Semiconductor & Computer Engineering
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- {{ic family ...ges/socket-g1|PGA-988]] ([[packages/socket-g1|Socket G1]]) packaging. They all have the following features:43 KB (5,739 words) - 20:30, 22 April 2024
- While the basic functionality is shared among all microprocessors, they vary greatly in the type and size of data they handle ...]]. SoCs are capable of running full-fledged modern operating systems with all their features.24 KB (3,399 words) - 10:39, 12 March 2025
- {{ic family ...che]], and support for large amount of [[main memory|memory]]. Xeon offers models for both [[uniprocessor]] or [[multiprocessor]]s.23 KB (2,813 words) - 05:28, 21 April 2025
- ...on forming single covalent bonds with four adjacent silicon atoms. Because all of its valence electrons are involved in chemical bonds, pure silicon is qu ...pe semiconductor adjacent to the gate called the source and the drain. For all practical purposes they are physically equivalent and can be used interchan193 KB (26,852 words) - 18:51, 11 March 2025
- {{ic family ...ply switching to 100K series [[ECL]] chips from [[Schottky TTL]]; this was all done without making any architectural changes and maintaining 100% software4 KB (521 words) - 13:38, 11 June 2017
- {{ic family == Models ==21 KB (2,823 words) - 18:25, 8 April 2025
- {{ic family == Mainstream Models ==20 KB (2,661 words) - 23:45, 10 October 2017
- {{ic family ...w performance per mhz, resulting in PassMark scores of below 1500 for most models. Nicknamed the "DeCeleron", the Celeron is ok for basic tasks like word pro30 KB (3,904 words) - 16:02, 3 March 2025
- {{ic family All models are a single-chip solution, meaning both the [[CPU]] [[die]] and the [[chip13 KB (1,792 words) - 07:41, 4 October 2025
- {{ic family ...6}}, and {{intel|80286}}. AMD's argument was that the '82 contract covered all derivatives of those chips, while Intel claimed the contract only covered t8 KB (1,079 words) - 11:32, 12 March 2025
- {{ic family ...the 80486 maintains full backwards [[object code]] comparability with the all previous [[x86]] processors ({{\\|80386}}, {{\\|80286}}, {{\\|80186}}, etc8 KB (959 words) - 09:35, 12 December 2024
- {{ic family All Core i3 processors up to Coffee Lake are dual-core.25 KB (3,397 words) - 02:12, 3 October 2022
- {{ic family ...{x86|AES}} instructions. These processors use {{packages|Socket-G1}}. They all have the following features:34 KB (4,663 words) - 19:38, 20 February 2023
- {{ic family ...also delayed after expensive and lengthy litigation with Intel. The first models of the Am486 (Am486DX) were finally introduced in April of 1993. The first13 KB (1,898 words) - 11:22, 12 March 2025
- {{ic family ...roprocessors introduced by [[AMD]] in [[1995]]. These processors came with all the features of the {{amd|Am486#Enhanced Am486|Enhanced Am486s}} but had th7 KB (1,043 words) - 15:50, 14 June 2020
- {{ic family {{#ask: [[Category:microprocessor models by amd]][[instance of::microprocessor]][[microprocessor family::Am286]]9 KB (1,192 words) - 11:41, 12 March 2025
- {{ic family ...hips integrated the [[CMOS]] core from the {{amd|Am286}} family along with all the logic functions found in the original IBM PC-AT motherboard. These chip5 KB (750 words) - 20:22, 24 May 2016
- {{ic family ...orated the [[core name::Am186| ]]{{amd|Am186}} core along with a number of other application-specific features designed for various embedded applications.9 KB (1,276 words) - 15:07, 28 June 2016
- {{ic family ...ontrollers that incorporated the {{amd|Am186}} core along with a number of other units. AMD introduced a number of series including: '''Am186CU''', '''Am1867 KB (962 words) - 03:25, 22 June 2017
- {{ic family ...when [[IBM]] selected the x86 series to go in the {{ibm|PC}}. IBM required all their manufacturers to have a [[second source]]. Consequently, in [[1981]]5 KB (616 words) - 11:52, 12 March 2025