores (threads) | Frequency | Hidden | Mult. | Voltage | Version (Sspec) |
TDP | bus | Connector | Help | Marketing | ||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Hearts | Turbo | IGP | L1 | L2 | L3 | Start | End | ||||||||||
Core i7 2000K | |||||||||||||||||
2600 K | 4 (8) | 3.4 GHz | 3.8 GHz | 850 MHz (1.35 GHz ) ** |
4 × 64 KB | 4 × 256 KB | 8 MB | × 34 | D2 (SR00C) | 95 W | 2 × DDR3 + DMI 20Gbps + FDI + 16 × PCI-Express 2. 0 | LGA 1155 | CM8062300833908 BX80623I72600K |
Q1 2011 | March 29, 2013 | ||
2700 K | 4 (8) | 3.5 GHz | 3.9 GHz | 850 MHz (1.35 GHz ) ** |
4 × 64 KB | 4 × 256 KB | 8 MB | × 35 | D2 (SR0DG) | 95 W | LGA 1155 | CM8062301124100 BX80623I72700K |
October 2011 | March 29, 2013 | |||
Core i7 2000 | |||||||||||||||||
2600 | 4 (8) | 3. 4 GHz | 3.8 GHz | 850 MHz (1.35 GHz ) * |
4 × 64 KB | 4 × 256 KB | 8 MB | × 34 | D2 (SR00B) | 95 W | 2 × DDR3 + DMI 20Gbps + FDI + 16 × PCI-Express 2.0 | LGA 1155 | CM8062300834302 BX80623I72600 |
January 5, 2011 | March 29, 2013 | ||
Core i7 2000S | |||||||||||||||||
2600S | 4 (8) | 2. 8 GHz | 3.8 GHz | 850 MHz (1.35 GHz ) * |
4 × 64 KB | 4 × 256 KB | 8 MB | × 28 | D2 (SR00E) | 65 W | 2 × DDR3 + DMI 20Gbps + FDI + 16 × PCI-Express 2.0 | LGA 1155 | CM8062300835604 BX80623I72600S |
Q1 2011 | March 29, 2013 | ||
Core i7 3000 | |||||||||||||||||
3820 | 4 (8) | 3. 6 GHz | 3.8 GHz | — | 4 × 64 KB | 4 × 256 KB | 10 MB | × 36 | 0.6 V — 1.35 V | M1 (SR0LD) | 130 W | 4 × DDR3 + DMI 20Gbps + 40 × PCI-Express 2.0 | LGA 2011 | CM8061 | Q1 2012 | ||
Core i7 3000K | |||||||||||||||||
3930 thousand | 6 (12) | 3. 2 GHz | 3.8 GHz | — | 6 × 64 KB | 6 × 256 KB | 12 MB | × 32 | 0.6 V — 1.35 V | C1 (SR0H9) C2 (SR0KY) |
130 W | 4 × DDR3 + DMI 20Gbps + 40 × PCI-Express 2.0 | LGA 2011 | CM8061 | November 14, 2011 | ||
Core i7 3000X | |||||||||||||||||
3960X | 6 (12) | 3. 3 GHz | 3.9 GHz | — | 6 × 64 KB | 6 × 256 KB | 15 MB | × 33 | 0.6 V — 1.35 V | C1 (SR0GW) C2 (SR0KF) |
130 W | 4 × DDR3 + DMI 20Gbps + 40 × PCI-Express 2.0 | LGA 2011 | CM8061 | November 14, 2011 | ||
3970X | 6 (12) | 3. 5 GHz | 4 GHz | — | 6 × 64 KB | 6 × 256 KB | 15 MB | × 35 | 0.6 V — 1.35 V | C2 (SR0WR) | 150 W | LGA 2011 | CM8061 | Q4 2012 |
Ivy Bridge
engraved in 22 nm and 32 nm , Core i7 Ivy Bridge embed IGP HD Graphics 4000.
Model | Cores (threads) | Frequency | Hidden | Mult. | Voltage | Version (Sspec) | TDP | bus | Connector | Help | Marketing | ||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Hearts | Turbo | IGP | L1 | L2 | L3 | Start | End | ||||||||||
Core i7 3700 | |||||||||||||||||
3770 thousand | 4 (8) | 3.5 GHz | 3.9 GHz | 650 MHz (1.15 GHz) |
4×64 KB | 4×256 KB | 8 MB | × 35 | E1 (SR0PL) | 77W | 2 × DDR3 + DMI + FDI + 16 × PCI-Express 3. 0 | LGA 1155 | CM8063701211700 BX80637I73770K |
||||
3770T | 4 (8) | 2.5 GHz | 3.7 GHz | 650 MHz (1.15 GHz) |
4×64 KB | 4×256 KB | 8 MB | × 25 | E1 (SR0PQ) | 45 W | LGA 1155 | CM8063701212200 | |||||
3770S | 4 (8) | 3.1 GHz | 3. 9 GHz | 650 MHz (1.15 GHz) |
4×64 KB | 4×256 KB | 8 MB | × 31 | E1 (SR0PN) | 65 W | LGA 1155 | CM8063701211900 BX80637I73770S |
|||||
3770 | 4 (8) | 3.4 GHz | 3.9 GHz | 650 MHz (1.15 GHz) |
4×64 KB | 4×256 KB | 8 MB | × 34 | E1 (SR0PK) | 77W | LGA 1155 | CM8063701211600 BX80637I73770 |
Haswell
This range of 22nm and 14nm engraved processors (released in 2013) includes the IGP HD Graphics 4600.
Skylake
Released in 2015.
Kaby Lake
Released .
Coffee Lake
issued in .
Mobile range
The mobile range, started with Clarksfield cores, is no longer part of the Centrino range, which disappeared in 2009.
Clarksfield
Model | Hearts | Threads | Frequency | Turbo boost | Hidden | Mult. | Voltage | Revision | TDP | bus | Connector | Help | Marketing | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
L1 | L2 | L3 | Start | End | |||||||||||||
Core i7 900XM Extreme Edition | |||||||||||||||||
940XM | 4 | 8 | 2. 13 GHz | 2.40 (2) — 2.40 (2) — 3.20 (8) — 3.33 (9) | 4×32 KB | 4×256 KB | 8 MB | 16 | B1 | 55 W | DMI 2.5 GT/s + 2 × DDR3 + 16 × PCI-Express 2.0 | PGA 988 | |||||
920XM | 4 | 8 | 2.00 GHz | 2.26 (2) — 2.26 (2) — 3.06 (8) — 3.20 (9) | 4×32 KB | 4×256 KB | 8 MB | 15 | B1 | 55 W | PGA 988 | BY80607002529AF | |||||
Core i7 800QM | |||||||||||||||||
840QM | 4 | 8 | 1.86 GHz | 2.13 (2) — 2.13 (2) — 2.93 (8) — 3.20 (10) | 4×32 KB | 4×256 KB | 8 MB | 14 | B1 | 45W | DMI 2. 5 GT/s + 2 × DDR3 + 16 × PCI-Express 2.0 | PGA 988 | |||||
820QM | 4 | 8 | 1.73 GHz | 2.00 (2) — 2.00 (2) — 2.80 (8) — 3.06 (10) | 4×32 KB | 4×256 KB | 8 MB | 13 | B1 | 45 W | PGA 988 | BY80607002904AK | |||||
Core i7 700QM | |||||||||||||||||
740QM | 4 | 8 | 1.73 GHz | 1.86 (1) — 1.86 (1) — 2.53 (6) — 2.93 (9) | 4×32 KB | 4×256 KB | 6 MB | 13 | B1 | 45 W | DMI 2.5 GT/s + 2 × DDR3 + 16 × PCI-Express 2.0 | PGA 988 | |||||
720QM | 4 | 8 | 1. 60 GHz | 1.73 (1) — 1.73 (1) — 2.40 (6) — 2.80 (9) | 4×32 KB | 4×256 KB | 6 MB | 12 | B1 | 45 W | PGA 988 | BX80607I7720QM |
Arrandale
Model | Hearts (Thread) | Frequency | Turbo boost | Hidden | Mult. | Voltage | Revision | TDP | bus | Connector | Help | Marketing | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
L1 | L2 | L3 | Start | End | ||||||||||||
Core i7 600M | ||||||||||||||||
640 million | 2 (4) | 2. 80 GHz | 3.20 (3) — 3.46 (5) | 2×64 KB | 2 × 256 KB | 4 MB | 21 | 35 W | DMI 2.5 GT/s + FDI + 2 × DDR3 + 16 × PCI-Express 2.0 | |||||||
620 million | 2 (4) | 2.66 GHz | 3.06 (3) — 3.33 (5) | 2×64 KB | 2×256 KB | 4 MB | 20 | 35 W | 1- cut. 2010 | |||||||
Core i7 600LM | ||||||||||||||||
660lm | 2 (4) | 2.26 GHz | 2.80 (4) — 3.06 (6) | 2×64 KB | 2×256 KB | 4 MB | 17 | 25 W | DMI 2.5 GT/s + FDI + 2 × DDR3 + 16 × PCI-Express 2. 0 | |||||||
640 lm | 2 (4) | 2.13 GHz | 2.66 (4) — 2.93 (6) | 2×64 KB | 2×256 KB | 4 MB | 16 | 25 W | ||||||||
620lm | 2 (4) | 2.00 GHz | 2.53 (4) — 2.80 (6) | 2×64 KB | 2×256 KB | 4 MB | 15 | 25 W | ||||||||
Core i7 600UM | ||||||||||||||||
680UM | 2 (4) | 1.46 GHz | 2.13 (5) — 2.53 (8) | 2×64 KB | 2×256 KB | 4 MB | 11 | 18W | DMI 2.5 GT/s + FDI + 2 × DDR3 + 16 × PCI-Express 2.0 | |||||||
660UM | 2 (4) | 1. 33 GHz | 2.00 (5) — 2.40 (8) | 2×64 KB | 2×256 KB | 4MB | 10 | 18W | ||||||||
640UM | 2 (4) | 1.20 GHz | 1.86 (5) — 2.26 (8) | 2×64 KB | 2×256 KB | 4 MB | 9 | 18W | 1- cut. 2010 | |||||||
620UM | 2 (4) | 1.06 GHz | 1.76 (5) — 2.13 (8) | 2×64 KB | 2×256 KB | 4 MB | 8 | 18W | 1- cut. 2010 |
Sand Bridge
Model | Hearts (Thread) | Frequency | Turbo boost | Hidden | Mult. | Voltage | Revision | TDP | bus | Connector | Help | Marketing | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
L1 | L2 | L3 | Start | End | ||||||||||||
Core i7 2800QM | ||||||||||||||||
2820QM | 4 (8) | 2.30 GHz | 3.40 GHz | 4×64 KB | 4×256 KB | 8 MB | 23 | 45 W | ||||||||
Core i7 2700QM | ||||||||||||||||
2720QM | 4 (8) | 2.20 GHz | 3.30 GHz | 4×64 KB | 4×256 KB | 6 MB | 22 | 45 W | ||||||||
Core i7 2600QM | ||||||||||||||||
2635QM | 4 (8) | 2. 00 GHz | 2.90 GHz | 4×64 KB | 4×256 KB | 6 MB | 20 | 45 W | ||||||||
2630QM | 4 (8) | 2.00 GHz | 2.90 GHz | 4×64 KB | 4×256 KB | 6 MB | 20 | 45 W | ||||||||
Core i7 2600M | ||||||||||||||||
2620M | 2 (4) | 2.70 GHz | 3.40 GHz | 2×64 KB | 2×256 KB | 4 MB | 27 | 35 W | ||||||||
Core i7 2600M LV | ||||||||||||||||
2649M | 2 (4) | 2.30 GHz | 3.20 GHz | 2×64 KB | 2×256 KB | 4 MB | 23 | 25 W | ||||||||
2629M | 2 (4) | 2. 10 GHz | 3.00 GHz | 2×64 KB | 2×256 KB | 4 MB | 21 | 25 W | ||||||||
Core i7 2600M ULV | ||||||||||||||||
2657M | 2 (4) | 1.60 GHz | 2.70 GHz | 2×64 KB | 2×256 KB | 4 MB | 16 | 17W | ||||||||
2617M | 2 (4) | 1.50 GHz | 2.60 GHz | 2×64 KB | 2×256 KB | 4 MB | 15 | 17W |
Ivy Bridge
Haswell
Skylake
Kaby Lake
Last generation released in .
