RS-485: Imported from Wikipedia (overwrite)

2026-05-03T13:39:30Z

Imported from Wikipedia (overwrite)

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{{more citations needed|date=November 2017}}
{{Short description|Electronic component to manage data flow of a CPU}}
{{Use dmy dates|date=November 2024}}
[[File:Locale_RS6_Pentium E2220 with Intel i945GC Chipset.jpg|thumb|300px|Intel i945GC Northbridge with [[Intel Pentium Dual-Core]] E2220 2.40 GHz on an Intel D945GCCR motherboard ({{circa|2007}})]]

In a computer system, a '''chipset''' is a set of [[electronic components]] on one or more [[integrated circuit]]s that manages the [[data flow]] between the [[Central processing unit|processor]], [[computer memory|memory]] and [[peripheral]]s. The chipset is usually found on the [[motherboard]] of computers. Chipsets are usually designed to work with a specific family of [[microprocessor]]s. Because it controls communications between the processor and external devices, the chipset plays a crucial role in determining [[Computer performance|system performance]]. Sometimes the term "chipset" is used to describe a [[system on chip]] (SoC) used in a mobile phone.<ref>{{cite web | url=https://www.xda-developers.com/qualcomm-snapdragon-8-gen-3-review/ | title=Qualcomm Snapdragon 8 Gen 3 review: I finally don't feel the need to upgrade | date=20 January 2024 }}</ref><ref>{{cite web | url=https://www.anandtech.com/show/21307/qualcomm-announces-snapdragon-8s-gen-3 | archive-url=https://web.archive.org/web/20240318064236/https://www.anandtech.com/show/21307/qualcomm-announces-snapdragon-8s-gen-3 | url-status=dead | archive-date=18 March 2024 | title=Qualcomm Announces Snapdragon 8s Gen 3: A Cheaper Chip for Premium Phones }}</ref>

==Computers==
In [[computing]], the term ''chipset'' commonly refers to a set of specialized [[integrated circuit|chip]]s on a [[computer]]'s [[motherboard]] or an [[expansion card]]. In [[personal computer]]s, the first chipset for the [[IBM Personal Computer/AT|IBM PC AT]] of 1984 was the [[New Enhanced AT|NEAT chipset]] developed by [[Chips and Technologies]] for the [[Intel 80286]] CPU.

[[File:Amiga Original Chipset diagram.svg|thumb|left|Diagram of the original Amiga chipset]]
[[File:Locale_RS6_IBM ThinkPad T42 Motherboard.jpg|thumb|Part of an IBM [[ThinkPad T42]] laptop motherboard showing the CPU, GPU, Northbridge (NB), and Southbridge (SB)]]

In [[home computer]]s, game consoles, and arcade hardware of the 1980s and 1990s, the term ''chipset'' was used for the custom [[Sound recording and reproduction|audio]] and [[graphics]] chips. Examples include the [[Original Amiga chipset]] and [[Sega]]'s [[System 16]] chipset.

In [[x86]]-based personal computers, the term ''chipset'' often refers to a specific pair of chips on the motherboard: the ''[[northbridge (computing)|northbridge]]'' and the ''[[southbridge (computing)|southbridge]]''. The northbridge links the CPU to very high-speed devices, especially [[main memory|RAM]] and [[graphics controller]]s, and the southbridge connects to lower-speed peripheral [[bus (computing)|buses]] (such as [[PCI Local Bus|PCI]] or [[Industry Standard Architecture|ISA]]). In many modern chipsets, the southbridge contains some on-chip [[motherboard#Integrated peripherals|integrated peripherals]], such as [[Ethernet]], [[USB]], and [[Sound card|audio]] devices.

Motherboards and their chipsets often come from different manufacturers. {{As of | 2021}}, manufacturers of chipsets for [[x86]] motherboards include [[AMD]], [[Intel]], [[VIA Technologies]] and [[Zhaoxin]].

In the 1990s, a major designer and manufacturer of chipsets was [[VLSI Technology]] in Tempe, Arizona. Some of their innovations included the integration of PCI bridge logic, the GraphiCore 2D graphics accelerator and direct support for synchronous DRAM, the forerunner of [[DDR SDRAM]] memory.

The Apple [[Macintosh SE]], [[Macintosh II]] and later the [[Macintosh Quadra|Quadras]] series used chipsets from [[VLSI Technology]], even though they were [[application-specific integrated circuit|ASIC]]s designed by Apple. After the switch to [[PowerPC]], Apple used various ASIC suppliers for their chipsets such as VLSI technology, [[Texas Instruments]], [[LSI Logic]] or [[Lucent Technologies]] (later known as [[Agere Systems]]). When Apple switched to Intel they used traditional PC chipsets.

In the 1980s, [[Chips and Technologies]] pioneered the manufacturing of chipsets for PC-compatible computers. Computer systems produced since then often share commonly used chipsets, even across widely disparate computing specialties. For example, the [[NCR 53C9x]], a low-cost chipset implementing a [[SCSI]] interface to storage devices, could be found in [[Unix]] machines such as the [[MIPS Magnum]], embedded devices, and personal computers.

