An Overview of CPU Socket Types — CompTIA A+ 220-901 — 1.6
Intel and AMD continue to produce a wide range of processors, and you’ll find many different CPU sockets in use on today’s motherboards. In this video, I’ll summarize the important Intel and AMD CPU sockets that you’ll need to know for your CompTIA 220-901 A+ certification exam.
<< Previous: An Overview of RAIDNext: Understanding CPU Characteristics >>
-In this video, we’re going to look at some CPU socket types for both Intel and AMD architectures. If you haven’t been building your own computers, or working with a lot of detailed motherboard specifications, this may seem like a lot of information all at once. But fortunately you only have to know the details of 11 different socket types, and they’re broken up into two different categories. So that might help when you’re going through and memorizing some of the characteristics of these sockets.
The Intel sockets have numbers associated with them. And those numbers refer to the number of pins that are on the socket themselves. The Intel LGA 775 then, has 775 pins. And it is a LAN grid array package, which means that all the pins are here, on the motherboard and the CPU package is flat on the backside of the CPU. You may also see this referred to as socket T. It was named after a core CPU the never really saw the light of day, the Tejas core. This came out about 2004. It was seen in Pentium 4 systems, Intel Core Duos, Xeon and Celeron CPUs. The socket was released about 2004 and you can see it in some of the later Pentium 4s, the Intel Core 2 Duos, some Xeon, and some Celeron processors.
Another CPU socket you’ll need to know is the Intel LGA 1366. This has 1,366 pins on the socket. And it uses, again, the LGA package. This is something that’s also called Socket B, although most of the time you’ll even see written on the motherboard LGA 1366. This replaced, effectively, the LGA 775. It came out about 2008. And it’s used primarily by the Intel Core i7 processor.
The Intel LGA 1156 is also called Socket H, or Socket h2. And it is also a type of processor socket that replaced the Intel 775. This was released about 2009 and one of the advantages of using these processors is that the Northbridge that normally was a separate chip on the motherboard, is now integrated into the CPU processor itself.
Intel Socket h3 was the Intel LGA 1155. The 1155 was actually a replacement for the 1156. They look very similar. There’s only one pin difference between both of these CPU socket types. They are not compatible with each other. They do look very similar to each other. This processor socket was released in 2011 and it supports some of the newer Intel Sandy Bridge and Ivy Bridge CPUs.
Intel Socket h4 or their LGA 1150 was the replacement for the LGA 1155. It was released in 2013. And the Haswell and the Broadwell CPUs use the LGA 1150 socket.
Some of Intel’s higher performing CPUs use the Intel LGA 2011 socket. This is also called the Socket R. This replaced both the LGA 1366 and the LGA 1567 from Intel. And the LGA 2011 was also released in 2011. And it really was designed for high-end desktops, high end servers. And you can see that the Sandy Bridge-E/EP and the Ivy Bridge-E/EP, which are Enthusiast and Xeon class processors, are what’s designed to go into this 2011 processor socket.
Here’s the summary of all of these Intel sockets the we just looked at, all the way from the 775 up through the 2011. And I added a list of what some of the supported CPUs are in here are. So you can get an idea of what type of CPUs might be seen with these types of sockets. I also added the type of RAM that might be supported. This isn’t specifically listed in CompTIA as exam objectives, but it does give you a feel of how the memory changes throughout the years, and what’s used with the different socket types.
Now let’s shift gears and look at the AMD sockets. The empty sockets don’t use numbers to be able to differentiate the different models. And you’ll notice that all of the AMD sockets that we’ll look at are all PGA type sockets, with this pin grid array, and that zero insertion force socket type.
We’ll start our conversation with the Socket AM3. This is a 940 pin socket. And it has replaced the AM2 and the AM2+ processors from AMD. It was released in 2009. And you’ll notice that this socket is very similar in size to the older AM2 AM2+. A number of AM3 processors could be used in those older sockets. But those older systems generally require a BIOS upgrade to be able to recognize that newer CPU.
An effective upgrade to the AM3 was a AMD’s AM3+. This is a 942 pins socket. So it’s one more pin than the AM3. And again, we have this PGA-Zif package. This was released in 2011. One important characteristic of the AM3+ is that you could bring over your older processors and use them in this newer AM3 Socket. You could not go the other direction, though You couldn’t use a CPU designed for the AM3+ and use it in your older AM3 motherboard.
AMD Socket FM1 is 905 pins. And it was released in 2011. It supports these newer AMD 10h CPU architectures. Specifically, their A-series architectures, which provided faster speeds. It supported the faster DDR3 memory. And it integrated the PCI express controller right into the CPU.
The FM2 processor socket was released soon after that. It has 904 pins and was released in September of 2012. It is the series CPUs from AMD called their Piledriver series. Very similar to the FM1 socket, there’s one pin difference between the two. But those two processors are not compatible between those two socket types.
The last AMD processor we’ll look at is the AMD socket FM2+. This is 906 pins and it’s in a micro PGA package. You might also see this called the Socket FM2b, instead of the FM2+. It has 2 more pins than the FM2 processor. But these two different processor types are not compatible with each other. You can’t take an FM2+ CPU and expect it to work in an FM2 motherboard. It does have a completely different pin configuration.
This processor socket was released in January of 2014 and it’s part of AMD’s Steamroller CPU architecture.
Here’s a summary of the AMD sockets. You can see the socket types are here with the pin numbers associated with them. I added also, the release dates and the supported CPUs. And you can see the differences in the RAM that is supported by the CPUs and the motherboards that use these socket types.
CPU Socket Types Explained: Socket 5 to BGA
Your computer processor has a home: the socket. The CPU socket is rarely mentioned because it doesn’t help or hinder performance. Rather, it provides a standardized shape for a specific generation of CPUs.
Why, then, should you care about CPU sockets? Well, if you want to upgrade your CPU, you need to know the socket type. Your motherboard socket type dictates which type of CPU you can use, whether your CPU upgrade is worthwhile, or if you should consider upgrading your entire system.
So, what are CPU sockets, and why are they important?
What Is a CPU Socket?
Your CPU socket is similar to a light socket. A light socket makes your light bulb part of an electrical network, giving the bulb the power it needs to work. Your CPU socket makes a processor part of your computer, providing power and offering a way for the CPU to communicate with the rest of your system hardware.
Modern computers place the CPU socket on the motherboard. (Here’s a short guide to all the parts on your motherboard.) In the past, there were other CPU socket configurations, including slot-mounted processors that you insert like a modern PCI card. Today, however, you place your CPU into the socket, on the motherboard, and secure it using a latch of some sort.
CPU sockets are decades old. Intel’s famous first processor, the Intel 386, used a 132-pin PGA socket (I’ll explain this acronym in a moment). The original Intel Pentium CPU used Socket 4 and later, Socket 5.
CPU sockets are not ubiquitous. There are differences between the CPU sockets developed by Intel and AMD, relating to the differences in CPU pin configurations between the two CPU manufacturing giants.
Why Are There Different CPU Sockets?
Unlike a light socket, CPU socket design does change frequently. Why?
Well, changes to the CPU architecture are the reason. New processor architectures arrive every few years and often come with a new set of requirements, including shape, size, and motherboard compatibility. Plus, there are two major x86 processor manufacturers: AMD and Intel. AMD and Intel CPUs have separate processor architectures, and compatibility between the two is impossible.
That last statement hasn’t always been true, mind. Back in the early days of computing, if you were lucky enough to own a high-end Socket 7 motherboard, you could use an Intel Pentium, an AMD K6, K6-2, or K6-3, a Cyrix 6×86, an IDT Winchip, or a Rise Technology mP6. And while dual-CPU motherboards do exist, there aren’t any that facilitate AMD and Intel concurrently.
What Type of CPU Sockets Exist?
Over the years, many types of CPU sockets have come and gone. Only three are relevant at the current time: LGA, PGA, and BGA.
LGA and PGA
LGA and PGA can be understood as opposites. «Land grid array» (LGA) consists of a socket with pins that you place the processor on. PGA («pin grid array»), on the other hand, places the pins on the processor, which you then insert into a socket with appropriately placed holes.
In the modern computing era, Intel CPUs use LGA sockets, while AMD CPUs use PGA. There are notable exceptions to that rule, though. For instance, the monstrous AMD Threadripper uses Socket TR4 (short for Threadripper 4), which is an LGA socket. TR4 is only AMD’s second LGA socket. Earlier Intel CPUs, such as the Pentium, Pentium 2, and Pentium 3 all used a PGA socket.
BGA
There is also a BGA socket, which stands for «ball grid array». The BGA technique permanently attaches the processor to the motherboard during production, making upgrades impossible. A BGA socket and motherboard can potentially cost less, but there are very few equivalents between consumer BGA products, and LGA and PGA.
Furthermore, BGA technically is not a socket because it is a permanent motherboard feature. (You can easily replace an LGA or PGA CPU.) BGA sockets are still worth mentioning since it serves the same function.
Several years back there was a rumor that Intel was going to sunset the LGA socket. Intel LGA sockets would phase out after the 4th generation Intel Haswell CPUs. It never came to pass, and Intel still develops CPUs for LGA sockets.
That said, with the increase in system-on-a-chip (SoC) hardware, Intel has increased its BGA socket use. Similarly, ARM, Broadcom, Qualcomm, Nvidia, and other SoC manufacturers all rely heavily on BGA.
Does CPU Socket Type Matter?
A processor using a particular socket type will fit into any motherboard with that socket, right? Wrong!
Socket types like LGA are a category, rather than a specific model. There are many socket variations built on the basic specification.
Intel gives its LGA sockets a name based upon the number of pins. LGA1155, for example, has 1,155 individual socket pins. A processor built for that specific socket type will work only with that socket. Sometimes the numbers are incredibly similar, like LGA1155 and LGA1156, but you cannot force one into the opposing socket. A single Intel socket variation can cover multiple CPU generations.
AMD takes a slightly different approach. It labels its sockets with broad names, like AM3 or FM1. Compatibility is still strictly enforced, though AMD occasionally upgrades a socket while retaining compatibility. You can spot an upgraded AMD socket with the «+» symbol, such as AM2+ and AM3+.
Will CPU Sockets Become Extinct?
Computer development continues to feature a socket as a core design feature. Most components, including the processor, are upgradable or serviceable. Home and business users have the opportunity to build a system to whatever specification they desire, knowing that in time, they can make improvements.
The rise of mobile devices has seen a slight paradigm shift. The PC is not going extinct, far from it. But it is changing significantly to cope with the demands of the mobile hyper-networked world. The extinction of sockets could well be part of that change. CPU sockets add bulk and manufacturing complexity to products striving to reduce costs and size.
Predictions of the demise of the CPU socket in the near future are premature. You only have to look at Intel and AMD developing smaller, faster CPU manufacturing processes, as well as the development going into upgrading existing sockets or producing new socket variations.
It makes sense, too. Even though there more mobile devices than ever, enthusiasts and IT specialists will always look to a motherboard with a socket so that upgrading a single part is an option, rather than replacing an entire system, server, or otherwise.
Considering building your own PC, but not sure where to start? Look no further than our guide on how to build your own PC. It’ll walk you through, from start to finish.
CPU Socket In-Depth Explanation — Vulpine Living
A CPU socket is a small plastic box that is shaped like a circle with a lever on one side. This is used to insert the CPU into a computer. The processor is then secured in place by the lever. The processor is then pushed into the socket using its pins. Some processor sockets have a line-up feature that prevents incorrect insertion. The other type of socket is a pinned type, which uses hundreds of tiny pin holes to connect the CPU to the motherboard.
The first kind of CPU socket is the PGA or Ball Grid Array type, which requires soldering to change processors. However, this type of processor socket is more difficult to change because it requires the replacement of the motherboard. The lifespan of a CPU socket is the same as that of a motherboard. As long as the CPU is in perfect condition, it can perform for as long as the motherboard. Therefore, replacing a damaged CPU socket is a necessity.
The next type of CPU socket is the ball-grid array type. It resembles a checkerboard with lots of squares, which is meant to hold a CPU chip. A BGA socket, on the other hand, is a land-grid array type. This type of socket is usually found in notebook computers and high-end desktop systems. This type of processor socket requires soldering, which is more difficult than with a PGA socket.
The third type of CPU socket is the PGA. This one is used for processors with pointing pins. A PGA socket uses a handle to apply compression and prevent the pin from bending. These processors are not compatible with the PGA type of CPU socket, as the processor’s pins cannot be interchanged without the replacement of the ball grid array. You can, however, prolong the lifespan of your CPU socket by being careful when changing your processor.
The socket of a microprocessor is the physical connector that connects the microprocessor to the motherboard. A socket has hundreds of metal pins that enable power and data to pass from processor to motherboard. Generally, the socket of a processor is located on the motherboard. For example, a CPU is used by a PC if it contains more than one CPU. A multiprocessor PC is called a dual-socket machine.
Another type of CPU socket is the Ball Grid Array (BGA) type. This type of CPU socket is more fragile, and requires a lot of soldering when changing processors. Besides being fragile, the PGA socket is also very fragile. A ZIF-style socket eliminates the need to apply pressure when mounting the processor. It has a slider or lever that locks the CPU into place. Unlike the PGA-type, BGA is not compatible with other chips.
The first question that arises is what are the differences between Intel and AMD CPU sockets. Both the AMD and Intel architectures utilize the same standard CPU sockets. These two types are categorized into 11 categories. Here’s a brief overview of each type. The Intel CPU socket is designed to allow more expansion options. The AMD socket, on the other hand, uses a single retention lever.
The PGA socket contains processors with pointing pins and uses a handle to apply compressive force and prevent the pin from bending. It is one of the oldest types of CPU sockets, but the difference between PGA and DIP sockets is in the number of pins. Using a PGA socket can cause the pin to break, which will render the processor useless. However, if you have a CPU with a PGA socket, you can remove it without losing its pins.
The socket was created by Intel and was a replacement for the earlier LGA 1156. The LGA 1155 supported Sandy Bridge and Ivy Bridge CPUs. It was followed by Socket h4 in 2013. LGA 3747 is the latest server and desktop socket. All sockets are named according to their pin count. The most common type is LGA 775. You can find more information about Intel CPU sockets in the following sections.
LGA 1200
The LGA 1200 is Intel’s most recent socket revision. This is the new socket design for 400-series motherboards that were announced in 2020 designed for Intel’s 10th-generation processors, and it has 49 more pins than the previous socket design. These Comet Lake-S processors are more energy efficient than their predecessors and can support up to 10 cores. They also support a number of other technologies, such as HEVC, HDR, and VP9 10-bit encoding. This socket is a significant architectural change, and it is not backward compatible with prior 300-series chipsets. Intel’s 11th-generation processors will also use the LGA 1200 socket. Although they share the same socket, these processors use Intel’s new 500-series chipsets. h510, B460, h570, Q470, Z490, and W480 chipsets use the LGA 1200 socket. The 500-series chipsets are on the way, and they’ll most likely use the same naming scheme as the 400-series chipsets (we already know about Z590, at least). Despite the fact that they use the same socket, motherboards in the 500 series have some enhancements. For example, Z590 motherboards enable PCIe 4.0 and have additional PCIe lanes to the CPU.
LGA 2066
The LGA 2066 socket is an improved version of the LGA 2011-3 socket, which was introduced in the last few years. It is designed to accommodate higher-end CPUs, with bigger VRMs and RAM slots. These chips cannot house the same CPU as their predecessors, as the motherboards are designed to accommodate the larger LGA 2011-3 processors. LGA 2066 supports both DDR4 and PCIe 4.0.
LGA2066 is a more advanced version of the LGA 1151 socket, with 2066 pin contacts. This is a better option for people who want to upgrade their current motherboards, but it’s not necessary for everyone. If you’re a casual gamer, a LGA 1151 motherboard will do just fine. LGA 2066 is a more powerful and capable platform for the most demanding gamers, but you don’t need it unless you’re a professional.
The LGA 2066 motherboard socket has been around for a while, but Intel is now introducing new models that are more advanced than the previous generation. These include the Pentium 4 and the Xeon E5-2600. They are both excellent choices for performance platforms, and you should definitely consider purchasing an Intel chip for your PC if you’re a regular user. You can also install the latest BIOS for your motherboard in order to make sure that it supports the latest version of the LGA-2066 CPUs.
If you’re looking for a higher-end motherboard, you can’t go wrong with the Intel X299 motherboard. It features 16 memory slots, 4 USB 2.0 ports, and bridging for SLI graphics cards. Thermal Radar 3 helps keep your system stable, Pro clock II fine-tunes overclocking, and T-Topology enhances memory stability. This motherboard supports the Intel Core X series LGA 2066 processors.
LGA 3647
LGA 3647 is a particular type of socket designed for Xeon and Skylake-SP CPUs that supports a six-channel memory controller, non-volatile 3D XPoint memory, and Intel’s UPI. It was released in 2016. Depending on whether the chip was designed for a Skylake or Xeon processor, there are a few distinct designs. These are mostly found in server configurations.
