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- ...a matching [[register file]] with [[registers]] width of 2 bits. Very few 2-bit architecture CPUs were commercially marketed, most were [[bit-slice micropr == 2-bit microprocessors ==511 bytes (62 words) - 23:59, 16 January 2016
- == 16-bit microprocessors == [[Category:16-bit microprocessors]]1 KB (135 words) - 13:16, 20 July 2018
- ...essors to form a larger processor of some desired [[word size]]. Bit-slice microprocessors can be cascaded to produce any conventional (e.g. [[4-bit architecture|4-bi == bit-slice microprocessors==2 KB (253 words) - 07:12, 13 March 2019
- | type = microprocessors [[Category:AMD microprocessors]]9 KB (1,061 words) - 22:55, 18 June 2019
- [[Category:Hitachi microprocessors]] [[Category:4-bit microprocessors]]4 KB (400 words) - 19:05, 24 May 2016
- [[Category:Matsushita microprocessors]] [[Category:4-bit microprocessors]]4 KB (462 words) - 19:14, 13 October 2019
- [[Category:Matsushita microprocessors]] [[Category:4-bit microprocessors]]3 KB (301 words) - 19:23, 13 October 2019
- | type = microprocessors [[Category:Motorola microprocessors]]2 KB (179 words) - 00:03, 3 February 2016
- [[Category:4-bit microprocessors]] [[Category:1976 microprocessors]]2 KB (274 words) - 18:29, 5 February 2016
- == Microprocessors ==1 KB (114 words) - 06:19, 29 April 2016
- [[Category:4-bit microprocessors]] [[Category:1977 microprocessors]]6 KB (685 words) - 22:49, 5 February 2016
- [[Category:4-bit microprocessors]] [[Category:1977 microprocessors]]3 KB (397 words) - 16:54, 28 June 2019
- [[Category:4-bit microprocessors]] [[Category:1973 microprocessors]]730 bytes (96 words) - 05:05, 18 February 2020
- [[Category:4-bit microprocessors]] [[Category:1971 microprocessors]]1 KB (171 words) - 08:04, 20 November 2018
- | type = microprocessors [[Category:Fairchild microprocessors]]2 KB (223 words) - 23:04, 5 October 2017
- [[Category:National Semiconductor microprocessors]] [[Category:4-bit microprocessors]]2 KB (247 words) - 00:32, 19 May 2016
- [[Category:National Semiconductor microprocessors]] [[Category:8-bit microprocessors]]1 KB (137 words) - 12:37, 21 July 2018
- [[Category:Western Digital microprocessors]] [[Category:4-bit microprocessors]]732 bytes (87 words) - 01:08, 6 November 2015
- | type = microprocessors [[Category:Fairchild microprocessors]]3 KB (283 words) - 17:18, 12 December 2016
- [[Category:8-bit microprocessors]]4 KB (521 words) - 14:38, 11 June 2017
- [[Category:Mitsubishi microprocessors]] [[Category:4-bit microprocessors]]4 KB (388 words) - 19:48, 6 February 2016
- | type = microprocessors | arch = 2-bit bit-slice2 KB (182 words) - 06:47, 22 January 2016
- | type = <!-- type "microprocessors", "microcontrollers", etc.. --> [[Category:4-bit microprocessors]]2 KB (263 words) - 14:57, 4 February 2016
- | type = <!-- type "microprocessors", "microcontrollers", etc.. --> [[Category:4-bit microprocessors]]2 KB (215 words) - 14:55, 4 February 2016
- | type = <!-- type "microprocessors", "microcontrollers", etc.. --> [[Category:4-bit microprocessors]]2 KB (230 words) - 07:46, 28 February 2017
- [[Category:1971 microprocessors]]2 KB (276 words) - 18:29, 29 January 2016
- [[Category:4-bit microprocessors]] [[Category:1972 microprocessors]]2 KB (231 words) - 05:26, 10 November 2015
- ==Microprocessors==977 bytes (98 words) - 21:15, 10 February 2020
- [[Category:Epson microprocessors]] [[Category:4-bit microprocessors]]5 KB (620 words) - 21:04, 7 February 2016
- == Microprocessors ==1 KB (102 words) - 03:18, 17 February 2016
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3 KB (437 words) - 03:14, 20 March 2022
- | type = Microprocessors4 KB (433 words) - 22:40, 27 June 2019
- ...ersion, like the normal {{intel|Iris Graphics}}, is aimed for the high end microprocessors in an attempt to compete with mid-range [[dedicated graphics processor]]s.1 KB (176 words) - 17:29, 3 December 2016
- ...ture]]. Intel later expanded the series along with the [[Broadwell]]-based microprocessors.2 KB (181 words) - 13:08, 18 March 2017
- ...l]] in [[2015]] for their mainstream mobile {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's high-end tier GPU incorporating 48 execution units.4 KB (470 words) - 17:01, 9 July 2017
- ...l]] in [[2015]] for their mainstream mobile {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's high-end tier GPU incorporating 48 execution units.4 KB (475 words) - 06:43, 8 May 2018
- == Microprocessors ==890 bytes (80 words) - 20:26, 21 March 2017
- [[Category:Epson microprocessors]] [[Category:4-bit microprocessors]]2 KB (295 words) - 21:03, 7 February 2016
- [[Category:24-bit microprocessors]]484 bytes (58 words) - 11:06, 28 May 2017
- By the mid-70s GI had a pretty successful family of microprocessors known as the {{gi|CP1600}}. The CP1600, however was losing market share due3 KB (423 words) - 00:33, 19 May 2016
- == List of microprocessors ==1 KB (120 words) - 08:48, 28 May 2017
- * {{intel|3000}}, Intel family of 2-bit microprocessors169 bytes (22 words) - 05:58, 22 January 2016
- == Microprocessors ==1 KB (141 words) - 17:22, 12 December 2016
- | type = microprocessors3 KB (297 words) - 22:54, 24 April 2016
- | type = microprocessors3 KB (323 words) - 11:26, 15 August 2017
- | type 2 = microprocessors === Microprocessors ===17 KB (2,292 words) - 09:32, 16 July 2019
- | type = Microprocessors ...amd|Argon}}, {{amd|Pluto}}, and {{amd|Orion}}-core based processors. Later microprocessors (starting with {{amd|Thunderbird}} core-based) introduced on-die L2$ simpli10 KB (1,163 words) - 10:41, 26 February 2019
- | type = Microprocessors ...later expanded in [[1982]] which grew to incorporate the [[x86]] family of microprocessors and which later grew into legal dispute that lasted until [[1996]]<ref name5 KB (683 words) - 23:46, 7 March 2018
- | type = microprocessors2 KB (172 words) - 17:18, 12 December 2016
- | type = Microprocessors ...a replacement in their systems. Various observable differences in the two microprocessors were spotted very early on - particularly in the way illegal instructions w4 KB (514 words) - 00:54, 19 May 2016
- | type = microprocessors10 KB (1,057 words) - 19:30, 1 November 2021
- | type = microprocessors3 KB (382 words) - 17:58, 19 May 2016
- ...as used in the {{intel|mcs-8/8008|8008}} and {{intel|mcs-8/8008-1|8008-1}} microprocessors.13 KB (2,079 words) - 09:11, 29 September 2019
- | type = microprocessors ...80 featured the {{\|8080}} CPU, the forefather of all modern [[x86]]-based microprocessors.4 KB (406 words) - 16:10, 26 January 2019
- ...ry with guidance and assistance with various technology nodes. By 2006, as microprocessors started dominating the technology scaling, ITRS replaced the term with a nu8 KB (1,225 words) - 13:48, 14 December 2022
- | type = Microprocessors ...'''Athlon X4''' is a family of low-budget quad core {{arch|64}} [[AMD64]] microprocessors developed by [[AMD]] and introduced in 2012.3 KB (333 words) - 21:33, 27 May 2023
- | type = Microprocessors '''A10''' is a family of {{arch|64}} quad code mid-class microprocessors developed by [[AMD]] and introduced in 2012.6 KB (619 words) - 05:05, 2 January 2019
- | type = Microprocessors '''A8''' is a family of {{arch|64}} quad core mid-range microprocessors developed by [[AMD]] and introduced in early 2011.6 KB (700 words) - 15:43, 1 December 2019
- <tr><th colspan="9" style="background:#D6D6FF;">Atom x3 Microprocessors</th></tr>3 KB (425 words) - 17:29, 3 December 2016
- == 28 nm Microprocessors ==6 KB (711 words) - 17:01, 26 March 2019
- ...e|mainlabel=-|intro=<table class="wikitable"><tr><th colspan="8">[[32 nm]] Microprocessors</th></tr><tr><th colspan="3">Model</th><th colspan="5">Specs</th></tr><tr>< == 32 nm Microprocessors==10 KB (1,090 words) - 19:14, 8 July 2021