==Smartphones==
Early [[Personal digital assistant|PDA]]s and [[smartphone]]s were adopted ARM-based chipset, combining CPU, GPU and other chips, connected with bus interface like [[Advanced Microcontroller Bus Architecture|AMBA]].<ref>{{cite web |url=https://www.derekspratt.com/PDFs/Business/Intrinsyc%20Software/Brochures/Intrinsyc%20Intel%202700G%20Data%20Sheet.pdf |title=The Intel 2700G Multimedia Accelerator Reference System by Intrinsyc Software}}</ref> Later, with the introduction of [[iPhone (1st generation)|iPhone]] and [[iPad (1st generation)|iPad]], [[system on a chip|SoC]] chipset were widely used in smartphones.<ref> {{Cite web |last=Shimpi |first=Anand Lal |title=Apple's iPad A4 SoC: Faster than the Nexus One's Snapdragon? |url=https://www.anandtech.com/show/3633/apples-a4-soc-faster-than-snapdragon |archive-url=https://archive.today/20130628111017/http://www.anandtech.com/show/3633/apples-a4-soc-faster-than-snapdragon |url-status=dead |archive-date=28 June 2013 |access-date=2025-06-09 |website=www.anandtech.com}}</ref>

==Move toward processor integration in PCs==
[[File:Intel@10nm@CannonLake@PalmCoveCores - GT2-Gen10 IGP RadeonRX540@Core i3-8121U@NUC8I3CYSM DSCx08 poly@5xExt.jpg|thumb|Intel Cannon Lake Platform Controller Hub (PCH) die]]
Traditionally in x86 computers, the processor's primary connection to the rest of the machine was through the motherboard chipset's northbridge. The northbridge was directly responsible for communications with high-speed devices (system memory and primary expansion buses, such as PCIe, AGP, and PCI cards, being common examples) and conversely any system communication back to the processor. This connection between the processor and northbridge is commonly designated the [[front-side bus]] (FSB). Requests to resources not directly controlled by the northbridge were offloaded to the southbridge, with the northbridge being an intermediary between the processor and the southbridge. The southbridge handled "everything else", generally lower-speed peripherals and board functions (the largest being hard disk and storage connectivity) such as USB, parallel and serial communications. In 1990s and early 2000s, the interface between a northbridge and southbridge was the PCI bus.<ref>{{cite web |last1=Schmid |first1=Patrick |title=Chipset Basics: Meaning And Functions |url=https://www.tomshardware.com/reviews/full-power,490-2.html |website=[[Tom's Hardware]] |date=16 July 2002 |publisher=Purch |access-date=14 June 2018}}</ref>

Before 2003, any interaction between a CPU and main memory or an expansion device such as a graphics card(s) — whether [[Accelerated Graphics Port|AGP]], PCI or integrated into the motherboard — was directly controlled by the northbridge IC on behalf of the processor. This made processor performance highly dependent on the system chipset, especially the northbridge's memory performance and ability to shuttle this information back to the processor. In 2003, however, AMD's introduction of the [[Athlon 64]] series of processors<ref name="release">{{cite web |url=https://techreport.com/review/5683/amds-athlon-64-processor/ |title=AMD's Athlon 64 processor |first=Scott |last=Wasson |date=23 September 2003 |website=[[The Tech Report]] |access-date=5 December 2022}}</ref> changed this. The Athlon 64 marked the introduction of an integrated memory controller being incorporated into the processor itself thus allowing the processor to directly access and handle memory, negating the need for a traditional northbridge to do so. Intel followed suit in 2008 with the release of its [[Core i]] series CPUs and the [[Intel X58|X58]] platform.

In newer processors integration has further increased, primarily through the inclusion of the system's primary PCIe controller and integrated graphics directly on the CPU itself. As fewer functions are left un-handled by the processor, chipset vendors have condensed the remaining northbridge and southbridge functions into a single chip. Intel's version of this is the "[[Platform Controller Hub]]" (PCH) while AMD's version was called [[Fusion Controller Hub]] (FCH). The PCH is still called a chipset.<ref>{{cite web | url=https://www.tomshardware.com/pc-components/motherboards/msi-z790-motherboards-reportedly-failing-with-cracked-pch-chipset-a-manufacturing-error-may-have-affected-a-few-hundred-units | title=MSI Z790 motherboards reportedly failing with cracked PCH chipset — a manufacturing error may have affected a few hundred units (Updated) | date=2 April 2024 }}</ref> This is an enhanced southbridge for the remaining peripherals—as traditional northbridge duties, such as memory controller, expansion bus (PCIe) interface and even on-board video controller, are integrated into the CPU die itself (the chipset often contains secondary PCIe connections though). However, the Platform Controller Hub was also integrated into the processor package as a second die for mobile variants of the [[Skylake (microarchitecture)|Skylake]] processors.<ref>{{cite web |url=https://www.anandtech.com/show/7047/the-haswell-ultrabook-review-core-i74500u-tested/2 |archive-url=https://web.archive.org/web/20130612053249/http://www.anandtech.com/show/7047/the-haswell-ultrabook-review-core-i74500u-tested/2 |url-status=dead |archive-date=12 June 2013 |title=The Haswell Ultrabook Review: Core i7-4500U Tested |first=Anand Lal |last=Shimpi |author-link=Anand Lal Shimpi |date=9 June 2013 |website=[[AnandTech]] |access-date=5 December 2022}}</ref>

