Chipset

What is Chipset?

A chipset in a computer system refers to the set of electronic and interdependent Integrated Circuits or components found on the motherboard.

A chipset also indicates the set of chips that widen the interfaces between the main board and its parts.

From a technical perspective, a chipset signifies the functionality as well as the layout of the circuit board along with its circuit mechanisms.

Understanding Chipset

What is Chipset

A chipset typically includes a Northbridge chip and a Southbridge chip along with other interdependent Integrated Circuits or ICs of the motherboard that are responsible to manage the data flow between the microprocessor or CPU and the external devices.

Therefore, you can say that a chipset is the traffic controller of the CPU, GPU, storage and memory.

Apart from that, a chipset also controls a few other peripherals, memory cache and external buses.

In a computer, the chipset may not be located on the motherboard only.

It may also be found in components such as the expansion cards, audio chips and graphics cards.

Typically, a chipset is also responsible to determine:

The compatibility between all of the components
The expansion options and
The overclocking ability of the computer.

The chipsets eliminates the need and confusion of having separate chips on different components of the computer.

In fact, with the advancement of technology, everything combined into two major chipsets such as the faster Northbridge that links the vital components and the slower Southbridge.

The Northbridge chip is at the top and the Southbridge is located at the bottom of the motherboard and hence the respective names.

The Northbridge connects the high speed components of the computer such as the RAM, PCI Express controller, and even the Southbridge chip.

The Southbridge chip deals with the low-speed components such as the USB ports, hard drive, mouse, and others.

A chipset cannot be upgraded since it is a permanent fixture on the motherboard.

Therefore, it is elementary for it to be compatible with the other components and features.

A chipset may have greater capabilities than the motherboard that it is paired with such as having extra USB ports.

A chipset as well as the device can only work perfectly together when the chipset drivers are compatible.

These drivers are usually installed while installing the operating system and found in the motherboard driver CD or the website of the manufacturer of the computer or motherboard to download.

Background

In the 1980s, the pioneer of chipset manufacturing for computers was Chips and Technologies.

The computer systems manufactured at that time often shared chipsets that were used commonly even in the systems that came with different computing specialties such as the UNIX machines which included:

Embedded devices
MIPS Magnum and
Personal computers.

All these machines typically used a low-cost chipset with an SCSI or Small Computer System Interface to storage devices.

Then in the 1990s, the early models of Apple Power Macintosh computers that came with the Motorola 68030 and 68040, used chipsets from VLSI Technology in Temple, Arizona, which was one of the major designers and manufacturers of chipsets.

Some of their innovative chipsets came with features such as:

Integrated PCI bridge logic
Direct support for Synchronous Dynamic RAM and
A 2D graphics accelerator.

Sections

Ideally, you will get two sections in a chipset, namely, the Northbridge and Southbridge.

Each of these has several different characteristics and features right from their location on the motherboard to their components that differentiate their performance and functionality.

The Northbridge, located at the top of the motherboard, is the main chip and connects the processor to several high-speed devices such as graphics controllers and the RAM.

Northbridge typically comes with four particular buses to connect to the CPU. These are:

The memory bus – This is used by the memory controller of the Northbridge to allow memory access with RAM
The Front Side Bus or FSB – This allows connecting the Northbridge to the CPU
PCI bus – This not only connects the Northbridge and the Southbridge but also connects other additional devices such as Ethernet card and video card and
The L2 cache bus – This is located between the CPU and the RAM but is not present in the modern chipsets because the L2 cache is now a part of the CPU.

All these buses use separate communication languages or bus protocols but overall the Northbridge chipset act as:

The traffic routers for the buses and
Translators to translate the encoded information.

Also known as the memory controller hub more commonly, it is the Northbridge that actually connects the Southbridge to the CPU.

It helps in faster interaction and better communication between different components of the computer such as:

The Central Processing Unit or CPU
The Random Access Memory or RAM
The Read Only Memory or ROM
The Basic Input Output System or BIOS
The Accelerated Graphics Port or AGP and, as said earlier,
The Southbridge chip.

Since the Northbridge links all the I/O signals to the CPU directly, the CPU uses its frequency as the baseline to determine the operating frequency.

On the other hand, the Southbridge, located at the bottom of the motherboard, connects to peripheral buses that operate at a lower speed such as the Peripheral Component Interconnect or PCI and the Industrial Set Architecture or the ISA.