Compatible chipsets
Chipset | Marketing | Architecture | GPU | |||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Codename | Engraved | TDP | Bus interface | Model | Frequency | DirectX | OpenGL | Engine HD | ||||||||||
Intel | ||||||||||||||||||
X58 | Tylersburg | 24.1W | QPI | — | ||||||||||||||
P55 | Capricorn Peak | DMI | — | |||||||||||||||
PM55 | Capricorn Pik-M | 3. 5 W | DMI | — |
Initial relative performance
To estimate the orders of magnitude of the relative power of these processors, you can use the Passmark index . At , the figure is 16,000 for the Core i7-5960X at 3.00 GHz (desktop), 4000 for the Core i7-3667U at 2.00 GHz (ultraportables).
Notes and links
Notes
- ↑ a b c d e and f Values shown for 4, 3, 2 and 1 active cores respectively. The numbers in brackets indicate the number of boxes.
- ↑ a b c d and e Take advantage of the unlocked multiplier.
- ↑ a and b VT-d technology is not supported by the C1 stepping.
Recommendations
- ↑ U = extra low voltage
- ↑ (in) Intel Press Release, Intel Moves Future Core™ Processors to Turbo Mode in Intel News Release, August 19, 2008
- ↑ David Legrand, «IDF 2008: Overclocking on Nehalem, the Great Unknown», in PC INpact, August 21, 2009.
- ↑ David Legrand, Core i7 Turbo Mode: That Will Be Dynamic Speed Technology , in PC INpact, September 26, 2009
- ↑ Rajinder Gill, P55 Extreme Overclockers: Check your sockets! , at AnandTech, October 15, 2009
- ↑ Massman, P55-UD6 socket burn , on the XtremeSystems forums, 18 September 2009
- ↑ (in) Khalid Moammer, « Intel i7 7700K CPU should not be overclocked in response to multiple complaints overheating » on Wccftech.com, (accessed 20 July 2017) .) .
- ↑ David Legrand, Intel skips Havendale at 45nm, for Clarkdale at 32nm , in PC INpact, 19June 2009
- ↑ Florian Vieru, Gulftown will be Core i7-980X, Core i7-930 coming soon! , on PCWorld.fr, December 14, 2009
- ↑ Florian Vieru, « Intel releases Core i7-970 and cuts price on multiple processors» (Archive•Wikiwix•Archive. a b and c Mathieu Lamelot, five Core i7/i5 «Arrandale» processors scheduled for early 2010 , on Tom’s hardware, September 22, 2009.
- ↑ (in) «High End CPUs — Intel vs. AMD » , CPU Benchmarks .
See Also
Related Articles
- Intel Core i3
- Intel Core i5
- Intel Core i9
External links
- (en) Core i7 overclocking guide for beginners. at Clunk.org.uk
- All about Nehalem architecture in PC INpact
- Nehalem: Core i7 visit … in TT-Hardware
- Intel Core i7-920 Overclocking Guide at X-bit Labs
Intel processors |
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Intel introduced 11th generation Core processors ( Rocket Lake-S)
To be honest, this is the first time we’ve come across such a strange announcement of desktop processors. Yesterday, Intel officially unveiled the 11th generation of Core, known as Rocket Lake-S. But the corresponding Z59 motherboards0 has been available for a few weeks now, we bought the Core i7-11700K at retail and posted a benchmark. But today we will not be able to show the test results of any other models. The processors will appear in retail on March 30, and only then will we be able to present a complete set of tests.
On the other hand, today we can share other interesting information. While moving eight cores from 10nm to 14nm doesn’t sound like much, there have been major changes to the memory controller, which we’ll take a closer look at.
But first things first: Intel introduces the new Cypress Cove microarchitecture. Although it can hardly be called new, since Cypress Cove is a version of Sunny Cove, adapted to 14 nm. Recall that Sunny Cove was introduced for Ice Lake mobile processors in mid-2019. However, they were equipped with a maximum of four cores, which revealed serious problems for Intel with the 10nm process technology. Ice Lake-H laptop processors with more than four cores never came out, and neither did Ice Lake-S desktop processors.
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The Cypress Cove architecture only came about because Intel was having serious problems with the 10nm process. They have not yet been fully resolved, since it involves development and production under one roof, which usually gives advantages, but in this case led to problems. The Ice Lake architecture had to be deployed as widely as possible on the 10nm process technology. But Intel managed to release only a few chips for laptops. Rumors that Intel will never produce 10nm desktop processors surprised no one. Processors based on the improved Enhanced 10nm SuperFin process technology should be released in late 2021 or early 2022 if Intel does not switch to external production of some chips.
Cypress Cove architecture
For Intel, the Sunny Cove architecture is the first major change to the underlying CPU architecture since Skylake in 2015. All Comet Lake-S desktop processors are still based on Skylake. The architecture change only happened with Rocket Lake-S processors, although they are still being manufactured in 14nm technology. Until today, that is, until the spring of 2021, Intel cannot cope with the 10nm process technology.
However, Sunny Cove was only the first step. Intel has already taken the next step with the Willow Cove architecture in its Tiger Lake laptop processors, which are manufactured using an improved 10nm process. At least, there are no problems with the production of mobile chips now. Although the die yield is not as high as Intel would like, despite «10nm SuperFin Technology». However, at least here Intel was able to achieve its goals.
But with Cypress Cove we are moving to a completely new architecture. With wider conveyor front and deeper rear.
Intel for Cypress Cove uses a 5-wide out-of-order pipeline. It now has four Unified Reservation Stations (RS), allowing for better instruction parallelism than Skylake. Perhaps to prevent Specter vulnerabilities, Intel dedicated four fixed ports to the AGU (Address Generation Unit). Each pair of AGUs has an associated Read/Write (Load/Store) block. For VEC and INT calculations, there are now additional compute units on the respective ports. All these measures are designed to increase the performance of the architecture.
Cypress Cove also supports the new ISA command sets. Among them are Vector-AES and SHA-NI, but also AVX512. The first two provide hardware-accelerated encryption and decryption. As a result, we should get an acceleration of many cryptographic algorithms, which exactly corresponds to the optimizations mentioned by Intel for special applications.
Rocket Lake-S is still focusing on the AVX512 extensions, since some scenarios will significantly benefit from them:
- AVX512VPOPCNTDQ: AVX512 Vector Population Count Doubleword and Quadword
- AVX512VNNI: AVX512 Vector Neural Network Instructions
- AVX512GFNI: AVX512 Galois Field New Instructions
- AVX512VAES: AVX512 Vector AES
- AVX512VBMI2: AVX512 Vector Bit Manipulation, Version 2
- AVX512BITALG: AVX512 Bit Algorithms
- AVX512VPCLMULQDQ: AVX512 Vector Vector Carry-less Multiply
In our Core i7-11700K pre-test, AVX512 support was particularly noticeable in the Y-Cruncher benchmark.
By expanding the linear address space to 57 bits and the physical address space to 52 bits, Cypress Cove processors can address up to 4TB of RAM per socket. But this feature will only be relevant for Xeon processors (Ice Lake-SP).
There have been changes in the cache hierarchy. The size of the L1 data cache has increased by 50% from 32 KB to 48 KB. The L2 cache has been doubled to 512 KB per core. The Translation Lookaside Buffer (TLB) has grown to accommodate larger address tables. The micro-op cache (µOP) has also grown.
Skylake | Sunny Cove | Cypress Cove | Willow Cove | |
L1 data cache | 32 KB per core | 48 KB per core | 48 KB per core | 48 KB per core |
L1 instruction cache | 32 KB per core | 32 KB per core | 32 KB per core | 32 KB per core |
L2 cache | 256 KB per core | 512 KB per core | 512 KB per core | 1. 280 KB per core |
L3 cache | 20 MB for 10 cores | 8 MB for 4 cores | 16 MB for 8 cores | 12 MB for 4 cores |
Memory controller | DDR4-2933 | DDR4-3200 LPDDR4-3744 |
DDR4-3200 | DDR4-3200 LPDDR4-3744 LPDDR5-5400 |
As you can see, when moving from Skylake to Sunny Cove, the sizes of the L1 data cache and L2 cache increased. On the other hand, the capacity of the L3 cache has not changed. All cache information is correct for both Sunny Cove and Cypress Cove.
Intel has taken the next step with the Willow Cove architecture in Tiger Lake processors, but we won’t see them outside the ultra-mobile segment in the form of Alder Lake until the end of the year. That is, on the desktop segment. Here the L2 cache size has been more than doubled (compared to Cypress/Sunny Cove). L3 cache increased by 50% per core.
Intel also improved branch prediction accuracy. Interestingly, there was a vulnerability in the Skylake architecture here.
Rocket Lake-S and 14nm process
Intel still manufactures Rocket Lake-S processors in 14nm. Unlike its predecessor Comet Lake S, Intel only makes one die with eight cores and integrated graphics. That is, in the production of Rocket Lake-S, Intel does not distinguish between 10-core and 6-core processors.
In terms of manufacturing, the question is why Intel took a step back from ten Comet Lake-S cores, since Rocket Lake-S processors offer a maximum of eight cores. We inquired about the reason and received the following answer: due to the large cache sizes and the increase in GPUs, Intel was no longer able to install more than eight cores on a chip. The CPU and GPU were still designed for 10nm manufacturing, and in the case of 14nm, the area turned out to be noticeably larger. Therefore, it turned out to be unprofitable for Intel to produce more than eight cores.
We asked about the possibility of dropping the integrated graphics and making the chip with 10 or 12 Cypress Cove cores, but here Intel made the argument in the form of different use cases for Rocket Lake-S processors. Integrated graphics are not relevant for most gamers, but in the OEM segment they are very important, and RKL-S crystals will be used not only in gaming systems. Therefore, a chip design with eight cores and integrated graphics was chosen.
Intel usually does not provide die size information. Since the first Core i7-11700K is already scalped, we can determine the size visually. The LGA1200 package has dimensions of 37.5 x 37.5 mm, hence the die dimensions are 11.37 mm x 23.71 mm, the area is 269.58 mm².
Area | Max. number of cores | number of transistors | |
Rocket Lake-S | 269. 6 mm² | 8 | ≈ 6 billion |
Comet Lake-S | 206.1 mm² | 10 | — |
Coffee Lake-S (Refresh) | 180.3 mm² | 8 | ≈ 4 billion |
Coffee Lake-S | 153.6 mm² | 6 | — |
Ryzen 5000 (1x CCD + IOD) | 286.4 mm² | 16 | 6.24 billion |
Compared to its 206.1mm² Comet Lake-S predecessor, the new eight-core Cypress Cove chip is almost 30% larger. It should be recalled that the 11th generation of Core has only eight cores, although the predecessor had ten. But at the same time, the area became larger. Actually, this is one of the reasons why 10-core Rocket Lake S models will not appear. The crystal would simply be too big.
