Which socket is newer than 1150 or 1151. Intel processor sockets. Further perspectives of this computer platform

Andrey | August 26, 2015 11:08 pm
1155 for the house just right !!!

QX | July 10, 2015 10:31 am
LGA 2011.
First of all, the low prevalence. In case of problems, it is difficult to find the motherboard. Such computers are only for enthusiasts. There are many times more conventional motherboards.
Dimensions more. You need a huge cooler and a huge case.
And now imagine putting all this thug to work after yourself, or to dad, mom, etc. ... Few people like a huge and heavy system engineer.
Energy consumption. Will eat a lot, always, even in idle time, much more than the usual i5 and i3.
Price. The LGA 2011 solution will be expensive.
Performance. Windows and the browser will not appreciate it, they will work the same way as on a modern Core i3.
Games will be appreciated, but only the most up-to-date, 12 channels either. And often I want to play old games too.
It's a great idea to play CS 1.6 on a 6-core i7 with a TDP of 140W. Super!!!
Still, modern life does not allow a lot of play, there is simply no time.
The 6-core will just stand there, or, at best, distribute torrents. For this, it is also just simply necessary :))) Joke, for torrents, you don't need a powerful percentage, you need more RAM.
Such a 6-core percent can be bought for permanent archiving, video encoding, and more. But even here he may not yet justify himself.
All in all, LGA 2011 is a bold decision. But a seasoned investor is unlikely to invest their money in this, since the benefits are highly controversial.
But LGA 2011 will buy an enthusiast, primarily for self-satisfaction.
The choice is yours.

David Sergeevich | January 10, 2014 9:16 pm
This assembly is for multitasking games and calculations. For socket 1150:
1. Board Asus LGA1150 Z87-DELUXE / DUAL Z87 4xDDR3-3000 3xPCI-Ex16 HDMI 10xSATA3 6xUSB3 Thunderbolt WIFI BT 2xGLAN ATX.
2. Processor Intel Core i7-4770K 3.5GHz (TB up to 3.9GHz) 8Mb 2xDDR3-1600 HDGraphics4600 TDP-84w LGA1150 OEM.
3. Memory Corsair dominator platinum 4x8Gb kit (32GB)
Cost from 31000 - 33000.

Video of two pieces of your choice. Radeon Saphire R9290 or GeForce 3Gb or higher in memory capacity. Power supply unit from 850 to 1000 watts, not less - from 4000 r. Midtower case, not lower - Thermaltake Soprano - 4500r.

This assembly is multitasking and computing. On socket 201:
1. Board ASUS LGA2011 X79-DELUXE X79 8xDDR3-2800 4xPCI-Ex16 8ch BT 4xSATA 8xSATA3 RAID 6xUSB3 eSATA Wi-Fi 2xGLAN ATX.
2. Processor Intel Core i7-4960X 3.6GHz (TB up to 4.0GHz) 15Mb 4xDDR3-1886TDP-130w LGA2011 OEM.
3. Memory Corsair dominator platinum 4x8Gb two sets (64GB).

The case and power supply are the same as above.

mursei | December 10, 2013, 17:00
1155 is already simply irrelevant. The assembly based on socket 1150 will be cheaper than in 2011. However, 2011 also has advantages. In particular, four-channel memory, 40 PCI-E lanes ... In addition, 6-core processors have been developed for this socket, and there will probably be eight-core processors soon. In short, if you have money and a desire to build a more productive computer, then choose 2011. If the budget and there is no desire to stick to the top solutions, then the 1150th.

# Socket_LGA1150 # Socket_LGA1155

For the first time, Sandy Bridge processors with LGA1155 appeared in 2010, replacing not the most successful processors with LGA1156 socket and Lynnfield core. The new processors had better performance and at the same time they warmed up noticeably less. Models with an unlocked multiplier made it possible to achieve record frequencies at the time of release. 2012 saw the release of Ivy Bridge processors using the same LGA1155 processor socket. These chips belong to the third generation and differ, first of all, in support of PCI-E version 3.0. Because of this, their supporters gained popularity just as quickly as Sandy Bridge. This was facilitated by the manufacturers of video cards by releasing top-end solutions with such an interface. For the sake of objectivity, it should be noted that the third generation processors had less overclocking potential compared to the second generation.