LGA 1151
The new Skylake class of 14-nanometer processors, the sixth-generation Core designs with product names in the 6000 series, were announced in 2015, and LGA 1151 was designed to accept them.
From the lowest power to the highest, the design supports six distinct chipsets: h210, B150, Q150, h270, Q170, and the most performance-oriented, Z170. All of them feature more USB 3.0 connections, faster DDR4 RAM DIMMs (though some motherboards can also be installed with older and cheaper DDR3 RAM), and for the low-end chipsets, more SATA 3.0 connectors, compared to the similar chipsets on the slightly older LGA 1150 range.
Except for the Z170, all LGA 1151 compatible chipsets limit overclocking to the GPU alone; if you want to overclock your CPU or RAM, you’ll need to get the high-end chipset. Only the h270, Q170, and Z170 chipsets offer SATA RAID, and only the Q170 adds support for Intel Active Management, Trusted Execution, VT-d, and Vpro. A suitable sixth-generation Core CPU is required for these technologies to work.
LGA 1150
Haswell (fourth-generation Intel Core) CPUs are supported by the LGA 1150 socket. This socket also works with the few fifth-generation Core desktop CPUs that have been released.
It can be found on six different chipsets, including the H81, B85, Q85, Q87, H87, and Z87, as well as additional Intel sockets. The first three models (H81, B85, and Q85) are the entry-level models. Intel’s most advanced technologies, such as Intel Rapid Storage and Smart Response, are not supported by any of them.
For a closer look, we’ve gathered all of the LGA 1150 processors on Newegg. These chips also include Devil’s Canyon CPUs, a line that has since been phased out (which is why you won’t hear about it as often as Skylake, etc.).
LGA 1155
An LGA 1155 socket is used in laptops and other computers with an Intel microprocessor. It is the most common type of motherboard that supports a 3.5GHz DDR3 memory. It is also compatible with DDR4 memory. Although the LGA 1155 is an old motherboard, it is still very popular among laptop users. Its fast speed makes it ideal for heavy-duty computing needs. It is available in a wide variety of price ranges, and you can buy a low-cost, high-performance model.
The LGA 1155 socket features 1155 protruding pins in a 40×40 array, with a void of twenty-four pins in the center. It also includes 61 omitted pins. It is not compatible with the LGA 1156 socket, which uses the same pin pattern. The LGA format was introduced as part of the secure boot process, and processors based on it are not compatible with one another.
When choosing a CPU for your system, consider the number of CPUs. The single-core version uses one CPU; dual-core models contain two. Quad-core models use four CPUs. The more CPUs your system has, the faster it can run games and applications. Fortunately, LGA 1155 is compatible with a wide range of motherboards. The LGA-1155 socket is also widely used in mobile devices, including smartphones and tablets.
LGA 2011
After 1155, Intel released the LGA 2011 socket, which served as the company’s extreme high-end chipset for Sandy Bridge-E/EP and Ivy Bridge-E/EP processors. The socket is compatible with Intel’s whole family of enterprise CPUs as well as six-core processors (the Xeon series).
There are six chipsets available for this socket, but only the X79 is significant to consumers. The Sandy Bridge-E and Ivy Bridge-E processors are supported by this chipset. Other chipsets are designed for Xeon CPUs, which are nearly invariably overkill for household users.
LGA 775
A motherboard socket that supports the various Intel Pentium and Core 2 processors has a receptacle called the LGA (or, in some cases, “LGA socket”). It is also known as a socket T. These are personal-use-only processors, so the contacts are not very important. However, if you need a processor for your work or school computer, you will need an LGA 775.
A CPU with the LGA 775 socket is not very common today, but it’s perfect for those who don’t need the latest performance or graphics cards. It’s also one of the cheapest processors available, making it a great choice for users who don’t plan to do heavy work. The LGA 775 socket can support up to 2.4GHz processors, which is sufficient for many general-purpose tasks and older games.
Sockets with this chipet support Pentium D and dual-core Pentium 4-based processors. For those who want to upgrade to a 65nm Core-based CPU, you’ll need to buy a motherboard that uses the Q45 chipset. The Q45 chipset is not compatible with Pentium-based CPUs. Hence, it’s essential to check compatibility before purchasing a CPU with this socket.
The Intel Xeon X5460 is the most powerful XEO LGA 775 CPU. Even though it’s an older processor, it offers four cores and four threads. Its base clock rate is 3.16 GHz. Its processors don’t support Turbo Boost technology, but they can be overclocked if your motherboard supports it. There are no other processors that support the LGA 775 motherboard in this socket.
LGA 1156
The LGA 1156 was released in 2008, along with the launch of a new processor series. The 1156 was designed to replace the LGA 775 and usher in a new era of cooling technologies. It’s worth noting that the LGA 1156 was retired in 2011, and there are no upgrade pathways available for this socket, which is obsolete by today’s standards.
LGA 1366
LGA 1366 motherboards are the latest standard for high-end desktop and workstation PCs and servers. This form factor is compatible with a variety of processors and supports multiple processors. Intel’s X58 platform and the 4300 and 3420 chipsets are compatible with LGA 1366. This type of socket has two different static and dynamic load limits: 890 Newtons and 266 Newtons.
Socket LGA 1366 is an industry standard for desktops, laptops, and servers. It uses the same form factor as LGA 775, but with more protruding pins. Socket LGA 1366 is used for the latest Intel Core i7 and high-end gaming processors. The socket supports up to three channels of DDR3 memory. Its name has remained relatively unchanged since its introduction in 2008.
Socket LGA 1366, sometimes known as Socket B, is a standard for high-end desktops and servers. These processors require an external northbridge, known as an I/O hub, in order to function. The LGA socket uses a land grid array (LGA), where pins are arranged on the socket. As you can see in the figure above, the pins are placed directly on the socket. In addition to the socket, the CPU and other hardware components are connected to the motherboard via a connector called the Quick Path Interconnect, or QPI. This interface transfers two bytes per cycle. This technology allows for speeds of up to 12.8 or 9.6 GB/s.
Socket LGA 1366 is a central processing unit (CPU) socket that was developed by the world’s largest semiconductor manufacturer, Intel Corporation. It supports three different brands of CPUs. It has a 1366 pin count, making it the first C-style processor socket. It was first released in 2008 and is still widely used. Besides being commonly used, LGA 1366 is also known as “Socket B”.
Unlike Intel, AMD has three main types of CPU sockets available for purchase. Each type has its own unique characteristics, and can be used with a wide range of processors. If you’re unsure of the difference between an AMD socket and an Intel one, check out this article. It’ll give you the details you need to choose the right CPU for your needs. Fortunately, AMD’s website makes it easy to navigate.
Sockets are the basic part of PC motherboards, and you’ll need to know which type your motherboard uses in order to buy the correct processor. Whether you’re upgrading a processor or a complete system, knowing the different sockets can make the process easier. These sockets are divided into two categories, which will help you determine which type of processor is best for your needs.
Sockets differ by manufacturer. For example, Intel’s LGA 1366 uses a 1,366-pin LGA package. AMD adopted this design as a stopgap until it was able to get licensing for their own sockets. However, the newer models of the CPUs utilize the LGA socket, which is more compatible with older systems. Despite the differences, the AMD LGA 1366 is still the most popular CPU socket.
Socket A
AMD CPUs ranging from the Athlon Thunderbird through the Athlon XP/MP 3200+, as well as AMD budget processors such as the Duron and Sempron, employ Socket A (also known as Socket 462). AMD Geode NX embedded processors are also supported by Socket A. (derived from the Mobile Athlon XP). With 462 pins, the socket is a pin grid array type with zero insertion force (nine pins are blocked in the socket to prevent accidental insertion of Socket 370 CPUs, hence the number 462). The AMD Athlon XP and Sempron support front-side bus frequencies of 133 MHz, 166 MHz, and 200 MHz. Only 32-bit CPUs are supported by Socket A. Except for use with Geode NX CPUs, Socket A was replaced by Socket 754 and Socket 939 in 2003 and 2004, respectively.
Socket 734
The AMD socket 734 was introduced to PCs in the mid-2000s. This design is still in use but was recently revised. It features a small chiplet design and PCIe 4.0. Its replacement, the Socket 939, will be available for desktops in 2022. The socket 754 remains an important part of AMD’s product lineup and should be used in a PC for a long time.
The Socket 734 is the last of the original Socket A, but it’s a popular choice for AMD CPUs. Unlike the earlier sockets, it’s designed to support multiple cores, and is based on the AM4 socket. The size of the socket is 5.59 cm by 6.55 cm without the lever. This processor has a 1.7-inch TDP, making it suitable for a wide range of CPUs.
Socket 754
Socket 754 was announced as a socket for workstation-class desktop and mobile microprocessors in September 2003, five months following socket 940. The Athlon 64 range of microprocessors was converted to Socket 939 in the middle of 2004, which featured a dual-channel memory controller and a faster HyperTransport interface. The socket 754 was mostly used for Sempron processors and mobile CPUs after that. All desktop microprocessors were eventually replaced with socket 939 and socket AM2, and all mobile microprocessors were eventually replaced with socket S1.
Desktop processors with rates up to 3700+ or 2.4 GHz, as well as mobile CPUs with frequencies up to 4000+ or 2.6 GHz, can use the socket 754. One 800 MHz HyperTransport link and a single-channel DDR SDRAM memory controller are supported by the socket.
Socket 939
The Socket 939 platform was announced on February 20. The new chipset supports up to 16GB of memory, and is expected to boost the performance of Athlon 64 processors. The AMD company will also be shipping new CPUs with the Winchester core, a 90 nanometer process that should make it compatible with future processor upgrades. This is the first CPU platform to feature this chip. However, it will likely be phased out in the near future.
AMD Socket 939 is the next step up from the Socket 754 processors. AMD is now offering Socket 939 CPUs in Athlon and Sempron formats. These processors are fast and support the K8 Microarchitecture. While most people are familiar with AMD desktop PC Processors, the company is also developing Mobile and Server Processors. The company is primarily focused on cloud computing and provides devices for virtualization.
AM3
The socket used by AMD’s socket AM3 processors contains ninety-one pins. Each of these pins makes electrical contact with an equal number of pins on the processor’s socket. Because of the risk of damaging the pins, you should always handle an AM3 processor carefully. The oils on your fingers can cause the pins to bend out of shape or be broken off. Therefore, if you want to get the most out of your AMD AM3 processor, make sure to buy a motherboard that supports the socket.
FM1
AMD introduced the FM1 socket for their accelerated processing units (APUs) in the A-series. They continue with the FM2+ sockets. Both FM1 and AM1 processors use a 100 MHz front side bus. This article will compare the best AMD FM1 CPUs and provide reviews of the best models. For a full list of the best FM1 CPUs, read the rest of this article.
The AMD FM1 processor package is smaller than AM3+. In addition, the FM1 uses pin-grid array technology, which reduces the number of transistors per chip. The FM1 supports DDR3 memory, which is the fastest type of memory on the market today. The Llano APU is expected to hit the market in May. While the FM1 is not yet ready for prime time, it’s still capable of handling many demanding applications.
The FM1 socket contains 905 tiny gold pins on its underside. These pins are supposed to make electrical contact with the pin-holes in the processor’s socket. Using your hands to handle the processor can cause damage to these electrical contacts. The oils on your hands can bend the pins, and careless handling can cause a static electric charge. If the pins are damaged, the integrated circuit at the heart of the processor package will get fried.
Socket FM1 is intended for low-power and energy-efficient CPUs. It will compete with Intel’s LGA1155/LGA1156 CPUs. The AMD FM1 features a quad-core x86-64 processor, a dual-channel DDR3 memory controller, and a PCI-Express 2.0 hub. Its pin-grid design allows AMD to create long-term support for the FM1 platform.
AM1
If you are searching for a budget notebook, then the AMD AM1 is the right choice for you. It’s a dual-core processor that includes AMD Radeon R3 graphics, and is ideal for everyday computing. It has two DDR3 memory modules and a 320GB hard drive, which makes it an affordable option for many consumers. The APU also supports dual-channel DDR3 memory, so it can handle most of your daily tasks.
The AMD AM1 isn’t targeting the traditional desktop computing market. Instead, it’s targeting the pseudo-desktop market. As the desktop segment continues to shrink as Android-based media players and set-top boxes take its share, AMD hopes to keep this growing market by offering low-cost alternatives. It’s important to remember that a CPU is much more expensive than the rest of the system. Hard drives, memory, and the operating system all cost extra, so AMD hopes that the AM1 will allow manufacturers to lower their costs by up to 60%.
AM4
There are two types of sockets, the AM4 and AM5. Both have 1331 pins, while the AM4 socket has a large hole in the center. The AMD AM4 socket is better for overclocking and has fewer pin bending problems than the LGA socket. The AMD AM4 has more power than the LGA socket, but it is less versatile than the LGA. For these reasons, the AMD AM4 is a better choice for people who want a powerful processor.
The AM4 socket is the most advanced of the two. It has dual PCIe 3.0 x16 slots and supports up to eight DDR4 sticks in a dual-channel configuration. It has 20 PCIe lanes, making it ideal for multi-GPU systems. Other platforms, however, do not support AMD’s multi-GPU architecture. The AM4 socket is the best choice for most people. This newer processor is more power-efficient than previous models, making it ideal for gaming and other high-end systems.
There are two different sockets for the AMD AM4 CPUs. The first one is the LGA. This socket is used in desktop computers and laptops. It is the most advanced version of the socket, and it has 1331 pins. Compared to the LGA socket, the AM4 socket is the most powerful. The AM4 socket is used for gaming and video applications. The AM4 socket also supports two PCIe 3.0 x8 slots, and it is the most versatile of the two.
TR4
The AMD TR4 socket is the first step towards an all-new generation of CPUs. Threadripper uses a 4,094-pin socket and is paired with the X399 chipset. While this is an upgrade from Intel’s 2,066-pin socket, it is also a large change for motherboard manufacturers. A snug fit is important for reliable communication between processor and motherboard. MSI’s video below provides more information about the new processor’s mounting procedure.
The TR4 socket is physically identical to AMD’s server Socket SP3r1, and is designed to accommodate a Zen-based Ryzen Threadripper desktop processor. The socket is identical to the Socket SP3 but has an ID pin that cannot be used by CPUs designed for the SP3 socket. Because the AMD TR4 processor socket requires a chipset for functionality, it is not compatible with AMD server CPUs.
Unlike the AMD TR3 socket, the TR4 socket is designed with future compatibility in mind. The upcoming Threadripper chip will come with up to 16 cores and a massive, giant TR4 socket. With these features in mind, the AMD TR4 socket is one of the most versatile and popular sockets for computers today. In fact, the AMD Threadripper sTRX4 processors are expected to feature a unique pin layout and make them very easy to use.
While the TR3 socket is designed for LGA (Land Grid Array) CPUs, the TR4 socket is optimized for HEDT workstations. The TR4 socket supports up to 64 PCI Express lanes. A good example is the AMD Ryzen Threadripper processor, which is compatible with the X399 chipset. The X399 processor is an excellent choice for a gaming PC.
Processor Sockets — Intel and AMD Socket Types
The ATX motherboard processor sockets used by AMD and Intel CPUs
AMD motherboard Pin Grid Array (PGA) Socket AM4 for Ryzen and the latest APU processors
Desktop PC CPU / processor sockets
This page of this website is devoted purely to the many different types of desktop PC processor sockets used by Intel and AMD processors on ATX motherboards specifically for one or more ranges of their processors.
There are several free tools that identify the make/model of CPU in use on a desktop or laptop PC. I use HWINFO64, shown below.
HWINFO64 – free tool that provides in-depth PC hardware information
Other tools that provide that information are CPU-Z and the Belarc Advisor. Of course, you can identify the make/model of CPU by opening the case and removing the cooling unit and any thermal past on the CPU that is covering that information (shown below).
AMD Ryzen 7 1880X (first-generation) processor (CPU) in its socket on the motherboard.
For detailed information on desktop processors, visit the The Intel and AMD processors used in desktop PCs section of this website.
For information on installing a processor, visit the Installing the processor (CPU) and its heatsink-and-fan or liquid-cooling unit page of the Build Your own PC section of this website.
The pace at which the socket types have been changing has slowed down considerably since the heyday of the desktop PC, which is in decline compared to tablet PCs and smartphones, now enjoying their heyday.
Personally, I don’t see desktop and laptop PCs becoming redundant any time soon. I would much rather have a laptop PC than any tablet and I use a desktop PC at home. Laptops are still relatively expensive. If I want to upgrade my desktop PC to the latest hardware, I just have to back up my files and go online and buy a motherboard, processor and RAM bundle costing about £150. Then it’s just a question of reinstalling Windows, my software and restoring my files. Microsoft’s ISO download of Windows 10 is always right up to date. Gone are the days when you had to create a ‘slipstreamed’ install disc that added Service Packs to an earlier Windows install disc.