- <tr><th colspan="11" style="background:#D6D6FF;">Braswell-based Atom x5 Microprocessors</th></tr> <tr><th colspan="11" style="background:#D6D6FF;">Cherry Trail-based Atom x5 Microprocessors</th></tr>5 KB (739 words) - 06:20, 26 October 2016
- <tr><th colspan="11" style="background:#D6D6FF;">Cherry Trail-based Atom x7 Microprocessors</th></tr> <tr><th colspan="11" style="background:#D6D6FF;">Apollo Lake-based Atom x7 Microprocessors</th></tr>4 KB (540 words) - 06:21, 26 October 2016
- == 14 nm Microprocessors==17 KB (2,243 words) - 19:32, 25 May 2023
- <tr><th colspan="9" style="background:#D6D6FF;">Cherry Trail Microprocessors</th></tr>3 KB (342 words) - 17:29, 3 December 2016
- == 45 nm Microprocessors== ...ress45nm107 FINAL.pdf|High-k + Metal Gate Transistor Breakthrough on 45 nm Microprocessors]]5 KB (602 words) - 05:51, 20 July 2018
- First generation of Bonnell-based microprocessors introduced 2 cores: '''{{intel|Silverthorne|l=core}}''' for ultra-mobile PC ...most 4 times that of the processor itself. Second generation Bonnell-based microprocessors aimed to address this issue by integrating a memory controller and GPU on-c38 KB (5,468 words) - 20:29, 23 May 2019
- | type = Microprocessors20 KB (2,661 words) - 00:45, 11 October 2017
- | type = microprocessors '''Celeron''' is a family of low-end [[x86]] microprocessors developed by [[Intel]] and targets the ultra-cheap PC market. Celeron is th25 KB (3,201 words) - 03:13, 22 September 2018
- ...e|mainlabel=-|intro=<table class="wikitable"><tr><th colspan="8">[[22 nm]] Microprocessors</th></tr><tr><th colspan="3">Model</th><th colspan="5">Specs</th></tr><tr>< == 22 nm Microprocessors==7 KB (891 words) - 09:52, 25 November 2020
- == 16 nm Microprocessors==4 KB (580 words) - 17:00, 26 March 2019
- == 20 nm Microprocessors==4 KB (483 words) - 23:04, 20 May 2018
- | type = Microprocessors4 KB (572 words) - 16:03, 1 June 2017
- Westmere-based [[microprocessors]] and [[system on chips]] were manufactured on a [[32 nm process]] ("P1268"10 KB (1,258 words) - 21:07, 9 March 2018
- Penryn-based [[microprocessors]] were manufactured on a [[45 nm process]]. Intel's 45 nm process is the is4 KB (459 words) - 21:44, 26 December 2023
- ...ed it as {{intel|Xeon E3|Xeon E3 v6}}. There are no Kaby Lake-based server microprocessors. ...croarchitecture and doubled the cores (4 from 2) of many mainstream mobile microprocessors.38 KB (5,431 words) - 10:41, 8 April 2024
- ...9. The i7-975 along with the {{\\|i7-965}} became Intel's flagship desktop microprocessors for the {{intel|Nehalem}} microarchitecture. This processor operates at 3.34 KB (415 words) - 16:24, 13 December 2017
- ...9. The i7-965 along with the {{\\|i7-975}} became Intel's flagship desktop microprocessors for the {{intel|Nehalem}} microarchitecture. This processor operates at 3.24 KB (415 words) - 16:24, 13 December 2017
- == 40 nm Microprocessors ==2 KB (182 words) - 03:11, 17 August 2023
- == 65 nm Microprocessors==4 KB (407 words) - 05:55, 20 July 2018
- == 130 nm Microprocessors==5 KB (500 words) - 16:02, 13 May 2020
- == 90 nm Microprocessors==3 KB (354 words) - 03:09, 17 August 2023
- == 180 nm Microprocessors==4 KB (413 words) - 03:04, 17 August 2023
- ...ge their initial 10nm process for their {{intel|Cannon Lake|l=arch}}-based microprocessors which are used exclusively for mobile. They will then utilize their second == 10 nm Microprocessors==14 KB (1,903 words) - 06:52, 17 February 2023
- == 7 nm Microprocessors==13 KB (1,941 words) - 02:40, 5 November 2022
- == 5 nm Microprocessors==11 KB (1,662 words) - 02:58, 2 October 2022
- == 250 nm Microprocessors==6 KB (661 words) - 16:18, 21 August 2022
- == 350 nm Microprocessors==5 KB (586 words) - 22:44, 4 April 2022
- DEC's half-micron process, '''CMOS-5''', which was used for their microprocessors such as the {{decc|Alpha 21164|l=arch}} used a Cabalt di-silicide in diffus == 500 nm Microprocessors ==4 KB (438 words) - 06:15, 20 July 2018
- == 1.3 µm Microprocessors ==1 KB (138 words) - 12:57, 23 October 2022
- == 110 nm Microprocessors==1 KB (143 words) - 05:57, 20 July 2018
- == 150 nm Microprocessors==2 KB (238 words) - 02:56, 27 September 2020
- == 5µm Microprocessors ==2 KB (325 words) - 06:22, 20 July 2018
- == 2.5 μm microprocessors ==563 bytes (64 words) - 06:20, 20 July 2018
- == 750 nm Microprocessors ==1 KB (134 words) - 06:17, 20 July 2018
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- == 220 nm Microprocessors ==975 bytes (117 words) - 06:10, 20 July 2018
- == 240 nm Microprocessors ==820 bytes (102 words) - 06:10, 20 July 2018
- == 80 nm Microprocessors ==1 KB (136 words) - 05:55, 20 July 2018
- This feature is only available on [[Intel]] microprocessors that support Turbo Boost and have the feature enabled and supported (e.g. m ...eaders=hide|mainlabel=-|intro=<table class="wikitable"><tr><th colspan="9">Microprocessors with [[intel/turbo boost technology#|Turbo Boost Technology]]</th><tr><th c7 KB (990 words) - 14:39, 23 July 2022
- | type = Microprocessors '''Mobile Pentium II''' was a family of high performance {{intel|P6}}-based microprocessors introduced by [[Intel]] in [[1998]].5 KB (635 words) - 09:54, 11 November 2017
- | type = Microprocessors ...hty-three-eighty-six'') was a family of {{arch|32}} 3rd-generation [[x86]] microprocessors introduced by [[Intel]] in [[1985]] as a successor to {{intel|80286}}. Thes4 KB (400 words) - 08:43, 5 December 2022
- ...] in [[2015]] for their desktop workstation {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's mid-tier GPU incorporating 24 execution units. The P4 KB (471 words) - 16:46, 9 July 2017
- ...introduced by [[Intel]] for their high-end {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's highest tier GPU incorporating 72 execution units as4 KB (489 words) - 13:38, 9 July 2017
- | type = Microprocessors '''Am386''' was a family of {{arch|32}} 3rd-generation [[x86]] microprocessors introduced by [[AMD]] in [[1991]]. Am386 chips were 100%-compatible with [[8 KB (1,077 words) - 14:50, 2 April 2020
- | type = Microprocessors ...e]] (CULV) [[x86]] microprocessors introduced by [[Intel]] in 2014. Core M microprocessors have ultra-low power (TDP ≤ 4.5 Watts) designed specifically for ultra-th7 KB (949 words) - 20:01, 8 August 2018
- | type = Microprocessors ...ghty-four-eighty-six'') was a family of {{arch|32}} 4th-generation [[x86]] microprocessors introduced by [[Intel]] in [[1989]] as a successor to the {{intel|80386}}.8 KB (953 words) - 08:27, 29 October 2022
- ...6''' was the [[microarchitecture]] for [[Intel]]'s {{intel|80486}} line of microprocessors as a successor to the {{\\|80386}}. Introduced in April of 89, 80486 was in1 KB (131 words) - 19:34, 30 November 2017
- | type = Microprocessors ...ut the Core i3 was not officially launched until January 04, 2010. Core i3 microprocessors are considered performance processors, but generally sit on the low side of25 KB (3,397 words) - 03:12, 3 October 2022
- | type = Microprocessors ...d by Intel in 2009, following the retirement of the Core 2 family. Core i5 microprocessors are positioned between the high-end performance {{intel|Core i7}} and the l34 KB (4,663 words) - 20:38, 20 February 2023
- | type = Microprocessors '''Am486''' was a family of {{arch|32}} 4th-generation [[x86]] microprocessors introduced by [[AMD]] in [[1993]]. Am486 chips were compatible with [[Intel13 KB (1,897 words) - 09:30, 21 July 2021
- == 700 nm Microprocessors ==928 bytes (114 words) - 06:17, 20 July 2018
- | type = Microprocessors ...86Plus]]''') was a family of highest performance {{intel|80486|486}}-based microprocessors introduced by [[AMD]] in [[1995]]. These processors came with all the featu7 KB (1,043 words) - 16:50, 14 June 2020