AMD's FCH has been discontinued since the release of the Carrizo series of CPUs as it has been integrated into the same die as the rest of the CPU.<ref>{{cite web | url=https://www.anandtech.com/show/8995/amd-at-isscc-2015-carrizo-and-excavator-details | archive-url=https://web.archive.org/web/20150224170709/http://www.anandtech.com/show/8995/amd-at-isscc-2015-carrizo-and-excavator-details | url-status=dead | archive-date=24 February 2015 | title=AMD at ISSCC 2015: Carrizo and Excavator Details }}</ref> However, since the release of the Zen architecture, there's still a component called a chipset which only handles relatively low speed I/O such as USB and SATA ports and connects to the CPU with a PCIe connection. In these systems all PCIe connections are routed directly to the CPU.<ref>{{cite web | url=https://www.anandtech.com/show/17585/amd-zen-4-ryzen-9-7950x-and-ryzen-5-7600x-review-retaking-the-high-end/4 | archive-url=https://web.archive.org/web/20220927195938/https://www.anandtech.com/show/17585/amd-zen-4-ryzen-9-7950x-and-ryzen-5-7600x-review-retaking-the-high-end/4 | url-status=dead | archive-date=27 September 2022 | title=AMD Zen 4 Ryzen 9 7950X and Ryzen 5 7600X Review: Retaking the High-End }}</ref> The UMI interface previously used by AMD for communicating with the FCH is replaced with a PCIe connection. Technically the processor can operate without a chipset; it only continues to be present for interfacing with low speed I/O.<ref>{{cite web | url=https://www.anandtech.com/show/11170/the-amd-zen-and-ryzen-7-review-a-deep-dive-on-1800x-1700x-and-1700/13 | archive-url=https://web.archive.org/web/20170307094639/http://www.anandtech.com/show/11170/the-amd-zen-and-ryzen-7-review-a-deep-dive-on-1800x-1700x-and-1700/13 | url-status=dead | archive-date=7 March 2017 | title=The AMD Zen and Ryzen 7 Review: A Deep Dive on 1800X, 1700X and 1700 }}</ref> AMD server CPUs adopt a self contained [[system on chip]] design instead which doesn't require a chipset.<ref>{{Cite web |title=4th Gen AMD EPYC Processor Architecture |url=https://www.amd.com/content/dam/amd/en/documents/products/epyc/4th-gen-amd-epyc-processor-architecture-whitepaper.pdf |access-date=3 November 2024 |website=AMD}}</ref><ref>{{Cite web |last=Kennedy |first=Patrick |date=2019-04-08 |title=Supermicro M11SDV-4C-LN4F Review mITX AMD EPYC 3151 Platform |url=https://www.servethehome.com/supermicro-m11sdv-4c-ln4f-review-mitx-amd-epyc-3151-platform/4/ |access-date=2024-08-18 |website=ServeTheHome |language=en-US}}</ref><ref>{{Cite web |last=Cutress |first=Andrei Frumusanu, Dr Ian |title=AMD 3rd Gen EPYC Milan Review: A Peak vs Per Core Performance Balance |url=https://www.anandtech.com/show/16529/amd-epyc-milan-review |archive-url=https://web.archive.org/web/20210315215306/https://www.anandtech.com/show/16529/amd-epyc-milan-review/ |url-status=dead |archive-date=15 March 2021 |access-date=2024-08-18 |website=www.anandtech.com}}</ref>

The northbridge to southbridge interconnect interfaces used now are [[Direct Media Interface|DMI]] ([[Intel]]) and [[UMI AMD|UMI]] ([[AMD]]). These can also be used for connecting from a processor to a chipset.

==See also==
{{Portal|Amiga}}
* [[Acer Laboratories Incorporated]]
* [[Comparison of Nvidia nForce chipsets]]
* [[List of AMD chipsets]]
* [[List of ATI chipsets]]
* [[List of Intel chipsets]]
* [[Northbridge (computing)|Northbridge]]
* [[Redpine Signals]]
* [[Silicon Integrated Systems]]
* [[Southbridge (computing)|Southbridge]]
* [[Very-large-scale integration]] or VLSI
* [[List of VIA chipsets]]
* [[List of Qualcomm Snapdragon systems on chips]]
* [[List of MediaTek systems on chips]]

==Notes==
{{reflist}}
{{Nvidia}}
{{AMD CPU sockets}}

[[Category:Chipsets| ]]
[[Category:Motherboard]]
[[Category:Integrated circuits]]

Chipset - Revision history

RS-485: Imported from Wikipedia (overwrite)