Surprisingly, Intel decided to call the number of transistors — 6 billion. The Ryzen 5800X processor with eight cores, that is, one CCD and one IOD, has 6. 24 billion transistors.
Thin STIM: even thinner die
Since the Coffee Lake and later Comet Lake-S processors, Intel has made the die thinner than previous generations to better transfer heat to the heat spreader. Intel does not indicate whether it was possible to reduce the thickness of the die again. Coffee Lake chips have a die thickness of 800 microns, but Comet Lake-S has reduced it to just 500 microns. According to rumors, Intel with Rocket Lake-S managed to achieve a thickness of only 400 microns, that is, 0.1 mm thinner.
Accordingly, the heat spreader has become thicker again, since the height of the entire enclosure remains the same. Silicon is not the best conductor of heat, so Intel expects better heat dissipation due to the thicker spreader. All Rocket Lake-S processors use solder, not thermal paste. What is connected with the fact that now only one crystal is being manufactured, and not two options with «six or less» and «six or more» cores.
The LGA1200 platform has been slightly enhanced
The LGA1200 platform, introduced late last year, is itself compatible with the new Rocket Lake-S processors. In addition, most motherboard manufacturers have already announced that with 400 Series models (especially those based on the Z490 chipset) they will support PCI Express 4.0. Support for PCI Express 4.0 is one of the most important features of the new processors. At the same time, Intel has increased the number of PCIe 4.0 CPU lanes from 16 to 20 so that it can be directly connected to the NVMe SSD processor in addition to the video card.
But you should still be careful about which models of last year’s motherboards were released with support for PCI Express 4.0. You should also check that there is an M.2 slot connected directly to the processor.
Another new feature of the platform is the connection of the processor to the chipset. Eight DMI 3.0 lines are now used instead of four — at least in the case of the Z590 and H570 chipsets. The transfer rate has doubled to 8 GT/s (7.86 GB/s), which should eliminate the bottleneck in the interface between the processor and the chipset. All Rocket Lake-S processors support x8 DMI 3.0, but on the chipset side, only the Z59 has it.0 and H570, while the B560 and H510 do not.
10/11th Generation Core 400/500 chipset compatibility
An important aspect of the new platform and chipsets is that Intel has allowed memory overclocking for all processors and all chipsets. However, Rocket Lake-S processors’ on-board memory controllers (IMCs) have limitations, which we’ll cover below
For most gamers, the Z590 chipset will be the most interesting option when choosing a new LGA1200 motherboard. The processor’s 20 PCI Express lanes can be distributed by motherboard manufacturers in 1x 16 + 1x 4, 2x 8 + 1x 4, or 1x 8 + 3x 4 modes. The chipset itself offers up to 24 PCI Express 3. 0 lanes. Intel has not yet implemented PCI Express 4.0 support on the chipset, unlike AMD. In addition, the Z590 chipset offers up to 6x SATA ports, 3x USB 3.2 Gen 2×2, 10x USB 3.2 Gen 2×1, 10x USB 3.2 Gen 1×1 and 14x USB 2.0, as well as 2.5G Base-T Ethernet, Wi-Fi 6 and other features , including support for Optane Memory, Smart Sound, Rapid Storage and the new Intel Extreme Tuning Utility.
The H5770 chipset offers a fixed configuration of 1x 16 + 1x 4 PCI Express lanes. As we mentioned earlier, x8 DMI 3.0 is also used for the connection and the chipset. The chipset offers 20x PCI Express 3.0 lanes — four fewer than the Z590. But there is support for up to 2x USB 3.2 Gen 2×2, 4x USB 3.2 Gen 2, 8x USB 3.2 Gen 1 and 14 USB 2.0, which is also less. Intel hasn’t cut back on 6x SATA and 2.5G Base-T Ethernet. If the appropriate PHY is installed on the motherboard, Wi-Fi 6 support is also available. As well as other Intel features (Rapid Storage, Optane Memory, Smart Sound, etc.). But overclocking the processor on motherboards with the H570 chipset is not supported.
The third chipset we’ll look at today is the B560. Here, connectivity is further curtailed. The chipset offers only 12 lanes of PCI Express 3.0, the connection to the processor is via x4 DMI 3.0. More sacrifices have been made on USB ports, but not on network connections.
Comet Lake-S vs. Rocket Lake-S
During the presentation of the Rocket Lake-S processors, Intel made an interesting comparison, showing a table of the maximum power consumption of Comet Lake and Rocket Lake processors. Here it is very interesting to compare the features of nutrition and energy consumption of two generations.
Intel compares older Comet Lake processors (blue) with newer Rocket Lake processors (blue), showing one base profile and one performance profile. Most users are interested in the performance profile, as the base profile is mainly used by OEMs, in systems where the CPU is often limited in power and cooling.
For octa-core Rocket Lake processors with 125W TDP, the Intel Base Profile indicates a higher PL2. The performance profile, for the most part, has remained the same. But in the base 65W profile, Intel gives a lower PL2 for eight cores. In the case of 65W with six cores, PL2 is increased in the performance profile, but lowered in the base one. For the economical 35W models, Intel has lowered PL2 slightly in the case of Rocket Lake.
So we’re seeing some shift in individual models. However, we are more interested in 125-W processors, and their design has not changed much. What can not be said about models with a thermal package of 65 and 35 watts.
On the motherboard side, the requirements for the LGA1200 socket have not changed. So Rocket Lake processors should work on motherboards with 400 Series chipsets, just like older Comet Lake CPUs on newer motherboards with 500 Series chipsets. With the exception of PCI Express 4.0 lanes, M.2 slots connected to the processor, and a few other small things, there is little difference between the platforms.
New Intel Memory Controller
For the new Rocket Lake-S processors, Intel has officially supported the new JEDEC specification. Previously, the top bar was DDR4-2933, now DDR4-3200 is officially supported. Here you can draw a parallel with AMD. Intel developed the new memory controller with Ice Lake processors, it was also used in Tiger Lake processors.
The new memory controller caused some confusion as the BIOS of Z590 motherboards introduced two divider modes (Gear 1 and Gear 2) along with the Core i7-11700K processor, which give different frequencies and latencies. And we want to dwell on this topic in more detail.
As we mentioned, Intel introduced an updated memory controller along with Ice Lake processors. It is used in Rocket Lake-S chips, meaning the controller is not really new. The documentation (PDF) describes how the modes work as follows.
«Processor supports dynamic gearing technology where the Memory Controller can run at 1:1 (Gear-1, Legacy mode) or 1:2 (Gear-2 mode) ratio of DRAM speed. Gear ratio is the ratio of DRAM speed to Memory Controller Clock. »
Sounds very similar to AMD’s approach with Ryzen processors. Where, up to the DDR4-3733 frequency, the built-in dividers operate in 1:1:1 mode (MCLK = UCLK = FCLK = 1.866 MHz). Above, other dividers are already working. Depending on the quality of the chip, it is possible to achieve DDR4 operation at frequencies up to 4,000 MHz while maintaining a ratio of 1:1:1. If this is not possible, then the dividers are changed to 2:2:1, the memory operates at the set frequency, but the memory controller and Infinity Fabric only at half the memory frequency
Intel chose a similar solution. In «Gear 2» mode, the memory controller operates at half the memory frequency. In «Gear 1» mode, the memory runs at full clock speeds. But Intel adds a limitation here. Officially, the «Gear 1» mode works on (almost) all processors only with a memory frequency of DDR4-2933. If a higher memory frequency is selected, the controller switches to «Gear 2» mode. And only the Core i9-11900K supports «Gear 1» at DDR4-3200 and above. With the help of overclocking, Gear 1 mode can also be obtained on other CPUs, as in our case on the Core i7-11700K.
As you can see from the CPU-Z information, Gear 1 and Gear 2 modes give different frequencies. In 1:1 mode (left), the controller operates at the same frequency as the memory — 1.466 MHz. But if you switch to 1:2 mode in the BIOS, then the controller will operate at half the frequency, that is, at 733 MHz.
Left: Core i7-11700K DDR4-2933 1:1, right: Core i7-11700K DDR4-2933 1:2
Left: Core i7-11700K DDR4-3200 1:1, Right: Core i7-11700K DDR4-3200 1:2
The above AIDA64 memory tests show Core i7-11700K results with DDR4-2933 and DDR4-3200 memory in Gear 1 (1:1) and Gear 2 (1:2) modes. You should understand the following: delays in 1:1 mode are significantly less. They are even lower in DDR4-29 mode33 1:1 than at the high clock speeds of DDR4-3200 in 1:2 mode. It can be seen that in the 1:1 mode it is quite possible to achieve delays of about 50 ns.
The latencies in 1:2 mode are higher, but in practice it allows you to run the memory at higher clock speeds. At the same time, the memory controller does not lose stability, since it operates at half the frequency. Here you will have to decide for yourself what is more important: low latency or high memory frequencies with a corresponding high bandwidth.
In the detailed Rocket Lake-S processor benchmark we’ll be posting at the end of the month, we’ll take a closer look at memory controller modes and how they affect performance.
New overclocking features
All Rocket Lake-S processors support memory overclocking on the Z590, H570, and B560 chipsets. However, the open multiplier is still the prerogative of K processors. In addition, Intel has made some changes to the overclocking scheme in addition to different memory modes.
More overclocking and offset functions now available with AVX, AVX2 and AVX512 instruction sets active. Rather, they were first introduced on desktop processors, since Rocket Lake-S is a desktop version on Sunny Cove-derived Cypress Cove cores.
The Intel Extreme Tuning Utility has received an updated user interface and some revisions. Among other things, it allows you to perform some memory settings in real time. For example, you can change the memory frequency without rebooting. The same goes for the Gear modes. This allows you to turn on high clock speeds or low latency only when it makes sense. And you can switch between low latency or high memory bandwidth without overloading your computer.
The latest Extreme Tunings Utility will be available soon, but no later than 11th Gen Core processors.
The first tests of Intel
Of course, Intel showed the first tests of its own. The focus was on the mid-range Core i9-11900K and Core i5-11600K.
Compared to the predecessor Core i9-10900K, Intel sees the Core i9-11900K as an 8 to 14% performance advantage. Intel has limited the selection to applications that are unlikely to benefit from ten cores, so performance gains from individual cores are emphasized here. Intel also claimed victory over Ryzen
We see a similar picture when comparing the Core i5-10600K with the Core i5-11600K. Intel also shows advantages in games that can be called quite significant. However, as usual, the manufacturer’s tests should be treated with a grain of salt. Intel certainly chose games and applications that perform best on the company’s processors.
Rocket Lake-S 9 model list0034
9003 UHD 753 UHD
UDD
33.300 ₽
9-10-111
1.7 GHC
The processors in the list above are based on the Rocket Lake-S die. All new processors use a single die with six or eight active cores. As with previous generations, there are K (open multiplier with integrated graphics), KF (open multiplier without integrated graphics), F (no integrated graphics), regular (with reduced TDP and clock speeds) and T processors that work with a TDP of only 35W. Only three top-end Core i9 processorssupport Thermal Velocity Boost and clock speeds up to 5.3 GHz. The Core i9-11900K can even run at 4.8GHz across all cores under the right conditions.
The Core i7 and Core i5 models are positioned as expected. They all support DDR4-3200 and the integrated graphics work with 36 CUs.
As for the price, the leader is the Core i9-11900K with a price of 45.100 ₽. For AMD Ryzen 7 5800X today they are asking from 29.900 ₽. The price tag of the Core i9 models «bites». But the Core i7-11700K we tested can be purchased from 33,300 ₽, which may also seem like a very high level. «Younger» models are already more attractive. For the Core i5-11600K, you will have to pay 24,400 ₽, so it is well positioned against the Ryzen 5 5600X, which can be purchased from 20,300 ₽.