- | type = Microprocessors9 KB (1,192 words) - 01:35, 29 May 2016
- | type = Microprocessors5 KB (602 words) - 18:20, 3 June 2016
- | type = Microprocessors5 KB (616 words) - 14:24, 1 May 2019
- | type = Microprocessors | arch = Multi-socket server microprocessors4 KB (482 words) - 05:08, 18 February 2020
- * May 7: [[Intel]] acknowledges they've reached a "thermal wall" on their microprocessors; new emphasis on multi-core.824 bytes (108 words) - 22:53, 27 November 2017
- | type = Microprocessors ...' was a family of {{arch|8}} [[massively parallel processor array|MPPA]] [[microprocessors]] designed by [[Rapport]] introduced in [[2006]] that implemented their "Ki2 KB (254 words) - 03:53, 25 June 2016
- | type = Microprocessors11 KB (1,421 words) - 14:45, 9 December 2018
- | type = Microprocessors | arch = Pentium-compatible superscalar microprocessors8 KB (1,002 words) - 22:19, 17 June 2022
- ...pany. The company focused on designing ultra-fast [[PowerPC]]-compatible [[microprocessors]].2 KB (211 words) - 17:29, 3 December 2016
- | type = Microprocessors8 KB (1,228 words) - 20:49, 2 June 2019
- | type = Microprocessors FastMATH was a series of microprocessors developed by [[Intrinsity]] using {{\\|Fast14}} technology - i.e. processor4 KB (464 words) - 17:41, 3 July 2016
- | type = Microprocessors | arch = Pentium II-compatible superscalar microprocessors with MMX8 KB (1,156 words) - 23:10, 1 August 2016
- '''OBGA-349''' was a package for [[AMD]] embedded microprocessors of the [[amd/k6|K6]] family. Other members used the [[amd/packages/super so2 KB (309 words) - 18:42, 25 July 2020
- | type = Microprocessors | arch = Pentium II-compatible superscalar microprocessors with MMX and 3DNow!13 KB (1,969 words) - 18:07, 2 October 2019
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3 KB (317 words) - 22:13, 30 April 2017
- | type = Microprocessors '''K6-III''' was a family of {{arch|32}} [[x86]] microprocessors introduced by [[AMD]] in February of [[1999]] as a successor to the {{\\|K69 KB (1,264 words) - 02:29, 19 January 2017
- | type = Microprocessors '''Duron''' was a family of budget {{arch|32}} [[x86]] microprocessors developed by [[AMD]] and introduced in early 2000. Duron, a low-budget deri19 KB (2,874 words) - 17:30, 3 December 2016
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3 KB (456 words) - 06:30, 8 July 2020
- <li>Use the reference platform equipped with various Pentium microprocessors (e.g., Pentium-75, Pentium-90, Pentium-100, etc.) to obtain an index table11 KB (1,244 words) - 06:26, 8 July 2020
- ...ocuses and designs high-performance and massively parallel [[ARM]]-based [[microprocessors]], [[ASIC]], and other high-performance [[SoC]] chips. Phytium was founded1,018 bytes (102 words) - 14:58, 26 March 2019
- '''K5''' was the [[microarchitecture]] for [[AMD]]'s {{amd|K5}} line of microprocessors as a successor to the {{\\|80486}}. Launched in early 1996, the K5 microarc2 KB (272 words) - 20:01, 30 November 2017
- '''K6''' was the [[microarchitecture]] for [[AMD]]'s {{amd|K6}} line of microprocessors as a successor to the {{\\|K5}}. Contrary to its namesake, K6 design is ent4 KB (578 words) - 18:57, 22 May 2019
- '''K6-2''' was the [[microarchitecture]] for [[AMD]]'s {{amd|K6-2}} line of microprocessors as a successor to the {{\\|K6}}. The microarchitecture introduced a number2 KB (309 words) - 20:01, 30 November 2017
- ...-III''' was the [[microarchitecture]] for [[AMD]]'s {{amd|K6-III}} line of microprocessors as a successor to the {{\\|K6-2}}. This short-lived microarchitecture serve2 KB (311 words) - 20:02, 30 November 2017
- ...oarchitecture]] for [[AMD]]'s {{amd|Athlon}} and {{amd|Duron}} families of microprocessors as a successor to the {{\\|K6-III}}. K7 was superseded by {{\\|K8}} in 20036 KB (923 words) - 16:48, 3 March 2022
- ...mprovements and design changes over {{\\|Excavator}}. Mainstream Zen-based microprocessors utilize AMD's {{amd|Socket AM4}} unified platform along with the {{amd|Prom ...se-Em-Eye'') is an umbrella term for a number of features AMD added to Zen microprocessors designed to increase performance through various self-tuning using a networ79 KB (12,095 words) - 15:27, 9 June 2023
- ...equent branches could more easily be determined and taken (or not). Modern microprocessors such as Zen take this further by not only storing the history of the last b57 KB (8,701 words) - 22:11, 9 October 2022
- <tr><th colspan="10" style="background:#D6D6FF;">Apollo Lake Microprocessors</th></tr>3 KB (461 words) - 18:51, 10 September 2018
- ...MIMD]] designs) of high-performance and low-power. Founded in 2010, PEZY's microprocessors have been used in a number of [[supercomputer]]s. PEZY is supported through1 KB (148 words) - 09:27, 9 May 2019
- PEZY has developed a Quad-PEZY-1 PCI board for their microprocessors which has 4 PEZY-1 for a total of 2,048 PE cores (along with 8 ARM cores).2 KB (343 words) - 03:48, 20 October 2018
- The PEZY-SC (SC for "Super Computer") is [[PEZY]]'s second generation microprocessors which builds upon the {{pezy|PEZY-1}}. The chip contains exactly twice as m The PEZY-SC microprocessors is made of 4 blocks called "Prefectures". The Prefecture contains 2 MiB of4 KB (612 words) - 11:14, 22 September 2018
- ...Inc.''' is Taiwanese-American fabless semiconductor company that develops microprocessors, memory, and chipsets for AI, IoT, and computer vision applications.1 KB (128 words) - 22:39, 22 September 2019
- | type = Microprocessors '''K6-III+''' ('''K6-III Plus''') was a family of mobile microprocessors introduced by AMD in early [[2000]] as a replacement for the previous gener5 KB (730 words) - 19:14, 27 October 2018
- | type = Microprocessors '''K6-2+''' ('''K6-2 Plus''') was a family of mobile microprocessors introduced by AMD in early [[2000]] as a replacement for the previous gener2 KB (341 words) - 04:25, 26 October 2018
- ...) was the [[microarchitecture]] for [[Intel]]'s {{intel|Yonah}} core-based microprocessors. This miroarchitecture was a modified version of the original {{\\|Pentium738 bytes (79 words) - 19:26, 30 November 2017
- | type = Microprocessors '''Sempron''' is a family of budget {{arch|32}} [[x86]] microprocessors developed by [[AMD]] and introduced in early [[2004]], superseding the {{am3 KB (332 words) - 01:56, 28 September 2019
- '''Spitfire''' was [[AMD]]'s core name for first generation {{amd|Duron}} microprocessors. Spitfire is based on the {{amd|K7|l1=arch}} microarchitecture and was manu2 KB (308 words) - 18:31, 23 October 2016
- ...'' for mobile) was [[AMD]]'s core name for second generation {{amd|Duron}} microprocessors, a successor to {{amd|Spitfire|l=core}}. Morgan is based on the {{amd|K7|l13 KB (350 words) - 17:29, 3 December 2016
- '''Applebred''' was [[AMD]]'s core name for third generation {{amd|Duron}} microprocessors, a successor to {{amd|Morgan|l=core}}. Applebred is based on the {{amd|K7|l3 KB (369 words) - 15:04, 7 November 2016
- | type = Microprocessors | arch = Multi-socket server microprocessors11 KB (1,395 words) - 08:36, 4 November 2020
- | type = Microprocessors '''Athlon XP''' was a family of performance {{arch|32}} [[x86]] microprocessors designed by [[AMD]] and introduced in [[2001]] as a successor to the origin2 KB (263 words) - 05:36, 14 November 2016
- | type = Microprocessors Palomino-based microprocessors (i.e. Model 6) were manufactured on AMD's mature [[180 nm process]] copper11 KB (1,571 words) - 18:57, 17 November 2016
- '''Celeron G3950''' is a {{arch|64}} [[dual-core]] budget [[x86]] desktop microprocessors introduced by [[Intel]] in early 2017. The G3950, which is based on the {{i4 KB (636 words) - 13:30, 7 April 2018
