• intel/core i7
  ...rom the {{intel|Core}} family, positioned above both the {{intel|Core i5}} and the {{intel|Core i3}}. ...ocessors, above both the mainstream consumer performance {{intel|Core i5}} and the entry-level consumer performance {{intel|Core i3}}. Likewise, Core i7 p
  43 KB (5,739 words) - 21:30, 22 April 2024
• intel
  ..., [[network interface controller]]s, [[GPU]]s, [[chipset]]s, motherboards, and computers. ...till retain full a architectural level ARM license allowing them to design and sell their own ARM devices should they wish to.
  9 KB (1,150 words) - 00:03, 2 October 2022
• intel/atom
  | type = system on chips ...|32}} and {{arch|64}} [[microprocessor]]s and [[system on chip]]s designed by [[Intel]] since 2008.
  17 KB (2,292 words) - 09:32, 16 July 2019
• 45 nm lithography process
  ...acturing using 45 nm process began in 2007. This technology was superseded by the [[40 nm lithography process|40 nm process]] (HN) / [[32 nm lithography ...heir initial {{intel|D1D}} facility in Oregon, {{intel|Fab 32}} in Arizona and {{intel|Fab 28}} in Israel. Intel's 45 nm process is the first time high-k
  5 KB (602 words) - 05:51, 20 July 2018
• intel/microarchitectures/skylake (client)
  |predecessor link=intel/microarchitectures/broadwell |successor link=intel/microarchitectures/kaby lake
  79 KB (11,922 words) - 06:46, 11 November 2022
• intel/core i3
  '''Core i3''' is family of low-end performance processors introduced by [[Intel]] since 2010, following the retirement of the {{intel|Core 2}} fami ...w the {{intel|Core i7}} families, making it fairly decent for multitasking and somewhat OK budget gaming.
  25 KB (3,397 words) - 03:12, 3 October 2022
• intel/core i5
  ...ocessors are positioned between the high-end performance {{intel|Core i7}} and the low-end performance {{intel|Core i3}}. ...re i5 processors usually have more cores than i3 (typically 4 vs 2 in i3), and offer more features (e.g. {{intel|Turbo Boost Technology}})
  34 KB (4,663 words) - 20:38, 20 February 2023
• exponential technology/x704
  ...oals. Additionally, the X704 was caught in the crossfire between [[Apple]] and [[Macintosh clone]] manufacturers, which ultimately sealed their fate (See ...rating at only 50-75 MHz max. By [[1993]] the idea was backed by [[Apple]] and their CEO [[wikipedia:Michael Spindler|Michael Spindler]] which became the
  8 KB (1,228 words) - 20:49, 2 June 2019
• amd/microarchitectures/zen
  |predecessor link=amd/microarchitectures/excavator |predecessor 2 link=amd/microarchitectures/puma
  79 KB (12,095 words) - 15:27, 9 June 2023
• intel/microarchitectures/gen1
  | designer 2 = Chips and Technologies | predecessor link = real3d/microarchitectures/pro-1000
  1,021 bytes (115 words) - 20:58, 28 January 2017
• loongson/godson 2
  ...Technology]] (which was co-founded by ICT) and sold as low-power embedded and desktop processors. The Godson 2 is famous for being the first [[Chinese]] {{main|loongson/microarchitectures/gs464|l1=GS464 µarch}}
  6 KB (710 words) - 17:11, 11 April 2017
• intel/cores/lincroft
  ...Those ultra-low power chips were manufactured on Intel's [[45 nm process]] and were specifically aimed for the [[Mobile Internet device]] (MID) market. {{main|intel/microarchitectures/bonnell#Second_Generation_Enhancements|l1=Bonnell § Second Generation Enha
  5 KB (587 words) - 02:24, 23 April 2017
• amd/epyc
  | type = System on chips ...{{arch|64}} [[x86]] high-performance server [[multiprocessors]] introduced by [[AMD]] in 2017 as the successor to the {{amd|Opteron}} family.
  19 KB (2,591 words) - 07:21, 22 May 2024
• dec/microarchitectures/strongarm
  |successor link=intel/microarchitectures/xscale ...This microarchitecture was the result of a collaborative effort by [[DEC]] and [[ARM Holdings|ARM]].
  5 KB (738 words) - 13:49, 15 July 2018
• intel/microarchitectures/skylake (server)
  |predecessor link=intel/microarchitectures/broadwell |successor link=intel/microarchitectures/cascade lake
  52 KB (7,651 words) - 00:59, 6 July 2022
• arm holdings/microarchitectures/arm7
  |predecessor link=arm_holdings/microarchitectures/arm6 |successor link=arm_holdings/microarchitectures/arm8
  3 KB (293 words) - 05:02, 31 December 2018
• chiplet
  ...ork with other similar chiplets to form larger more complex chips. In such chips, a system is subdivided into functional circuit blocks, called "chiplets", ...eak down a large die into smaller 'chiplets' in order to improve [[yield]] and [[binning]].
  4 KB (612 words) - 13:40, 28 February 2021
• intel/microarchitectures/cascade lake
  |predecessor link=intel/microarchitectures/skylake (server) |successor link=intel/microarchitectures/cooper lake
  32 KB (4,535 words) - 05:44, 9 October 2022
• zhaoxin/microarchitectures/wudaokou
  |predecessor link=zhaoxin/microarchitectures/zhangjiang |successor link=zhaoxin/microarchitectures/lujiazui
  9 KB (1,134 words) - 13:02, 17 June 2019
• zhaoxin/kaixian
  | developer 2 = VIA Technologies ...an''' ('''ZX'''/'''KX''') is a family of [[x86]] microprocessors developed by [[Zhaoxin]] for the [[Chinese]] market.
  6 KB (741 words) - 08:23, 27 May 2019

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