The following post deals with how to obtain the Windows 7/8.1/10 downloads to create an installation disk.
Where to get an ISO image used to create a Windows 10, 8.1 and 7 installation DVD or flash drive –
Use Windows 10/8.1 ISO image to create install DVD or flash drive
Processor-related posts on this website
POST: The amazing AMD Ryzen 5000 series desktop-PC processors are available now
POST: How to decode Intel/AMD processor names – What processor names mean
POST: AMD Ryzen 2 (5 and 7) processors and Ryzen CPUs with built-in Radeon Vega graphics – the best PC gaming and workstation solutions
POST: Intel vs AMD processors – 8th generation Intel Core Coffee Lake vs AMD Ryzen processors (CPUs)
POST: AMD Ryzen 3, 5 and 7 processors (CPUs) strike back hard at Intel dominance
How to decode Intel/AMD processor names – What processor names mean
The alphanumeric model names of the ranges of processors that Intel and AMD manufacture contain important information about them. The following article provides the information you need to understand what the numbers and letters in the model number mean.
Decode Intel/AMD processor names – What processor names mean
How to tell if AMD and Intel processors come with built-in graphics chips or not
Graphics cards are in short supply due to Covid-19 lockdowns. Consequently, you will probably find buying a separate graphics card difficult. Intel and AMD processors can come with a built-in graphics chip (GPU). If you want to rely on the graphics that a processor’s graphics chip provides, you need to know how to tell from the Intel and AMD processor’s model name which models come with one.
Most current Intel processors come with a built-n graphics chip. If the processor does NOT come with one, its model name has the letter F as the last letter in the name.- An example is the Intel Core i9-10900F, which does not provide a graphics chip.
AMD uses the opposite method. With AMD Ryzen processors, the model must have the letter G (that stands for Graphics) as the last letter in its model name if it has a built-in graphics chip. The letter at the end of the model name indicates that it has a graphics chip. Most AMD Ryzen processors do not have the letter G in their model name and so do not have a built-in graphics chip. An example is the third-generation AMD Ryzen 5 3400G that provides a graphics chip.
Comprehensive list of AMD Ryzen processors –
https://en.wikipedia.org/wiki/List_of_AMD_Ryzen_processors
Processor information and installation
The following pages provide information about processor themselves and how to install them:
Intel and AMD Processors (CPUs) Used in Desktop PCs –
https://www. pcbuyerbeware.co.uk/hardware/processors/
Installing the processor (CPU) and its heatsink-and-fan or liquid-cooling unit –
Annotated images of ATX Socket Intel LGA 775, AMD Socket A and Socket 939 motherboards
Visit the Annotated images of ATX Socket LGA775, Socket A and Socket 939 motherboards page on this website to see annotated images of those two socket-type motherboards.
AMD and Intel motherboard processor sockets are never interchangeable
Although they can be very different electronically, CPU sockets all look similar at first glance, being square and about the same size no matter how many processing cores the processor itself contains – processors get thicker as their core number increases – and can be seen immediately when examining a PC’s motherboard.
AMD and Intel motherboard sockets are never interchangeable; they can only be used by the products of the motherboard manufacturers that they have been designed to support.
The rate at which Intel and AMD were changing the type of motherboard sockets that their desktop PC processors use was confusing as well as being infuriating. It meant that even if the motherboard form-factor remained the same (ATX or micro-ATX), every time the type of processor housing changed or there were technical changes to the existing platforms, if Intel was your choice of manufacturer, a new motherboard usually had to be purchased if you wanted to upgrade from one type of socket to another. Or having to that was necessary for a more advanced processor that used the same socket type. You had no choice in the matter because the previous processor housing was then no longer supported.
AMD provided far better backward-compatibility of its latest processors with its previous socket type, but, even with AMD, when a radically new CPU architecture came into being a new motherboard was required.
But now that the market for desktop PCs has slowed down considerably since smartphones and tablets became the most popular form of PC, the rate of change of CPU sockets has also slowed down considerably. Computer users are still using their desktop and laptop PCs but are making them last much longer than was the case when the PC was unrivalled.
There was a large increase in PC sales when support for Windows XP ended in June 2014, so, as Windows 7 gets older and more PC users are forced to upgrade to Windows 10 or buy new PCs, there will probably be another similar increase in PC sales that will spark off further technological developments. That said, the dominance that the desktop PC enjoyed has gone forever.
The image at the top of this page shows a zero-insertion-force (ZIF) processor socket. The pin holes match the pin layout of the processor and so, when aligned correctly, the processors that the socket supports should just drop into the socket without using any force.
The processor is dropped into the socket with the brown arm at the bottom of the socket raised. When the processor is inserted, the arm is lowered all the way down, thereby fixing the processor into the socket. AMD has always used pins on its processors. Intel used to use pins but then changed to using metal contact points on the processor that match metal pits in the socket. The heatsink and fan cooling unit is fixed to the plastic protrusions in the middle of the left and right sides of the socket shown in the image above.
All of the specifications of AMD and Intel processors for the desktop PC
Visit the following page that provides access to tables containing all of the technical specifications (socket type, code name (Haswell, Ivybridge, Skylark, etc.) clock speed, supported instruction sets, caches, etc.) and other information, such as the dates of release, of all of the processors made by AMD and Intel up to the present. The earliest processors are listed first. The further down the list a processor appears, the more recent it is. Look down the Socket/Slot column for the socket type for a particular model of processor.
Note that the new AMD Ryzen Threadripper models use the new rectangular Socket TR4. There are three Threadripper models – 8, 12 and 16 cores. The processor, shown held by hand in the image below, is enormous, requiring an enormous socket. Below that image, the Socket TR4 itself is shown in an image of an ASUS PRIME X399-A motherboard (£280 in December 2017). This is AMD’s first LGA (Land Grid Array) socket that has the pins in the socket instead of on the processor, which is called Pin Grid Array (PGA). All of Intel’s processors have been LGA for over a decade, starting in 2004. The Threadripper CPUs only have metal contact points on the bottom of the processor (LGA). The other Ryzen CPUs still use pins on the processor (PGA).
Huge AMD Ryzen Threadripper processor available with 6, 12 and 16 coresAMD Ryzen Threadripper LGA (Land Grid Array) Socket TR4 in an ASUS PRIME X399-A motherboard. Click on the image to view its full size
AMD Ryzen 3, 5 and 7 processors (CPUs) strike back hard at Intel dominance –
By January 2021, the Ryzen 3, 5 and 7 5000 series of CPUS were just becoming available, but were in short supply . Examples of the 5000 series are: AMD Ryzen 5 5600X, Ryzen 7 5800X, and the Ryzen 9 5950X. The first number in the long code – 5 in this case – indicates the fifth generation.
POST: The amazing AMD Ryzen 5000 series desktop-PC processors are available now
AMD Ryzen 3, 5 & 7 processors (CPUs) –
Techarp Desktop CPU Comparison Guide –
http://www.techarp.com/showarticle.aspx?artno=337&pgno=0
Here are the two pages on Wikipedia that list all of the AMD and Intel processors, including laptop processors, and their specifications, which includes the socket type:
List of AMD microprocessors –
http://en.wikipedia.org/wiki/List_of_AMD_microprocessors
AMD Zen (microarchitecture) – Socket AM4 Ryzen processors –
https://en.wikipedia.org/wiki/Zen_(microarchitecture)
List of Intel microprocessors –
http://en.wikipedia.org/wiki/List_of_Intel_microprocessors
Desktop PC Intel and AMD CPU socket types from 2008 to 2021
AMD CPU sockets
List of AMD processors – https://en. wikipedia.org/wiki/List_of_AMD_microprocessors
Socket AM3 – 2009 to 2011 – https://en.wikipedia.org/wiki/Socket_AM3
Socket AM3+ – 2012 – https://en.wikipedia.org/wiki/Socket_AM3%2B
Socket FM1 – 2011 – First socket for the AMD APU CPUs with inbuilt graphics chip –
https://en.wikipedia.org/wiki/Socket_FM1
Socket FM2 – 2012 to 2013 – Second socket for the AMD APU CPUs with inbuilt graphics chip –
https://en.wikipedia.org/wiki/Socket_FM2
Socket AM1 – 2014 – https://en.wikipedia.org/wiki/Socket_AM1
Socket FM2+ – 2014 to 2015 – Third socket for the AMD APU CPUs with inbuilt graphics chip –
https://en.wikipedia.org/wiki/Socket_FM2%2B
Note that Socket FM2+ APUs are not compatible with Socket FM2 motherboards.
Socket AM4 – https://en.wikipedia.org/wiki/Socket_AM4 [AMD Ryzen CPUs up to the 5000 series (2020) and for the latest AMD APUs]
Socket TR4 for the AMD Ryzen Threadripper CPUs – https://en. wikipedia.org/wiki/Socket_TR4
Intel CPU sockets
List of Intel processors – https://en.wikipedia.org/wiki/List_of_Intel_microprocessors
LGA 775 – 2004 to 2008 – https://en.wikipedia.org/wiki/LGA_775
LGA 1156 – 2010 – https://en.wikipedia.org/wiki/LGA_1156
LGA 1366 – 2008 to 2011 – https://en.wikipedia.org/wiki/LGA_1366
LGA 1155 – 2011 to 2012 – https://en.wikipedia.org/wiki/LGA_1155
LGA 2011 – 2011 to 2014 – Versions 2011-1 to 2011-3 – https://en.wikipedia.org/wiki/LGA_2011
LGA 1150 – 2015 – https://en.wikipedia.org/wiki/LGA_1150
LGA 1151 – 2015 – https://en.wikipedia.org/wiki/LGA_1151
LGA 1200 – 2020 – Comet Lake (2020) and Rocket Lake (2021) CPUs –
https://en.wikipedia.org/wiki/LGA_1200
LGA 2066 – 2017 – LGA 2066, also called Socket R4, is a CPU socket by Intel that debuted with Skylake-X and Kaby Lake-X processors in June 2017.
https://en.wikipedia.org/wiki/LGA_2066
LGA 1700 – 2021 DDR5 – https://en.wikipedia.org/wiki/LGA_1700
Noctua NH-U12S [CPU cooler] has been secretly changed [for Socket LGA 1700] and it’s NOT GOOD –
FARA 312
- Computer Chassis
Excellent cooling capabilities
FAN
RADIATOR
Product Specifications
Model No.
SST- FA312-BG
Material
Steel, plastic, tempered glass
Motherboard
Micro-ATX (9. 6″ x 9.6″), Mini-DTX (8″ x 6.7″), Mini-ITX (6.7″ x 6.7″)
Drive bay
Internal
- 3.5″/ 2.5 x 2 (only 1 form factor can be installed at the same time)
2.5″ x 3 (1 x 2.5″ SSD is installed on the motherboard tray, which will interfere if 140mm fan or 280mm radiator is installed at the front)
Cooling system
Front
- 120mm x 3 / 140mm x 2
Rear
- 120mm x 1 (120mm x 1 black fan included)
Top
- 120mm x 2 / 140mm x 2
Radiator support
Front
- 120mm / 140mm / 240mm / 280mm
Top
- 120mm / 140mm / 240mm / 280mm
(When installing 280mm radiator, please make sure the components inward on the motherboard is below 24mm to avoid interference)
Limitation of CPU cooler
173mm
Expansion slot
4
Limitation of expansion card
Length : 365mm (incl. front 25mm thickness fan installed)
350mm (applies only to 120mm front fans when installed between the front panel and chassis)
Width : 182mm
Power supply
Standard PS2 (ATX)
Limitation of PSU
170mm
Front I/O port
USB 3. 0 x 2
Audio x 1
Mic x 1
Dimension
220mm (W), x 410mm (H), x 412.5mm (D), 37.21 liters
8.66″ (W), x 16.14″ (H), x 16.24″ (D), 37.21 liters
Net weight
5.5 kg
File Download
描述 | Version | File Size | 下載 |
---|---|---|---|
描述
|
Version
|
File Size
|
下載
|
描述
|
Version
|
File Size
|
下載
|
描述
|
Version
|
File Size
|
下載
|
Recommended Products
View More
View More
View More
View More
Back to list page
Lga 1366 Best CPU Comparison 2021 – Consumer Solution
As you know, during this working-at-home season, we all heavily depend on our computers, laptops to get the job done. That’s when many of you discover that your computer is not as competent as you may think. You may consider among many types of CPU sockets, including Lga 1366 best CPU.
For your information, when choosing a CPU processor, you will have to decide between AMD and Intel; any brand will have its socket kind. However, in this article, we will introduce to you Intel’s CPU sockets, LGA. Choosing a suitable computer processor will help you save time and money in the future.
There will be many options for you in the market, making you feel overwhelmed and confused. Knowing your concern, we have included the top 10 LGA 1366 best CPU and buying guide. Let’s see what products we’ve got for you!
Lga 1366 Best CPU Comparison 2021
Title
Intel Core i7-960 Processor 3.20 GHz 8 MB Cache Socket LGA1366
Intel Core i7-980X Extreme Edition Processor 3.33 GHz 12 MB Cache Socket LGA1366
Intel Core i7-950 3.06 GHz 8 MB Cache Socket LGA1366 Processor
Intel Core i7 975 Extreme Edition 3. 33GHz 8M L3 Cache LGA1366 Desktop Processor
Intel Core i7 Processor i7-920 2.66GHz 8 MB LGA1366 CPU BX80601920
Best For
Lga 1366 Best CPU For Faster Media Editing And Sharing
Lga 1366 Best CPU For Excellent-Quality Six Cores
Lga 1366 Best CPU For Enhanced Technology Developments
Lga 1366 Best CPU For Exceptional Gaming Experience
Lga 1366 Best CPU For Affordability
Rating
Details
View Product
View Product
View Product
View Product
View Product
Title
Intel Core i7-960 Processor 3.20 GHz 8 MB Cache Socket LGA1366
Image
Best For
Lga 1366 Best CPU For Faster Media Editing And Sharing
Rating
Details
View Product
Title
Intel Core i7-980X Extreme Edition Processor 3.33 GHz 12 MB Cache Socket LGA1366
Image
Best For
Lga 1366 Best CPU For Excellent-Quality Six Cores
Rating
Details
View Product
Title
Intel Core i7-950 3. 06 GHz 8 MB Cache Socket LGA1366 Processor
Image
Best For
Lga 1366 Best CPU For Enhanced Technology Developments
Rating
Details
View Product
Title
Intel Core i7 975 Extreme Edition 3.33GHz 8M L3 Cache LGA1366 Desktop Processor
Image
Best For
Lga 1366 Best CPU For Exceptional Gaming Experience
Rating
Details
View Product
Title
Intel Core i7 Processor i7-920 2.66GHz 8 MB LGA1366 CPU BX80601920
Image
Best For
Lga 1366 Best CPU For Affordability
Rating
Details
View Product
** Below, you will find our detailed reviews of the Lga 1366 Best CPU, but you can also click these following links to see current prices or read customer reviews on Amazon.
Bestseller No. 1
Original intel LGA 1366 CPU Copper core 4pin Fan heatsink cooler cooling i7 965 970 975 980 980x 990 990x
- intel CPU FAN
- Bearing Type: Fluid
Bestseller No. 2
RAIJINTEK Themis Black 120mm CPU Cooler for Intel LGA 201x/1366/115x/775 & AMD Socket FM2+/FM2/FM1/AM3+/AM3/AM2+/AM2
- Non-Copper base design (C.D.C. – CPU Direct Contact)
- Patented pressing heat-pipe/fin technology to prevent the risk of heat-pipe damage
Bestseller No. 3
Bracket + Backplate Intel LGA 1366 CPU Radiators Holder Socket Mounting Base
Bestseller No. 4
Intel Core i7-990X Extreme Edition Processor 3.46 GHz 6 Core LGA 1366 CPU – OEM
- Process Type: Intel Core i7 Processor i7-990X Frequency: 3.46 GHz Bus Speed: 6.4 GT/s
- Cache: 12 MB Process: 32 nm Socket: LGA1366
Bestseller No. 5
Scythe ASHURA CPU Cooler for LGA 2011/1366/1156/1155/775 and Socket FM2/FM1/AM3+/AM3/AM2+/AM2 (SCASR-1000)
- Asymmetrical Design
- Newly Developed Mounting System
Bestseller No. 6
Lot of 2 Intel Xeon X5690 3.46GHGz SLBVX Socket LGA 1366 Server CPU Processors
Bestseller No. 7
Refurbished Intel Xeon X5670 2.93GHz LGA 1366/Socket B 3200MHz CPU SLBV7 (Renewed)
- Intel Xeon SLBV7
- LGA 1366/Socket B Socket
Bestseller No. 8
Intel Xeon E5507 SLBKC Server CPU Processor LGA 1366 2.26GHZ 4MB
- Intel
- Xeon E5507
Bestseller No. 9
Dynatron G666 2U Server PWM Copper CPU Cooler – Socket LGA 1366
- Dynatron G666 Intel Xeon 5600/5500 Series socket 1366 2U Active Solution 2 Ball Bearing CPU Cooler (G666)
- Dynatron G666
SaleBestseller No. 10
DS 1900RPM CPU Cooler, Aluminum Extrusion Cooling CPU Fan for Intel LGA 775/1155/1156/1366 (Axis Rainbow Auto Change, C Series)
- Compatible with: Intel LGA Socket 775/1150/1151/1155/1156/1366
- RGB Ring :120MM diameter auto change colors RGB fan
Top 10 Lga 1366 Best CPU Reviews 2021
Intel Core i7-960 Processor
Intel Core i7-960 Processor 3. 20 GHz 8 MB Cache Socket LGA1366
- Quad Core
- Enhanced Intel Speedstep Technology
If you want to find a chip that assists you in faster media editing and sharing, this could be the one for you!