- | type = Microprocessors ...e Athlon XP''') was a family of [[single-core]] {{arch|32}} [[x86]] mobile microprocessors designed by [[AMD]] for the performance mobile segment (i.e. a notch above2 KB (281 words) - 15:41, 16 November 2016
- '''Celeron G3930T''' is a {{arch|64}} [[dual-core]] budget [[x86]] desktop microprocessors introduced by [[Intel]] in early 2017. The G3930T, which is based on the {{4 KB (655 words) - 13:30, 7 April 2018
- | type = Microprocessors2 KB (292 words) - 02:17, 8 July 2018
- | type = Microprocessors '''Athlon 64''' was a family of performance {{arch|64}} [[x86]] microprocessors designed by [[AMD]] and introduced in [[2003]] as a successor to the {{amd|2 KB (209 words) - 18:21, 17 November 2016
- | type = Microprocessors ...{{amd|Athlon 64}} family. This was AMD's first series of dual-core desktop microprocessors.1 KB (140 words) - 14:59, 16 November 2016
- | type = Microprocessors '''Athlon X2''' was a family of {{arch|64}} [[x86]] [[dual-core]] budget microprocessors designed by [[AMD]] and introduced in [[2008]].1 KB (138 words) - 15:13, 16 November 2016
- | type = Microprocessors '''Athlon II X2''' was a family of {{arch|64}} [[x86]] [[dual-core]] budget microprocessors designed by [[AMD]] and introduced in [[2008]].4 KB (434 words) - 15:06, 9 December 2020
- | type = Microprocessors ...d introduced in [[2007]]. This was AMD's first series of quad-core desktop microprocessors based on the {{amd|K10|K10 microarchitecture|l=arch}}.3 KB (367 words) - 23:01, 11 January 2021
- | type = Microprocessors '''Phenom II X4''' was a family of {{arch|64}} [[x86]] [[quad-core]] desktop microprocessors designed by [[AMD]] based on and introduced in [[2009]] as a successor to1 KB (115 words) - 12:50, 16 November 2016
- | type = Microprocessors '''Phenom X3''' was a family of {{arch|64}} [[x86]] [[tri-core]] budget microprocessors designed by [[AMD]] and introduced in [[2008]]. Phenom X3, which succeeded3 KB (313 words) - 03:29, 11 January 2021
- | type = Microprocessors '''Phenom II X3''' was a family of {{arch|64}} [[x86]] [[tri-core]] budget microprocessors designed by [[AMD]] and introduced in [[2009]].2 KB (278 words) - 12:33, 18 June 2021
- | type = Microprocessors '''Phenom II X2''' was a family of {{arch|64}} [[x86]] [[dual-core]] desktop microprocessors designed by [[AMD]] and introduced in [[2009]]. Contrary to their name-sake3 KB (357 words) - 21:08, 18 June 2021
- | type = Microprocessors '''Phenom II X6''' was a family of {{arch|64}} [[x86]] [[hexa-core]] desktop microprocessors designed by [[AMD]] and introduced in [[2009]] in parallel to the {{amd|Phe2 KB (285 words) - 11:15, 18 June 2021
- | type = Microprocessors '''Athlon II X3''' was a family of {{arch|64}} [[x86]] [[tri-core]] budget microprocessors designed by [[AMD]] and introduced in [[2009]].2 KB (278 words) - 19:37, 7 December 2020
- | type = Microprocessors '''Athlon II X3''' was a family of {{arch|64}} [[x86]] [[quad-core]] budget microprocessors designed by [[AMD]] and introduced in [[2009]].3 KB (338 words) - 19:13, 7 December 2020
- | type = Microprocessors '''Mobile Athlon 64''' was a family of {{arch|64}} [[x86]] [[single-core]] microprocessors designed by [[AMD]] for the performance mobile segment. Introduced in [[2001 KB (109 words) - 15:50, 16 November 2016
- | type = Microprocessors '''Turion 64''' was a family of {{arch|64}} [[x86]] [[single-core]] microprocessors designed by [[AMD]] for the performance mobile segment and introduced in 201,009 bytes (94 words) - 16:25, 16 November 2016
- | type = Microprocessors '''Turion 64 X2''' was a family of {{arch|64}} [[x86]] [[dual-core]] mobile microprocessors designed by [[AMD]] and introduced in 2005.988 bytes (95 words) - 17:13, 16 November 2016
- | type = Microprocessors ...urion X2 Ultra''' was a family of {{arch|64}} [[x86]] [[dual-core]] mobile microprocessors designed by [[AMD]] and introduced in 2008 as a successor to the {{amd|Turi1 KB (118 words) - 18:12, 16 November 2016
- | type = Microprocessors ...urion II Ultra''' was a family of {{arch|64}} [[x86]] [[dual-core]] mobile microprocessors designed by [[AMD]] and introduced in [[2009]] as a successor to the {{amd|1 KB (130 words) - 18:07, 16 November 2016
- | type = Microprocessors '''Turion II''' was a family of {{arch|64}} [[x86]] [[dual-core]] mobile microprocessors designed by [[AMD]] and introduced in [[2009]] as a successor to the {{amd|1 KB (127 words) - 18:07, 16 November 2016
- ...cessors]] introduced by [[Intel]] in their {{intel|Westmere|l=arch}}-based microprocessors in [[2010]]. These IGPs are found in {{intel|Clarkdale|l=core}} and {{intel <tr><th colspan="18" style="background:#D6D6FF;">Microprocessors with Ironlake GPUs</th></tr>3 KB (378 words) - 03:16, 1 December 2016
- ...core name given by [[Intel]] for their [[dual-core]] mainstream [[x86-64]] microprocessors using 5 series chipset. These were first generation ({{intel|Westmere|l=arc <tr><th colspan="18" style="background:#D6D6FF;">Arrandale-based Microprocessors</th></tr>4 KB (537 words) - 01:12, 28 August 2017
- ...n fabless semiconductor company that specializes in [[ARM]] and [[MIPS]] [[microprocessors]] for networking devices in enterprise, data centers, and [[IoT]] gateways.1 KB (157 words) - 17:53, 1 February 2019
- <tr><th colspan="17" style="background:#D6D6FF;">All cnMIPS Microprocessors</th></tr>7 KB (870 words) - 19:38, 23 June 2017
- ...AMD introduces {{amd|Threadripper}}, a family of enthusiasts-class [[x86]] microprocessors == Microprocessors released in 2017 ==8 KB (999 words) - 11:04, 3 January 2019
- '''OCTEON''' was a family of {{arch|64}} [[multi-core]] [[MIPS]] microprocessors designed by [[Cavium]] and introduced in mid-[[2005]]. These processors are The original OCTEON family of network-oriented microprocessors were announced in September of [[2004]]. These chips are based on [[Cavium]11 KB (1,489 words) - 09:25, 30 December 2020
- '''OCTEON Plus''' was a family of {{arch|64}} [[multi-core]] [[MIPS]] microprocessors designed by [[Cavium]] and introduced in [[2007]]. These processors are pri <tr><th colspan="14" style="background:#D6D6FF;">CN57xx-Series Microprocessors</th></tr>6 KB (827 words) - 15:41, 29 December 2016
- '''AM4''' is a socket for [[AMD]]'s mainstream series of microprocessors, serving as a successor to {{\\|Socket FM2+}} and {{\\|Socket AM3+}}. It wa The AM4 accepts zero-insertion force '''µOPGA-1331'''-packaged microprocessors designed based on the {{amd|Excavator|l=arch}}, {{amd|Zen|l=arch}}, {{amd|Z30 KB (6,098 words) - 01:58, 12 January 2024
- This is a '''[[has type::boolean]]''' property holding whether the microprocessors has support for x86's {{x86|Advanced Vector Extensions 2}}.142 bytes (22 words) - 13:15, 5 January 2017
- '''Celeron 3965U''' is a {{arch|64}} [[dual-core]] budget [[x86]] mobile microprocessors introduced by [[Intel]] in early 2017. The 3965U, which is based on the {{i4 KB (587 words) - 16:15, 13 December 2017
- '''Celeron 3865U''' is a {{arch|64}} [[dual-core]] budget [[x86]] mobile microprocessors introduced by [[Intel]] in early 2017. The 3865U, which is based on the {{i4 KB (581 words) - 10:08, 11 February 2019
- ...ocessor]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The 610 are the low-end (GT1) IGP offered by Intel with only 12 execution5 KB (618 words) - 09:27, 27 May 2018
- ...ocessor]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The 615 are the mid-range (GT2) IGP offered by Intel with 24 execution uni5 KB (581 words) - 23:45, 22 September 2019
- ...ocessor]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The 620 are the mid-range (GT2) IGP offered by Intel with 24 execution uni4 KB (561 words) - 12:23, 27 August 2017