Socket LGA1150

Socket LGA1155

The fourth-generation processors, Haswell, have replaced Ivy Bridge. They brought with them not only a new level of performance, but also a new processor socket. The graphics built into the processor have undergone a serious modernization, and the performance has reached values that make it quite comfortable to play simple games. Almost simultaneously with the fourth generation, the fifth generation processors with the Broadwell core were released, which, at a lower power consumption, provide performance similar to Haswell.

The table below allows you to compare the listed processors:

Specifications	LGA1155		LGA1150
Processor core	Sandy bridge	Ivy bridge	Haswell	Broadwell
Clock frequencies, MHz	1400-3800	3100-3800	2000-3500	2800-3300
PCI Express support (version)	2.0	3.0	3.0	3.0
External cache L2 / L3 size, KB	6144-8192	6144-8192	6144-8192	4096-6144
Maximum number of instructions per clock cycle	5 x4	5 x4	7 x4
Supported memory types	DDR3, 2 channels	DDR3, 2 channels	DDR3, 2 channels	LV DDR3, 2 channels
Supported memory bus frequencies	800, 1066, 1333 MHz	800, 1066, 1333, 1600 MHz	800, 1066, 1333, 1600 MHz	800, 1066, 1333, 1600, 1866 MHz
Embedded video (title)	Intel HD Graphics 3000 or Intel HD Graphics 2000	Intel HD Graphics 4000 or Intel HD Graphics 2500	Intel HD Graphics 4600 or Intel HD Graphics 4400	Intel® Iris ™ Pro Graphics 6200

To compare the chipsets that support these processors, let's take the older models, the names of which begin with "Z"

Specifications	LGA1155		LGA1150
Chipset	Z68	Z77	Z87	Z97
Maximum number of PCI Express slots		8 slots using up to 8 PCI-E 2.0 lanes	8 slots using up to 8 PCI-E 2.0 lanes	8 slots using up to 8 PCI-E 2.0 lanes
Number of USB ports	14	10	14	14
USB 3.0 support	Not	4 ports	6 ports	6 ports
SerialATA support		2 x SATA 6Gb / s + 4 x SATA 300	6 SATA 6Gb / s lanes	6 SATA 6Gb / s lanes or 4 SATA 6Gb / s lanes and 1 M.2 connector
SSD caching technology		Intel Smart Response Technology	Intel Smart Response Technology	Intel Smart Response Technology

To compare performance, let's consider 3 senior processors of the second, third and fourth generations. The fifth generation does not make much sense to consider, since these CPUs are not created for the sake of high performance, but to improve performance per watt. Therefore, they are inferior in performance to fourth-generation processors.

Crysis Warhead DX10 640 * 480 Mainstream

	2700K	3770K	4790K
FutureMark 3DMark Vantage Performance CPU	24037 points	26338 points	31170 points
Cinebench R11.5 SMP Rendering Benchmark	6.97 points	7.57 points	9.09 points
104.51 FPS	104.38 FPS	104.71 FPS
7-Zip 9.13b x64 CPU Benchmark Performance Test	19989 points	21828 points	24270 points
x264 Encoding 3.0 720p, 2-pass	36.84 fps	40.92 fps	49.94 fps
Intel Linpack x64 Solving a system of 10,000 equations	40.8741 Gflop / sec	49.8957 Gflop / sec	54.1917 Gflop / sec

The test results show how the performance of processors has increased from generation to generation. An exception is the gaming test based on the Crysis Warhead game. This is due to the fact that this game uses only one processor core, and the main performance criterion is the clock frequency. It can be seen that the Core i7-3770, as having the lowest clock speed, showed the minimum performance. All old games behave in a similar way, so if you love World of Tanks or the same Crysis, then it makes no sense to change the processor of the second or third generation. For modern games like GTA 5, The Witcher 3 or Project CARS, a newer processor will give you better performance. For tasks such as photo and video editing, mathematical calculations, and so on, it makes sense to switch from to. Especially considering that the modernization will require replacement only and. The rest of the components can be used from the old system.