USD 900 GED 900 GED 900 USD 900 GED 900 GEDD Core i3-10105T
This concludes the announcement of Intel’s Rocket Lake-S processors. Now we know all the main technical specifications, the processors themselves will be available from March 30th. By this date, we will prepare a detailed test.
List of all processors for socket 1155. Table of characteristics, most powerful models, prices, features.
Contents
- 1 LGA1155 processor architectures and features
- 2 All LGA1155 processors and their specifications
- 3 What are the most powerful processors for socket 1155
- 4 What you need to know about cooling
- 4.1 Which cooler to choose
- 4.1.1 For processors with TDP up to 65W
- 4.1.2 For processors with TDP 65W — 95W (without overclocking) (without overclocking)
- 4.1.3 For processors with TDP 77W — 95W (for overclocking)
- 4.1 Which cooler to choose
LGA 1155 (also known as Socket h3) was released back in 2011 and is rightfully considered one of the most successful Intel desktop sockets. Many models have not lost their relevance even now and can provide not only comfortable work in office programs, but also a fairly high frame rate in modern games.
Intel has released for this socket almost all the well -known processors series:
- Celeron
- Pentium
- Core I3
- Core i5
- Core I7
- 9000
CENTERS INOME Core i5 and i7. The models were designed to work in servers, but they can also work in ordinary home motherboards. Often, their cost can be significantly lower than that of similar models of the Core family. You can learn more about these models in this article.
Architectures and features of LGA1155 processors
Socket 1155 processors were produced on two architectures: Sandy Bridge (introduced in 2011) and Ivy Bridge (since 2012).
Main differences between Ivy Bridge and Sandy Bridge:
- Process technology 22nm versus 32nm, as a result — slightly lower TDP
- Support for memory frequency of 1600 MHz instead of 1333 MHz (for models where it is)
For Core series models, you can identify the architecture by the model number:
- Sandy Bridge — the number starts with the number 2: Core i3 2100, Core i5 2300, etc.
- Ivy Bridge — number starts with 3: Core i3 3210, Core i5 3330, etc.
Also processors can have different indexes (eg Core I5 2500 K ). Here’s what they mean:
K — Processors with a free multiplier (which means that turbo limits, turbo voltages, multipliers, etc. can be configured)
P — Processors with a locked graphics core.
S — Energy efficient processors with lower frequencies than non-indexed models.
T — Highly energy efficient processors with significantly lower frequencies than non-indexed models.
In addition, there are a few other important features to consider:
- The officially supported memory frequency is quite low, but it can be overclocked. The increase in frequency is determined by the chipset (overclocking is supported by chipsets Z and P ) and the motherboard specifically. In fact, the Sandy Bridge controller has multiplier support to support memory up to DDR3-2400 (usually only up to 2133 is available on motherboards), the Ivy Bridge controller supports even higher frequencies.
- For some models without index K overclocking is also possible, but it all depends on the specific model and motherboard chipset.
All LGA1155 processors and their characteristics
Below is a table with the main characteristics of all existing socket 1155 processors. The most interesting models are highlighted in bold, and approximate prices are also indicated for them.
Model | Estimated cost | nuclei (flows) | Frequency (Turbo Boost) | Video | cache L3 | Architecture | no | 8 MB | 87 W | IVY Bridge | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
XEON E3-1290 | 4 (8) | 3. 6 (4.0) GGC | NO | 8 CMB NO | Sandy Bridge 9) GHC | HD 3000 (850 MHz) | 8 MB | 95 W | Sandy Bridge | ||||||||||
Xeon E3-1275 V2 | 4 (8) | 3.5 (3.9) GGC (3.9) GGC 650 MHz) | 8 MB | 77 W | IVY BRIDGE | ||||||||||||||
XEON E3-1280 | 4 (8) | 3.5 (3.9) GHC | 900 | 8 MB 9 ° C Sandy Bridge | |||||||||||||||
Xeon E3-1270 v2 | HD 2000 (850 MHz) | 8 MB | 95 W | Sandy Bridge | |||||||||||||||
Core i7-2600K | $ 40 — $ 60 | 4 (8) | .4 (8) | 8 MB | 95 W | Sandy Bridge | |||||||||||||
Xeon E3-1245 V2 | 4 (8) | 3.4 (3.8) GGC | HD P4000 (650 MHP) 8 MB | 77 W | Ivy Bridge | ||||||||||||||
Xeon E3-1240 V2 | $ 35 — $ 50 | 4 (8) | 3. 4 (3.8) GHz | no | 9003 | IVY BRIDGE | $ 30 -$ 45 | 4 (8) | 3.4 (3.8) GHz | no | 8 MB | 80 W | SANDY | XEON E3-1275 ) | 3.4 (3.8) GHz | HD P4000 (850 MHz) | 8 MB | 95 W | Sandy Bridge |
XEON E3-1230 V2 | $ 50 | 4 (8) | 3 (8) | 3 (8) | (8) | 8 MB | 69 W | IVY BRIDGE | |||||||||||
XEON E3-1245 | 4 (8) | 3.3 (3.7) GHC | HD P33000 (850 MHz) | Sandy Bridge | |||||||||||||||
Xeon E3-1240 | $ 30-$ 40 | 4 (8) | 3. 3 (3.7) GHC | 8 MB | SANDY BRIDGE 9003 XEN | 4 (8) | 3.2 (3.6) GHz | HD P3000 (850 MHz) | 8 MB | 95 W | SANDY BRIDGE | ||||||||
.35 900 900.35 — $ 25 — $ 25 — $ (8) | 3.2 (3.6) GHz | no | 8 MB | 80 W | Sandy Bridge | ||||||||||||||
Core i7-3770S | 4 (8) | 3.1 (3.9) GGC | HD 4000 (650 MHS) 9000 (650 MHS) 65 W | IVY BRIDGE | |||||||||||||||
Core i7-2600S | 4 (8) | 2.8 (3.8) GHC | HD 2000 (850 MHz) | 65 VT SANDY | |||||||||||||||
Core i7-3770T | 4 (8) | 2.5 (3.7) GHz | HD 4000 (650 MHz) | 8 MB | 45 W | IVY BRIDGE | |||||||||||||
XEON E3-1265L V2 | 4 (8) 9 2.5 (3.5) GHz | HD 2500 (650 MHz) | 8 MB | 45 W | IVY Bridge | ||||||||||||||
XEON E3-1260L | 4 (8) | 2 (3. 3) GGC 9003 HDC 9003 HDC 9003 HDC 9003 HDC 9003 HDC 2000 (650MHz) | 8MB | 45W | Sandy Bridge | ||||||||||||||
Core i5-3570 | 4 | 3.4 (3.8) | HD 2500 (650 ) | 6 | 77 | Ivy Bridge | |||||||||||||
Core i5-3570K | 4 | 3.4 (3.8) GHz | HD 4000 (650 MHz) | 6 MB | 77 W | IVY BRIDGE | |||||||||||||
Core i5-2550K | 4 | 3.433 3.43333333333333 | 6 MB | 95 | Sandy Bridge | ||||||||||||||
Core i5-3550 | 4 | 3.3 (3.7) | HD 2500 (650 ) | 6 | 77 | Ivy Bridge | |||||||||||||
Core i5-2500 | 4 | 3.3 (3.7) GHz | HD 2000 (850 MHz) | 6 MB | Sandy Bridge | ||||||||||||||
Core i5-2522220 | 4 | 3.3 (3. 7) GHz | HD 3000 (850 MHz) | 6 MB | 95 W | Sandy Bridge | |||||||||||||
Xeon E3-1225 V2 | 4 | 3.2 (3.6) GGC | 77 W | IVY BRIDGE | |||||||||||||||
Core i5-3470 | 4 | 3.2 (3.6) GHz | |||||||||||||||||
Core i5-2450P | Sandy Bridge | ||||||||||||||||||
Core i5-3340 | 4 | 3.1 (3.3) GHC | HD 2500 (650 MHz) | 77 VT | IVY BRIDGE | 4 | 3.0 (3.3) GHC | HD 2000 (850 MHz) | 6 MB | 95 W | Sandy Bridge | ||||||||
Core | 33333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333AIUS | HD 2500 (650 MHz) | 6 MB | 77 W | IVY BRIDGE | ||||||||||||||
Core i5-3550S | 4 | 3.0 (3.7) GHC | HD 2500 (650 MHz) | ||||||||||||||||
Core i5-3475S | 4 | 2. 9 (3.6) | HD 4000 (650 ) | 6 | 65 | Ivy Bridge | |||||||||||||
Core i5-3470S | 4 | 2.9(3.6) GHC | HD 2500 (650 MHz) | 6 MB | 65 W | IVY BRIDGE | |||||||||||||
Core i5-2310 | 4 | 2.9 (3.2) GGC | HDC 2000. ) | 6 MB | 95 W | Sandy Bridge | |||||||||||||
Core i5-3450S | 4 | 2.8 (3.5) GHC | HD 2500 (650 MHz) | ||||||||||||||||
Core i5-3340S | 4 | 2.8 (3.3) GHz | HD 2500 (650 MHz) | 6 MB | 65 W | IVY Bridge | |||||||||||||
Core | .m..m. 3.3 2.3 2. | HD 2000 (850 MHz) | 6 MB | 95 W | Sandy Bridge | ||||||||||||||
Core i5-2500S | 2. 7 (3.7) GGC | HD 2000 (850) MB | 65 W | Sandy Bridge | |||||||||||||||
Core i5-3335S | 4 | 2.7 (3.2) | HD 4000 (650 | 6 | 65 | Ivy Bridge | |||||||||||||
Core i5-3330S | 4 | 2.7 (3.2) GHz | HD 2500 (650 MHz) | 6 MB | 65 W | IVY Bridge | |||||||||||||
Core I5-2405S | 4 | 2.5 (3.5) 2.5 2 (850 MHz) | 6 MB | 65 | Sandy Bridge | ||||||||||||||
Core i5-2400S | 4 | 2.5 (3.3) | HD_2000 (850 ) | 6 | 65 | Sandy Bridge | |||||||||||||
Core i5-3570T | 4 | 2.3 (3.3) | HD 2500 (650 ) | 6 | 45 | Ivy Bridge | |||||||||||||
Core i5-2500T | 4 | 2.3 (3.3) GHz | HD 2000 (650 MHz) | 6 MB | 45 W | Sandy Bridge | |||||||||||||
Core i3-3250 | 2 (4) | 3. 5 GGC | HD (650 MSC) | 55 | Ivy Bridge | ||||||||||||||
Core i3-3245 | 2 (4) | 3.4 | HD 4000 (650 ) | 3 | 55 | Ivy Bridge | |||||||||||||
Core i3-3240 | 2 (4) | 3.4 GHz | HD 2500 (650 MHz) | 3 MB | 55 W | IVY BRIDGE | |||||||||||||
CORE I3-2130 | 33333 3 2 (4) | HD 2000 (850 MHz) | 3 MB | 65 W | Sandy Bridge | ||||||||||||||
Core i3-3225 | 2 (4) | 3.3 GHC | HD 4000 (650 MHA) | 55W | Ivy Bridge | ||||||||||||||
Core i3-3220 | 2 (4) | 3.3 GHz | HD 2500 (650 MHz) | 55 W | |||||||||||||||
3.3 GHz | HD 3000 (850 MHz) | 3 MB | 65 W | Sandy Bridge | |||||||||||||||
Core i3-2120 | 2 (4) | 3 MB | 65 W | Sandy Bridge | |||||||||||||||
Core i3-3210 | 2 (4) | 3. 2 | HD 2500 (650 ) | 3 | 55 | Ivy Bridge | |||||||||||||
Core i3- 2105 | 2 (4) | 3.1 GHz | HD 3000 (850 MHz) | 3 MB | 65 W | Sandy Bridge | |||||||||||||
Core | 2 (4) | 2 (4) GHz | HD 2000 (850 MHz) | 3 MB | 65 W | Sandy Bridge | |||||||||||||