- ...ocessor]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The 630 are the mid-range (GT2) IGP offered by Intel with 24 execution uni5 KB (615 words) - 01:11, 7 January 2018
- ...ocessor]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The P630 are the mid-range (GT2) IGP offered by Intel with 24 execution un4 KB (520 words) - 11:52, 6 May 2017
- ...cessors]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The Iris Plus 640 are the high-end (GT3e) IGP offered by Intel with 48 exe5 KB (586 words) - 11:52, 6 May 2017
- ...cessors]] designed by [[Intel]] for their {{intel|Kaby Lake|l=arch}}-based microprocessors. The Iris Plus 650 are the high-end (GT3e) IGP offered by Intel with 48 exe5 KB (558 words) - 11:52, 6 May 2017
- ...offee Lake}}-based, {{\\|Comet Lake}}-based,and {{\\|Goldmont Plus}}-based microprocessors. Gen9.5 is the successor to {{\\|Gen9}} used by {{\\|Skylake}} and introduc29 KB (3,752 words) - 13:14, 19 April 2023
- ...[[Intel]]'s [[graphics processing unit]] utilized by {{\\|Skylake}}-based microprocessors. Gen9 is the successor to {{\\|Gen8}} used by {{\\|Broadwell}}. The Gen9 mi33 KB (4,255 words) - 17:41, 1 November 2018
- ...Intel]]'s [[graphics processing unit]] utilized by {{\\|Cannonlake}}-based microprocessors. Gen10 is the successor to {{\\|Gen9.5}} used by {{\\|Kaby Lake}}.2 KB (263 words) - 00:41, 31 January 2019
- ...sion operated its own [[foundry]], manufacturing IBM's own {{ibm|Power}} [[microprocessors]] on a bleeding edge process. The division was sold to [[GlobalFoundries]].2 KB (251 words) - 11:14, 15 September 2019
- ...to {{\\|POWER8}}, a [[14 nm]] microarchitecture for [[Power]]-based server microprocessors first introduced in the 2nd half of [[2017]]. POWER9-based processors are b POWER9-based microprocessors are fabricated on [[GlobalFoundries]]'s High-Performance [[14 nm process|1414 KB (1,905 words) - 23:38, 22 May 2020
- ...oarchitecture designed by [[Qualcomm]] for the server market. Falkor-based microprocessors are manufactured on a [[10 nm process]] and sold under the {{qualcomm|Centr6 KB (822 words) - 13:01, 19 May 2021
- ...esigned in-house by [[Phytium]] for their consumer market and server-based microprocessors.7 KB (940 words) - 00:12, 8 March 2021
- ...S. B., and A. R. P. Thomas. "ARM3—a study in design for compatibility." Microprocessors and Microsystems 14.6 (1990): 407-415.12 KB (1,886 words) - 12:56, 14 January 2021
- ...ompany was established with the primary goal of further developing the ARM microprocessors. In 1993, in addition to VLSI, both [[Sharp]] and [[GEC-Plessey Semiconduct6 KB (834 words) - 01:12, 29 January 2019
- | type = Microprocessors ...Seven'') is a family of high-performance {{arch|64}} [[octa-core]] [[x86]] microprocessors introduced by [[AMD]] in [[2017]] as a successor to the {{amd|FX}} family.15 KB (2,095 words) - 12:18, 2 October 2022
- ...revenue. Samsung is a major manufacturer of electronic products such as [[microprocessors]], [[flash memory]], and many other [[integrated circuits]]. Samsung is als2 KB (230 words) - 03:34, 25 January 2020
- | type = Microprocessors ...ange performance {{arch|64}} [[quad-core|quad]] and [[hexa-core]]s [[x86]] microprocessors introduced by [[AMD]] in March of [[2017]]. Ryzen 5 is based on the {{amd|Z14 KB (1,864 words) - 07:09, 7 October 2020
- | type = Microprocessors ...en'') is a family of low-end performance {{arch|64}} [[quad-core]] [[x86]] microprocessors introduced by [[AMD]] in late-[[2017]]. Ryzen 3 is based on the {{amd|Zen|l11 KB (1,506 words) - 22:12, 6 January 2020
- Note: Only the APU series of microprocessors retains the monolithic design, so they are fabricated solely on [[TSMC]]'s15 KB (1,978 words) - 22:13, 6 April 2023
- ...emiconductor company that primarily focuses on high-performance consumer [[microprocessors]]. Loongson was founded in April of [[2010]] through the cooperation of the ...CT, became one of the most famous and most successful series of indigenous microprocessors in [[China]].2 KB (181 words) - 23:20, 20 March 2017
- | type = Microprocessors ...rocessor. The Godson 1 is famous for being the first [[Chinese]] developed microprocessors.1 KB (129 words) - 16:11, 15 June 2018
- | type = Microprocessors ...e Godson 2 is famous for being the first [[Chinese]] developed {{arch|64}} microprocessors as well as the first Chinese processors to break the gigahertz frequency.6 KB (710 words) - 17:11, 11 April 2017
- | type = Microprocessors1 KB (85 words) - 05:15, 12 March 2017
- == 3 nm Microprocessors==5 KB (558 words) - 19:04, 29 December 2023
- ...alight laptops/nettops, MIDs, and embedded internet devices. Stealey-based microprocessors were branded as Intel A1xx series and were part of the {{intel|McCaslin|Ult1 KB (131 words) - 02:59, 4 April 2017
- '''Diamondville-SC''' refers to all the [[single-core]] Diamondville-based microprocessors. In late [[2008]] Intel introduced a single [[dual-core]] variant (the {{in4 KB (470 words) - 22:20, 15 April 2017
- ...ns]], HAL is known for having designed one of first commercial {{arch|64}} microprocessors and as the company that beat [[Sun Microsystems]] to the first [[SPARC-V9]] == Microprocessors ==2 KB (196 words) - 13:51, 12 April 2017
- | type = Microprocessors '''SPARC64''' is a family of high-performance {{arch|64}} [[SPARC]] microprocessors designed by [[Fujitsu]] (originally [[HAL Computer Systems|HAL]]'s) since t4 KB (468 words) - 18:22, 12 April 2017
- ...has been responsible for the development of a number of high-performance [[microprocessors]] and [[supercomputer]]s.2 KB (195 words) - 01:59, 24 April 2017
- | type = Microprocessors ...ding different [[ISA]]s implementations. The latest models are [[many-core microprocessors]] implementing a custom ISA.1 KB (101 words) - 22:13, 24 September 2017
- ...was the [[microarchitecture]] for [[Intel]]'s for {{intel|80286}} line of microprocessors as a successor to {{intel|8086}}. Introduced in 1982, 80286 was manufacture868 bytes (76 words) - 19:24, 30 November 2017
- | type = Microprocessors ...ily of {{arch|64}} [[x86]] dual-socket multi-core entry-level server-class microprocessors introduced by [[Intel]] in 2017.7 KB (973 words) - 14:08, 2 June 2019
- | type = Microprocessors ...of {{arch|64}} [[x86]] dual-socket multi-core mid-range performance server microprocessors introduced by [[Intel]] in 2017.7 KB (993 words) - 02:57, 2 March 2020
- | type = Microprocessors ...of {{arch|64}} [[x86]] dual/quad-socket multi-core high performance server microprocessors introduced by [[Intel]] in 2017. The Xeon Gold offers highest performance a9 KB (1,195 words) - 05:38, 8 June 2021
- | type = Microprocessors ...of {{arch|64}} [[x86]] multi-socket multi-core highest performance server microprocessors introduced by [[Intel]] in 2017. The Xeon Platinum series offers the highes11 KB (1,476 words) - 17:13, 30 December 2022
- EPYC is AMD's flagship mainstream server microprocessors. It was originally announced during AMD's Financial Analyst Day on May 16, ...Using chips manufactured on a [[GlobalFoundries]] [[14 nm process]], these microprocessors range from [[8 cores|eight]] to [[32 cores|thirty-two]] cores. In mid-[[20119 KB (2,580 words) - 02:46, 23 November 2022
- '''Rome''' is codename for [[AMD]]'s high-performance server microprocessors based on the {{amd|Zen 2|l=arch}} microarchitecture serving as a successor Rome-based microprocessors are branded as second-generation, {{amd|EPYC#7002 Series (Zen 2)|7002-serie6 KB (828 words) - 16:47, 15 April 2020
- ...]]'s {{amd|EPYC#7003 Series (Zen 3)|EPYC 7003 series}} of high-performance microprocessors based on the {{amd|Zen 3|l=arch}} microarchitecture for single- and dual-so19 KB (2,734 words) - 01:26, 31 May 2021
- | type = Microprocessors1 KB (97 words) - 14:02, 29 May 2017