Let's turn to power consumption. Consider the processors Core i7-2700K, Core i7-3770K, Core i7-4790K installed in a system where the second noticeable consumer of energy is the Radeon HD 7970 video card. the system

The heating of the processor depends on the power consumption of the processor. Those. the more the processor consumes, the better it needs to be cooled. Accordingly, the cooling system of a more economical processor, all other things being equal, will run quieter. From the power benchmark table, you can see that the second generation Core processors have the highest power consumption. With third and fourth generation processors, things are a little more complicated. The tested processors showed a funny result: the Core i7-4790K turned out to be better in idle, and the Core i7-3770K under load. However, it should be borne in mind that modern processors rarely work at full load, so it is important that the CPU is able to effectively reduce power consumption. Based on this, it can be argued that in non-extreme operating modes, it is the Core i7-4790K that will have lower power consumption.

Hi dear guys. I love processors, and everything connected with them is interesting to me. It was always interesting. And today we have the following topic - 1155 and 1150, what are the differences between the socket and what is the compatibility? I will say right away that there is no compatibility and it is close, since these are different sockets, although they are similar. The 1155 is an older socket and supports two generations of processors like Ivy Bridge (third generation) and Sandy Bridge (second generation). Well, the 1150 is a newer socket, it supports the Haswell (fourth generation) and Haswell Refresh generations. I now have exactly 1150 socket and stump (percent).

Oh, I just forgot, socket 1150 is still a little unique - it, namely motherboards on the Z97 chipset, has support for Broadwell (fifth generation).

That is, in fact, socket 1150 supports two generations, but the second generation is somehow limited - only on the Z97 chipset. It was rumored that there might be support for the Z87, but in the end there is no support.

Well, now to the most important thing. Let's start with socket 1155. There are two very good ones here, the first is the i7 2600K, there is also the i7 2700K, but it's hard to find. This processor belongs to the Sandy Bridge generation, that is, it is kind of old for 2018, but still vigorous, yes, you can really play on it! The second processor is already the Ivy Bridge generation - the i7 3770K model, well, this is already a good processor, of course not the same as the new ones, but you can definitely play on it. By the way, another important plus of these rates is prices. For example, here you can search for the i7 2600K, and if you search well, you can find it even for $ 100 ..

Now let's talk about socket 1150. Everything here seems to be even cooler. The steepest percentage is the i7 4790K, whose performance is not far behind the i7 7700K (Kaby Lake generation). The price on the used market is also not the lowest, in general it is. This is the Haswell Refresh generation, I also remember that to support this processor, it was necessary to update the BIOS .. So, okay, the second processor is the coolest i7-5775C - generally a rare beast, if you can find it, it will definitely not be cheap. And it works only on the Z97 chipset, it will not work on others, it has already been tested.

Note to you - processors with the letter K means that they can be overclocked. Without it - it is impossible, and such processes are even cheaper. The only thing that I do not understand is whether it is possible to overclock the i7 5775C, I read it on the Internet, it seems like it is possible ..

That's the way guys are, now let's take a glimpse of the specs, okay? Look, starting with the i7 2600K, I'll tell you a little in my own words. As I already wrote - the processor is good, worthy of respect. Has 4 cores, 8 threads. The frequency is 3.4 GHz, in turbo mode it rises to 3.8. The cache is 8 mb, in general, everything is fine with this processor, and you can play on it, and if you overclock it a little, then it's generally a bomb for ridiculous money. Here are the main features of the i7 2600K as a picture:

Now about the i7 3770K, it will be a little better, the frequency is 3.5 GHz, the turbo mode is 3.9, the rest is the same. The generation of the processor is newer, so it seems a little more productive .. but for the price of i7 3770K you can buy i7 2600K and normal cooling, there is something to think about. Here are the characteristics of the i7 3770K as a picture, see:

So, now about the i7 4790K - well, this is a normal processor, so you can call it in our conversation. It carries new games, it has a normal frequency, but the price of its used one is not quite normal .. well, if you drop it a little, then there will be a price for a new i5 8400 on a new socket, I mean the Coffee Lake generation, where there are already 6 cores, and not 4 .. Okay, the i7 4790K has 4 GHz, turbo is 4.40, which is very good! Of course, the cooling is also desirable to be more or less. This percentage can be overclocked, then it can definitely last a couple of years, provided that the cooling is normal .. Here are the guys with the characteristics of the i7 4790K in the form of a picture:

And now about the most interesting processor - i7-5775C. It is unique in that it is the fifth generation, that is, even somewhat relevant for today, that is, for 2018. It is also made according to the 14 nm process technology, there is 6 MB of cache. That is, as it were, new. But the most important thing in this processor is some kind of eDRAM, thanks to which it is faster in some operations than all previous processors, despite the lower frequency. Yes, this is a good processor, I would like one for myself, but its used price - no, thanks. The frequency of the processor is 3.3 GHz, in turbo mode 3.7, and the most important thing, as I already wrote, is eDRAM memory, the volume of which is 128 mb .. So, here are the characteristics for you in the form of a picture:

By the way, do you see a question icon opposite eDRAM? I clicked on it and a message like this popped up:

These are the guys who are doing, this is such a dynamic random access memory right in the processor crystal!

That's all, I personally like the i7 2600K because of its price, all the same 4 cores .. 8 threads .. and the possibility of overclocking. And I forgot to tell you the main thing - the i7 2600K has solder under the cap, that is, metal, not paste! Therefore, in theory, it is better to overclock than others. And I just read that the i7 2600K can be overclocked to 4.6-4.8 quietly, and at this frequency the processor is already decently good! That's all, that's all, good luck and take care of yourself !!

To connect the computer processor to the motherboard, special sockets are used - sockets. With each new version, processors received more and more features and functions, so usually each generation used a new socket. This negated compatibility, but it allowed to implement the necessary functionality.

Over the past few years, the situation has changed slightly, and a list of Intel sockets has been formed that are actively used and supported by new processors. In this article, we have compiled the most popular Intel processor sockets 2017 that are still supported.

Before moving on to looking at processor sockets, let's try to understand what they are. A socket is the physical interface that connects the processor to the motherboard. An LGA socket is made up of a series of pins that line up with the plates on the underside of the processor.

New processors usually need a different set of pins, which means a new socket appears. However, in some cases, processors remain compatible with the previous ones. The socket is located on the motherboard and cannot be upgraded without completely replacing the board. This means that upgrading the processor may require a complete reassembly of the computer. Therefore, it is important to know what socket is in use on your system and what you can do with it.

1. LGA 1151

LGA 1151 is Intel's latest socket. It was released in 2015 for the Intel Skylake processor generation. These processors used a 14 nanometer process technology. Since the new Kaby Lake processors haven't changed much, this socket is still relevant. The socket is supported by the following motherboards: H110, B150, Q150, Q170, H170, and Z170. The release of Kaby Lake also brought such boards: B250, Q250, H270, Q270, Z270.

Compared to the previous version LGA 1150, there is support for USB 3.0, DDR4 and DIMM memory modules are optimized, and support for SATA 3.0 is added. DDR3 compatibility has been retained. Of video, DVI, HDMI and DisplayPort are supported by default, and VGA support can be added by manufacturers.

LGA 1151 chips only support GPU overclocking. If you want to overclock the processor or memory, you will have to go for a higher-end chipset. In addition, support for Intel Active Management, Trusted Execution, VT-D and Vpro has been added.

In tests, Skylake processors perform better than Sandy Bridge, and the new Kaby Lake processors are a few percent faster.

Here are the processors currently running on this socket:

SkyLake:

Pentium - G4400, G4500, G4520;
Core i3 - 6100, 6100T, 6300, 6300T, 6320;
Core i5 - 6400, 6500, 6600, 6600K;
Core i7 - 6700, 6700K.

Kaby Lake:

Core i7 7700K, 7700, 7700T
Core i5 7600K, 7600, 7600T, 7500, 7500T, 7400, 7400T;
Core i3 7350K, 7320, 7300, 7300T, 7100, 7100T, 7101E, 7101TE;
Pentium: G4620, G4600, G4600T, G4560, G4560T;
Celeron G3950, G3930, G3930T.

2. LGA 1150

The LGA 1150 socket is designed for the previous 4th generation Intel Haswell processors in 2013. It is also supported by some 5th generation chips. This socket works with the following motherboards: H81, B85, Q85, Q87, H87 and Z87. The first three processors can be considered entry-level devices: they do not support any of Intel's advanced features.