The Intel Core i7-960 CPU integrates the processing capacity of four 3.20 Gigahertz computational cores into an individual processor, ensuring that even the most challenging programs can be handled.
The Core i7-960 CPU offers optimal efficiency from your structure, even though numerous intense programs and applications run simultaneously, thanks to its 8 Megabyte clever caching memory.
The Core i7-960 processor, which is suitable with motherboards built on the Intel X58 Express chipset, brings your computing and entertaining experience, specifically, the gaming experience, to another level.
Pros:
- High-performance hyper-threading design
- It runs fast, great
- Powerful
- Suitable for multitasking
- Affordable
- Incredible speed and the chips spread the work well
- Suitable for long-term use
Cons:
- None
Intel Core i7-980X Processor
Intel Core i7-980X Extreme Edition Processor 3. 33 GHz 12 MB Cache Socket LGA1366
- 3.33GHz Clock Speed Intel Turbo Boost speed up to 3.6GHz
- 6 cores 12 threads with Intel Hyper-Threading
In case you want to find an excellent-quality six-core CPU, this could be the one for you!
The Extreme Edition Intel Core i7-980X Processor offers you 3.33 Gigahertz, 6.4 QuickPath Interconnect. Moreover, its memory type is a built-in three-channel Double Data Rate 3. The hyper-threading technology allows your CPU’s six cores to perform 12 threads around the same time.
Also, it offers a 12 Megabyte smart cache, which is more significant than most models in the i7 series. The turbo boost innovation instantly accelerates your processor when you need it.
The turbo boost leverages any spare resources to offer you an additional increase in performance. The single-core frequency can rise to 3.60 Gigahertz, and the LGA-1366 socket is available so that you can operate on multiple applications simultaneously.
Finally, it provides you with a limited warranty of three years. And it is compatible with the Intel DX58SO Laptop Board.
Pros:
- Performs greatly and cool
- The professional photo editing and video editing applications work reliably and fast.
- Heat sink compound is included
- Stable performance
- Well worth the money
- Easily manipulatable
Cons:
- Relatively expensive
Intel Core i7-950
Intel Core i7-950 3.06 GHz 8 MB Cache Socket LGA1366 Processor
- Intel Core i7-950 3.06 GHz 4.8 GT/s 8 MB Socket 1366 Quad-Core CPU General Features:
- Intel Core i7 Processor i7-950 3.06 GHz CPU speed 4.8 GT/s (Gigatransfers per second) Bus speed
If you want to find a processor with enhanced technology developments, this could be the perfect option for you!
The Intel Core i7-950 processor delivers new bandwidth levels with QPI, QuickPath Interconnect, allowing it to utilize its four computational cores fully.
Put simply; users will benefit from quicker and more efficient processing than before. Your laptop will be able to perform several tasks and apps without the slowness that a slower CPU would cause.
Programs that require a lot of processing power, such as large-definition media editing, will operate more efficiently and successfully. You’ll also be able to play upcoming-generation video games without experiencing frame rate hitches or delays.
Turbo Boost Innovation enables it to function a maximum of 133 MHz quicker when the processor runs under power or thermal restrictions.
Hyper-threading Innovation makes better use of processor capacities, allowing heavily threaded programs like music players and next-generation video games to run more efficiently.
Smart Cache Memory expands the amount of RAM accessible, resulting in a minor slowdown when multitasking.
Pros:
- Easy to overclock
- It runs cooler and faster even when stocking.
- Simple to assemble
- Sufficient heat sink
- Great for gaming
- Secure socket makes the CPU simple to place and clamp
Cons:
- None
Intel Core i7 975 Extreme Edition
Intel Core i7 975 Extreme Edition 3.33GHz 8M L3 Cache LGA1366 Desktop Processor
- Intel Core i7-975 Extreme Edition 3.33 GHz 6.4 GT/s 8 MB Socket 1366 Quad-Core CPU
- General Features: Intel Core i7 Processor Extreme Edition i7-975 3.33 GHz CPU speed
If you want to find a CPU that serves an exceptional gaming experience, this could be the one for you!
Intel’s i7-975 Extreme Edition processor is the most potent in Intel’s i7 series, providing a groundbreaking computer experience.
It integrates the processing capability of four 3.33 Gigahertz computational cores into one processor, ensuring that even the most intensive tasks can be handled.
The Core i7-975 CPU offers excellent speed from your laptop, even when numerous intense programs are running simultaneously, thanks to its 8 Megabyte clever cache.
The Core i7-975 processor, which is suitable with motherboards of the Intel X58 Express chipset, brings your processing and playing a whole new experience.
Pros:
- Excellent frame rates
- Works great
- Worth the money
- It designs for overclocking
- Operates efficiently
- It can work both on gaming and editing experience
Cons:
- The customer satisfaction level is excellent
Intel Core i7 Processor i7-920
Sale
Intel Core i7 Processor i7-920 2.66GHz 8 MB LGA1366 CPU BX80601920
- Intel Core i7-920
- 4.8 Intel QuickPath Interconnect
If you want to find an affordable central unit processor, this could be the one for you!
Beat your foes, scale the documentation mountain, or perform both tasks at the same minute. It is conceivable and straightforward, thanks to Intel’s Core i7 central processor unit.
The Core i7 920 has four cores running at 2.66 Gigahertz with an L3 cache of 8MB. Four-core processors allow for real various-tasking and various-threading.
One core manages your running system’s routine tasks. In contrast, the second can stream a DVD on the television, the next one can download a video from youtube, and the fourth can deliver audio sound to children in other rooms without delays or stammers.
In general, all of this is developed simpler by Intel’s superior Digital Media Boost technology.
Pros:
- Simple mounting system
- It comes with its heat sink
- You can run multiple programs at the same time because of the quad-core chip.
- Fast photo and video editing
- Powerful
- It’s an economical entry into the i7 chips series
- Easy installation
Cons:
- The stock cooling fan is a little loud. If you pay attention, you still can hear the CPU fan
Intel Xeon X5650 Processor
Intel Xeon X5650 Processor 2.66 GHz 12 MB Cache Socket LGA1366
- Process Type: Six-Core Intel Xeon Processor X5650
- Frequency: 2.66 GHz
Another processor we want to show you today is the Xeon series from Intel!
About the process kind, the manufacturer provides you with the six cores with twelve threads. Your chip can work great in both gaming, video editing, and photo retouching with this specification.
Moreover, the CPU frequency can be up to 2.66 Gigahertz, for your information, with a bus speed of 6.4 transfers per second. The memory cache is 12 Megabytes, which is more significant than most models manufactured by Intel.
You need to notice that its socket is LGA 1366; therefore, you need to carefully check this specification in your chip to not waste money on a processor that may not be compatible with your laptop.
Other specifications are 1.3 voltage range and 95 watts power usage.
Pros:
- Worth the money
- Simple setup
- Functional
- Runs effectively
- Relatively quiet
Cons:
- Some customers complain it has no assembly instructions when arriving
Intel Core i7 940 Processor
Intel Core i7 940 2.93GHz 8M L3 Cache 4.8GT/sec QPI Hyper-Threading Turbo Boost LGA1366 Processor
- Intel Core i7-940
- 4.8 Intel QuickPath Interconnect
If you want to find a fast, brilliant multi-core performance, this could be the one for you!
Latest Intel® CoreTM i7 processors make fantastic advancements in computer performance thanks to quicker, more efficient various-core innovation that delivers computing power where it’s required greatest.
You’ll be able to run many challenging programs quicker and create great digital technology.
And unique combination of Intel Turbo Boost Technology and Intel Hyper-Threading Technology automatically optimize performance to fit your task; you’ll get the most out of everything you are doing.
This Intel-only technology enables data to flow more swiftly from the CPU to the Intel X58 chipset, resulting in improved performance and response in even the most intensive workloads.
Intel’s proprietary cache structure enables many processing cores to have quick access to data when required by bringing more data nearer to the processing cores and allowing various cores to utilize this space flexibly.
Intel Core i7 CPU is quad-core and eight working threads, ensuring that your computing structure keeps up with your innovation when you’re modifying large-resolution photographs or processing HD-quality family photos.
Pros:
- You can overclock it a bit
- Runs smoothly
- A great CPU
Cons:
- Customers complain that the 940 is 20% faster than the 920, but it is much more expensive than the model 920
Intel Core i7-970 Processor
Intel Core i7-970 Processor 3. 20 GHz 12 MB Cache Socket LGA1366
- This processor supports Intel Hyper-Threading Technology This processor supports Intel 64 Architecture
- This processor is a Six Core Processor This processor supports Intel Turbo Boost Technology
Here’s another central unit processor we want to show you today!
The Intel Core i7-970 processor features thread-grade concurrency and six processing cores working at 3.2 Gigahertz. Because AI, physics, and graphics are split across six cores and twelve threads, you’ll get quicker, more genuine gaming.
Hyper-threading innovation allows for more effective use of CPU resources, allowing the heavily threaded systems to run faster.
The processor’s 12 threads are tuned to stay current with the most recent digital technology applications, even if you’re creating high-resolution videos, editing up photographs, or combining music.
Video encoding and transcoding, as well as image processing, are completed swiftly.
Pros:
- It comes with a reasonably high-quality heat sink
- Well-worth for multi-threaded apps
- Horsepower
- Reliable, stable high-speed processing
- Worth the money
- Performs well
Cons:
- Relatively expensive
Intel BX80601930 Core i7-930 Desktop Processor
Intel BX80601930 Core i7-930 Desktop Processor
- Quad Core
- Enhanced Intel SpeedStep Technology
If you want to find a processor with intelligent multi-core technology, this could be the one for you!
Take over the world of intense gaming with the world’s quickest processor, is the Intel Core i7 Extreme Edition processor.
It promises an astounding advance in the gaming experience thanks to quicker, smarter various-core innovation that adjusts performance to meet your demand.
But it’s not just about games when it comes to performance. With a maximum of 79 percent quicker video editing and a maximum of 46 percent shorter photo rendering, with outstanding results for image retouching and processing, you’ll be able to multitask 25 percent faster and unlock extraordinary multimedia production.
Thanks to the collaboration of Intel Turbo Boost innovation and Intel Hyper-Threading expertise, which unleashes maximum processing capacity exactly when or where you need it, you’ll enjoy the optimal performance for anything you do.
Pros:
- It is suitable for overclocking
- Stable performance
- It is highly recommended for gamers.
- Fast yet affordable processor
- Easy installation
Cons:
- The customer satisfaction level is high
CPU for Xeon X5650
CPU for Xeon X5650 Six-Core Twelve Threads 2. 66GHz 12M Cache LGA1366 CPU Official Version
- This product is made of high quality metal material, strong and durable.
- Code name is for Xeon series X5650, six-core twelve threads, up to 2.66GHz basic frequency, super performance.
Here’s our final product!
This item is made of excellent-quality aluminum that is both sturdy and long-lasting. The Xeon series X5650 has six cores and twelve threads, with a base frequency of a maximum of 2.66 Gigahertz and exceptional results.
The processor provides you with 95 watts of power usage, a twelve-megabyte cache memory, and a QuickPath Interconnect bus speed of 6.4 transfers per second.
The socket LGA 1366 can connect with X58 and X79 family desktops, as well as servers.
Finally, some newest, up-to-date technology, such as hyper-threading technology, Intel virtualization innovation, and other technologies, are supported.
Pros:
- It provides effective performance.
- Affordable
- Suitable for people who want to extend their X58 system’s life
- Easy installation
- Fast shipping
Cons:
- More ideal for experience overclockers
Buying Guide: How To Pick Lga 1366 Best CPU In 2021
After reading our reviews, we are sure that you still feel confused about choosing the suitable Lga 1366 best CPU for you. You may think that these products look almost identical to each other; how can we separate them? “What are the factors I need to consider when choosing the central processing unit?”, this question is probably the top priority thought in your mind.
We were like you before; therefore, we completely understand this thought. However, after hours of learning and researching, we can finally understand the CPU, and we want to share this knowledge with you.
Because of the expertise in this aspect, you may find it hard to understand some terms fully. Therefore, we are trying to explain it to you as straightforward as possible, so you don’t have to worry too much about it.
Now, let’s see what criteria you should pay attention to them.
Firstly, we think that you need to know the definition of this processor.
What Is LGA 1366 CPU?
LGA 1366, an abbreviation of Land grid array 1366, also known as Socket B, is an Intel CPU socket. For your information, this socket is an improved variant of the LGA 1156. The first iteration (LG1366) of the LGA 1156 included an Intel Core i7 in 2008 and was last utilized in 2011. Although two sockets have identical qualities, the LGA 1366 performs better.
Socket 1366 (Socket B) connects the CPU to a decreased-function northbridge that effectively supports a PCI-E, an abbreviation of Peripheral Component Interconnect Express controller using the QPI Intel QuickPath Interconnect. Intel’s most current northbridge and southbridge parts are linked using a slower DMI.
We think this information is the basic one you should know. Although you may not understand these terms right away, it’s okay. Right now, we only want you to read the definition. Through times, you will know it.
After the definition, we want to introduce you to some terms closely related to the criteria you need to consider when buying LGA 1366 CPU.
Related Terms
- lga 1550 > is stock” data-id=”” title=”Top 10 Lga 1366 Best CPU That Everyone Should Know For Working At Home Season In 2022 81″>
2.1. Caching
The phrase refers to a tiny section of high-pace memory dedicated to storing and executing commonly utilized instructions and directives to accelerate software programs.
For your information, the CPU assigns the numbers one, two, and three as the levels required, with level one is the tiniest and quickest and level three becoming the biggest and have the slowest processing time.
In our reviews, ten products will contain a caching of level two or level three. The main reason is that this type of CPU is relatively old. Evidently, it was last used in 2011. Therefore, you can’t expect it to have the highest speed rate because the engineers enhance the processor’s feature every year and change the socket.
If you want better speed, you can upgrade your old socket to operate a new processor, but it requires an exact solution.
2.2. Core
You may not know, the CPU’s core is the CPU’s processor. During the old times, the CPU only has one core to concentrate on one task at a time. However, in modern days, a CPU’s core will vary from two to 18 cores to perform different tasks.
You will notice that a core may perform one task, and another will work on other tasks. As a result, the more CPU’s core contained, the more efficient your laptop becomes.
For your information, the CPU in laptops usually contains two cores, whereas some mobile CPUs, also known as laptop CPUs, will have four. We highly advise you that if your laptop is compatible, you can afford a four-core CPU, you should go for it!
And one point we want you to remember is that with some Intel processor products, for example, core i7, it is not true that it will contain seven cores. You need to check that carefully.
2.3. Heat Sink
You may read many articles about the definition of the heat sink; however, it is too hard for you to understand. We understand that; therefore, to be briefly comprehensive, you only need to know that it is a cooling factor for a computer. The heat sink will be placed on top of the CPU.
In one way, you will notice that it has no moving components, so it is passive. However, in some cases, it also includes a fan or liquid cooling to boost the cooling process.
The operating principle is simple; the heat sink will use a thermal conductor to transfer heat to fins with larger surface spaces, which spread the heat out of the computer.
2.4. Threads
For your information, a processor will perform a procedure called simultaneous multithreading, or in some cases, people consider it hyper-threading to split a core into virtual cores. You may see two process names, but they all carry the same meaning.
For example, an Intel core with two cores will use hyper-threading to divide into four threads. One point you need to know that, with an Intel processor, people will use the term “Hyper-threading.” On the other hand, another word will use for an AMD processor. AMD is known as an Advanced Micro Devices company.
2.5. Clock Speed
When buying a central processing unit, you can’t be wrong between the CPU core and the CPU clock speed. While the CPU’s core determines the unique, heavy-workload tasks, the clock speed refers to how fast it is responsive to the external components, like the mouse, keyboard, or monitor.
The clock speed’s measurement is gigahertz, also known as GHz if you are more familiar with the abbreviation. As we’ve mentioned before, the clock speed will show you how quickly it can process data.