However, there are a few specific modern chipsets that comes with Southbridge which has a few on-chip peripherals integrated such as:

USB or Universal Serial Bus
Ethernet and
Audio devices.

Also called the Input/output controller hub, the Southbridge is not attached to the CPU directly.

It typically handles the slower connections of the motherboard which includes the Input/output devices as well as other computer peripherals such as the hard disk drives and the expansion slots.

The bus interface functionality of the Southbridge depends on the different controllers, buses and components that it comes with. These are:

PCI controller – This helps in communicating with the Northbridge as well as other devices that are connected to the PCI bus
IDE controller – Also known as the Integrated Drive Electronics bus, this is for storage devices such as DVD drive, hard disk and others
ISA controller – Also known as the Industry Standard Architecture bus, this existed in the earlier motherboards and acted like an expansion bus
USB controller – Also known as the Universal Serial Bus, this acts as the replacement for the interconnect buses such as PS/2, the serial port, ISA, and the parallel port
X-bus interface – This refers to the bus that especially provides support to PS/2 keyboard and mouse with BIOS code
DMA controller – Also known as the Direct Memory Access controller, this allows direct access by the components of the motherboard such as the hard drive to the main memory of the system without interfacing the processor
System timer – This produces the clock pulse for the ISA bus and beeps while booting up and
Interrupt controllers – These controllers such as APIC or Advanced Programmable Interrupt Controller, NMI or Non Maskable Interrupt, and standard IRQ or Interrupt Request help in managing diverse types of interrupts to get back CPU control.

However, over the period of time, the architecture of Northbridge and Southbridge has changed a lot to become a more modern and single-chip system.

Therefore, now many components such as the graphics and memory controllers may come with the CPU.

And, the other remaining parts of the Northbridge may now be integrated into the Southbridge chip resulting in the complete removal of the Northbridge section from the modern chipset architecture design.

Identifying Your Chipset

If you want to know what kind of chipset your computer is equipped with, you can take a look simply at the name of the motherboard.

The combination of letters and numbers that you see after the brand name actually indicates the type of chipset.

For example, if it is an AMD product, such as AMD Ryzen X300, the X300 in the name indicates the chipset it is equipped with.

However, if you cannot access the motherboard or cannot read the name, you can also find out the type of chipset your computer is equipped with by using the Device Manager of your system.

In order to find it, all you have to do is:

Go to the Start menu
Type ‘Device Manager’ in the search bar in the Start menu
Click on ‘System Devices’ to expand it and
Look for the brand name in the chipset or motherboard listing.

The listing should have any one name among the following:

ALI
AMD
VIA
NVIDIA
Intel or
SIS.

The combination of the letter and number included in the listing will indicate the chipset, once again.

Need for a Chipset

The chipset in a computer is a vital part because it determines all of those crucial factors for computing which includes:

Compatibility
Expansion ability and
Overclocking.

Since everything depends on the given situation which may be unique in your case as it is with others, all of these may or may not be applicable to you.

However, it is good to be familiarized with all of these functions and how the particular chipset you choose will have an impact on each of these factors. Here they are:

Compatibility

It is not easy to figure out whether or not your computer is compatible with the processor or the graphics card you want to use.

This means that it is not easy to upgrade your system without having adequate knowledge about it, especially in terms of compatibility.

It is not wise to simply pick up a component that your friends are crazy about and are using in their systems.

The components that are compatible in their PCs may not be compatible in yours.

This is because all older models of motherboards may not support the formats of the newer lanes such as PCIe or Peripheral Component Interconnect Express 4.0.

If the motherboards do not support it, you simply cannot assume that the new component will work.

You will therefore need to check it out with the compatibility charts that most of the motherboard manufacturers have for the compatibility of the chipset and the motherboard.

Expansion

When you want to expand your computer to enhance its performance in terms of better graphics, more memory or faster connectivity, you will need to ensure that the chipset it comes with supports such expansions.

Usually, there are quite a few lanes on the chipset, often numbering anywhere between 8 and 40, and all of them are two-way.

The wired connections in these lanes send the data back and forth between different components of the computer such as the chipset and the graphics card and subsequently on to the motherboard.

Each of the components in your computer can consume several lanes where a few may even use as many as 16 lanes at the same time.

If the chipset does not have the ability to connect all that you want, you cannot make any further expansions.