- ...' ('''SA''') was a microarchitecture for [[DEC]]'s series of [[ARM]]-based microprocessors {{decc|StrongARM|branded under the same name}}. This microarchitecture was ...puhl, Daniel W. "Circuits and technology for Digital's StrongARM and ALPHA microprocessors [CMOS technology]." Advanced Research in VLSI, 1997. Proceedings., Seventee5 KB (738 words) - 13:49, 15 July 2018
- | type = Microprocessors ...s a family of high-performance and high [[core count]] {{arch|64}} [[x86]] microprocessors introduced by [[Intel]] in mid-2017.8 KB (1,188 words) - 23:47, 11 October 2018
- ...puhl, Daniel W. "Circuits and technology for Digital's StrongARM and ALPHA microprocessors [CMOS technology]." Advanced Research in VLSI, 1997. Proceedings., Seventee2 KB (244 words) - 06:59, 13 June 2017
- ...occurs along with their development of new generations of high-performance microprocessors. Digital continued to operate the Hudson fab until 1997.Fab-6 in Hudson, Ma4 KB (588 words) - 00:02, 26 December 2017
- * [[:File:alpha 21464.ppt|The Alpha 21364 and 21464 Microprocessors: Continuing the Performance Lead Beyond Y2K (PPT)]] ([[:File:alpha 21464.pd2 KB (258 words) - 20:41, 14 June 2017
- * [[:File:alpha 21464.ppt|The Alpha 21364 and 21464 Microprocessors: Continuing the Performance Lead Beyond Y2K (PPT)]] ([[:File:alpha 21464.pd2 KB (228 words) - 13:20, 31 March 2019
- '''Celeron G3930E''' is a {{arch|64}} [[dual-core]] budget [[x86]] desktop microprocessors introduced by [[Intel]] in mid-2017. The G3930E, which is based on the {{in4 KB (653 words) - 13:36, 16 February 2024
- '''Celeron G3930TE''' is a {{arch|64}} [[dual-core]] budget [[x86]] desktop microprocessors introduced by [[Intel]] in mid-2017. The G3930TE, which is based on the {{i4 KB (643 words) - 13:29, 7 April 2018
- | type = Microprocessors '''Alpha''' was a family of {{arch|64}} [[Alpha]]-based performance microprocessors designed by [[DEC]] and introduced in [[1992]].3 KB (388 words) - 06:17, 18 June 2017
- ...ns along with a number of complex ones borrowed from early {{arch|8}} CISC microprocessors. Each instruction is 32-bit in size and operates on two 32-bit operands. Th10 KB (1,558 words) - 15:07, 2 July 2017
- | type = Microprocessors ...s a family of {{arch|64}} [[x86]] high-performance desktop and workstation microprocessors. Ryzen Threadripper is geared toward prosumers that rely on heavily threade13 KB (1,744 words) - 15:33, 16 April 2022
- '''Celeron 3965Y''' is a {{arch|64}} [[dual-core]] budget [[x86]] mobile microprocessors introduced by [[Intel]] in early 2017. The 3965Y, which is based on the {{i4 KB (572 words) - 16:15, 13 December 2017
- [[Category:microprocessors]]6 KB (914 words) - 11:36, 4 June 2020
- == Microprocessors ==885 bytes (84 words) - 18:16, 30 June 2017
- | type = Microprocessors | arch = 32-bit ARM microprocessors3 KB (332 words) - 17:42, 1 July 2017
- ...introduced by [[Intel]] for their high-end {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's highest tier GPU incorporating 72 execution units as4 KB (479 words) - 13:38, 9 July 2017
- ...l]] in [[2015]] for their low-end/low-power {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's lowest tier GPU incorporating just 12 execution unit4 KB (476 words) - 15:56, 9 July 2017
- ...l]] in [[2015]] for the extremely low power {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's mid-tier GPU incorporating 24 execution units. The 54 KB (464 words) - 16:05, 9 July 2017
- ...l]] in [[2015]] for their mainstream mobile {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's mid-tier GPU incorporating 24 execution units. The 54 KB (450 words) - 16:37, 9 July 2017
- ...[[Intel]] in [[2015]] for their mainstream {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's mid-tier GPU incorporating 24 execution units. The 54 KB (476 words) - 16:38, 9 July 2017
- ...[[Intel]] in [[2016]] for their mainstream {{intel|Skylake|l=arch}}-based microprocessors. This GPU is Skylake's high-end tier GPU incorporating 48 execution units.4 KB (480 words) - 17:06, 9 July 2017
- ...rmally introduced by [[Intel]] in July [[2013]] with first general-purpose microprocessors implementing the extensions introduced in July [[2017]]. ...rand using constant indices. For each element of the destination vector, a 2-bit index selects an element in the same 64-bit lane of the source operand. For83 KB (13,667 words) - 15:45, 16 March 2023
- ...ined classified for over 40 years. In early 1970 at least three additional microprocessors were already under development. Intel started working on the {{intel|4004}}6 KB (752 words) - 01:25, 19 January 2022
- | type = Microprocessors1 KB (121 words) - 17:34, 19 July 2017
- The z900 microprocessors were manufactured on [[IBM]]'s [[0.180 µm process]] bulk technology with c972 bytes (124 words) - 18:40, 19 July 2017
- The z990 microprocessors were manufactured on [[IBM]]'s [[0.13 µm process]] with copper interconnec987 bytes (125 words) - 01:48, 6 November 2017
- The z9 microprocessors were manufactured on [[IBM]]'s [[90 nm process]].757 bytes (90 words) - 20:14, 19 July 2017
- The z10 microprocessors were manufactured on [[IBM]]'s [[65 nm process]].769 bytes (91 words) - 02:08, 6 November 2017
- The z196 microprocessors were manufactured on [[IBM]]'s [[45 nm process]].769 bytes (91 words) - 22:03, 19 July 2017
- The z12 microprocessors were manufactured on [[IBM]]'s [[32 nm process]].805 bytes (97 words) - 22:30, 19 July 2017
- The z13 microprocessors were manufactured on [[GlobalFoundries]]'s [[22 nm process]]. Note that thi918 bytes (113 words) - 22:43, 19 July 2017
- z14-based microprocessors are manufactured on [[GlobalFoundries]]'s [[14 nm process|14 nm]] (14HP) [[8 KB (1,204 words) - 14:02, 23 September 2019
- .... Coffee Lake S is the first series of mainstream desktop PC [[hexa-core]] microprocessors from Intel.4 KB (546 words) - 08:18, 1 January 2020
- | {{intel|Tejas|l=core}} || Desktop microprocessors | {{intel|Jayhawk |l=core}} || Server microprocessors3 KB (334 words) - 07:05, 29 December 2018
- Although those microprocessors are still based on {{intel|Kaby Lake|l=arch}}, Intel has branded them as 8t5 KB (751 words) - 09:52, 11 February 2019
- ...2017]] for their low-power performance mobile {{intel|Kaby Lake R|l=core}} microprocessors. The 620 are the mid-range (GT2) IGP offered by Intel with 24 execution uni4 KB (449 words) - 00:51, 22 June 2019
- Skylake W are enterprise workstation microprocessors. Those are a two-chip solution consisting of the microprocessor and the C424 KB (613 words) - 12:46, 3 June 2019
- | type = microprocessors ...of enterprise-class {{arch|64}} multi-core [[x86]] performance workstation microprocessors.10 KB (1,442 words) - 15:17, 11 September 2021
- ...ced the Kirin family which featured their flagship high-performance mobile microprocessors found in their high-end phones and tablets.3 KB (316 words) - 06:18, 3 October 2023
- ...tel]] in [[2017]] for the performance desktop {{intel|Coffee Lake|l=arch}} microprocessors. The 630 are the mid-range (GT2) IGP offered by Intel with 24 execution uni4 KB (473 words) - 21:16, 24 August 2021
- In normal microprocessors such as typical [[CPU]]s and [[GPU]]s, when a core in the case of a CPU or15 KB (2,390 words) - 02:54, 17 May 2023
- ...Sun Microsystems]] in 2010, Oracle has also been designing [[SPARC]]-based microprocessors.974 bytes (99 words) - 20:43, 27 November 2017
- ...'s}} L2 latency was always designed to be 12 cycles. In fact all Zen-based microprocessors (including {{amd|EPYC}}, {{amd|Ryzen Threadripper}}, and Zen-based APUs) ha All Zen+-based mainstream consumer microprocessors utilizes AMD's {{amd|Socket AM4}}, a unified socket infrastructure. All tho11 KB (1,613 words) - 08:39, 3 March 2024