Most modern CPUs will work on a wide range of clock speeds, from the base speed to the turbo speed. When handling the demandingly tricky task, the processor will automatically rise to a higher clock speed to get the job done. However, this process will lead to more heat is generated, and when the CPU reaches the maximum frequency, it will reduce down to lower frequency to avoid overheating.
2.6. Socket Type
The CPU connects with the socket through the motherboard. As we have mentioned in the introduction, two primary manufacturers, AMD and Intel, will have their socket types. You may come accidentally across these terms: LGA, PGA, and BGA and don’t know what it means. Today, you will get to know them.
Firstly, the LGA
2.6.1. LGA
It is an abbreviation of Land Grid Array. With this type, both AMD and Intel manufacture it; and they are relatively similar.
The LGA on the Intel sockets performs with the pin as a part of the socket. And so are the LGA on the AMD sockets.
2.6.2. PGA
Its full name is Pin Grid Array. Hearing its name, we think that some of you will know the shape. This type contains the pins over the processor, and it is permanently fixed in the socket’s holes.
2.6.3. BGA
Here’s the final type, it is Ball Grid Array. With this socket, the processor will directly link to the motherboard.
Now, you’ve already known all the necessary terms when go shopping for LGA 1366 CPU.
However, we still want to show you the first step before you buy any CPU. This section can apply to all of you, so please do not pass on this part.
The First Step Before Buying A CPU
The first step we want to mention, and you always have to do it, is checking your CPU current situation, including the level and performance level.
In this step, all you have to do is access the control and panel in your computer; in the security and system subheader, you click the system.
Now, you will see all the information related to your CPU, from RAM to OS, and so much more. Here, you will know the name of your existing CPU. Nowadays, four leading Intel processors are core i3, i5, i7, i9.
The Intel Core i9 is the latest model; therefore, it can handle the heaviest workloads and demanding tasks. But it is relatively expensive and usually more than enough for most people.
The efficient level of the three remaining processors from highest to lowest are i7, i5, i3, respectively.
Here’s comes to the part when you are getting to know the criteria you should focus on when purchasing a CPU.
Purposes
Although the Intel Core i7 is much stronger than the i5 one, i7 is more beneficial for everyday tasks like browsing the Internet, checking and reading emails, online newspapers, and so much more.
If you only use a laptop for the everyday tasks listed above and your job is office-related, core i7 is the best solution for you. The Core i3 and i5 also satisfy your needs; however, we think you should go for the most optimal solution, saving your money in the future.
We know that with some of you, gaming is both your hobby and your dream career. Many modern jobs are coming from playing games, such as streamers or game developers. That’s when you need to equip yourself with a powerful computer. Both core i5 and i7 will satisfy your needs, but core i5 is more affordable if your needs are simple. The core i7 is especially for high-end gamers, requiring frequent exchange between games and apps.
With some of you, you may want to upgrade your games experience as a professional career, which will lead to many extra-heavy and demanding tasks, then you should choose core i9. It can promise you the most potent performance hauls, but it can be expensive. We think that is its only disadvantage until now.
Manufacturers
When purchasing, you will have two manufacturers to choose from AMD or Intel. When comparing the CPU they produce, the performance is almost the same; both manufacturers will offer consumers various CPUs with different speeds and capabilities. They can operate on the same operating systems. Therefore, you can choose which one do you like more.
To decide easily, we can say that Intel will do a little better on the gaming experience. At the same time, AMD will provide a quicker process for video editing, animations, graphic design.
Clock Speed Vs. Core Number: Which One You Should Prioritize?
When researching deeply about the CPU, you soon know that these are two different criteria you should consider. Like we’ve mentioned before, the clock speed will transfer the snappy data, performance into the simple, common one. Therefore, gamers will seek a CPU with the highest clock speed, and core i5 will meet their demands. Usually, slightly threading apps, like games, will not benefit much from core numbers.
On the other hand, the core number will assist you in handling time-consuming duties quicker. Therefore, designers who have to use video editing programs and animation software will be more likely to choose the CPU with a large core number.
In general, it mainly depends on your purposes and requirements. However, you should not primarily rely on the clock speed or the core number.
They are both indicators to measure your computer’s performance and decide on the complete performance. However, you have to look at clock speed, core numbers, and IPC, known as instructions per clock cycle.
Overclocking Is Not For Everyone
Even when your primary purpose is gaming, you should not entirely depend on the high-speed clock. The overclocking term refers to the process where you run your computer at speed higher than the manufacturers’ intention.
If you intend to make your computer durable, you should spend more money purchasing high-quality chips, giving you optimal performance in return. The overclocking process only effective when it is performed within limitations.
If you use overclocking technique incorrectly, let’s say you overclock your computer on your own. There’s a higher chance that your computer will be more likely to expose to reduced lifespan. The main reason is that you tend to put more voltage and clock speed in your laptop with this process, resulting in extra stress.
Moreover, to successfully overlock your computer, you should equip yourself with a high-end cooler, costing you a sum of money. Is it worth the money? You still lose the same or even higher amount of money simply to achieve slightly better performance. Therefore, you should consider overclocking your laptop. Instead, you should buy high-quality components in the first place for the computer to be durable.
Consider Other Factors
We say that because many of you may only consider the clock speed or the core number, CPU in general. However, there are many factors aside you need to take a look at them. For example, it is also about the RAM, the hard drive, and the SSD, a solid-state drive, when assessing your computer’s performance.
For example, the minimum RAM you need is 4MB; however, you should go for 8MB RAM or even 16 MB RAM. It’s up to you.
And never pair a strong CPU with low storage, RAM, and graphics. A robust CPU needs to satisfy all specifications, and it is compatible with your computer. Therefore, you should scrutinize the specifications and find other articles about these specifications to see if it is competent enough for you.
We think that’s kind of enough tips for you when buying a CPU. What about upgrading it? Usually, you have two options for upgrading or building your new PC; however, making your new PC means changing your motherboard. We will mention it in another article. Today, we only want to talk about upgrading what’s in there that you need to pay attention to them. We also have a list for you.
Factors You Need To Consider When Upgrading
9.1.Manufacturers Compatability
You should check the manufacturers of your existing CPU. Is it from Intel? Or is it from AMD? The two chips will require different motherboards. Therefore, you need to check this first.
9.2.Socket
For your information, many processors coming from one company will still demand different sockets. For instance, with the same Intel Core i7, the LGA 1366 socket will never be compatible with LGA 1511. And the old 1366-pin chip can’t go with the newest, up-to-date pin chip.
With AMD sockets, some may match many chips; others may not. Therefore, in general, you need to look at the socket specification in your old CPU to suit the new one. Otherwise, you will waste a lot of money.
9.3.Memory
Different CPUs will need their type of memory. With the latest computer, they usually use the Double Data Rate 3 memory. Our research shows that some CPUs are manufactured to be compatible with more than one memory type. However, even within one group, the old memory type will not work with the new CPU because of the fast technology development. So our advice is to choose the new CPU with the same memory type as your older one. This solution will be the safest.
9.4.Chipset
In some cases, even when you find that your new CPU may satisfy the three requirements above, you still can’t replace it because your motherboard is out-of-date. Your solution is to go to the store and ask Goodbyeexperts to see anything you can do. Sometimes, you may have to replace your motherboards; we think that’s the worst case. Usually, the professionals can find a chip that may be compatible with your motherboard but still satisfy all their aspects above.
If you are a first-time buyer, this video could be a great help to you:
- intel CPU FAN
- Bearing Type: Fluid
Bestseller No. 2
RAIJINTEK Themis Black 120mm CPU Cooler for Intel LGA 201x/1366/115x/775 & AMD Socket FM2+/FM2/FM1/AM3+/AM3/AM2+/AM2
- Non-Copper base design (C.D.C. – CPU Direct Contact)
- Patented pressing heat-pipe/fin technology to prevent the risk of heat-pipe damage
Bestseller No. 3
Bracket + Backplate Intel LGA 1366 CPU Radiators Holder Socket Mounting Base
Bestseller No. 4
Intel Core i7-990X Extreme Edition Processor 3.46 GHz 6 Core LGA 1366 CPU – OEM
- Process Type: Intel Core i7 Processor i7-990X Frequency: 3.46 GHz Bus Speed: 6.4 GT/s
- Cache: 12 MB Process: 32 nm Socket: LGA1366
Bestseller No. 5
Scythe ASHURA CPU Cooler for LGA 2011/1366/1156/1155/775 and Socket FM2/FM1/AM3+/AM3/AM2+/AM2 (SCASR-1000)
- Asymmetrical Design
- Newly Developed Mounting System
Bestseller No. 6
Lot of 2 Intel Xeon X5690 3.46GHGz SLBVX Socket LGA 1366 Server CPU Processors
Bestseller No. 7
Refurbished Intel Xeon X5670 2.93GHz LGA 1366/Socket B 3200MHz CPU SLBV7 (Renewed)
- Intel Xeon SLBV7
- LGA 1366/Socket B Socket
Bestseller No. 8
Intel Xeon E5507 SLBKC Server CPU Processor LGA 1366 2.26GHZ 4MB
- Intel
- Xeon E5507
Bestseller No. 9
Dynatron G666 2U Server PWM Copper CPU Cooler – Socket LGA 1366
- Dynatron G666 Intel Xeon 5600/5500 Series socket 1366 2U Active Solution 2 Ball Bearing CPU Cooler (G666)
- Dynatron G666
SaleBestseller No. 10
DS 1900RPM CPU Cooler, Aluminum Extrusion Cooling CPU Fan for Intel LGA 775/1155/1156/1366 (Axis Rainbow Auto Change, C Series)
- Compatible with: Intel LGA Socket 775/1150/1151/1155/1156/1366
- RGB Ring :120MM diameter auto change colors RGB fan
Top 10 Lga 1366 Best CPU Reviews 2021
Intel Core i7-960 Processor
Intel Core i7-960 Processor 3. 20 GHz 8 MB Cache Socket LGA1366
- Quad Core
- Enhanced Intel Speedstep Technology
If you want to find a chip that assists you in faster media editing and sharing, this could be the one for you!
The Intel Core i7-960 CPU integrates the processing capacity of four 3.20 Gigahertz computational cores into an individual processor, ensuring that even the most challenging programs can be handled.
The Core i7-960 CPU offers optimal efficiency from your structure, even though numerous intense programs and applications run simultaneously, thanks to its 8 Megabyte clever caching memory.
The Core i7-960 processor, which is suitable with motherboards built on the Intel X58 Express chipset, brings your computing and entertaining experience, specifically, the gaming experience, to another level.
Pros:
- High-performance hyper-threading design
- It runs fast, great
- Powerful
- Suitable for multitasking
- Affordable
- Incredible speed and the chips spread the work well
- Suitable for long-term use
Cons:
- None
Intel Core i7-980X Processor
Intel Core i7-980X Extreme Edition Processor 3. 33 GHz 12 MB Cache Socket LGA1366
- 3.33GHz Clock Speed Intel Turbo Boost speed up to 3.6GHz
- 6 cores 12 threads with Intel Hyper-Threading
In case you want to find an excellent-quality six-core CPU, this could be the one for you!
The Extreme Edition Intel Core i7-980X Processor offers you 3.33 Gigahertz, 6.4 QuickPath Interconnect. Moreover, its memory type is a built-in three-channel Double Data Rate 3. The hyper-threading technology allows your CPU’s six cores to perform 12 threads around the same time.
Also, it offers a 12 Megabyte smart cache, which is more significant than most models in the i7 series. The turbo boost innovation instantly accelerates your processor when you need it.
The turbo boost leverages any spare resources to offer you an additional increase in performance. The single-core frequency can rise to 3.60 Gigahertz, and the LGA-1366 socket is available so that you can operate on multiple applications simultaneously.
Finally, it provides you with a limited warranty of three years. And it is compatible with the Intel DX58SO Laptop Board.
Pros:
- Performs greatly and cool
- The professional photo editing and video editing applications work reliably and fast.
- Heat sink compound is included
- Stable performance
- Well worth the money
- Easily manipulatable
Cons:
- Relatively expensive
Intel Core i7-950
Intel Core i7-950 3.06 GHz 8 MB Cache Socket LGA1366 Processor
- Intel Core i7-950 3.06 GHz 4.8 GT/s 8 MB Socket 1366 Quad-Core CPU General Features:
- Intel Core i7 Processor i7-950 3.06 GHz CPU speed 4.8 GT/s (Gigatransfers per second) Bus speed
If you want to find a processor with enhanced technology developments, this could be the perfect option for you!
The Intel Core i7-950 processor delivers new bandwidth levels with QPI, QuickPath Interconnect, allowing it to utilize its four computational cores fully.
Put simply; users will benefit from quicker and more efficient processing than before. Your laptop will be able to perform several tasks and apps without the slowness that a slower CPU would cause.
Programs that require a lot of processing power, such as large-definition media editing, will operate more efficiently and successfully. You’ll also be able to play upcoming-generation video games without experiencing frame rate hitches or delays.
Turbo Boost Innovation enables it to function a maximum of 133 MHz quicker when the processor runs under power or thermal restrictions.
Hyper-threading Innovation makes better use of processor capacities, allowing heavily threaded programs like music players and next-generation video games to run more efficiently.
Smart Cache Memory expands the amount of RAM accessible, resulting in a minor slowdown when multitasking.
Pros:
- Easy to overclock
- It runs cooler and faster even when stocking.
- Simple to assemble
- Sufficient heat sink
- Great for gaming
- Secure socket makes the CPU simple to place and clamp
Cons:
- None
Intel Core i7 975 Extreme Edition
Intel Core i7 975 Extreme Edition 3.33GHz 8M L3 Cache LGA1366 Desktop Processor
- Intel Core i7-975 Extreme Edition 3.33 GHz 6.4 GT/s 8 MB Socket 1366 Quad-Core CPU
- General Features: Intel Core i7 Processor Extreme Edition i7-975 3.33 GHz CPU speed
If you want to find a CPU that serves an exceptional gaming experience, this could be the one for you!
Intel’s i7-975 Extreme Edition processor is the most potent in Intel’s i7 series, providing a groundbreaking computer experience.
It integrates the processing capability of four 3.33 Gigahertz computational cores into one processor, ensuring that even the most intensive tasks can be handled.
The Core i7-975 CPU offers excellent speed from your laptop, even when numerous intense programs are running simultaneously, thanks to its 8 Megabyte clever cache.
The Core i7-975 processor, which is suitable with motherboards of the Intel X58 Express chipset, brings your processing and playing a whole new experience.
Pros:
- Excellent frame rates
- Works great
- Worth the money
- It designs for overclocking
- Operates efficiently
- It can work both on gaming and editing experience
Cons:
- The customer satisfaction level is excellent
Intel Core i7 Processor i7-920
Sale
Intel Core i7 Processor i7-920 2.66GHz 8 MB LGA1366 CPU BX80601920
- Intel Core i7-920
- 4.8 Intel QuickPath Interconnect
If you want to find an affordable central unit processor, this could be the one for you!
Beat your foes, scale the documentation mountain, or perform both tasks at the same minute. It is conceivable and straightforward, thanks to Intel’s Core i7 central processor unit.
The Core i7 920 has four cores running at 2.66 Gigahertz with an L3 cache of 8MB. Four-core processors allow for real various-tasking and various-threading.
One core manages your running system’s routine tasks. In contrast, the second can stream a DVD on the television, the next one can download a video from youtube, and the fourth can deliver audio sound to children in other rooms without delays or stammers.
In general, all of this is developed simpler by Intel’s superior Digital Media Boost technology.
Pros:
- Simple mounting system
- It comes with its heat sink
- You can run multiple programs at the same time because of the quad-core chip.
- Fast photo and video editing
- Powerful
- It’s an economical entry into the i7 chips series
- Easy installation
Cons:
- The stock cooling fan is a little loud. If you pay attention, you still can hear the CPU fan
Intel Xeon X5650 Processor
Intel Xeon X5650 Processor 2.66 GHz 12 MB Cache Socket LGA1366
- Process Type: Six-Core Intel Xeon Processor X5650
- Frequency: 2.66 GHz
Another processor we want to show you today is the Xeon series from Intel!
About the process kind, the manufacturer provides you with the six cores with twelve threads. Your chip can work great in both gaming, video editing, and photo retouching with this specification.
Moreover, the CPU frequency can be up to 2.66 Gigahertz, for your information, with a bus speed of 6.4 transfers per second. The memory cache is 12 Megabytes, which is more significant than most models manufactured by Intel.
You need to notice that its socket is LGA 1366; therefore, you need to carefully check this specification in your chip to not waste money on a processor that may not be compatible with your laptop.
Other specifications are 1.3 voltage range and 95 watts power usage.
Pros:
- Worth the money
- Simple setup
- Functional
- Runs effectively
- Relatively quiet
Cons:
- Some customers complain it has no assembly instructions when arriving
Intel Core i7 940 Processor
Intel Core i7 940 2.93GHz 8M L3 Cache 4.8GT/sec QPI Hyper-Threading Turbo Boost LGA1366 Processor
- Intel Core i7-940
- 4.8 Intel QuickPath Interconnect
If you want to find a fast, brilliant multi-core performance, this could be the one for you!
