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- ...ring using 180 nm process began in late 1998. This technology was replaced by with [[150 nm lithography process|150 nm process]] (HN) in 2000 and [[130 n * Cyrix4 KB (413 words) - 03:04, 17 August 2023
- ...ing 250 nm process began in 1997 and was eventually replaced by [[180 nm]] by 1999. * Cyrix6 KB (661 words) - 16:18, 21 August 2022
- ...sing 350 nm process began in late 1995. 350 nm was phased out and replaced by [[250 nm]] in 1999. ...rola]] || colspan="2" | [[Hitachi]] || [[Планар]] <ref>http://kb-omo.by/content/view/1080/599/</ref>5 KB (586 words) - 22:44, 4 April 2022
- ...500 nm process began in 1992. 500 nm and was phased out and later replaced by [[350 nm]] in 1995. * Cyrix4 KB (438 words) - 06:15, 20 July 2018
- ...ring using 150 nm process began in early 2000s. This technology superseded by commercial [[130 nm]], [[110 nm]], and [[90 nm]] processes. * Cyrix2 KB (238 words) - 02:56, 27 September 2020
- ...f highest performance {{intel|80486|486}}-based microprocessors introduced by [[AMD]] in [[1995]]. These processors came with all the features of the {{a ...5x86 played a crucial role in keeping AMD's profitability while their {{\\|microarchitectures/k5|K5}} microarchitecture was experiencing severe delays. AMD continued to7 KB (1,043 words) - 16:50, 14 June 2020
- ...ced in early 2000. Duron, a low-budget derivative of {{amd|Athlon}} ({{amd|microarchitectures/k7|K7-based}}), was introduced as a way for AMD to aggressively compete aga Unlike original Celeron processor models which were artificially slowed down by Intel (e.g. slower bus speed), Duron processors shared the same specs as At19 KB (2,874 words) - 17:30, 3 December 2016
- {{title|Cyrix}} | name = Cyrix1 KB (154 words) - 20:23, 14 January 2018
- {{cyrix title|Joshua|arch}} |designer=Cyrix1 KB (145 words) - 23:09, 19 January 2018
- |predecessor link=cyrix/microarchitectures/joshua |successor link=via technologies/microarchitectures/samuel 2570 bytes (68 words) - 22:05, 14 January 2018