Core i3-2100 | 2 (4) | 3.1 GHC | 3 MB 9003 65 65 65 3 MB 9 MB 9 ° C Bridge | ||||||||||||||||
Core i3-3250T | 2 (4) | 3.0 | HD 2500 (650 ) | 3 | 35 | Ivy Bridge | |||||||||||||
Core i5-3470T | 2 (4) | 2.9 (3.6) GHC | HD 2500 (650 MHz) | 3 MB | 35 W | IVY Bridge | |||||||||||||
Core i3-3240T | (4) | 3 MB | 35 W | IVY Bridge | |||||||||||||||
Core i3-3220T | 2 (4) | 2. 8 GHC | HD 2234 900 900 900 900. | Ivy Bridge | |||||||||||||||
Core i5-2390T | 2 (4) | 2.7 (3.5) GHz | HD 2000 (650 MHz) | 3 MB | 35 W | Sandy Bridge | |||||||||||||
Core I3-2120T 9003 2 (4) (4) | 2.6 GHz | HD 2000 (650 MHz) | 3 MB | 35 W | SANDY BRIDGE | ||||||||||||||
Core i3-2100T | 2 (4) | 3 MB | 35 W | Sandy Bridge | |||||||||||||||
Xeon E3-1220L V2 | 2 (4) | 2.3 (3.5) GHC | NO | 3 MB | 17 W | IVY Bridge | |||||||||||||
2.2 (3.4) GHz | no | 3 MB | 20 W | Sandy Bridge | |||||||||||||||
Pentium G2140 | 2 | 3.3 GGC) MB | 55 W | Ivy Bridge | |||||||||||||||
Pentium G2130 | 2 | 3.2 | HD 3000 (650 ) | 3 | 55 | Ivy Bridge | |||||||||||||
Pentium G2120 | 2 | 3. 1 GHz | HD 3000 (650 MHz) | 3 MB | 55 W | IVY BRIDGE | |||||||||||||
Pentium G870 | 3.1 GGC | 65 | Sandy Bridge | ||||||||||||||||
Pentium G2030 | 2 | 3.0 | HD 3000 (650 ) | 3 | 55 | Ivy Bridge | |||||||||||||
Pentium G860 | 2 | 3.0 GHz | HD 2000 (850 MHz) | 65 W | Sandy Bridge | ||||||||||||||
Pentium G20 | 2 | 2.9 GGC | 20034 | 3 | 55 | Ivy Bridge | |||||||||||||
Pentium G850 | 2 | 2.9 | HD 2000 (850 ) | 3 | 65 | Sandy Bridge | |||||||||||||
Pentium G645 | 2 | 2.9 GHz | HD 2000 (850 MHz) | 3 MB | Sandy Bridge | ||||||||||||||
Pentium G2010 | HD 3000 (650 ) | 3 | 55 | Ivy Bridge | |||||||||||||||
Pentium G840 | 2 | 2. 8 | HD 2000 (850 ) | 3 | 65 | Sandy Bridge | |||||||||||||
Pentium G640 | 2 | 2.8 | HD 2000 (850 ) | 3 | 65 | Sandy Bridge | |||||||||||||
Celeron G1630 | 2 | 2.8 | HD 3000 (650 ) | 2 | 55 | Ivy Bridge | |||||||||||||
Pentium G2120T | 2 | 2.7 | HD 3000 (650 ) | 3 | 35 | Ivy Bridge | |||||||||||||
Pentium G632 | 2 | 2.7 | HD 2000 (850 ) | 3 | 65 | Sandy Bridge | |||||||||||||
Pentium G630 | 2 | 2.7 | HD 2000 (850 ) | 3 | 65 | Sandy Bridge | |||||||||||||
Celeron G1620 | 2 | 2. 7 | HD 3000 ( 650 ) | 2 | 55 | Ivy Bridge | |||||||||||||
Celeron G555 | 2 | 2.7 | HD 2000 (850 ) | 2 | 65 | Sandy Bridge | |||||||||||||
Pentium G2030T | 2 | 2.6 | HD 3000 (650 ) | 3 | 35 | Ivy Bridge | |||||||||||||
Pentium G2100T | 2 | 2.6 | HD 3000 (650 MHz) | 3 MB | 35 W | IVY Bridge | |||||||||||||
Pentium G860T | 2 | 2.6 GHC | HD 2000 (650 MHz) 900 900 (650 MHz) 900 900 (650 MHz)0034 | Sandy Bridge | |||||||||||||||
Pentium G620 | 2 | 2.6 | HD 2000 (850 ) | 3 | 65 | Sandy Bridge | |||||||||||||
Celeron G1610 | 2 | 2. 6 GHz | HD 3000 (650 MHz) | 2 MB | 55 W | IVY Bridge | |||||||||||||
Pentium G622 | 2.6 GGTs | 65 | Sandy Bridge | ||||||||||||||||
Celeron G550 | 2 | 2.6 | HD 2000 (850 ) | 2 | 65 | Sandy Bridge | |||||||||||||
Pentium G645T | 2 | 2.5 GHz | HD 2000 (650 MHz) | 3 MB | 35 W | Sandy Bridge | |||||||||||||
Pentium G2020t | 2 | 2 | 2 | 0033 HD 3000 (650 MHz) | 3 MB | 35 W | IVY Bridge | ||||||||||||
Celeron G540 | 2 | HD 2000 (850 MHz) 900 900 2. | Sandy Bridge | ||||||||||||||||
Pentium G640T | 2 | 2.4 | HD 2000 (650 ) | 3 | 35 | Sandy Bridge | |||||||||||||
Celeron G1620T | 2 | 2. 4 GHz | HD 3000 (650 MHz) | 2 MB | 35 W | IVY Bridge | |||||||||||||
Celeron G530 | 2.4 GGC 2. | 65 | Sandy Bridge | ||||||||||||||||
Pentium G630T | 2 | 2.3 | HD 2000 (650 ) | 3 | 35 | Sandy Bridge | |||||||||||||
Celeron G1610T | 2 | 2.3 | HD 3000 (650 ) | 2 | 35 | Ivy Bridge | |||||||||||||
Pentium G620T | 2 | 2.2 | HD 2000 (650 ) | 3 | 35 | Sandy Bridge | |||||||||||||
Celeron G550T | 2 | 2.2 | HD 2000 (650 ) | 2 | 35 | Sandy Bridge | |||||||||||||
Celeron G540T | 2 | 2.1 | HD 2000 (650 ) | 2 | 35 | Sandy Bridge | |||||||||||||
Celeron G530T | 2 | 2. 0 | HD 2000 (650 MHz) | 2 MB | 35 W | Sandy Bridge | |||||||||||||
Celeron G470 | 1 (2) | 2.0 GHC | HD 2000 (650 MHz) | Sandy Bridge | |||||||||||||||
Celeron G465 | 1 (2) | 1.9 | HD 2000 (650 ) | 1,5 | 35 | Sandy Bridge | |||||||||||||
Celeron G460 | 1 (2) | 1.8 GHz | HD 2000 (650 MHz) | 1.5 MB | 35 W | SANDY BRIDGE | |||||||||||||
1 9003 1.6 HEG (650 MHz) | 1 MB | 35 W | Sandy Bridge |
What are the most powerful processors for socket 1155
The answer to this question is quite simple. The most powerful models are Core I7 2700K and Core I7 3770K . These are excellent stones with great overclocking potential, designed for top-end motherboards. With the right approach, each of them can reach a frequency of ~5 GHz.
However, these models are still quite expensive, and as a rule, such a high overclock is not required for an ordinary user. Therefore, the original question would be better reformulated in «Which socket 1155 processors are best in terms of price / performance» .
Let’s immediately discard all celerons, pentiums and i3. Among the Core i5, it is worth highlighting the legendary I5 2500K . At a very modest cost, it has great overclocking potential and is a good choice for tasks that require a high frequency per core, but do not require more than 4 threads.
For more modern tasks (including games), you will need 8-thread models: Core I7 2600k and Xeon E3 1230 \ 1240 \ 1270 of both generations ( v1 and v2 ). The choice here will depend on the chipset of the motherboard and your desire to overclock. Recall that overclocking is supported by boards based on chipsets with the index P and Z.
For motherboards with overclocking support, the same models, but the first generation, will be the best choice. Xeon E3 1230 \ 1240 \ 1270 will provide us with Core i7 2600 performance, and the motherboard will allow you to choose a memory frequency higher than the stock 1333 MHz.
And the best solution for overclocking will be Core I7 2600K . In overclocking, this stone still shows excellent performance, bypassing many models from more modern generations. Don’t forget to take care of a quality cooling system!
What you need to know about cooling
Although even the most powerful models have a TDP not exceeding 95W, there are several factors to consider when choosing a cooling system:
- Ivy Bridge architecture is a thermal paste that loses its heat-conducting properties over time. Therefore, models on Ivy Bridge can currently be hotter than models with the same TDP but built on the old architecture.
- Overclocking increases both the power consumption of the processor and the generation of heat. Considering the peculiarities of the Ivy Bridge thermal interface, one should not be surprised at the significantly higher temperature during overclocking.
- The throttling threshold for new architecture stones has been slightly increased to 105 degrees. For models on Sandy Bridge, this threshold is 100 degrees. However, bringing to such temperatures is highly discouraged, it is advisable not to exceed 80-85 degrees under load.
Enthusiasts, in order to achieve maximum frequencies, usually resort to scalping, or a complete change in the thermal interface of Ivy Bridge processors. However, an ordinary user is unlikely to carry out such operations and will simply limit himself to a lower CPU frequency.
Which cooler to choose
Here is a small selection of tested and compatible air coolers for LGA1155.
Keep in mind that buying budget cooling is not always profitable in the long term. An inexpensive cooler may be useless when replacing the processor or the entire system, while a more expensive model can easily survive several global upgrades. Tower coolers with 4 or more heat pipes are considered the most versatile option.
For processors with TDP up to 65W
Almost any air cooler can cool stones with a small TDP. It is not necessary to choose massive tower coolers; even the simplest horizontal models without heat pipes can cope with heat dissipation.
When choosing a cooler from this category, pay attention to the type of connector (3pin\4pin), the ability to adjust the speed will depend on this (not all motherboards can adjust the speed of 3pin coolers).
Verified budget coolers:
- Deepcool Gamma Archer (3pin)
- Deepcool Gamma Hunter (3pin)
- Deepcool Thwet (4pin) 9p (4pin)
- Arctic Alpine 12 (4pin)
For processors with TDP 65W — 95W (without overclocking)
Although classic horizontal coolers with a copper heel could cope with heat dissipation, it is still better to opt for tower models. In most cases, 2-3 heat pipes will suffice.
- AEROCOOL VERKHO2
- Deepcool Gammaxx 200t
- ID-Cooling SE-903-SD
- PCCOler GI-X3 V2
for processors with TDP 77W-95W (under exposure)
depend both on the processor itself and its architecture, and on the planned maximum frequency. Under average overclocking, in most cases, 4 heat pipes are enough, but for maximum frequencies it is better to give preference to models with 5-6 heat pipes.