Latest Intel® CoreTM i7 processors make fantastic advancements in computer performance thanks to quicker, more efficient various-core innovation that delivers computing power where it’s required greatest.
You’ll be able to run many challenging programs quicker and create great digital technology.
And unique combination of Intel Turbo Boost Technology and Intel Hyper-Threading Technology automatically optimize performance to fit your task; you’ll get the most out of everything you are doing.
This Intel-only technology enables data to flow more swiftly from the CPU to the Intel X58 chipset, resulting in improved performance and response in even the most intensive workloads.
Intel’s proprietary cache structure enables many processing cores to have quick access to data when required by bringing more data nearer to the processing cores and allowing various cores to utilize this space flexibly.
Intel Core i7 CPU is quad-core and eight working threads, ensuring that your computing structure keeps up with your innovation when you’re modifying large-resolution photographs or processing HD-quality family photos.
Pros:
- You can overclock it a bit
- Runs smoothly
- A great CPU
Cons:
- Customers complain that the 940 is 20% faster than the 920, but it is much more expensive than the model 920
Intel Core i7-970 Processor
Intel Core i7-970 Processor 3. 20 GHz 12 MB Cache Socket LGA1366
- This processor supports Intel Hyper-Threading Technology This processor supports Intel 64 Architecture
- This processor is a Six Core Processor This processor supports Intel Turbo Boost Technology
Here’s another central unit processor we want to show you today!
The Intel Core i7-970 processor features thread-grade concurrency and six processing cores working at 3.2 Gigahertz. Because AI, physics, and graphics are split across six cores and twelve threads, you’ll get quicker, more genuine gaming.
Hyper-threading innovation allows for more effective use of CPU resources, allowing the heavily threaded systems to run faster.
The processor’s 12 threads are tuned to stay current with the most recent digital technology applications, even if you’re creating high-resolution videos, editing up photographs, or combining music.
Video encoding and transcoding, as well as image processing, are completed swiftly.
Pros:
- It comes with a reasonably high-quality heat sink
- Well-worth for multi-threaded apps
- Horsepower
- Reliable, stable high-speed processing
- Worth the money
- Performs well
Cons:
- Relatively expensive
Intel BX80601930 Core i7-930 Desktop Processor
Intel BX80601930 Core i7-930 Desktop Processor
- Quad Core
- Enhanced Intel SpeedStep Technology
If you want to find a processor with intelligent multi-core technology, this could be the one for you!
Take over the world of intense gaming with the world’s quickest processor, is the Intel Core i7 Extreme Edition processor.
It promises an astounding advance in the gaming experience thanks to quicker, smarter various-core innovation that adjusts performance to meet your demand.
But it’s not just about games when it comes to performance. With a maximum of 79 percent quicker video editing and a maximum of 46 percent shorter photo rendering, with outstanding results for image retouching and processing, you’ll be able to multitask 25 percent faster and unlock extraordinary multimedia production.
Thanks to the collaboration of Intel Turbo Boost innovation and Intel Hyper-Threading expertise, which unleashes maximum processing capacity exactly when or where you need it, you’ll enjoy the optimal performance for anything you do.
Pros:
- It is suitable for overclocking
- Stable performance
- It is highly recommended for gamers.
- Fast yet affordable processor
- Easy installation
Cons:
- The customer satisfaction level is high
CPU for Xeon X5650
CPU for Xeon X5650 Six-Core Twelve Threads 2. 66GHz 12M Cache LGA1366 CPU Official Version
- This product is made of high quality metal material, strong and durable.
- Code name is for Xeon series X5650, six-core twelve threads, up to 2.66GHz basic frequency, super performance.
Here’s our final product!
This item is made of excellent-quality aluminum that is both sturdy and long-lasting. The Xeon series X5650 has six cores and twelve threads, with a base frequency of a maximum of 2.66 Gigahertz and exceptional results.
The processor provides you with 95 watts of power usage, a twelve-megabyte cache memory, and a QuickPath Interconnect bus speed of 6.4 transfers per second.
The socket LGA 1366 can connect with X58 and X79 family desktops, as well as servers.
Finally, some newest, up-to-date technology, such as hyper-threading technology, Intel virtualization innovation, and other technologies, are supported.
Pros:
- It provides effective performance.
- Affordable
- Suitable for people who want to extend their X58 system’s life
- Easy installation
- Fast shipping
Cons:
- More ideal for experience overclockers
Buying Guide: How To Pick Lga 1366 Best CPU In 2021
After reading our reviews, we are sure that you still feel confused about choosing the suitable Lga 1366 best CPU for you. You may think that these products look almost identical to each other; how can we separate them? “What are the factors I need to consider when choosing the central processing unit?”, this question is probably the top priority thought in your mind.
We were like you before; therefore, we completely understand this thought. However, after hours of learning and researching, we can finally understand the CPU, and we want to share this knowledge with you.
Because of the expertise in this aspect, you may find it hard to understand some terms fully. Therefore, we are trying to explain it to you as straightforward as possible, so you don’t have to worry too much about it.
Now, let’s see what criteria you should pay attention to them.
Firstly, we think that you need to know the definition of this processor.
What Is LGA 1366 CPU?
LGA 1366, an abbreviation of Land grid array 1366, also known as Socket B, is an Intel CPU socket. For your information, this socket is an improved variant of the LGA 1156. The first iteration (LG1366) of the LGA 1156 included an Intel Core i7 in 2008 and was last utilized in 2011. Although two sockets have identical qualities, the LGA 1366 performs better.
Socket 1366 (Socket B) connects the CPU to a decreased-function northbridge that effectively supports a PCI-E, an abbreviation of Peripheral Component Interconnect Express controller using the QPI Intel QuickPath Interconnect. Intel’s most current northbridge and southbridge parts are linked using a slower DMI.
We think this information is the basic one you should know. Although you may not understand these terms right away, it’s okay. Right now, we only want you to read the definition. Through times, you will know it.
After the definition, we want to introduce you to some terms closely related to the criteria you need to consider when buying LGA 1366 CPU.
Related Terms
- lga 1550 > is stock” data-id=”” title=”Top 10 Lga 1366 Best CPU That Everyone Should Know For Working At Home Season In 2022 81″>
2.1. Caching
The phrase refers to a tiny section of high-pace memory dedicated to storing and executing commonly utilized instructions and directives to accelerate software programs.
For your information, the CPU assigns the numbers one, two, and three as the levels required, with level one is the tiniest and quickest and level three becoming the biggest and have the slowest processing time.
In our reviews, ten products will contain a caching of level two or level three. The main reason is that this type of CPU is relatively old. Evidently, it was last used in 2011. Therefore, you can’t expect it to have the highest speed rate because the engineers enhance the processor’s feature every year and change the socket.
If you want better speed, you can upgrade your old socket to operate a new processor, but it requires an exact solution.
2.2. Core
You may not know, the CPU’s core is the CPU’s processor. During the old times, the CPU only has one core to concentrate on one task at a time. However, in modern days, a CPU’s core will vary from two to 18 cores to perform different tasks.
You will notice that a core may perform one task, and another will work on other tasks. As a result, the more CPU’s core contained, the more efficient your laptop becomes.
For your information, the CPU in laptops usually contains two cores, whereas some mobile CPUs, also known as laptop CPUs, will have four. We highly advise you that if your laptop is compatible, you can afford a four-core CPU, you should go for it!
And one point we want you to remember is that with some Intel processor products, for example, core i7, it is not true that it will contain seven cores. You need to check that carefully.
2.3. Heat Sink
You may read many articles about the definition of the heat sink; however, it is too hard for you to understand. We understand that; therefore, to be briefly comprehensive, you only need to know that it is a cooling factor for a computer. The heat sink will be placed on top of the CPU.
In one way, you will notice that it has no moving components, so it is passive. However, in some cases, it also includes a fan or liquid cooling to boost the cooling process.
The operating principle is simple; the heat sink will use a thermal conductor to transfer heat to fins with larger surface spaces, which spread the heat out of the computer.
2.4. Threads
For your information, a processor will perform a procedure called simultaneous multithreading, or in some cases, people consider it hyper-threading to split a core into virtual cores. You may see two process names, but they all carry the same meaning.
For example, an Intel core with two cores will use hyper-threading to divide into four threads. One point you need to know that, with an Intel processor, people will use the term “Hyper-threading.” On the other hand, another word will use for an AMD processor. AMD is known as an Advanced Micro Devices company.
2.5. Clock Speed
When buying a central processing unit, you can’t be wrong between the CPU core and the CPU clock speed. While the CPU’s core determines the unique, heavy-workload tasks, the clock speed refers to how fast it is responsive to the external components, like the mouse, keyboard, or monitor.
The clock speed’s measurement is gigahertz, also known as GHz if you are more familiar with the abbreviation. As we’ve mentioned before, the clock speed will show you how quickly it can process data.
Most modern CPUs will work on a wide range of clock speeds, from the base speed to the turbo speed. When handling the demandingly tricky task, the processor will automatically rise to a higher clock speed to get the job done. However, this process will lead to more heat is generated, and when the CPU reaches the maximum frequency, it will reduce down to lower frequency to avoid overheating.
2.6. Socket Type
The CPU connects with the socket through the motherboard. As we have mentioned in the introduction, two primary manufacturers, AMD and Intel, will have their socket types. You may come accidentally across these terms: LGA, PGA, and BGA and don’t know what it means. Today, you will get to know them.
Firstly, the LGA
2.6.1. LGA
It is an abbreviation of Land Grid Array. With this type, both AMD and Intel manufacture it; and they are relatively similar.
The LGA on the Intel sockets performs with the pin as a part of the socket. And so are the LGA on the AMD sockets.
2.6.2. PGA
Its full name is Pin Grid Array. Hearing its name, we think that some of you will know the shape. This type contains the pins over the processor, and it is permanently fixed in the socket’s holes.
2.6.3. BGA
Here’s the final type, it is Ball Grid Array. With this socket, the processor will directly link to the motherboard.
Now, you’ve already known all the necessary terms when go shopping for LGA 1366 CPU.
However, we still want to show you the first step before you buy any CPU. This section can apply to all of you, so please do not pass on this part.
The First Step Before Buying A CPU
The first step we want to mention, and you always have to do it, is checking your CPU current situation, including the level and performance level.
In this step, all you have to do is access the control and panel in your computer; in the security and system subheader, you click the system.
Now, you will see all the information related to your CPU, from RAM to OS, and so much more. Here, you will know the name of your existing CPU. Nowadays, four leading Intel processors are core i3, i5, i7, i9.
The Intel Core i9 is the latest model; therefore, it can handle the heaviest workloads and demanding tasks. But it is relatively expensive and usually more than enough for most people.
The efficient level of the three remaining processors from highest to lowest are i7, i5, i3, respectively.
Here’s comes to the part when you are getting to know the criteria you should focus on when purchasing a CPU.
Purposes
Although the Intel Core i7 is much stronger than the i5 one, i7 is more beneficial for everyday tasks like browsing the Internet, checking and reading emails, online newspapers, and so much more.
If you only use a laptop for the everyday tasks listed above and your job is office-related, core i7 is the best solution for you. The Core i3 and i5 also satisfy your needs; however, we think you should go for the most optimal solution, saving your money in the future.
We know that with some of you, gaming is both your hobby and your dream career. Many modern jobs are coming from playing games, such as streamers or game developers. That’s when you need to equip yourself with a powerful computer. Both core i5 and i7 will satisfy your needs, but core i5 is more affordable if your needs are simple. The core i7 is especially for high-end gamers, requiring frequent exchange between games and apps.
With some of you, you may want to upgrade your games experience as a professional career, which will lead to many extra-heavy and demanding tasks, then you should choose core i9. It can promise you the most potent performance hauls, but it can be expensive. We think that is its only disadvantage until now.
Manufacturers
When purchasing, you will have two manufacturers to choose from AMD or Intel. When comparing the CPU they produce, the performance is almost the same; both manufacturers will offer consumers various CPUs with different speeds and capabilities. They can operate on the same operating systems. Therefore, you can choose which one do you like more.
To decide easily, we can say that Intel will do a little better on the gaming experience. At the same time, AMD will provide a quicker process for video editing, animations, graphic design.
Clock Speed Vs. Core Number: Which One You Should Prioritize?
When researching deeply about the CPU, you soon know that these are two different criteria you should consider. Like we’ve mentioned before, the clock speed will transfer the snappy data, performance into the simple, common one. Therefore, gamers will seek a CPU with the highest clock speed, and core i5 will meet their demands. Usually, slightly threading apps, like games, will not benefit much from core numbers.
On the other hand, the core number will assist you in handling time-consuming duties quicker. Therefore, designers who have to use video editing programs and animation software will be more likely to choose the CPU with a large core number.
In general, it mainly depends on your purposes and requirements. However, you should not primarily rely on the clock speed or the core number.
They are both indicators to measure your computer’s performance and decide on the complete performance. However, you have to look at clock speed, core numbers, and IPC, known as instructions per clock cycle.
Overclocking Is Not For Everyone
Even when your primary purpose is gaming, you should not entirely depend on the high-speed clock. The overclocking term refers to the process where you run your computer at speed higher than the manufacturers’ intention.
If you intend to make your computer durable, you should spend more money purchasing high-quality chips, giving you optimal performance in return. The overclocking process only effective when it is performed within limitations.
If you use overclocking technique incorrectly, let’s say you overclock your computer on your own. There’s a higher chance that your computer will be more likely to expose to reduced lifespan. The main reason is that you tend to put more voltage and clock speed in your laptop with this process, resulting in extra stress.
Moreover, to successfully overlock your computer, you should equip yourself with a high-end cooler, costing you a sum of money. Is it worth the money? You still lose the same or even higher amount of money simply to achieve slightly better performance. Therefore, you should consider overclocking your laptop. Instead, you should buy high-quality components in the first place for the computer to be durable.
Consider Other Factors
We say that because many of you may only consider the clock speed or the core number, CPU in general. However, there are many factors aside you need to take a look at them. For example, it is also about the RAM, the hard drive, and the SSD, a solid-state drive, when assessing your computer’s performance.
For example, the minimum RAM you need is 4MB; however, you should go for 8MB RAM or even 16 MB RAM. It’s up to you.
And never pair a strong CPU with low storage, RAM, and graphics. A robust CPU needs to satisfy all specifications, and it is compatible with your computer. Therefore, you should scrutinize the specifications and find other articles about these specifications to see if it is competent enough for you.
We think that’s kind of enough tips for you when buying a CPU. What about upgrading it? Usually, you have two options for upgrading or building your new PC; however, making your new PC means changing your motherboard. We will mention it in another article. Today, we only want to talk about upgrading what’s in there that you need to pay attention to them. We also have a list for you.
Factors You Need To Consider When Upgrading
9.1.Manufacturers Compatability
You should check the manufacturers of your existing CPU. Is it from Intel? Or is it from AMD? The two chips will require different motherboards. Therefore, you need to check this first.
9.2.Socket
For your information, many processors coming from one company will still demand different sockets. For instance, with the same Intel Core i7, the LGA 1366 socket will never be compatible with LGA 1511. And the old 1366-pin chip can’t go with the newest, up-to-date pin chip.
With AMD sockets, some may match many chips; others may not. Therefore, in general, you need to look at the socket specification in your old CPU to suit the new one. Otherwise, you will waste a lot of money.
9.3.Memory
Different CPUs will need their type of memory. With the latest computer, they usually use the Double Data Rate 3 memory. Our research shows that some CPUs are manufactured to be compatible with more than one memory type. However, even within one group, the old memory type will not work with the new CPU because of the fast technology development. So our advice is to choose the new CPU with the same memory type as your older one. This solution will be the safest.
9.4.Chipset
In some cases, even when you find that your new CPU may satisfy the three requirements above, you still can’t replace it because your motherboard is out-of-date. Your solution is to go to the store and ask Goodbyeexperts to see anything you can do. Sometimes, you may have to replace your motherboards; we think that’s the worst case. Usually, the professionals can find a chip that may be compatible with your motherboard but still satisfy all their aspects above.
