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Socket 5 was created for the second generation of Intel P5 Pentium processors operating at speeds from 75 to 120 MHz as well as certain Pentium OverDrive and Pentium MMX processors with core voltage 3. 3 V. Consisting of 320 pins, this was the first socket to use a staggered pin grid array, or SPGA, which allowed the chip's pins to be spaced closer together than earlier sockets.
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Socket and 5
P5 Pentiums used Socket 4, while P54C started out on Socket 5 before moving to Socket 7 in later revisions.
The OverDrive Processors for the Pentium 75, 90 and 100 were also released ( Socket 5, 3. 3V ), running at 125, 150 and 166 MHz ( clock multiplier of 2. 5 ).
The socket supersedes the earlier Socket 5, and accepts P5 Pentium microprocessors manufactured by Intel, as well as compatibles made by Cyrix / IBM, AMD, IDT and others.
Differences between Socket 5 and Socket 7 are that Socket 7 has an extra pin and is designed to provide dual split rail voltage, as opposed to Socket 5's single voltage.
) Socket 7 is backwards compatible ; a Socket 5 CPU can be placed in a Socket 7 motherboard.
Processors that used Socket 7 are the AMD K5 and K6, the Cyrix 6x86 and 6x86MX, the IDT WinChip, the Intel P5 Pentium ( 2. 5 – 3. 5 V, 75 – 200 MHz ), the Pentium MMX ( 166 – 233 MHz ), and the Rise Technology mP6.
Socket 5 CPUs are pin-compatible with Super Socket 7, but not all motherboards designed for Super Socket 7 supported the voltages needed for Socket 5 CPUs.
* Socket 5 and Socket 7
Socket and was
FIC demonstrated the first Socket 7 AGP system board in November 1997 as the FIC PA-2012 based on the VIA Apollo VP3 chipset, followed very quickly by the EPoX P55-VP3 also based on the VIA VP3 chipset which was first to market.
The Athlon XP-M was also offered in a compact microPGA socket 563 version for space constrained applications as an alternative to the larger Socket A.
It was also made pin-compatible with Intel's Pentium, enabling it to be used in the widely available " Socket 7 "- based motherboards.
The lower voltage and higher multiplier of the K6-266 meant that it was not 100 % compatible with some Socket 7 motherboards, similar to the later K6-2 processors.
Socket holes in the piers of the crossing suggest that, as well as a rood screen, there was a further screen dividing nave and crossing, such as still exists at Dunster in Somerset.
The packaging was designed for Socket 8.
In 1998, the 300 / 333 MHz Pentium II Overdrive processor for Socket 8 was released.
Released in August 1995, four months before the more famous Cyrix 6x86, the Cyrix 5x86 was one of the fastest CPUs ever produced for Socket 3 computer systems.
The Cyrix 5x86 design, however, should not be confused with the similarly named AMD Am5x86 which was essentially a fast 486 ( not an all-new design like the Cyrix part ) but which had broadly similar performance, used the same Socket 3, and was introduced at the end of the same year.
Since having a clock multiplier of four was not part of the original Socket 3 design, AMD made the 5x86 accept a 2x setting from the motherboard and instead operate at a rate of 4x.
Socket 7 was the only socket that supported a wide range of CPUs from different manufacturers and a wide range of speeds.
An extension of Socket 7, Super Socket 7, was developed by AMD for their K6-2 and K6-III processors to operate at a higher clock rate and use AGP.
The FCPGA was introduced by Intel with the Coppermine core Pentium III and Celeron processors based on Socket 370, and was later used for Socket 478-based Pentium 4 and Celeron processors.
However, it was still based upon the aging Socket 370, running the single data rate front side bus at just 133 MHz.
SIMD instruction set, featured a larger 64 KiB Level 1 cache ( 32 KiB instruction and 32 KiB data ), and an upgraded system-bus interface called Super Socket 7, which was backward compatible with older Socket 7 motherboards.
It was the last Socket 7 desktop processor.
Super Socket was used by AMD K6-2 and K6-III processors, and some of the final Cyrix M-II processors.
While AMD had previously always used Intel sockets for their processors, Socket 7 was the last one for which AMD retained legal rights.
Socket 370 was originally used for the Intel Celeron, but later became the socket / platform for the Coppermine and Tualatin Pentium III processors, as well as the Via-Cyrix Cyrix III, later renamed the VIA C3.
Socket and created
* Socket ( video game ), a video game created by Vic Tokai on the Sega Genesis
Slotkets were first created to allow the use of Socket 8 Pentium Pro processors on Slot 1 motherboards.
Socket 1 was the second of a series of standard CPU sockets created by Intel into which various x86 microprocessors were inserted.
Socket and for
Since these used Socket 2 / 3, some modifications had to be made to compensate for the 32-bit data bus and slower on-board L2 cache of 486-motherboards.
While the P55C is compatible with the common Socket 7 motherboard configuration, the voltage requirements for powering the chip differ from the standard Socket 7 specifications.
Most motherboards manufactured for Socket 7 prior to the establishment of the P55C standard are not compliant with the dual intensity required for proper operation of this chip.
Socket technology for lower extremity limbs saw a revolution of advancement during the 1980s when John Sabolich C. P. O., invented the Contoured Adducted Trochanteric-Controlled Alignment Method ( CATCAM ) socket, later to evolve into the Sabolich Socket.
AMD released its latest generation of Opteron CPUs in March 2010 with the Magny-Cours Opteron 6100 series CPUs for Socket G34.
AMD has also released Socket 939 Opterons, reducing the cost of motherboards for low-end servers and workstations.
Except for the fact they have 1 MB L2 Cache ( versus 512 KB for the Athlon64 ) the Socket 939 Opterons are identical to the San Diego and Toledo core Athlon 64s, but are run at lower clockspeeds than the cores are capable of, making them more stable.
They are also the only dual core Socket 939 processors are not easily available now that the Athlon 64 X2s for that platform have been discontinued, these processors are becoming more and more difficult to find.
Socket AM2 Opterons are available for servers that only have a single-chip setup.
AMD introduced three quad-core Opterons on Socket AM2 + for single-CPU servers in 2007.
AMD introduced three quad-core Opterons on Socket AM3 for single-CPU servers in 2009.
With better performance in most applications than an Intel Pentium processor at 75 MHz, the Cyrix Cx5x86 filled a gap by providing a medium-performance processor option for 486 Socket 3 motherboards ( which are incapable of handling Intel's Pentium CPUs, apart from the Pentium Overdrive ).
Image: Ic-photo-AMD -- Am5x86-P75 -( Am486DX5-133W16BGC )-( 486-CPU ). jpg | A late Am5x86-P75 for Socket 3, model W16BGC
Pentium Overdrive for Socket 4 without fan
< div class =" tright " style =" clear: none "> Pentium Overdrive for Socket 4, 120 / 133 MHz .</ div >
Socket 7 is a physical and electrical specification for an x86-style CPU socket on a personal computer motherboard.
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