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Socket A

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This is the current revision of this page, as edited by Ozzuneoj (talk | contribs) at 15:54, 29 November 2024 (The list of processors for the socket incorrectly attributed CPU model numbers (2200+, 3200+) as "MHz". For consistency, the list has been updated to properly reflect the "MHz" range of each line of CPUs available for this socket. If this is unsatisfactory, removing the ranges in parenthesis all together would likely be the best solution, leaving just the processor name (AMD Athlon, AMD Duron, etc.). None of the "speed" information is really needed in this box, but it is at least accurate now.). The present address (URL) is a permanent link to this version.

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Socket 462 / A
TypePGA-ZIF
Chip form factors
Contacts462
FSB protocolEV6
FSB frequency200 MT/s, 266 MT/s, 333 MT/s, 400 MT/s
Voltage range1.0–2.05V
Processors
PredecessorSlot A
Successor

This article is part of the CPU socket series

Socket A (also known as Socket 462) is a zero insertion force pin grid array (PGA) CPU socket used for AMD processors ranging from the Athlon Thunderbird to the Athlon XP/MP 3200+, and AMD budget processors including the Duron and Sempron. Socket A also supports AMD Geode NX embedded processors (derived from the Mobile Athlon XP). It compliments (and later supersedes) the prior Slot A CPU interface used in some Athlon Thunderbird processors. The front-side bus frequencies supported for the AMD Athlon XP and Sempron are 133 MHz, 166 MHz, and 200 MHz. Socket A supports 32-bit CPUs only.

The socket is a zero insertion force pin grid array type with 462 pins, hence the alternative name Socket 462. About nine pins in the socket are blocked to discourage accidental insertion of Socket 370 CPUs on Socket A motherboards.

Socket A was replaced by Socket 754 and Socket 939 during 2003 and 2004 respectively, except for its use with Geode NX processors.

Technical specifications

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  • Support of processor clock-speeds between 600 MHz (Duron) to 2333 MHz (Athlon XP 3200+)[1]
  • Double data rate 100, 133, 166 and 200 MHz front-side bus on Duron, XP and Sempron processors, based on the Alpha 21264 EV6 bus.
Socket 462 of an 800 MHz Athlon CPU

Initially launched with 100 MHz FSB support in the earliest chipsets it evolved stepwise to faster 200 MHz FSB while maintaining pin compatibility throughout its lifetime. However, clock, timing, BIOS and voltage differences restrict compatibility between older chipsets and later processors.[2]

Socket dimensions are 5.59 cm (5.24 cm without lever) × 6.55 cm or 2.2" (2.06" without lever) × 2.58", slightly bigger than Socket 370 sockets.

Heatsink

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Heatsinks were commonly attached directly to the CPU socket, but some motherboards also had 4 holes for fastening bigger heatsinks to the motherboard. Those holes are placed in a rectangle with lateral lengths of 35 mm and 65 mm.

Socket A mechanical load limits

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The corners of the exposed CPU dies were susceptible to damage like shown here when coolers were installed incorrectly or systems were handled roughly.

AMD recommends that the mass of a Socket A CPU cooler to not exceed 300 grams (10.6 ounces). Heavier coolers may result in damage to the die when the system is not properly handled.

All Socket A processors (Athlon, Sempron, Duron and Geode NX) have the following mechanical maximum load limits[3] which should not be exceeded during heatsink assembly, shipping conditions, or standard use. They came with a warning that load above those limits may crack the processor die and make it unusable. The limits are included in the table below.

Location Dynamic Static
Die Surface 445 N (100 lbf) 133 N (30 lbf)
Die Edge 44 N (10 lbf) 44 N (10 lbf)

These load limits are quite small compared to the load limits of Socket 370, Socket 423 and Socket 478 processors. Indeed, they were so small that many users more often than not ended up with cracked processors while trying to remove or attach heatsinks to their fragile processor core. This makes installing non-standard or non-certified heatsink solutions a risky business.[citation needed] OEM aluminium heatsinks typically provided smaller thermal tolerances, so the improper application or absence of a thermal pad or thermal grease or operation in high room temperatures may result in some Socket A CPUs overheating and crashing, permanently damaging them and rendering them unusable.

Chipsets

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AMD offered official chipsets for the Slot A/Socket A CPUs. These are included in the table below.

Model Code name Released CPU support FSB/HT (MHz) Southbridge Features / Notes
AMD-750 chipset AMD-751 August 1999[4] Athlon, Duron (Slot A, Socket A), Alpha 21264[citation needed] 50 (100MT/s) AMD-756, VIA-VT82C686A AGP 2×, SDRAM
Irongate chipset family; early steppings had issues with AGP 2×; drivers often limited support to AGP 1×; later fixed with "super bypass" memory access adjustment.[5]
AMD-760 chipset AMD-761 Nov 2000 Athlon, Athlon XP, Duron (Socket A), Alpha 21264[citation needed] 66 (133MT/s) AMD-766, VIA-VT82C686B AGP 4×, DDR SDRAM

Third-party chipsets include the nForce, nForce2, and a large number of VIA K-series chipsets.

In practice, third-party chipsets were heavily favoured by motherboard manufacturers. Stability problems and compatibility quirks from these chipsets abounded from manufacturers not following chipset designers' guidelines. This caused long-lasting damage to AMD's reputation, despite AMD having nothing to do with the poorly-realised hardware.[citation needed] A similar incident happened with third-party chipsets for Super Socket 7 CPUs, of which AMD tried to remedy it by putting quality assurance measures for the Athlon, which used Slot A/Socket A CPUs. Despite this, however, the aforementioned problems mentioned above still lingered on for quite a while, even for Athlon CPUs.

See also

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References

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  1. ^ "CPU Sockets Chart". PC Hardware Links. Retrieved April 4, 2009.
  2. ^ "CTechnology Evolution". AMD. Retrieved April 4, 2009.
  3. ^ "AMD Athlon Processor Model 4 Data Sheet" (PDF). AMD. Archived from the original on April 7, 2005. Retrieved November 8, 2001.{{cite web}}: CS1 maint: unfit URL (link)
  4. ^ "AMD-750 Chipset Overview" (PDF). AMD. Retrieved August 1, 2001.
  5. ^ Orozco, Silvino (December 29, 1999). "AMD's Super Bypass - AMD Improves their 750 Chipset". Tom's Hardware. Retrieved November 11, 2022.