If you are a first-time buyer, this video could be a great help to you:
20 GHz 8 MB Cache Socket LGA1366
Intel Core i7-980X Extreme Edition Processor 3.33 GHz 12 MB Cache Socket LGA1366
Intel Core i7-950 3.06 GHz 8 MB Cache Socket LGA1366 Processor
Intel Core i7 975 Extreme Edition 3.33GHz 8M L3 Cache LGA1366 Desktop Processor
Intel Core i7 Processor i7-920 2.66GHz 8 MB LGA1366 CPU BX80601920
Best For
Lga 1366 Best CPU For Faster Media Editing And Sharing
Lga 1366 Best CPU For Excellent-Quality Six Cores
Lga 1366 Best CPU For Enhanced Technology Developments
Lga 1366 Best CPU For Exceptional Gaming Experience
Lga 1366 Best CPU For Affordability
Rating
Details
View Product
View Product
View Product
View Product
View Product
Title
Intel Core i7-960 Processor 3.20 GHz 8 MB Cache Socket LGA1366
Image
Best For
Lga 1366 Best CPU For Faster Media Editing And Sharing
Rating
Details
View Product
Title
Intel Core i7-980X Extreme Edition Processor 3. 33 GHz 12 MB Cache Socket LGA1366
Image
Best For
Lga 1366 Best CPU For Excellent-Quality Six Cores
Rating
Details
View Product
Title
Intel Core i7-950 3.06 GHz 8 MB Cache Socket LGA1366 Processor
Image
Best For
Lga 1366 Best CPU For Enhanced Technology Developments
Rating
Details
View Product
Title
Intel Core i7 975 Extreme Edition 3.33GHz 8M L3 Cache LGA1366 Desktop Processor
Image
Best For
Lga 1366 Best CPU For Exceptional Gaming Experience
Rating
Details
View Product
Title
Intel Core i7 Processor i7-920 2.66GHz 8 MB LGA1366 CPU BX80601920
Image
Best For
Lga 1366 Best CPU For Affordability
Rating
Details
View Product
Here’s the end of our article! Thank you for staying with us through the entire one!
Goodbye! See you in our following reviews!
Good luck with your research!
fm1 processors 4 cores — ComputerMaker.
info
Author admin Reading 4 min. Views 43 Posted by
Hello everyone. In this article I will talk about the specification of all socket FM1 processors. This includes such processors as: a-series, athlon, sepron and e2. In addition to the specification, the table with the list of socket FM1 processors includes current prices for these processors. At these prices, you can easily compare the most attractive option of all socket FM1 9 processors0005
Upgrading a computer often starts with replacing the current processor with a more powerful model. But, choosing a processor for an existing motherboard is not so easy, for this it is important to follow some rules, otherwise the processor may simply not work. In this article, we will talk about the FM1 socket, as well as how to choose a processor for it and which processors are suitable.
Table of Contents
- Socket FM1 Overview
- Processor Selection for Socket FM1
- Processors for Socket FM1
Overview of Socket FM1
Socket FM1 is an APU socket from AMD. By design, Socket FM1 is a ZIF connector with 905 pins and is intended for processors in a PGA package.
Socket FM1 first appeared in 2011 and was used for processors based on the AMD Fusion architecture. The first processors for socket FM1 were the quad-core chips A6 and A8. A few months later, AMD also introduced the A4, Athlon II X4, Athlon II X2, E2, and Sempron X2 processors.
Just a year after socket FM1 was introduced, a new socket called Socket FM2 was introduced. At the same time, the new FM2 did not retain compatibility with FM1.
Choosing a Processor for Socket FM1
AMD’s Socket FM1 platform hasn’t been around for long, so it doesn’t have major compatibility issues. However, before buying a new processor, be sure to check the list of supported processors on the official motherboard page. This is the only way to be 100% sure that this particular processor will work with your board.
In order to find such a list, you need to know the exact name of the motherboard and its manufacturer. This information can be obtained using any program for viewing the technical characteristics of the computer. For example, you can use the free CPU-Z program. The interface of this program includes tabs that contain basic information about the system. Information about the motherboard is located on the «Mainboard» tab.
The name of the motherboard model must be entered into any search engine, after which you need to go to the motherboard page on the manufacturer’s official website.
Once you have landed on the official page of your motherboard, you need to find the list of processors it supports. In most cases, this list is located in the «Support — List of processors» or «Support — CPU» section.
This list will list all processors that can work with your motherboard. In this case, the list will indicate the BIOS version that is needed for the operation of each of the processors. Using this data, you can easily select the right processor.
And in order to find out what processors generally exist for Socket FM1, you can use the full list of processors, which we provide below.
Processors for Socket FM1
Due to the fact that Socket FM1 was an actual socket for only one year, not many processors were released for it. These are several two- and four-core Sempron and Athlon processors that do not have integrated graphics, as well as a number of A4, A6 and A8 processors with integrated graphics.
The decision to combine computing and graphics cores in one chip allowed AMD to create Llano chips that compare favorably with high-performance iGPUs from competitors. If at the production stage some functional blocks of integrated graphics fail, then such a processor enters the market under the guise of Athlon II. In order to save users from confusion, AMD has endowed such solutions with a mandatory attribute in the name — the number «1». So, the Athlon II X2 221, Athlon II X4 631 and Athlon II X4 641 models based on Husky processor cores and designed to work as part of Socket FM1 motherboards are already on the market. The fastest such processor was the Athlon II X4 641 (2.8 GHz). The highest frequency in the Llano desktop APU family is the A8-3850 (2.9GHz).
Journalists from the CPU-World website keep track of all events in the world of processors and draw our attention to the announcement of the new Athlon II X4 651 chip. This model has already been registered in the official AMD price list. The chip has four processing cores, disabled graphics, and 4 MB of L2 cache. Its operating frequency is 3.0 GHz, and it brings the processor into the lead among Llano desktops in this indicator.
In addition, our colleagues provide one more important information. The guys from Sunnyvale have revised the selling prices for a number of their processors.
Thus, the 6-core FX-6100 has fallen in price by $10, the A6-3500 model has become more affordable by $4, but the 2-core A4-3300 and A4-3400 have risen in price by $2.
Fm1 processors 4 cores
Computers admin 0 comments
Hello everyone. In this article I will talk about the specification of all socket FM1 processors. This includes such processors as: a-series, athlon, sepron and e2. In addition to the specification, the table with the list of socket FM1 processors includes current prices for these processors. At these prices, you can easily compare the most attractive option of all socket FM1 9 processors0005
Upgrading a computer often starts with replacing the current processor with a more powerful model. But, choosing a processor for an existing motherboard is not so easy, for this it is important to follow some rules, otherwise the processor may simply not work. In this article, we will talk about the FM1 socket, as well as how to choose a processor for it and which processors are suitable.
Socket FM1 overview
Socket FM1 is an APU socket from AMD. By design, Socket FM1 is a ZIF connector c 905 pins and is intended for processors in the PGA package.
Socket FM1 first appeared in 2011 and was used for processors based on the AMD Fusion architecture. The first processors for socket FM1 were the quad-core chips A6 and A8. A few months later, AMD also introduced the A4, Athlon II X4, Athlon II X2, E2, and Sempron X2 processors.
Just a year after socket FM1 was introduced, a new socket called Socket FM2 was introduced. At the same time, the new FM2 did not retain compatibility with FM1.
Choosing a Processor for Socket FM1
AMD’s Socket FM1 platform hasn’t been around for long, so it doesn’t have major compatibility issues. However, before buying a new processor, be sure to check the list of supported processors on the official motherboard page. This is the only way to be 100% sure that this particular processor will work with your board.
In order to find such a list, you need to know the exact name of the motherboard and its manufacturer. This information can be obtained using any program for viewing the technical characteristics of the computer. For example, you can use the free CPU-Z program. The interface of this program includes tabs that contain basic information about the system. Information about the motherboard is located on the «Mainboard» tab.
The name of the motherboard model must be entered into any search engine, after which you need to go to the motherboard page on the manufacturer’s official website.
Once you have landed on the official page of your motherboard, you need to find the list of processors it supports. In most cases, this list is located in the «Support — List of processors» or «Support — CPU» section.
This list will list all processors that can work with your motherboard. In this case, the list will indicate the BIOS version that is needed for the operation of each of the processors. Using this data, you can easily select the right processor.
And in order to find out what processors generally exist for Socket FM1, you can use the full list of processors, which we provide below.
Processors for Socket FM1
Due to the fact that Socket FM1 was an actual socket for only one year, not many processors were released for it. These are several two- and four-core Sempron and Athlon processors that do not have integrated graphics, as well as a number of A4, A6 and A8 processors with integrated graphics.
The decision to combine computing and graphics cores in one chip allowed AMD to create Llano chips that compare favorably with high-performance iGPUs from competitors. If at the production stage some functional blocks of integrated graphics fail, then such a processor enters the market under the guise of Athlon II. In order to save users from confusion, AMD has endowed such solutions with a mandatory attribute in the name — the number «1». So, the Athlon II X2 221, Athlon II X4 631 and Athlon II X4 641 models based on Husky processor cores and designed to work as part of Socket FM1 motherboards are already on the market. The fastest such processor was the Athlon II X4 641 (2.8 GHz). The highest frequency in the Llano desktop APU family is the A8-3850 (2.9GHz).
Journalists from the CPU-World website keep track of all events in the world of processors and draw our attention to the announcement of the new Athlon II X4 651 chip. This model has already been registered in the official AMD price list. The chip has four processing cores, disabled graphics, and 4 MB of L2 cache. Its operating frequency is 3.0 GHz, and it brings the processor into the lead among Llano desktops in this indicator.
In addition, our colleagues provide one more important information. The guys from Sunnyvale have revised the selling prices for a number of their processors.
Thus, the 6-core FX-6100 has fallen in price by $10, the A6-3500 model has become more affordable by $4, but the 2-core A4-3300 and A4-3400 have risen in price by $2.
Socket fm1 and fm2 compatibility
This year AMD announced new accelerated processors codenamed Trinity. It also became known that these APUs will be installed in the new FM2 connector. Below we present to your attention the world’s first photo of the new socket.
The picture shows two processor sockets: the existing FM1 and FM2, which will primarily be used for Trinity processors. Both connectors are very similar to each other, both using an archaic PGA design with contact pins mounted on the processor. Externally, the processor pins are arranged in the same style, but nothing can be said unambiguously about the location of the legs until a pin map appears. The difference in sockets lies in the empty pins in the near-center region of the pin array. So, the new socket FM2 has 904 pins, which is one less than in FM1. One of the pins became empty, while a couple of empty pins moved further from the center in the contact field. In the image below, the Llano FM1 is on the left and the Trinity FM2 is on the right.
It is clear that such differences make FM1 and FM2 backwards incompatible. So you will be able to use modern socket FM1 A-series processors in future socket FM2 motherboards, but not vice versa. Trinity processors are not suitable for modern motherboards. In addition, it should be noted that AMD is porting the A75 FCH chipset to the next generation of platforms called «Virgo». In fact, the FCH or Fusion Controller Hub, like the PCH (Platform Controller Hub) from Intel, is nothing more than a southbridge, and porting it to future platforms is extremely simple, since the FCH is, in fact, a PCI device. -Express 2.0×4.
We’ve always praised AMD for making all of their new processors compatible with previous motherboards since the Socket A days, so the lack of backwards compatibility was a bit of a disappointment.
Comments
- Oleg Ryabchikov July 20, 2015, 5:12 pm
Tin. one pleases. AMD’s pricing policy, as always, is on top. for this, I remain completely devoted to the office)))
DELETED June 6, 2014 03:12 am
we overclock at our leisure, thanks for the article!
Replacing the processor is one of the main ways to upgrade your computer’s configuration. But, in order to choose a new processor for a computer, you need to take into account several very important points, otherwise it may turn out that the purchased chip is not suitable. Now we will tell about the socket FM2 and FM2 +, as well as which processors are suitable for motherboards with this socket.
Socket FM2 and FM2+ Overview
Socket FM2 is an APU socket from AMD. This connector was introduced in 2012 as a replacement for the FM1 socket. Although FM2 is an FM1 receiver, these sockets are not compatible and it is not possible to install an FM2 processor into an FM1 motherboard (or vice versa).
Initially, Socket FM2 only supported dual and quad-core Trinity APUs. A little later, AMD also released Athlon processors for this socket, which are not equipped with integrated graphics. And in mid-2013, Richland APUs were introduced for Socket FM2.
Introduced in 2014, Socket FM2+ is an evolution of FM2 and supports more modern processors. Along with the announcement of the FM2+ socket, more than a dozen new dual- and quad-core processors based on the «Steamroller» microarchitecture were introduced for this platform.
The FM2+ socket is very different from FM2. In particular, there are two additional pins on FM2+ that are not on FM2. Because of this, FM2 and FM2+ socket compatibility is somewhat limited. Old FM2 processors can be installed in a new FM2+ board, while new FM2+ processors cannot be installed in old FM2 boards because the extra pins will prevent this.
Socket FM2+ was the current socket for AMD APUs prior to the release of socket AM4, which supports both APUs and APUs.
Choosing a Processor for Socket FM2 and FM2+
When choosing a new processor for an existing motherboard, you should always check the list of processors that the board supports. This rule is also true for Socket FM2 and FM2+ motherboards.
In order to find such a list, you need to know the name of the motherboard itself. This information can be obtained using programs for viewing the characteristics of the computer. For example, you can use the CPU-Z program. Run this program on your computer and go to the «Mainboard» tab. This will list the manufacturer of the motherboard, the exact model name, and other information about the board.
Next, you need to find the motherboard page on the official website of its manufacturer. To do this, just enter the name of the model and manufacturer in any search engine.
Once you have landed on the motherboard page on the manufacturer’s official website, you need to find a list of supported processors. Usually such a list is available at the link «Support — CPU» or «Support — List of processors».
This list will show all processors that can be used on this board. At the same time, next to each processor, the BIOS version that is needed for the operation of this processor will also be indicated. Using this information, you can easily choose the right processor for your motherboard.
Below is a complete list of processors for Socket FM2 and FM2+. This list can be used to quickly find out what kind of processors there are for this socket.
Socket, as you know, is a socket on the motherboard for installing the central processor. Sockets vary in form factor, number of pins, and attachment type. The use of sockets, in principle, is intended to facilitate system upgrades by simply changing the processor. However, the problem is that the release of almost every new processor from AMD or Intel is associated with a transition to a new platform, that is, with the advent of a new socket.
This is clearly seen, in particular, on the example of the latest sockets FM1 and FM2, designed to connect powerful AMD hybrid processors. The FM1 platform was developed for Llano processors, which were released not so long ago — in mid-2011. However, when developing processors of the new Komodo and Trinity family, AMD decided to abandon the use of the FM1 socket in favor of the new FM2 platform. In this short article, we will try to figure out what this threatens users with and whether there are significant design differences between the FM1 and FM2 sockets.
FM1 and FM2 platforms
The FM1 socket is a 905-pin processor socket. It was developed specifically for AMD Fusion APUs. First of all, we are talking about Liano hybrid processors, which, due to the presence of an integrated graphics core, required not only a new design. AMD’s Liano processors were introduced in dual or quad-core variants with support for Direct X 11 GPUs and DDR3 1600 RAM. All motherboards that came out with a Socket FM1 socket for installing Liano processors adopted the UEFI system instead of the traditional BIOS. In the desktop segment, Liano processors and, accordingly, the FM1 platform debuted on June 30, 2011.
It seemed that the next generation of AMD APUs would also be in Socket FM1. However, the appearance of AMD Llano processors on the market was ambiguously assessed by computer enthusiasts and overclockers, for whom, in fact, the new product was designed. Although the powerful integrated graphics core provided a good level of performance, comparable to the work of junior discrete video cards, however, the Liano processors did not bring the expected increase in frequency potential. And if AMD Llano solutions were quite competitive in the mobile segment, their popularity turned out to be low in desktop systems.
AMD has decided to bet on a new generation of Trinity APUs with more powerful graphics and computing cores. Building a faster desktop processor required abandoning the existing FM1 platform. This is how the FM2 socket appeared, which structurally differs from FM1 in a slightly different arrangement of contacts.
AMD’s new Trinity processors are based on the improved Piledriver architecture and feature powerful integrated graphics. They have a dual-channel DDR3 memory controller with support for operation in modes up to DDR3 1866. One of the main differences between Trinity chips and their predecessor Liano processors is higher clock speeds. If Liano processors managed to get close to the 3 GHz mark, then the older Trinity models can already be overclocked to the mark of 3.8 GHz — 4.2 GHz.
Despite the fact that the older Trinity models have slightly fewer shader units than Llano, this is more than offset by the use of VLIW4 multiprocessor units, acceleration of the tessellation processing unit and a higher clock frequency. The integrated graphics core Trinity has full support for DirectX 11 with ShaderModel 5.0, OpenCL 1.1 and DirectCompute 11. Solutions based on the FM1 socket, by the way, did not provide the ability to use two graphics adapters in the system at once. The new FM2 platform with Trinity processors is aimed at a wide range of users who are interested in building fairly powerful multimedia desktop PCs.
Differences and compatibility between FM1 and FM2 sockets
In general, the FM2 socket is a logical continuation of the FM1 platform, so the differences between the two sockets were not too significant. On closer examination, you can see that even in appearance, the FM2 socket has not undergone radical changes compared to the previous platform. However, these changes still exist. Although the pin layout of both sockets looks similar, the FM2 is missing one of the pins in the center. Thus, if the processor socket FM1 had 905 contacts, the new platform has only 904.