Therefore, it is important to make sure that the chipset as well as the motherboard of your computer allows such expansion so that it allows the new setup to work efficiently as desired.

Overclocking

This is a very important aspect and you will need to do some research before you start the process.

This is because overclocking may annul the warranty of your manufacturer.

Moreover, if you choose the wrong chipset, you may not achieve the speed that you want.

Some chipsets will simply not work while some others may work only when you install and use a third-party firmware.

Therefore, it is prudent to know what you are getting into before you invest your money on a CPU or a motherboard for overclocking.

Functions

These chipsets perform all of the crucial functions of a computer system, or at least help in performing them by the other components in the system.

It can even perform those specific computing functions that needed an independent chip previously to be executed.

In this way, the chipsets prevent crowding the motherboard and the need for detailed compatibility testing before using each chip by the motherboard designers.

The chipset of the computer typically manages the communication between the processor of the computer, the RAM as well as other peripherals attached to it.

Apart from that, the chipset also determines the number of USB devices as well as other high-speed components that can be supported by the motherboard.

A chipset also controls the memory cache and the external buses.

Usually, the CPU needs some assistance to handle each particular input signal, output signal, and control signal that needs to be exchanged with the memory of the computer as well as the input and output devices.

These generic signals are sent out to the motherboard.

The chipset helps in converting the generic CPU signals sent by the CPU to and from the data and instructions that is expected by each of the components of the computer.

Therefore, the chipset actually functions as a gatekeeper which typically helps the CPU to decide what exactly it needs to do with a specific set of data.

It particularly directs the CPU signals to the appropriate destinations at the correct and preferred speed as well as in a properly prioritized sequence.

In short, the chipsets integrate different functions of the components of the motherboard which include:

The bus controllers
The clock generator
The system timer
The DMA or Direct Memory Access controller
The interrupt controller
The CMOS or RAM clock and
The keyboard controller.

Therefore, you can refer to a chipset, which is also known as PCI sets, to the central functionality of the motherboard.

The group of microcircuits in the chipset coordinates the data flow to and from the major components of the computer.

This, in turn, helps in maximizing the performance and capabilities of the processor of a computer.

All bits of data, instruction and control signals flowing between the processor, main system memory, and over the bus of the motherboard are controlled by the chipset.

It also offers support to the power management features as well as the expansion bus.

Applications

There are different applications or uses of the chipsets.

One of the most important uses of it involves the designers while creating a new motherboard.

The set of the ICs or Integrated circuits in a chipset is also used for special purposes such as control circuitry in a computer.

Types

Computer chipsets are designed mostly by Intel and AMD but there are also several other third-party vendors who manufacture it such as:

MSI
VIA
ALI
ASUS
ServerWorks
ASRock
SIS and
NVIDIA.

All these different chipsets support different processors which is why you should buy a processor that will match the particular chipset.

Here are some of the most commonly used and preferred chipsets manufactured by the majors, Intel and AMD.

As for the others, you can check their respective official websites.

The List of Early Intel Chipsets Includes:

82091AA EISA/ISA
82310 MCA
82350 EISA
82311 MCA
82320 MCA
82340SX PC AT
82340DX PC AT
82360SL
82350DT EISA and

The List of Intel 4xx 80486 Chipsets Includes:

420TX
420ZX and
420EX.

The List of Intel 4xx Pentium Chipsets Includes:

430LX
430NX
430FX
430MX
430HX
430VX and
430TX.

The List of Intel 4xx Pentium Pro/II/III Chipsets Includes:

450KX
450GX
440FX
440LX
440EX
440BX
440GX
450NX
440ZX-66
440ZX
440ZX-M and
440MX.

The List of Intel 4xx Southbridge Chipsets Includes:

ESC
PCEB
SIO
SIO.A
MPIIX
PIIX
PIIX3
PIIX4
PIIX4E and
PIIX4M.

The List of Intel 8xx Pentium II/III Chipsets Includes:

810
810E
810E2
815
815E
815G
815EG
815P
820
820E and

The List of Intel 8xx Pentium III Mobile Chipsets Includes:

815EM
830M
830MP and
830MG.

The List of Intel 8xx Pentium 4 Chipsets Includes:

860
845
850
850E
845E
845G
845GV
845GL
845GE
845PE
848P
865P
865PE
865G
865GV
875P
E7205
E7500
E7501
E7505
E7221 and
E7230.