The last two cards add support for SATA Express as well as Thunderbolt technology. Compatible processors:

Broadwell:

Core i5 - 5675C;
Core i7 - 5775C;

Haswell Refresh

Celeron - G1840, G1840T, G1850;
Pentium - G3240, G3240T, G3250, G3250T, G3258, G3260, G3260T, G3440, G3440T, G3450, G3450T, G3460, G3460T, G3470;
Core i3 - 4150, 4150T, 4160, 4160T, 4170, 4170T, 4350, 4350T, 4360, 4360T, 4370, 4370T;
Core i5 - 4460, 4460S, 4460T, 4590, 4590S, 4590T, 4690, 4690K, 4690S, 4690T;
Core i7 - 4785T, 4790, 4790K, 4790S, 4790T;

Celeron - G1820, G1820T, G1830;
Pentium - G3220, G3220T, G3420, G3420T, G3430;
Core i3 - 4130, 4130T, 4330, 4330T, 4340;
Core i5 - 4430, 4430S, 4440, 4440S, 4570, 4570, 4570R, 4570S, 4570T, 4670, 4670K, 4670R, 4670S, 4670T;
Core i7 - 4765T, 4770, 4770K, 4770S, 4770R, 4770T, 4771;

3. LGA 1155

This is the oldest supported socket on the list for Intel processors. It was released in 2011 for the second generation Intel Core. Most processors in the Sandy Bridge architecture run on it.

The LGA 1155 socket has been used for two generations of processors in a row and is also compatible with Ivy Bridge chips. This means that it was possible to upgrade without changing the motherboard, just like now with Kaby Lake.

This socket is supported by twelve motherboards. The older lineup includes the B65, H61, Q67, H67, P67 and Z68. They were all released in conjunction with the release of Sandy Bridge. The launch of Ivy Bridge brought the B75, Q75, Q77, H77, Z75 and Z77. All boards share the same socket, but some features are disabled on budget devices.

Supported processors:

Ivy bridge

Celeron - G1610, G1610T, G1620, G1620T, G1630;
Pentium - G2010, G2020, G2020T, G2030, G2030T, G2100T, G2120, G2120T, G2130, G2140;
Core i3 - 3210, 3220, 3220T, 3225, 3240, 3240T, 3245, 3250, 3250T;
Core i5 - 3330, 3330S, 3335S, 3340, 3340S, 3450, 3450S, 3470, 3470S, 3470T, 3475S, 3550, 3550P, 3550S, 3570, 3570K, 3570S, 3570T;
Core i7 - 3770, 3770K, 3770S, 3770T;

Sandy bridge

Celeron - G440, G460, G465, G470, G530, G530T, G540, G540T, G550, G550T, G555;
Pentium - G620, G620T, G622, G630, G630T, G632, G640, G640T, G645, G645T, G840, G850, G860, G860T, G870;
Core i3 - 2100, 2100T, 2102, 2105, 2120, 2120T, 2125, 2130;
Core i5 - 2300, 2310, 2320, 2380P, 2390T, 2400, 2400S, 2405S, 2450P, 2500, 2500K, 2500S, 2500T, 2550K;
Core i7 - 2600, 2600K, 2600S, 2700K.

4. LGA 2011

The LGA 2011 socket was released in 2011 after the LGA 1155 as a socket for the high-end Sandy Bridge-E / EP and Ivy Bridge E / EP processors. Designed for 6-core processors and all Xenon processors. For home users, the X79 motherboard will be relevant. All other boards are designed for corporate users and Xenon processors.

In the tests, the Sandy Bridge-E and Ivy Bridge-E processors show pretty good results: the performance is 10-15% higher.

Supported processors:

Haswell-E Core i7 - 5820K, 5930K, 5960X;
Ivy Bridge-E Core i7 - 4820K, 4930K, 4960X;
Sandy Bridge-E Core i7 - 3820, 3930K, 3960X, 3970X.

These were all modern intel processor sockets.

5. LGA 775

It was used to power the Intel Pentium 4, Intel Core 2 Duo, Intel Core 2 Quad and many more processors up to the LGA 1366 release. These systems are outdated and use the old DDR2 memory standard.