- ...ps which have become considerably more powerful than other [[ARM]]-based [[microprocessors]].2 KB (222 words) - 05:56, 10 May 2022
- | type = Microprocessors '''Pentium Gold''' is a family of {{arch|64}} [[x86]] budget-level microprocessors introduced by [[Intel]] since 2017 succeeding the {{\\|Pentium (2009)|Penti10 KB (1,338 words) - 11:10, 8 April 2018
- | type = Microprocessors '''Pentium Silver''' is a family of {{arch|64}} [[x86]] low-power microprocessors introduced by [[Intel]] in late 2017, succeeding the {{\\|Pentium (2009)|Pe4 KB (492 words) - 09:23, 9 January 2020
- ...''Core IQ''") is a family of [[ARM]] and [[POWER]] embedded and networking microprocessors designed and sold by [[NXP]] (formerly [[Freescale]]) since [[2008]] as a s Announced in mid-2008, the QorIQ P-series are [[POWER]]-based microprocessors based on the {{freescale|e500|l=arch}} microarchitecture. Being the first F6 KB (795 words) - 20:23, 31 October 2017
- This is a '''[[has type::boolean]]''' property holding whether the microprocessors has AMD {{amd|Precision Boost 2}} support.125 bytes (19 words) - 04:00, 27 October 2017
- | type = Microprocessors PEZY-SCx is a family of high-performance, low-power many-core microprocessors designed by [[PEZY]] for a series of supercomputer developed in [[Japan]].6 KB (838 words) - 09:33, 9 May 2019
- '''UltraSPARC''' was a family of {{arch|64}} [[SPARC]] microprocessors designed by [[Sun Microsystems]] as a successor to {{\\|SuperSPARC}}. Initi ...1995, the UltraSPARC-I (''STP1030A'') were Sun's first set of {{arch|64}} microprocessors based on the [[SPARC V9]] architecture. Fabricated on [[Texas Instruments]]3 KB (282 words) - 10:03, 28 November 2017
- Matisse-based microprocessors are branded as 3000-series {{amd|Ryzen 3}}, {{amd|Ryzen 5}}, {{amd|Ryzen 7}5 KB (606 words) - 14:01, 17 March 2023
- ...] for the low-power budget mobile and desktop {{intel|Gemini Lake|l=core}} microprocessors. The 600 are the least powerful (GT1) IGP offered by Intel with 12 executio4 KB (430 words) - 00:01, 16 December 2017
- ...] for the low-power budget mobile and desktop {{intel|Gemini Lake|l=core}} microprocessors. The 605 are a low-power (GT1.5) IGP offered by Intel with 18 execution uni4 KB (438 words) - 00:01, 16 December 2017
- | type = Microprocessors | arch = Many-core x86 microprocessors4 KB (444 words) - 01:38, 19 December 2017
- ...Intel Data Catalogs''', a complete offerings of their products including [[microprocessors]], [[ROM]]s, [[RAM]]s, [[memory]] peripherals, and various other [[ICs]].4 KB (448 words) - 15:02, 3 October 2019
- ...roprocessor designer that specialized in math [[coprocessors]] and [[x86]] microprocessors. Founded by a small group of former [[Texas Instruments]] engineers in [[191 KB (154 words) - 20:23, 14 January 2018
- '''Centaur Technology''' is a [[fabless]] designer of [[x86]] compatible microprocessors. Centaur was funded by [[Integrated Device Technology]] and in September [[1,003 bytes (97 words) - 21:38, 14 January 2018
- | type = Microprocessors '''KaiXian''' ('''ZX'''/'''KX''') is a family of [[x86]] microprocessors developed by [[Zhaoxin]] for the [[Chinese]] market.6 KB (741 words) - 08:23, 27 May 2019
- .... Coffee Lake R is the first series of mainstream desktop PC [[octa-core]] microprocessors from Intel.4 KB (523 words) - 01:38, 7 May 2019
- ...g''' is a fabless semiconductor company that designed [[ARM]]-based server microprocessors. Ampere was founded in [[2017]] from funding from Carlyle Group. Ampere has2 KB (183 words) - 13:33, 17 December 2022
- * [[AppliedMicro]]'s family [[ARM]] server microprocessors178 bytes (19 words) - 12:32, 6 February 2018
- ...mbedded effectively succeeded the {{amd|Opteron}} A1100 series of embedded microprocessors (although those were actually based on [[ARM]], not [[x86]]).5 KB (724 words) - 15:06, 25 May 2019
- ...yzen Embedded effectively succeeded the {{amd|Embedded R-Series}} embedded microprocessors.11 KB (1,642 words) - 03:53, 2 January 2021
- ...sed in Grenoble area, France that designs ultra-low power [[RISC-V]]-based microprocessors for [[neural processor|intelligent]] edge and IoT processing.880 bytes (85 words) - 04:52, 15 December 2019
- This is a '''[[has type::boolean]]''' property holding whether the microprocessors has AMD {{amd|Extended Frequency Range|Extended Frequency Range 2}} support159 bytes (23 words) - 08:17, 7 March 2018
- Vermeer-based microprocessors are branded as 5000-series [[Ryzen 3]], [[Ryzen 5]], [[Ryzen 7]], and [[Ryz6 KB (853 words) - 22:13, 1 September 2021
- ...This microarchitecture is found in their server ({{intel|Xeon Scalable}}) microprocessors and the {{intel|Core i7}} and {{intel|Core i9}} HEDT parts. The first Intel server and HEDT microprocessors to implement the mesh were those based on the Skylake server configuration.7 KB (1,071 words) - 12:59, 2 November 2021
- ...Nvidia to support NVLink on their [[POWER]] microprocessors. For supported microprocessors, the NVLink can eliminate PCIe entirely for all links.9 KB (1,518 words) - 04:38, 12 April 2024
- ...le those ports will be used in configurations involving the {{ibm|POWER9}} microprocessors which have native support for NVLink 2.0.2 KB (269 words) - 04:18, 26 August 2018
- Introduced in [[2018]], Vulcan-based microprocessors are branded as part of the {{cavium|ThunderX2}} family. ...-the-isambard-supercomputer/ A Look at Cavium’s New High-Performance ARM Microprocessors and the Isambard Supercomputer]''.17 KB (2,449 words) - 22:11, 4 October 2019
- | type = Microprocessors '''ThunderX2''' is a family of {{arch|64}} [[multi-core]] [[ARM]] server microprocessors introduced by [[Cavium]] in early [[2018]] succeeding the original {{\\|Thu4 KB (494 words) - 20:33, 26 April 2019
- | type = Microprocessors '''KaisHeng''' ('''KH''') is a family of [[x86]] microprocessors developed by [[Zhaoxin]] for the [[Chinese]] market. This family is primari3 KB (381 words) - 11:42, 13 June 2018
- Kunpeng, also known as Hi16xx, is a series of {{arch|64}} [[ARM]] server microprocessors designed by [[Huawei]]. First introduced in 2015, those processors are gear5 KB (656 words) - 05:07, 13 October 2019
- ...'CPKWS''') is the codename for [[AMD]]'s highest-performance enthusiasts [[microprocessors]] serving as a successor to {{\\|Colfax}}, released in late 2019. Castle Pe Castle Peak-based microprocessors are branded as 3rd-generation [[Ryzen Threadripper]].7 KB (1,002 words) - 14:16, 17 March 2023
- | type = Microprocessors '''eMAG''' is a family of {{arch|64}} high-performance [[ARM]] server microprocessors designed by [[Ampere Computing]] for the data center.4 KB (518 words) - 12:59, 19 May 2021
- Modern microprocessors exploit [[data parallelism]] further through the introduction of various ve10 KB (1,204 words) - 15:03, 25 January 2023
- | type = Microprocessors '''X-Gene''' was a family of {{arch|64}} [[ARM]] server microprocessors designed and introduced by [[AppliedMicro]].8 KB (1,033 words) - 01:25, 26 January 2021
- ...based microprocessors were sold under the {{apm|X-Gene 2}} brand of server microprocessors.583 bytes (66 words) - 20:17, 25 September 2018
- ...based microprocessors were sold under the {{apm|X-Gene 1}} brand of server microprocessors.2 KB (231 words) - 04:17, 26 September 2018
- ...wer. CSA supports the same HPC programming models supported by traditional microprocessors. ...gnitude gain in energy efficiency and performance relative to existing HPC microprocessors through the use of highly-dense and efficient atomic compute units. The bas14 KB (2,130 words) - 20:19, 2 October 2018
- ...]]'s {{amd|EPYC#9004 Series (Zen 4)|EPYC 9004 series}} of high-performance microprocessors based on the {{amd|Zen 4|l=arch}} microarchitecture for single- and dual-so14 KB (1,983 words) - 01:41, 2 April 2023