- ID-COOLING SE-224-XT
- PCcooler GI-X4S
- Zalman CNPS10X Optima II
- Ice Hammer IH-4800
- ID-COOLING SE-226-XT
- Thermalright Macho
- Deepcool NEPTWIN V2
Of the models available on aliexpress, the leader in terms of price / quality ratio is Snowman MT6.
Before buying a massive cooler, it is better to make sure that it will fit in the case. It is also worth considering that some models of motherboards have RAM slots close enough to the socket, which can also cause problems when installing large cooling systems. Do not forget also about the importance of good air circulation in the case.
Comparison of i5 and i7 processors. how not to miscalculate and not overpay
5th generation
The technical process remained the same — 22 nm. As part of the X series, 5820K, 5930K and 5960X were released. The controller was transferred to DDR4 memory, so the 2011 platform of the third version was used. I also advise you to read about different generations of the popular and popular intel core i5.
There was no mass production of processors of this series. The manufacturer mastered the 14 nm process technology on the Broadwell architecture. Only two models were created: 5775C and 5775R — the same chip with the Iris Pro 6200 graphics accelerator.
Models 6800K, 6850K, 6900K and 6950X are created in the X series. They worked with quad-channel DDR 4 memory and were installed in the 2011 slot of the third version.
What is the best processor for gaming?
Choosing a processor is not an easy decision to make when you’re ready to buy a new desktop or regular laptop. And if you don’t even take AMD into account, deciding which Intel dominates the market and finding the right processor is not an easy task.
Intel makes a large number of processors. There are so many different options not only for desktop PCs but also for laptops, but other styles are also in these categories. In this review, we will show the important differences and features of Core i3 and Core i9and we will see what this chaotic set of numbers and letters encrypted in the main name of Intel is.
AMD Navi RX 5700 with RTX 2070 performance
And with the new 9th gen Intel processors recently released, it’s even harder to find your perfect processor. The Intel Core i9-9900K, for example, may be an absolute powerhouse for creative tasks, but it’s not necessarily the best Intel processor to buy for gamers.
AORUS NVMe Gen 4 SSD
A with newly released new Intel 9 processorsth generation is even harder to find the perfect processor. For example, the Intel Core i9-9900K may be the ultimate creative spur, but it’s not necessarily the best Intel processor for gamers.
A new wave of processors is also on its way to Intel’s 10th Gen Ice Lake processors officially unveiled at Computex 2019. Ice Lake processors will be in laptops by Christmas.
Still confused? To help you, we’ve created this guide to help you find the best Intel processor for your needs.
MSI RTX 2070 Super Gaming X Trio — Ultra Powerful Graphics Card Review
Student Processors
At CES 2021, Intel announced the release of new processors for Chromebooks and student laptops. These are Pentium Silver and Celeron N-series with Jasper Lake design. During the presentation, Intel talked about six new chips — three with a 6-watt thermal package and three with a 10-watt thermal package.
Each of the six processors received a 10-nanometer process technology and support for LPDDR4X RAM, and in each of them the number of cores is equal to the number of threads, that is, HyperThreading technology is not implemented in them. The younger Celeron N4500 and Celeron N4505 received only two cores each, the remaining four CPUs are quad-core.
N-Series Education Processors
Cores, threads | Frequency, GHz | Heat dissipation, W | Video card frequency, GHz | Supported memory | |
---|---|---|---|---|---|
Pentium N6005 | 4, 4 | 2 — 3.3 | 10 | 900 | LPDDR4X-2933 |
Celeron N5105 | 4, 4 | 2 — 2.9 | 10 | 800 | LPDDR4X-2933 |
Celeron N4505 | 2, 2 | 2 — 2.9 | 10 | 750 | LPDDR4X-2933 |
Pentium N6000 | 4, 4 | 1.1 — 3.3 | 6 | 850 | LPDDR4X-2933 |
Celeron N5100 | 4, 4 | 1.1 — 2.8 | 6 | 800 | LPDDR4X-2933 |
Celeron N4500 | 2, 2 | 1.1 — 2.8 | 6 | 750 | LPDDR4X-2933 |
According to Intel, the new «training» processors will boast a maximum of 78% increase in graphics performance and an increase in overall performance of up to 38% compared to the Goldmont Plus line of processors, for example, the Pentium N5030.
AI detects fraud, collusion and other crimes in medicine
Artificial intelligence
New Intel N-series chips coming to Chromebooks in Q1 2021 Linux and Windows devices coming in Q2 2021 associated with programs we support.
Processor for home and office tasks. Support for the office suite, music and movie player, and web browser does not require increased performance. For undemanding users, i3 and cheaper i5 models are recommended. 2-core chips supporting two to four threads will suffice. The clock frequency can be as high as 3 GHz
It is also recommended to buy low power processors (S, T, Y or U).
Game processor
In this case, energy efficiency is not the most important thing — players pay attention, first of all, to the maximum performance of the chips used. Therefore, you will need to purchase at least 4 or 8-core processors with a frequency of more than 3.5 GHz
The choice should fall on the i5, i7 or i9 series
Other components are also important during the game (the most important is the video card).
Graphics and video processor. In this case, the most important are the number of supported streams and the possibility of using different technologies. You will need a processor with at least 4 cores (although it is better to have an 8-core model) and support for 8 threads at the same time. For professional use, the Intel Core i7 and i9 series chipsets are recommended as they are the only ones capable of meeting the demands of the latest and most advanced graphics and video software.
When deciding to buy a processor, you need to carefully analyze all its characteristics, and then compare them with other models that belong to the same price category. In this regard, various tests and comparisons that are published very often will be useful.
Model modifications
The model number can be followed by one or a combination of the letters U, Y, T, Q, H, G, and K. Here is what they mean:
- U: ultra-low power consumption. Designed for laptops only. Consume less energy and generate less heat.
- Y: low power consumption. Usually found in older laptops and mobile processors.
- T: Best for desktop use.
- Q: Quad Core. Indicates that there are four physical cores.
- H: high performance graphics. The chipset has a good built-in GPU.
- G: Enables discrete graphics. Usually found on laptops and means that there is a low-performance video processor.
- K: unlocked. Means that the CPU can be overclocked.
Decoding will help you get additional information on the model number.
A bunch of new products Intel
Intel has announced four new families of CPUs for desktop and mobile computers and separately showed a representative of the fifth family — Rocket Lake-S. The chips are aimed at devices of various classes, including entry-level PCs aimed at the educational segment and high-performance corporate laptops.
Intel premiered its new chip families at the international consumer electronics show CES 2021, which opened on January 11, 2021. She demonstrated the new representatives of the Core vPro line, the N series, as well as the mobile Core Tiger Lake-H, and also talked about the new generation Alder Lake following Rocket Lake (Rocket Lake debut scheduled for Q1 2021). The main feature of Alder Lake is the clustered cores, as implemented in the vast majority of mobile processors based on the ARM architecture.
As planned by Intel, it will release all its new products during 2021. For example, the first devices based on fresh N-series processors should go on sale in the first quarter of 2021, and Alder Lake chips will be released in the second half of 2021
10th Gen Intel Core i7 Processors — Best Technology
Intel Iris Plus Graphics
Today is the era of 4K HDR and 1080p gaming. 10th Gen Intel Core i7 processors come with Intel Iris Plus graphics and Intel UHD graphics to take your viewing and gaming experience to a whole new level
Intel Adaptix Technology
Intel Adaptix Technology enables users to enjoy high levels of performance from all Intel processor-based platforms. This helps OEMs get the best performance and allows consumers to tweak settings from overclocking to advanced graphics.
Thunderbolt 3 technology
Transfer speeds have never been faster. Thunderbolt 3 can provide data transfer rates up to 40Gbps.
Read: Thunderbolt 3 what it is and how it differs from USB C
It also eliminates the provision of multiple connection ports and replaces them with a compact port that performs various tasks such as powering a PC, transferring data, and also connecting to two displays 4K UHD.
Intel Optane Technology
Intel Optane Technology helps you unlock the full power of your processor by increasing storage capacity.
Higher SSD storage automatically results in higher speeds and more storage at the same time.
10th Gen Intel Core i7 Processors
Since the 10th Gen Intel Core i7 processors are the latest in their niche, we’ll discuss the features that differentiate these processors from previous generations.
- Intel Iris Plus Graphics Brings AI to PC
- 5x faster performance
- Twice the graphics of
- Three times faster wireless speed with Wi-Fi 6
- Thunderbolt 3 is the fastest and most versatile data port
for the First Time
Processor | Kesh | Kernels | Threads | Maximum clock frequency |
10700 t | Smart Cache 16 MB | Eight | 16 | 4.50 GHz |
10700 K | Smart Cache 16 MB | Eight | 16 | 5.10 GHz |
10700 | Smart Cache 16 MB | Eight | 16 | 4.80 GHz |
10750H | Smart Cache 12 MB | Six | 12 | 5.00 GHz |
10850H | Smart Cache 12 MB | Six | 12 | 5.10 GHz |
10875H | Smart Cache 16 MB | Eight | 16 | 5. 10 GHz |
10510U | Smart Cache 8 MB | Four | Eight | 4.90 GHz |
10510Y | Smart Cache 8 MB | Four | Eight | 4.50 GHz |
10710U | Smart Cache 12 MB | Six | 12 | 4.70 GHz |
1065G7 | Smart Cache 8 MB | Four | Eight | 3.90 GHz |
Performance
Test results can be found on the Internet, but I will tabulate some values so that you can see the «picture» of what these processors are capable of.
Parameter | i3 | i5 | i7 | |||
Model | 6100U | 7100U | 6200U | 7200U | 6500U | 7500U |
64 Bit Geekbench Single Core | 2861.00 | — | 3554.00 | 3626. 00 | 3872.00 | 4108.00 |
64 Bit Geekbench Multi Core | 5320.00 | — | 6641.00 | 6789.00 | 7303.00 | 7798 |
64 Bit Cinebench R11.5 Single Core | 1.11 | — | 1.32 | 1.47 | 1.46 | 1.66 |
64 Bit Cinebench R11.5 Multi Core | 2.75 | — | 3.20 | 3.67 | 3.52 | 3.78 |
64 Bit Cinebench R15 Single Core | 97.00 | 90.00 | 115.00 | 128.00 | 128.00 | 144.00 |
64 Bit Cinebench R15 Multi Core | 247.00 | 257.00 | 289.00 | 327.00 | 316.00 | 338.50 |
3DMark06 CPU | 3241.50 | — | 3787.00 | 4356.00 | 4231 | 4587 |
In this case, the absolute numbers are not so important, but more important is the trend of changing indicators when changing the generation of the processor and its version.
Gaming performance
Let’s start with playing Battlefield 5 at 1080p with Ultra graphics quality. 10900K and 10700K are limited by the graphics card and as a result the average performance and bottom 1% performance are the same. The 10600K delivers the same average frame rate, but is 8% behind in the bottom 1%.
The 10400 is still 6% weaker, and the 10100 is 22% further behind. If we increase the resolution to 1440p, the performance difference between 10400, 10600K, 10700K and 10900K is minimal. Average frame rates are almost identical, while the 10900K is almost 10% ahead of the 10400 in the bottom 1% of performance.
At the same time, the Core i3-10100 is noticeably behind, although its speed is far from weak. At times the difference between 10100 and 10400 can be seen.
Far Cry New Dawn is very clock and cache sensitive. Because of this, there is a big difference in speed between 10100 and 10400. Core i5 is 25% faster. The difference between the 10400 and 10600K is much smaller at 8% due to the difference in clock speed.
Processor Intel Core i5-10400
When switching to 10700K, the buyer will receive another 9%. 10900K adds almost nothing to this.