The List of Intel 8xx Pentium 4-M/Pentium M/Celeron M Mobile Chipsets Includes:

845MZ
845MP
852GM
852GMV
852PM
852GME
854
855GM
855GME and
855PM.

The List of Intel 8xx Southbridge Chipsets Includes:

ICH
ICH0
ICH2-M
ICH2
ICH3-M
ICH3-S
ICH4-M
ICH4
ICH5-M
ICH5
ICH5R and
6300ESB.

The List of Intel 9xx and 3/4 Series Pentium 4/Pentium D/Pentium EE Chipsets Includes:

910GL
915GL
915PL
915P
915G
915GV
925X
925XE
945PL
945P
945G and
955X.

The List of Intel 9xx Pentium M/Celeron M Mobile Chipsets Includes:

910GML
915GMS
915GM and
915PM.

The List of Intel 9xx Core/Core 2 Mobile Chipsets Includes:

940GML
943GML
945GSE
945GMS
945GM/E
945GT and
945PM.

The List of Intel 9xx Core 2 Chipsets Includes:

945GC
945GZ
946PL
946GZ
P965
G965
Q965
Q963
975X
P31
G31
G33
P35
G35
Q33
Q35
G41
B43
P43
P45
G43
G45
Q43
Q45
X38 and
X48.

The List of Intel 9xx Core 2 Mobile Chipsets Includes:

GL960
GM965
PM965
GL40
GS40
GS45
GM45 and
PM45.

The List of Intel Southbridge 9xx and 3/4 Series Chipsets Includes:

ICH6-M
ICH6
ICH6R
ICH7-M
ICH7-M DH
ICH7
ICH7DH
ICH7R
ICH8M
ICH8M-E
ICH8
ICH8R
ICH8DH
ICH8DO
ICH9M
ICH9M-E
ICH9
ICH9R
ICH9DH
ICH9DO
ICH10
ICH10D
ICH10R and
ICH10DO.

The types of chipsets can also be determined based on their series and their Land grid Array number support. Here they are:

The List of Intel 5/6/7/8/9 Series Chipsets with LGA 1156 Support Includes:

H55
P55
H57 and
Q57.

The List of Intel 5/6/7/8/9 Series Chipsets with LGA 1155 Support Includes:

H61
B65
Q65
P67
H67
Q67
Z68
B75
Q75
Z75
H77
Q77 and
Z77.

The List of Intel 5/6/7/8/9 Series Chipsets with LGA 1150 Support Includes:

H81
B85
Q85
Q87
H87
Z87
Z97 and
H97.

The List of Intel 5/6/7/8/9 Series Chipsets with LGA 1366, LGA 2011, and LGA 2011-v3 Support Respectively Includes:

X58
X79 and
X99.

The List of Intel 5/6/7/8/9 Series Chipsets with LGA 2066 Support Includes:

X299
C422
C621
C622
C624
C625
C626
C627 and
C628.

The List of Intel 5/6/7/8/9 Series mobile Chipsets Includes:

PM55
HM55
HM57
QM57
QS57
HM65
HM67
UM67
QM67
QS67
NM70
HM70
HM75
HM76
UM77
HM77
QM77
QS77
HM86
QM87
HM87 and
HM97.

The List of Intel 100/200/300 Series Chipsets with LGA 1151 rev 1 Support Includes:

H110
B150
Q150
H170
Q170
Z170
B250
Q250
H270
Q270 and
Z270.

The List of Intel 100/200/300 Series Chipsets with LGA 1151 rev 2 Support Includes:

Z370
H310
B360
B365
H370
Q370 and
Z390.

The List of Intel 100/200/300 Series Xeon Chipsets Includes:

C232
C236
C242 and
C246.

The List of Intel 100/200/300 Series Mobile Chipsets Includes:

HM170
QM170
CM236
QMS180
HM175
QM175
CM238
HM370
QM370 and
CM246.

The List of Intel 400/500 Series Mobile Chipsets with LGA 1200 Support Includes:

H410
B460
H470
Q470
Z490
W480
H510
B560
H570
Z590 and
W580.

The List of Intel 600/700 Series Mobile Chipsets with LGA 1700 Support Includes:

Z690
H670
B660 and
H610.

There are also different types of chipsets available in the market that comes from the house of AMD.