6. LGA 1156

The LGA 1156 socket was released for the new processor line in 2008. It was supported by the following motherboards: H55, P55, H57 and Q57. New processor models for this socket have not been released for a long time.

Supported processors:

Westmere (Clarkdale)

Celeron - G1101;
Pentium - G6950, G6951, G6960;
Core i3 - 530, 540, 550, 560;
Core i5 - 650, 655K, 660, 661, 670, 680.

Nehalem (Lynnfield)

Core i5 - 750, 750S, 760;
Core i7 - 860, 860S, 870, 870K, 870S, 875K, 880.

7. LGA 1366

LGA 1366 is the high-end version of 1566. Supported by X58 motherboard. Supported processors:

Westmere (Gulftown)

Core i7 - 970, 980;
Core i7 Extreme - 980X, 990X.

Nehalem (Bloomfield)

Core i7 - 920, 930, 940, 950, 960;
Core i7 Extreme - 965, 975.

conclusions

In this article, we looked at the generations of Intel sockets that were used in the past and are actively used in modern processors. Some of them are compatible with new models, while others are completely forgotten, but still found in users' computers.

Latest Intel socket 1151, supported by Skylake and KabyLake processors. It can be assumed that the CoffeLake processors, which will be released this summer, will also use this socket. There have been other types of Intel sockets in the past, but these are very rare.

CPU socket LGA 1150 or Socket h3targets processors that the companyIntelintroduced in 2013. This

fourth generation processors with integrated graphics.

LGA 1150 designed to replaceLGA 1155 and is designed for processors on the coreHaswell.

In 2013 Intel announced crystals (processors) codenamed Ivy bridge, they were designed with 22nm technology and replaced 32nm processors in the market Sandy bridge... At the same time, the computing cores have not changed, but the graphics component has undergone major changes. The transition to new processors was not without consequences, processors based on 22nm technology turned out to be much worse overclocked than their predecessors. In this regard, fans of Intel microprocessors were looking forward to correcting the situation in upcoming products. They just became the processors Haswell.

Long before the release of new processors, the Internet was filled with numerous speculations about the unprecedented overclocking potential and excellent performance of processors based on a processor socket Socket 1150.

Let's take a look at new processors with technical side... New processors s1150 i3, i5, i7 have an integrated graphics core Intel HD Graphics 4600, much more powerful than s1155 i3, i5, i7 which are equipped with only Intel HD Graphics 2500. This is a very powerful argument for those who are going to work on systems without a separate video card and plan to use the integrated graphics core.

Details of the new microarchitectureHaswell.

The manufacturer decided not to increase the number of cores in new processors i5 and i7, as was the case, for example, in the processors of the competing AMD company (recall that the processors AMD executed on socket AM3 + had 2,4,6 and 8 cores). The motivation was the excellent performance of the quad-core systems.

The use of the latest technological process made it possible to place a hitherto inconceivable number of semiconductors - 1400 mln. On a crystal area of 177 mm². These transistors have a three-dimensional structure, similar to the structure of the first processors based on 22nm technology. Ivy bridge... This structure was named Try-gate and thanks to it, the transistors are small in size and the minimization of leakage currents is achieved. This set of solutions not only reduced the cost of the product, but also led to a decrease in power consumption compared to processors using a 32nm process technology.

Let's look inside crystalHaswell... It contains 4 computing cores, a third-level memory array, a graphics accelerator and a "system agent", which includes a DDR3 RAM controller, image transmitters, bus controllers PCI and DMI... For communication between internal blocks in the crystal, a high-speed bus is used, processor cores and integrated graphics use a shared cache memory.

As for the computational cores, the changes compared to Ivy bridge are in the nature of optimizations, the design of the computational pipeline is the same. The throughput of the task manager was increased due to the addition of two ports, the fetch and branch prediction mechanisms were improved, the buffer in the second-level cache was optimized Translation Lookaside buffer, and virtualization technologies have reduced latency. Vector blocks have also undergone minor changes - they received support for the latest instructions that speed up cryptography, media processing and caching. The depth of data retrieval from the first and second level caches per cycle has doubled, which means that the processors Haswell can significantly outperform their predecessors in optimized tasks.