As we’ve seen in the past, pushing the resolution to 1440p puts more strain on the CPU, and as a result lower-end models like the Core i3-10100 fall even further behind the competition. The 10400 outperforms it by 25% at 1080p and 31% at 1440p.
Next comes Gears Tactics. In it, the results of the 10600K, 10700K and 10900K processors are the same. Only the Core i3-10100 struggles, 20% behind the 10400.
At 1440p, the difference shrinks even further to just 7%. The main load falls on the video card.
Games like Ghost Recon Breakpoint are not very CPU dependent and you won’t see much difference between the Core i3-10100 and i9-10900K. This is especially true for 1440p resolution. 10900K is 7% faster than 10100, which is only 3 fps. If the game has enough four cores and it is not too sensitive to processor speed, you can choose any of the 10th generation Intel Core.
In Rainbow Six Siege, the 10700K and 10900K produce almost identical results at 1080p. The 10600K is very close to them, although the bottom 1% of performance is 12% behind. The 10600K and 10400 are very close in terms of results, the Core i3-10100 is 17% behind them.
Processor Intel Core i5-10600K
Again, as the resolution increases to 1440p, the difference in frames between processors disappears. The Core i5, i7, and i9 deliver nearly the same speed, with the i3-10100 trailing 13% in the bottom 1% of the results.
One of the most CPU-intensive modern games is Shadow of The Tomb Raider. It needs a 6-core processor with 12 threads. Core i5 is not far behind the 8 and 10-core Core i7 and Core i9. The 4-core Core i3-10100 is 39% behind.
1440p reduces the difference between i5, i7 and i9. Now the 10900K is only 12% ahead of the Core i5-10400 in the bottom 1% of performance. Compared to the Core i3-10100, it is 33% faster and even the 10400 has a 19% lead.% in the bottom 1% performance. This is not the best game for 4-core processors.
The last game on the list is Red Dead Redemption 2. It also doesn’t perform very well on 4-core processors even with SMT support. i5, i7 and i9 performance is almost the same, Core i3-10100 is 27% behind.
The difference shrinks at 1440p and the Core i3-10100 is now only 14% behind the 10900K and 9% behind the 10400.
Best Intel 9 Processor8236
The letter at the end of the text of the processor name is the 2nd most important part of the Intel code. In the original processors, you will not notice a letter at all, nor a «K».
Need to stick to a tight budget, or make a computer for basic tasks? You will be fine with an Intel processor without a letter. These are standard consumer grade processors.
K-series processors are «unlocked». This means you can overclock them more freely by increasing how hard they work to improve performance.
These processors are designed for enthusiasts who put some extra thought into the cooling system on their PC. Overclocking increases the level of heat generated by the processor and can cause issues with the stock cooler. You can buy «standard» and «unlocked» versions of the Core i3, i5, and i7 processors.
Dig a little deeper and you’ll find processors with the letters «X», «T», and «B». The T and B processors have additional features for business use. And the X-series processors are part of the 7th generation. They remain the fastest processors in the world, but are too expensive for most budgets.
For example, an 18-core Intel i9-7980XE costs £1,800. You can make a very expensive computer for that price.
Similar: Best Gaming Laptops — Computex 2019
Intel Core Processors — designations
There are so many of them that many people can quickly get lost in the stream of numbers, numbers and symbols. However, this can be corrected — it is enough to carefully analyze each component in the processor name.
- i5-3470 — 3rd generation processor,
- i5-4570 — fourth generation processor,
- i5-5500 — fifth generation processor,
- i5-6500, 6th generation processor,
- 7th generation i5-7500 processor,
- i5-8500 8th generation processor,
- i5-9500 is the ninth generation processor.
- i5-1035G7 is the tenth generation processor.
The next three digits identify the model number. At the end of the marking there is a letter that indicates important elements of the specification. This is an aspect that should definitely be considered when buying a processor.
- S — low power,
- T — very low power consumption (usually desktop models),
- Y — very low power consumption (for mobile processors),
- U — Ultra Low Power Consumption,
- F — Separate graphics card required,
- G — integrated video card,
- H — integrated graphics card (high quality),
- HK — integrated graphics card (high quality, unlocked),
- HQ — integrated graphics card (high quality, 4 cores),
- Q — multi-core,
- XM — high performance,
- K — unlocked multiplier (overclocking),
- M — mobile processors.
For laptops: Intel Core i9-10980HK and Intel Core i7-1065G7
Choosing the best Intel processor for laptops is also not easy, because there are many options. The i9-10980HK is the top mobile chipset in the Comet Lake lineup and has faster speeds. Usually this model can be found in the most expensive gaming and work laptops, because it works better with a separate video card — its integrated graphics processor is rather average.
The Intel Core i7-1065G7 is not as powerful as the i9-10980HK, but the integrated graphics are much better. This means that laptops with such hardware will allow you to play and edit video without a separate video card, which makes the device as a whole lighter and cheaper.
However, the capabilities of the graphics core, of course, are inferior to a good powerful video card, so it’s better to play something like Apex Legends and Fortnite, and not modern blockbusters. The Intel Core i7-1065G7 is commonly found in ultrabooks like the Dell XPS 13, where gaming is more of a bonus than a primary feature.
Comparison of Intel Core i3 vs i5 vs i7 vs i9
Now let’s move on to the discussion of which processor is the best based on usage.
- 10th generation processors are no longer available on desktop PCs. They can only be found on laptops.
- We compare 8th and 9th generation processors and see which series among Core i3, i5, i7 and i9 suits you best.
8th and 9th generation Intel Core 9 processors0003
These processors have the following additional features in addition to the usual ones.
- Users can have an incredible VR experience.
- High-quality 4K and 8K UHD content can be viewed on these processor-powered computers.
- These generations add two more cores from the original quad-core processors.
- Intel Core i9 and X-series computers and laptops use 8th and 9th generation processors.
Intel Core i3 processors
Core i3 processors are ideal for your daily tasks such as MS Office, web browsing and video streaming.
Using Core i3 processors, users can:
- Browse Internet content without problems
- HD video streaming from platforms such as Netflix
- Work with MS Office
- Using hyperthreading, you can perform many tasks efficiently
programs
Intel Core i5 processors
Intel i5 processors have up to six cores, making them great for multitasking. Gamers will also love the latest generation i5 processors.
i5 processors allow:
- Web browsing, MS Office and music streaming at the same time
- Rendering Massive Excel Files
- Use Photoshop to edit photos
- In addition to watching 4K content, users can also create and share it
- Play the fastest PC games
- The larger the cache, the faster repetitive tasks run.
- Stream simultaneously from multiple sites
- Use Intel Turbo Boost Technology to get temporary support for demanding programs and applications
Intel Core i7 processors
Intel Core i7 processors are good for video editors, gamers and designers, especially those who want more power.
Intel Core i7 processors are fast and provide excellent graphics performance. The i7 processors come with eight hyper-threaded cores, providing massive power for the toughest tasks.
With Intel Core i7 processor, users can:
- Encode video efficiently
- Work smoothly in 3D modeling software
- Edit with Photoshop
- Watch and edit 4K UHD content
- Large cache size allows users to benefit from tasks with faster repetition
- Intel Hyperthreading Technology allows users to use two threads with one core.
Intel Core i9 processors
Core i9 processors are the most powerful of all. At the same time, they are the most expensive. These processors have 18 cores and 36 threads. Turbo Boost Max technology makes these processors among the most efficient in the industry.
i9 processorsallow users:
- Work smoothly in 3D modeling programs
- Edit in Photoshop
- Produce, edit and share 4K UHD content
- Produce and edit quality music
- Allows you to easily play the latest games and VR
- A large cache size allows users to benefit from repetitive tasks.
Which configuration is preferred — Intel Core i7 8th / 9th- gen or 10th gen Intel Core i7?
When it comes to features and technology, the 10th Gen Intel Core i7 processors are considered the best available.
Many laptops and desktops come with these 10th generation chips. However, they can be expensive compared to earlier generation processors.
While the 10th Gen chips deliver high-quality gaming with features such as Adaptive-Sync support and Intel Iris Plus graphics, they can’t compare to gaming laptops that ship with high-end graphics cards.
However, enabling an external graphics card can boost gaming performance to a new level.
- In terms of pricing, the 8th generation Intel Core i7 processors are ideal.
- The 9th Gen chips are available in high-end configurations as they do not have Y or U processor categories.
- 10th gen processors will be a better buy due to their various additional features not available on 8th and 9th gen processors. Thus, the 10th generation Intel Core i7 processor should be the processor of the future. As expected, most recent laptops come with this configuration.
It’s your choice. You can choose the processor that suits you best.
1st generation
The first series of this model went on sale in 2008. Even before the advent of i3 and i5, this line switched to a new naming. Chips with model numbers 920, 930, 940, 950, 960, 965, 975 were created using the 45 nm process technology. All CPUs had 4 cores, which worked in eight threads.
A new platform with a 1336-pin connector and DDR3 memory modules has been developed for these chips.
After the appearance in 2009 of a more convenient socket 1156, a series with numbers 860, 860, S 870, 875K and 880 was released. The characteristics did not differ from their predecessors, but the assembly cost was cheaper due to cheaper motherboards with this socket.
The controller was simplified so that only two memory channels were supported.
New Core vPro for Enterprise Notebooks
The latest of the four Intel CPU families shown at CES 2021 are the Tiger Lake Core vPro family for business notebooks. Intel showed four processors of the 11th generation with support for vPro technology and integrated Intel Iris Xe graphics.
For ultra-portable enterprise laptops, Intel has prepared the Core i5-1140G7 and Core i7-1180G7 processors (four cores and eight threads, heat dissipation up to 15 W), the maximum frequency of which is 4.2 and 4.6 GHz, respectively. Both processors work with LPDDR4X-4266 RAM, and their Intel Iris Xe graphics cards include 80 and 96 execution units at a frequency of 1.1 GHz.
Core vPro processors
Cores, threads | Frequency, GHz | Heat dissipation, W | Supported memory | L3 cache, MB | Video card frequency, GHz | |
---|---|---|---|---|---|---|
Core i7-1185G7 | 4, 8 | 3 — 4. 8 | 12 to 28 | LPDDR4X-4266 | 12 | 1.35 |
Core i5-1145G7 | 4, 8 | 2.6 — 4.4 | 12 to 28 | LPDDR4X-4266 | 8 | 1.3 |
Core i7-1180G7 | 4, 8 | 1.3 — 4.6 | 7 to 15 | LPDDR4X-4266 | 12 | 1.1 |
Core i5-1140G7 | 4, 8 | 1.1 — 4.2 | 7 to 15 | LPDDR4X-4266 | 8 | 1.1 |
For more advanced business laptops, Intel now has the Core i5-1145G7 and Core i7-1185G7 processors (four cores, eight threads, up to 28W TDP). The Core i5-1145G7 runs at 2.6 to 4.4 GHz while the Core i7-1185G7 runs from 3.0 to 4.8 GHz. The integrated Intel Iris Xe graphics card has 80 and 96 execution units, respectively, its frequency is 1.3 and 1.35 GHz.
All new vPro-enabled processors have been integrated with Intel Hardware Shield. This is a hardware system based on artificial AI to prevent various attacks.
Brief description of the
series Core i7 — top-end processors from Intel, occupying flagship and sub-flagship positions. Before the advent of i9, they were the most powerful, second only to the server Xeons. The model range has been produced for more than 10 years and is designed for use in powerful gaming and work computers.
Conventionally, these chips can be divided into stock and advanced. The latter have their own «ecosystem» of the appropriate motherboards, chipsets and sockets. They belong to the so-called X series. The following designations are also used in the marking:
- K — unlocked multiplier and overclocking support;
- S — reduced power consumption;
- T — very reduced;
- E — CPU for embedded systems;
- C and R — chips with Iris graphics.