In addition, the so-called «keys», that is, areas without contacts, for Llano and Trinity processors are located in different places on the substrate. Unfortunately, a different location of the «keys» will not even allow you to install the AMDTrinity processor in the old FM1 socket. Some other subtle changes to the FM2 socket have to do with power delivery.
AMD representatives have for a long time given rather evasive answers to the question of whether the FM1 and FM2 platforms will eventually be compatible. This was done, probably, in order not to indirectly reduce the demand for processors with socket FM1. But today it is already known that the new AMD hybrid processors have neither forward nor backward compatibility with the FM1 platform.
This means that desktop users with AMD Liano processors will need to purchase socket FM2 motherboards to upgrade to the latest Trinity processors. This incompatibility is understandable, because the new AMD processors are based on a completely different architecture, which required a transition to other power subsystems. This circumstance forced AMD to switch to the new Socket FM2 platform. However, owners of desktop PCs with the FM1 platform are unlikely to be satisfied with this decision.
The Future of FM1 and FM2 Sockets
AMD has earned customer recognition not only for its high performance and cost-effective solutions, but also for its commitment to keeping the same design across multiple generations of its processors. This provided users with the ability to easily and quickly upgrade their PC by purchasing and installing a new processor. Thus, the frequent socket change policy has never been AMD’s hallmark. That is why the rejection of the FM1 platform actually gave rise to a lot of dissatisfaction among a serious part of AMD product supporters.
With the advent of the new FM2 platform, the company’s management de facto recognized Llano hybrid processors and their accompanying motherboards with the FM1 socket as a «dead end» solution. It is clear that the platform of the previous generation with the lack of the possibility of an upgrade is unlikely to have any success with users. It can be assumed that the FM1 socket, which was released, it would seem, not so long ago, will wait for a short life on the market.
As AMD claims, everything will be different with the FM2 platform. This processor socket will not become «single serial», as happened with FM1, but will be focused on supporting several future generations of AMD processors. However, given the not very pleasant history with the release of first-generation APUs, potential consumers may have concerns and questions to AMD about whether the FM2 platform is really serious and for a long time. Perhaps in the near future, in connection with the development of new more productive solutions, the company will again have to switch to a completely different processor socket.
Be that as it may, at present a number of manufacturers have already announced the release of socket FM2 motherboards for new AMD processors. These are, for example, the flagship model GA-F2A85X-UP4 from Gigabyte and the Hi-Fi A85W board from Biostar. Everything speaks in favor of the fact that the choice of motherboards with an FM2 connector will become quite wide in the near future.
#Socket_FM2_plus #Socket_FM2
AMD has developed processors called APUs for entry-level gaming computers. They combine mid-range processor cores with very fast graphics cards by the standards of integrated video. Modern APUs use FM2 and FM2+ sockets. FM2 socket processors first appeared in 2012, they were completely incompatible with the first generation APUs on the FM1 socket. have Trinity and Richland cores. FM2 was replaced in 2014 by . The new socket proved to be compatible with FM2 as well, so when upgrading the system, you could first purchase a new one for use with the old processor, and then a new processor.
If you plan to use integrated graphics, then you should be careful when choosing a processor. For FM2 and FM2+ processor sockets, there are models without an integrated video core, which usually belong to the Athlon series. If you do not pay attention to this, then, despite the presence of video outputs on, the system will not start without installing a discrete card. Let’s turn to the characteristics of processors. For comparison, let’s choose the Richland (FM2) and Kaveri (FM2+) cores:
Unlike most other processors with different sockets, AMD solutions usually work with the same chipsets, and for this reason it makes no sense to compare them. Here are the characteristics of the latest generation chipsets.
As you can see, the chipsets differ only in the number of SATA ports and supported RAID levels. Consider the performance of older APUs for sockets FM2 (A10-6800K) and FM2 + (A10-7870K) As you can see in the table, the performance of the processors has not changed much. The main difference between the platforms is the integrated video core. The results of their performance measurement in the 3DMark test in the table:
Performance measurements show that the new ones handle the complex DX10 and DX11 graphics used in Cloud Gate and Fire Strike much better, showing a significant performance boost, but better in the DX9 (Ice Storm) test. When choosing a processor, in addition to performance, you should also pay attention to its power consumption. The higher the power consumption, the higher the chip heating and, accordingly, the higher the requirements for the cooling system. We measured power consumption in two states: idle and full load. The new ones have better energy efficiency, i.e. they consume noticeably less energy with similar performance parameters. In addition, support for the proprietary Mantle API has appeared here, which allows you to get a performance boost in games that support this API. |
The best processors on socket FM2
About socket FM2
The socket was introduced by AMD in 2012, a year after the introduction of the FM1 slot. Code name Virgo. This is a processor socket for hybrid CPUs (which have an integrated video card on a chip) with Trinity and Richland core architectures.
The main task of such a platform is the use of hybrid CPUs of the new generation, which have on board not only several cores, but also a powerful graphics chip, as at that time. There are non-GPU CPU modifications that are also supported by this socket.
Structurally, this is a ZIF connector, which has 904 pins. It is designed for mounting devices in PGA-type cases: a metal «body» with pins at the bottom. Although this socket is a logical extension of FM1, they are not backwards compatible.
But processors from FM2 can be installed on socket FM2+.
I also want to add that at the moment such a connector is obsolete: for modern CPUs based on the Zen architecture, AMD uses AM4 and TR4 slots in desktop computers and SP3 in server solutions.
Socket FM2 and FM2+ Overview
Socket FM2 is an APU socket from AMD. This connector was introduced in 2012 as a replacement for the FM1 socket. Although FM2 is an FM1 receiver, these sockets are not compatible and it is not possible to install an FM2 processor into an FM1 motherboard (or vice versa).
Initially, Socket FM2 only supported dual- and quad-core Trinity APUs. A little later, AMD also released Athlon processors for this socket, which are not equipped with integrated graphics. And in mid-2013, Richland APUs were introduced for Socket FM2.
Introduced in 2014, Socket FM2+ is an evolution of FM2 and supports more modern processors. Along with the announcement of the FM2+ socket, more than a dozen new dual- and quad-core processors based on the «Steamroller» microarchitecture were introduced for this platform.
FM2+ socket is slightly different from FM2. In particular, there are two additional pins on FM2+ that are not on FM2. Because of this, FM2 and FM2+ socket compatibility is somewhat limited. Old FM2 processors can be installed in a new FM2+ board, while new FM2+ processors cannot be installed in old FM2 boards because the extra pins will prevent this.
Socket FM2+ was the current socket for AMD APUs until socket AM4 was released, which supports both APUs and APUs.
Trinity architecture
These CPUs have 2 or 4 cores, L2 cache up to 4 MB and various clock speeds. This includes hybrids A10, A8, A6, A4 and Athlon, which is not equipped with a graphics accelerator.
A10
These gems have 4 cores and integrated HD 7660D graphics. The model range is represented by two positions:
- A10-5800K — clock frequency in overclocking mode up to 4.2, the multiplier is unlocked.
- A10-5700 — the frequency is slightly reduced, does not support overclocking.
A8
These CPUs have 4 cores and have an integrated HD 7560D graphics card. The modification is also represented by two models:
- A8-5600K — frequency up to 3.9, the multiplier is unlocked;
- A8-5500 — frequency up to 3.7, overclocking is not supported.
A6 and A4
Junior hybrids with a couple of cores and 1 MB L2 cache. Also presented by a couple of models:
- A6-5400K — up to 3.8, HD7540D graphics, can be overclocked;
- A4-5300 — up to 3.6, HD 7480D video adapter.
Athlon
It is impossible not to mention this modification among the CPUs that fit the slot in question. They differ in the absence of a built-in graphics accelerator. The lineup is represented by 4-core devices.
- Athlon II X4 750K — overclockable, frequency up to 4.
- Athlon II X4 740 — frequency up to 3.7, not overclocked,
- Athlon II X4 730 — frequency up to 2.8.
The best AMD processors for socket FM2(+) without integrated graphics
The graphics core in the processor gives a lot of advantages to those who buy a new desktop or build it themselves. At first, you can save on a discrete video card, and in the case of simple tasks, it may not be needed at all. But what about those who already have a good discrete, and do not support hybrid graphics? For this rather wide range of users, the Athlon line was continued, which at one time allowed AMD to overtake Intel for some time. Due to the lack of part of the chips, these CPUs are cheaper.
AMD Athlon X4 830
In the Kaveri line, which differs from the previous one in a thinner process technology of 29 Nm (nanometers) instead of 32, this solution is the most budget one. The lack of integrated graphics makes the processor attractively priced for those users who have purchased a graphics card but do not trust the hybrid mode. The Athlone is as reliable as ever, and thanks to the reduced heat pack, it is not as demanding on cooling as its brothers from previous lines. Accelerates steadily to 4.2 GHz, although some users get 4.5 on it. In this case, the heating increases significantly. The competition from Intel wins in terms of the number of cores, but does not have a third-level cache.
AMD Athlon X4 830
Parameters:
- compute core: Kaveri;
- number of processor cores: 4;
- frequency nominal / in Turbo Core mode, GHz: 3 / 3.4;
- cache memory 2nd level, MB: 4.
Pros
- moderate heat emission;
- low price;
- normal overclocking capabilities.
Cons
- no L3 cache.
Processor AMD Athlon X4 830
AMD Athlon X4 840
This modification is slightly more productive, it has an increased clock speed, especially in the regular Turbo-Core mode, which is an analogue of Turbo Boost from Intel. Paired with video cards, Radeon arranges the mode of operation in such a way that the graphics processor is loaded to the maximum, and the central one leaves a certain reserve of unused capacities. This allows the computer not to freeze even on powerful video games. Of the minuses, one can note some instability in heat dissipation: most instances are atypically cold for AMD, but sometimes even a powerful cooler may not be enough to cool the processor even to 40 degrees in standby mode.
AMD Athlon X4 840
Parameters:
- compute core: Kaveri;
- number of processor cores: 4;
- frequency nominal / in Turbo Core mode, GHz: 3.1 / 3.8;
- cache memory 2nd level, Mb: 4.
Pros
- good frequency increase by regular means;
- low heat;
- productive work in conjunction with radeon video cards.
Cons
- unstable heat dissipation.
Processor AMD Athlon X4 840
AMD Athlon II X4 750K Trinity
Despite the fact that the technical process of this option is less perfect, for its time it was an excellent solution. Although the manufacturer indicated 100 W of heat dissipation, the heating of the «stone» is not critical. Although today the processor is outdated not even technically, but morally, it still pulls some games with a good video card at medium settings. The processor core has an unlocked multiplier, which was successfully used by overlockers who could not afford an expensive purchase. True, a boxed cooler is not suitable for such purposes — it is too noisy, but it will have to work at maximum speed.
AMD Athlon II X4 750K Trinity
Parameters:
- compute core: Trinity;
- number of processor cores: 4;
- frequency nominal / in Turbo Core mode, GHz: 3.4;
- cache memory / 2nd level, Mb: 4.
Pros
- unlocked multiplier;
- moderate heat pack in normal mode;
- is half the price of competitors from Intel.
Cons
- noisy cooler in the box.
AMD Athlon II X4 750K Trinity processor
Richland architecture
In fact, this is the same Trinity from the Bulldozer family, but with reduced heat dissipation to 45 W. Clock frequencies are increased, marking is changed.
A10
Flagship processors with 4 cores, 4MB L2 cache and 8670D integrated graphics. Clock rates:
- A10-6800K — up to 4.4 times unlocked;
- A10-6790K — up to 4.3, multiple unlocked;
- A10-6700 — up to 4.3, multiple blocked.
A8
This list is notable for the fact that only 45W models are included here. This allows the use of such «stones» in ultra-compact systems. Several «oldies» also got here:
- A8-6600K — overclocking to 4.2, unlocked multiplier, graphics chip 8570D;
- A8-6500 — the same GPU, frequency up to 4.1, multiplier locked;
- A8-6700T — overclocked to 3.5, video card 8570D; reduced heat dissipation;
- A8-6800T — Another «cold» CPU, frequency up to 3.1, 8550D graphics.
A6
These processors have an 8470D graphics accelerator on board. Multiplier unlocked, 1MB cache, 65W heat dissipation.
- A6-6420K — up to 4. 2;
- A6-6400K — up to 4.1.
A4
The list includes 2-core CPUs with 1 MB cache and no multiplier overclocking.
- A4-7300 — up to 4;
- A4-6320 — up to 4;
- 4–6300 – up to 3.9;
- 4–4020 – up to 3.4;
- A4-4000 — up to 3.2.
Athlon
Devices with 65W TDP, 1MB cache and no GPU.
More clearly all the characteristics are presented in this table.
Socket features
Socket designed to support Trinity CPUs. Such devices in one case combine several cores and a graphics accelerator. They support DDR3 RAM and an HDMI controller.
This architecture also supports Turbo Core 3.0 dynamic overclocking, which distributes computing power more efficiently. Thanks to the elimination of some shortcomings, Richland appeared a little later — a more advanced architecture on the same socket.
As a result, a number of CPUs of various capacities supported by this slot have been released. Despite the appearance in 2015 of a new version, FM2 is still popular and is used in some places.
Detailed characteristics of all the «gems» described here can be found in the publication «FM2 — Supported Processors», besides, all other models of this connector are presented there. And so we return to our topic, let’s start with the neighbors, then to the main character.
A8 8650 | 4 | 3,2(3,8) | R7(757) | 4 | 65 | 28 |
A8 7690K | 4 | 3,7 | R7(757) | 4 | 95 | 28 |
A8 7670K | 4 | 3,6(3,9) | R7(758) | 4 | 95 | 28 |
A8 7650K | 4 | 3,3(3, 8) | R7(757) | 4 | 95 | 28 |
A8 7600 | 4 | 3,1(3,8) | R7(757) | 4 | 65 | 28 |
A6 7470K | 2 | 3. 7(4)
As experience shows, articles devoted to testing «old» (by the standards of the computer market) systems are usually no less popular than reviews of «hot» new products. And no wonder: even when their owners are no longer satisfied with the current level of performance, it is still interesting to compare it with the demonstrated new computers — at least in order to understand what is worth switching to (and whether it is worth it). Of course, it is impossible to test absolutely everything released by manufacturers in at least the last five years, but some iconic processors are quite. Especially when they are interesting in themselves as stages in the development of the industry or allow us to draw conclusions about some other products. In particular, that is why we decided (since the opportunity arose) to repeat one test of the year before last, but using modern software. Yes, yes, we will again talk about the AMD FM1 platform. Why return to it? Firstly, despite its short life, it was, one might say, a turning point in the development of the market: it was the first platform whose integrated graphics were not implemented on the principle of “what was”, but was really suitable for (albeit limited) gaming applications or «non-graphic computing». In 2011, this was fresh and relevant — we recall that the then Intel proposals supported technologies already existing in discrete GPUs only to a very limited extent. AMD, on the other hand, has implemented full functionality and performance at the level of junior discrete graphics cards of the same year, and not some distant past. Actually, even later, performance competition continued to remain only intra-company — especially if we consider the budget segment, in which FM1 could fully replace only FM2, and later FM2 +, but not the updated LGA1155 or LGA1150. Last year, however, processors with a more powerful GPU were released for the latter than in any AMD APUs, but they are significantly more expensive. And what about the budget processors for the latest LGA1151? Something is possible, but for this it is desirable to compare the solutions of both companies directly and on an equal footing. The processor component of the first AMD APUs is also interesting in its own way, albeit archaic: it goes back to the 2009 Athlon II. Despite their venerable age, such processors are still used by many, so they are also worth testing. But it’s not really necessary to do so. As earlier tests showed, the performance of the A4-3400 roughly corresponds to the junior Athlon II X2 215/220, while the analogue of the A8-3870K is the older processors on the same chip, already sold under the Phenom II X4 840/850 brand. Moreover, the correspondence in this case is almost complete: the same number of cores similar in microarchitecture (and, accordingly, in supported technologies) allows us to expect that even when the software changes, the processors will still behave in a similar way. So, having tested the two mentioned processors for FM1, we will get an estimate of the performance range of budget processors for AM3. And accurate enough. And Intel processors for the LGA775 platform also fall into the same range — somewhere from Pentium E5x00 to Core 2 Quad Q For the above reasons, we are most interested in two processors, but we will test three (since they exist), adding the A6-3500 to the list of test subjects. Also interesting in its own way, since it occupied a special position in the model line: a three-core (the only one of all) with a good (if not the best) GPU, TDP 65 W and massively available (unlike exotic quad-cores for this platform with such a heat pack). And again, in terms of evaluating performance in games, we need at least some A6, but there are no others. First of all, we will compare this trio with the A8-7650K: this is a much more modern and serious solution from the company, but the slowest of the newer generations of processors we tested. Over time, we plan, if possible, to test cheaper offers for FM2 + (fortunately, this platform still retains good positions in this segment), but so far there are none — we will limit ourselves to an assessment from above: the old A8 versus the new one.
|