Search results
Results From The WOW.Com Content Network
Can accept some of Socket 478 CPU with an adapter Socket 495: 2000 Intel Celeron Intel Pentium III: Notebook PGA: 495 1.27 [3] 66–133 MHz Socket 603: 2001 Intel Xeon: Server PGA: 603 1.27 [4] 100–133 MHz 400–533 MT/s Socket 478/ Socket N: 2001 Intel Pentium 4 Intel Celeron Intel Pentium 4 EE Intel Pentium 4 M: Desktop PGA: 478 1.27 [5 ...
Pages in category "Intel CPU sockets" The following 45 pages are in this category, out of 45 total. This list may not reflect recent changes. I. Intel Socket G3; L.
Another change was the move to CMOS gates as the primary method of building complex CPUs. CMOS had been available since the early 1970s; RCA introduced the COSMAC processor using CMOS in 1975. [43] Whereas earlier systems used a single transistor as the basis for each "gate", CMOS used a two-sided design, essentially making it twice as ...
Socket 1, originally called the "OverDrive" socket, was the second of a series of standard CPU sockets created by Intel into which various x86 microprocessors were inserted. It was an upgrade to Intel's first standard 169-pin pin grid array (PGA) socket and the first with an official designation. Socket 1 was intended as a 486 upgrade socket ...
LGA 775 (land grid array 775), also known as Socket T, is an Intel desktop CPU socket. Unlike PGA CPU sockets, such as its predecessor Socket 478, LGA 775 has no socket holes; instead, it has 775 protruding pins which touch contact points on the underside of the processor (CPU). [2] Intel started selling LGA 775 (Socket T) CPUs with the 64-bit ...
Socket 3 was a series of CPU sockets for various x86 microprocessors. It was sometimes found alongside a secondary socket designed for a math coprocessor chip, such as the 487 [citation needed]. Socket 3 resulted from Intel's creation of lower voltage microprocessors. An upgrade to Socket 2, it rearranged the pin layout. Socket 3 is compatible ...
Get AOL Mail for FREE! Manage your email like never before with travel, photo & document views. Personalize your inbox with themes & tabs. You've Got Mail!
In a clockless CPU, components can run at different speeds. In a clocked CPU, the clock can go no faster than the worst-case performance of the slowest stage. In a clockless CPU, when a stage finishes faster than normal, the next stage can immediately take the results rather than waiting for the next clock tick.