Characteristics of processors
So, having opened the price list of any online store, limiting the choice to the desired screen size and resolution, hard drive capacity or laptop manufacturer, we get the n-th number of options from which you need to choose the best one. Suppose we also filtered by processor type, selecting only those that use the trinity indicated at the beginning of the article.
Let me remind you (it was already mentioned in my material on processor marking) that CPU data comes in several versions — energy-efficient, but stripped-down «U», and «HQ» («HK») — full-fledged quad-core «stones». The most commonly used in general purpose laptops are the first. Their performance is more than enough for the vast majority of programs and, in the presence of a gaming-grade video card, for games. «HQ» is necessary if you choose a really gaming laptop model or a powerful workstation.
The main characteristics of some processors of the Kaby Lake and SkyLake generations in the table:
Parameter | i3 | i5 | i7 | |||
Model | 6100U | 7100U | 6200U | 7200U | 6500U | 7500U |
No. of cores/threads | 2/4 | 2/4 | 2/4 | 2/4 | 2/4 | 2/4 |
Base frequency, GHz | 2. 3 | 2.4 | 2.3 | 2.5 | 2.5 | 2.7 |
Max. Frequency, GHz | 2.3 | 2.4 | 2.8 | 3.1 | 3.1 | 3.5 |
Cache, MB | 3 | 3 | 3 | 3 | 4 | 4 |
Graph frequency Systems, GHz | 1 | 1 | 1 | 1 | 1.05 | 1.05 |
MSRP, $ | 281.00 | 281.00 | 281.00 | 281.00 | 393.00 | 393.00 |
Recommended prices (for lots of 1000 pcs) are taken from the Intel website and are current as of mid-March 2017.
Characteristics
Main characteristics | |
Description | Desktop Processor |
Manufacturer | INTEL |
Series | Core i9 11th generation |
Model | Core i9 11900 find similar processor |
Processor socket | Socket LGA1200 |
Equipment type | Desktop Processor |
Supported technologies | Intel Thermal Velocity Boost, Intel Deep Learning Boost (DL Boost), Enhanced Intel Speedstep Technology, Intel Identity Protection Technology, Intel Stable Image Platform Program (Intel SIPP), Intel Trusted Execution Technology (TXT), Intel Virtualization Technology (VT-x) ), Intel Virtualization Technology for Directed I/O (VT-d), Intel vPro Technology, Intel VT-x with Extended Page Tables (EPT), NX / XD / Execute disable bit, Thermal Monitoring Technologies, AES encryption hardware acceleration, instruction sets: SSE, SSE2, SSE3, SSE4. 1, instruction sets: SSE, SSE2, SSE3, SSE4.2, AVX 2.0 extensions, AVX-512 extensions |
Processor kit | BOX |
Purpose | Desktop PC |
Performance parameters | |
Core | Rocket Lake |
Process | 14 nm |
CPU bus frequency | 8 GT/s |
Processor frequency | 2.5 GHz or up to 5.2 GHz with Turbo Boost |
Multiplication | 25 |
Number of cores | 8 |
Number of threads | 16 |
Hyper Threading Support | Yes |
L1 cache | 80 Kb x8 |
L2 cache | 512 KB x8 |
L3 cache | 16 Mb |
Support 64 bit | Yes |
Max. number of processors on the motherboard | 1 |
Number of PCI-Express lanes | 20 lanes PCI-E 4. 0 |
Integrated video card | |
Processor video core | Intel UHD Graphics 750 |
Video processor frequency | 350 MHz basic or up to 1.3 GHz maximum |
Number of Shader Processors | 32 |
Maximum screen resolution | 5120 x 3200 @ 60Hz with DP monitor, 4096 x 2160 @ 60Hz with HDMI monitor |
Max. number of connected monitors | 3 |
Memory support | |
Supported memory type | DDR4 Dual Channel Controller |
Maximum supported memory standards | PC4-25600 (DDR4 3200 MHz) |
Maximum RAM | 128 GB |
ECC support | No |
Compatible | |
Power dissipation | 65 W |
Critical temperature | 100°C |
Scope of delivery and options | |
Options (water cooling) | Yes |
Options (CPU cooler) | Yes |
Logistics | |
Package dimensions (measured in NYX) | 11. 7 x 10.3 x 7 cm |
Gross weight (measured in NYX) | 0.312 kg |
New motherboards and chipsets
Unfortunately, a new motherboard will be required for the new LGA 1200 socket. Intel has unveiled four chipsets supporting the new line. So the following chipsets are offered to choose from: Z490 and h570 for the most productive solutions and B460 with h510 for more budget systems.
As for the PCIe interface, here it remains version 3.0. The company reports that it is not yet ready for the transition to PCIe 4.0 and it will appear only in the next generation.
Consider the functionality of each chipset separately.
Z490 specifications
The Z490 chipset is a premium solution with a lot of options: sixteen PCIe 3.0 lanes from the processor (in 1×16, 2×8 or 1×8 + 2×4 configurations) and twenty-four more from the chipset. The Z490, like the h570, uses the DMI version 3.0 bus to communicate between the processor and the chipset.
Also included are six USB 3.2 Gen2x1 ports, ten USB 3.2 Gen 1×1 ports, and fourteen USB 2.0 ports. There are six SATA 6 Gb/s ports. As for other features, they include an updated LAN port — Intel 2.5G Ethernet i219-V for speeds up to 2.5Gb/s, and RapidStorage for RAID 0, 1, and 5.
Of the chipsets shown, only the Z490 supports CPU and memory overclocking.
h570 specifications
h570 also offers 16 PCIe 3.0 lanes from the processor, but only in a 1×16 configuration, and twenty more lanes from the chipset. The number of USBs has also been reduced, to four USB 3.2 Gen 2×1 and up to eight USB 3.2 Gen 1×1. The maximum number of USB 2.0 remains the same and is fourteen ports.
The rest is unchanged. Six SATA 6Gb/s ports, Intel 2.5G Ethernet and RapidStorage RAID.
B460 specifications
Like the h570, the B460 chipset allows sixteen PCI Express 3.0 lanes from the 1×16 processor and sixteen from the chipset. Six SATA 6Gb/s ports, plus a choice of eight USB 3. 2 Gen 1×1 ports and twelve USB 2.0 ports.
As for h510, there are no data yet.
In the table below, we have compiled all the currently known information on new chipsets. Also added for comparison Z390.
Chipset | Z490 | h570 | B460 | Z390 |
Overclockable | Yes | — | — | Yes |
PCIe 3.0 line CPU | 16 | 16 | 16 | 16 |
PCIe 3.0 chipset line | 24 | 20 | 16 | 24 |
SLI / Crossfire | Yes | — | — | Yes |
SATA3 | 6 | 6 | 6 | 6 |
USB 3.1 | 6 | 4 | 6 | |
USB 3.0 | 10 | 8 | 8 | 10 |
USB 2. 0 | 14 | 14 | 12 | 14 |
Support AX WiFi 6 | Yes | Yes | Yes | — |
2.5 Gigabit LAN port | Yes | Yes | Yes | — |
As can be seen from the table, the difference between Z490 and Z390 is negligible.
It is planned that the new motherboards, as well as Intel Comet Lake processors, will be available at the end of May. But you also need to take into account the current situation with the coronavirus pandemic, so most likely we will see new items on the shelves of stores in Russia and the CIS countries no earlier than June.
Intel Core i7 9750H vs i5 10300H:
performance comparison
VS
Intel Core i7 9750H
Intel Core i5 10300H
Which is better: 6-core Intel Core i7 9750H at 2.6 GHz or i5 10300H with 4 cores at 2.5 GHz? To find out, read our comparative testing of these 14nm laptop processors in popular benchmarks, games and heavy applications.
- Overview
- Differences
- Performance
- Features
- Comments (1)
Overview
Overview and comparison of the main metrics from NanoReview
Single -flow performance
Rating in tests using one nucleus
Core i7 9750h
58
Core i5 10300h
61
Multi -flow performance
tests in the benchmarks, where all scrolls are used by all scrolls 9750H
Reasons to choose Intel Core i7 9750H
- Has 2 more physical cores
- Has 4 MB more L3 cache
Reasons to choose Intel Core i5 10300H
- 11 months later than rival
- 4 GB/s (10%) higher maximum memory bandwidth
Benchmark tests
Compare the results of processor tests in benchmarks
Cinebench R23 (single core)
Core i7 9750H
1106
Core i5 10300H
+1%
1117
Cinebench R23 (multi-core)
Core i7 9750H
+42%
6850
Core i5 10300H
4831
Passmark CPU (single core)
Core i7 9750H
2476
Core i5 16
+5%
2598
Passmark CPU (multi-core)
Core i7 9750H
+31%
11195
Core i5 10300H
8575
Geekbench 5 (single core)
Core i7 9750H
1068
Core i5 10300H
+10%
1172
Geekbench 5 (multi-core)
Core i7 9750H
+40%
5282
Core i5 10300H
3785
▶️ Add your score to Cinebench R23
Specifications
List of full specifications of Intel Core i7 9750H and i5 10300H
General information
Manufacturer | Intel | Intel |
Release date | April 23, 2019 | April 2, 2020 |
Type | For laptop | For laptop |
Instruction set architecture | x86-64 | x86-64 |
Codename | Coffee Lake | Comet Lake-H |
Model number | i7-9750H | i5-10300H |
Socket | BGA-1440 | BGA-1440 |
Integrated graphics | UHD Graphics 630 | UHD Graphics 630 |
Performance
Number of cores | 6 | 4 |
Number of threads | 12 | 8 |
Frequency | 2. 6 GHz | 2.5 GHz |
Max. frequency in Turbo Boost | 4.5 GHz | 4.5 GHz |
Bus frequency | 100 MHz | 100 MHz |
Multiplier | 26x | 25x |
Bus speed | 8 GT/s | 8 GT/s |
Level 1 cache | 32KB (per core) | 64KB (per core) |
Level 2 cache | 256KB (per core) | 256KB (per core) |
Level 3 cache | 12MB (shared) | 8MB (shared) |
Unlocked multiplier | No | No |
Power consumption
Process technology | 14 nanometers | 14 nanometers |
Power consumption (TDP) | 45W | 45 W |
Critical temperature | 100°C | 100°C |
Integrated graphics | Intel UHD Graphics 630 | Intel UHD Graphics 630 |
GPU frequency | 350 MHz | 350 MHz |
Boost GPU frequency | 1150 MHz | 1050 MHz |
Shader blocks | 192 | 192 |
TMUs | 24 | 24 |
ROPs | 3 | 3 |
Computer units | 24 | 24 |
TGP | 15 W | 15 W |
Max. resolution | 4096×2304 — 60Hz | 4096×2304 — 60Hz |
Igpu Flops
Core i7 9750h
0.38 Teraflops
Core i5 10300h
0.38 Teraflops 9000
Memory Support
9000
type | DDR4-2666, LPDDR3-2133 | DDR4-2933 |
Max. size | 128 GB | 128 GB |
Number of channels | 2 | 2 |
Max. bandwidth | 41.8 GB/s | 45.8 GB/s |
ECC support | No | No |
Other
Official website | Site Intel Core i7 9750H | Site Intel Core i5 10300H |
PCI Express version | 3.0 | 3.0 |
Max. PCI Express lanes | 16 | 16 |
Extended instructions | SSE4.1, SSE4.2, AVX-2 | — |
Survey
What processor do you think is the best?
Core i7 9750H
596 (53.