The List of AMD-xxx Chipsets Includes:

AMD-640
AMD-750
AMD-760
AMD-760MP
AMD-760MPX and
AMD-8000 series.

The List of AMD A-Link Express II Chipsets Includes:

AMD 480X
AMD 570X/550X
AMD 580X
AMD 690V
AMD 690G
AMD M690V
AMD M690
AMD M690E
AMD M690T
AMD 740
AMD 740G
AMD 760G
AMD 770
AMD 780V
AMD 780G
AMD M780V
AMD M780G
AMD 785G
AMD 785E
AMD 790GX
AMD 790X and
AMD 790FX.

The List of AMD A-Link Express III Chipsets Includes:

AMD 870
AMD 880G
AMD 880M
AMD 890GX
AMD 890FX
AMD 970
AMD 990X and
AMD 990FX.

The List of Southbridge AMD-xxx Chipsets Includes:

AMD 640
AMD 750
AMD 760
AMD 760MPX
Geode GX1
Geode GXm
Geode GXLV
Geode GX
Geode LX
AMD 8111 and
AMD-8151.

The List of Southbridge AMD A-Link Express Chipsets Includes:

AMD 480 Crossfire
AMD 480 Crossfire 570
AMD 480 Crossfire 580
AMD 480 Crossfire 690
AMD 700
AMD 800 and
AMD 900.

The List of AMD Chipsets with Fusion Controller Hubs or FCH for Mobile Systems Includes:

A55T
A50M
A60M
A68M
A70M and
A76M.

The List of AMD Chipsets with Fusion Controller Hubs or FCH for Desktop Systems Includes:

A45
A55
A58
A68H
A75
A78
A85X and
A88X.

The List of AMD Chipsets with Fusion Controller Hubs or FCH for Embedded Systems Includes:

A55E and
A77E.

The List of AMD AM4-based Chipsets Includes:

A320
B350
X370
B450
X470
A520
B550 and
X570.

The List of AMD TR4, sTRX4, and sWRX8 Chipsets Includes:

X399
TRX40 and
WRX80.

Features of Chipset

Normally, there are one to four chips in the chipset and also features controllers for the commonly used peripheral devices such as the monitor, keyboard and the mouse.

The chipset of a computer comes with some other unique features and characteristics that help it to perform in just the way it should be.

These features can be broken down into six specific categories as follows:

Host – This category of feature includes the host processor. It is this processor that the chipset needs to match along with the number of processor support offered as well as the bus voltage generally GTL+ or Gunning Transceiver Logic Plus or AGTL+ or Advanced Gunning Transceiver Logic Plus.
Memory – This category of the chipset feature describes the characteristics of the Dynamic Random Access Memory or DRAM support provided by the chipset along with the memory amount support which is usually expressed in megabits, the DRAM refresh technique support, the memory type supported, memory interleave support and Error Correcting Code or ECC support.
Interfaces – This category describes the type of PCI interface deployed in the chipset, whether or not it is AGP compliant, offers integrated graphics support, PIPE or pipelining support, and SBA or Sideband Addressing support.
Arbitration – This category describes the processes followed by the chipset to arbitrate between different interfaces and bus speeds such as MTT or Multi-Transaction Timer, DIA or Dynamic Intelligent Arbiter and others.
Northbridge/Southbridge support – This category describes the two processor sets where Northbridge is the primary chip handling the CPU and memory interfaces along with other jobs and the Southbridge or the second chip deals with the USB and IDE interfaces, serial and parallel ports, and the Real Time Clock or RTC.
Power Management – This category of the feature describes the support provided by the chipset to both the System Management Mode or SMM and Advanced Configuration and Power Interface or ACPI power management standards.

A few specific types of chipsets may also come with features such as support up to up to 10 USB ports but your motherboard may not support this feature. In fact, most of the motherboards support 4 to 8 USB ports.

This means that, if the motherboard does not support a specific feature of the chipset in the first place, it will not work on your computer.

Ideally, all chipsets contain just enough instructions to carry out the operations it is intended to at the most basic level.

It is the drivers of the device that helps the system to operate properly by responding to the elementary commands communicated between the chipset and the device.

Conclusion

Now, thanks to this article, you know how exactly the group of chips help the CPU and the other components of the computer in communicating with each other to perform well as well as how it controls the different devices connected to it.