- | type = Microprocessors '''ThunderX''' is a family of {{arch|64}} [[multi-core]] [[ARM]] server microprocessors introduced by [[Cavium]].4 KB (452 words) - 13:02, 19 May 2021
- ...a [[Chinese]] semiconductor company that designs and sells [[ARM]] server microprocessors. NXT is a joint venture between Guizhou Province and Qualcomm. In MAy 31, 21 KB (112 words) - 23:05, 2 June 2019
- '''StarDragon''' ('''昇龙''') is a family of [[ARM]] server microprocessors designed by [[Huaxintong]] based on [[Qualcomm]]'s design.1 KB (101 words) - 12:55, 16 December 2018
- * Segars, Simon. "The ARM9 Family-High Performance Microprocessors for Embedded Applications." Proceedings of the International Conference on4 KB (391 words) - 03:45, 9 October 2020
- '''Exynos Auto''' is a family of {{arch|64}} [[ARM]] microprocessors designed by [[Samsung]] for the automotive industry.2 KB (225 words) - 10:59, 4 January 2019
- '''Sforza''' is code name for [[IBM]]'s general server scale-out microprocessors based on the {{ibm|POWER9|l=arch}} microarchitecture.2 KB (247 words) - 03:49, 17 January 2019
- ...relative simplicity, SRAM is the most common memory cell found in modern [[microprocessors]]. It is used for various large buffers and caches. Current SoCs allocate a Below are large SRAM blocks highlighted on real-world high-performance microprocessors, showing how much [[silicon]] area, SRAM typically occupies. There are many6 KB (920 words) - 03:14, 30 December 2019
- '''OCTEON TX''' is a family of {{arch|64}} [[multi-core]] [[ARM]] microprocessors designed by [[Cavium]] and introduced in [[2016]]. These processors are pri <tr><th colspan="14" style="background:#D6D6FF;">CN83xx-Series Microprocessors</th></tr>4 KB (483 words) - 18:35, 1 February 2019
- | type = Microprocessors '''FeiTeng''' ('''FT'''; '''飞腾''') is a series of [[ARM]] microprocessors designed and introduced by [[Phytium]] for the desktop and server markets.5 KB (681 words) - 13:23, 28 November 2021
- | type = Microprocessors '''ThunderX3''' is a family of {{arch|64}} [[multi-core]] [[ARM]] server microprocessors planned by [[Marvell]], succeeding the {{\\|ThunderX2}} line originally rel1 KB (88 words) - 22:39, 17 November 2019
- | type = Microprocessors ...family of high-performance {{arch|64}} [[dodeca-core]] [[x86]] and hexadec microprocessors introduced by [[AMD]] in [[2019]]. Ryzen 9 is based on the {{amd|Zen 2|l=ar3 KB (410 words) - 01:07, 26 May 2020
- Cascade Lake W are enterprise workstation microprocessors. Those are a two-chip solution consisting of the microprocessor and the {{i4 KB (610 words) - 11:34, 7 October 2019
- IBM fabricates its z15 microprocessors and system controllers on [[GlobalFoundries]]'s [[14 nm process|14 nm]] (147 KB (912 words) - 16:31, 7 May 2020
- ...ufactured at the [[TSMC]] factory ([[Taiwan]]). In 2014, the production of microprocessors at the russian «Micron» factory also began using a 90 nm process<ref>http MCST microprocessors are used in computing systems with high requirements for information securi3 KB (423 words) - 16:42, 14 November 2019
- | type = Microprocessors2 KB (211 words) - 16:40, 17 November 2020
- '''Socket 754''' was the socket for '''µOPGA-754'''-packaged [[AMD]] microprocessors, successor to {{\\|Socket A}} and the original socket for AMD's [[amd/athlo5 KB (662 words) - 09:51, 29 January 2020
- ...ackaged [[AMD]] [[amd/opteron|Opteron]] and [[amd/athlon_64|Athlon 64 FX]] microprocessors, AMD's first generation of server and workstation processors, based on the4 KB (576 words) - 15:27, 30 January 2020
- '''Socket 939''' was the socket for '''µOPGA-939'''-packaged [[AMD]] microprocessors and the successor to {{\\|Socket 754}}. This is the second socket designed4 KB (490 words) - 22:47, 9 February 2020
- === Alchemy Embedded Microprocessors (MIPS32) ===181 KB (24,861 words) - 16:02, 17 April 2022
- ...2''' was the socket for '''OPGA-940''' and '''OPGA-938'''-packaged [[AMD]] microprocessors with an integrated DDR2 memory controller and the successor to {{\\|Socket7 KB (1,029 words) - 18:40, 22 February 2020
- ...s the second socket for '''OPGA-940''' and '''OPGA-938'''-packaged [[AMD]] microprocessors with an integrated DDR2 memory controller and the successor to {{\\|Socket8 KB (1,212 words) - 19:01, 22 February 2020
- ...3''' was the socket for '''OPGA-938''' and '''OPGA-940'''-packaged [[AMD]] microprocessors with an integrated DDR2/DDR3 memory controller and the successor to {{\\|So12 KB (1,960 words) - 12:23, 18 July 2020
- ...3r2, was the socket for '''OPGA-938''' and '''OPGA-940'''-packaged [[AMD]] microprocessors with an integrated DDR3 memory controller and the successor to {{\\|Socket6 KB (822 words) - 15:01, 9 December 2022
- '''ASB1''' was a BGA-812 package for low power [[AMD]] mobile microprocessors with an3 KB (481 words) - 16:24, 16 March 2023
- '''ASB2''' was a BGA-812 package for low power [[AMD]] mobile microprocessors with an4 KB (527 words) - 16:25, 16 March 2023
- '''FT1''' was a CPU package for low power [[AMD]] microprocessors with integrated graphics targeting the thin client, embedded, and tablet ma14 KB (2,611 words) - 00:31, 4 April 2022
- ...''CPGA-321'''-packaged [[AMD]] [[amd/k6-2|K6-2]] and [[amd/k6-iii|K6-III]] microprocessors, compatible with [[Intel]]'s earlier Socket 7, and an open standard unlike6 KB (935 words) - 09:30, 27 July 2020
- '''Socket FM1''' was the socket for '''OPGA-905'''-packaged [[AMD]] microprocessors, the first generation of AMD APUs, desktop processors with integrated graph7 KB (1,063 words) - 15:50, 4 September 2020
- ...FM2b and FM2r2, is the socket for '''OPGA-906'''-packaged [[AMD]] desktop microprocessors with integrated graphics. Mobile and embedded versions of these APUs are av5 KB (770 words) - 15:12, 4 September 2020
- '''Socket FM2''' was the socket for '''OPGA-904'''-packaged [[AMD]] desktop microprocessors with integrated graphics, the successor to {{\\|Socket FM1}}. Its counterpa5 KB (727 words) - 15:34, 4 September 2020
- ...T3''' is a '''BGA-769''' package for low power [[AMD]] mobile and embedded microprocessors with an integrated north bridge, graphics processor, and controller hub. It5 KB (645 words) - 16:31, 16 March 2023
- '''FT3b''' is a '''BGA-769''' package for low power [[AMD]] microprocessors with an integrated north bridge, graphics processor, and controller hub tar4 KB (610 words) - 16:33, 16 March 2023
- '''FT4''' is a '''BGA-769''' package for low power [[AMD]] mobile microprocessors with an integrated north bridge, graphics processor, and controller hub. Th4 KB (543 words) - 16:33, 16 March 2023
- '''Socket FS1''' was the socket for '''OPGA-722'''-packaged [[AMD]] mobile microprocessors, the first generation of APUs, "Fusion" processors with integrated graphics4 KB (580 words) - 13:34, 7 September 2020
- ...\|Socket FS1b}}, was the socket for '''OPGA-722'''-packaged [[AMD]] mobile microprocessors with integrated graphics, the successor to {{\\|Socket FS1}}. For thin clie5 KB (755 words) - 13:50, 7 September 2020
- ...as Socket FS1b, was the socket for '''OPGA-721'''-packaged [[AMD]] desktop microprocessors with an integrated north bridge, graphics processor, and controller hub tar5 KB (642 words) - 14:08, 7 September 2020
- '''FP2''' was a BGA-827 package for [[AMD]] mobile and embedded microprocessors with integrated graphics, the BGA counterpart to the PGA-722 package for {{4 KB (641 words) - 23:21, 25 March 2023
- '''FP3''' is a BGA-854 package for [[AMD]] mobile and embedded microprocessors with integrated graphics. Its counterpart for desktop processors is the PGA5 KB (630 words) - 23:22, 25 March 2023
- '''SP1''' was a '''BGA-1021''' package for [[AMD]] server microprocessors codenamed {{amd|Seattle|l=core}} with 8 ARM {{armh|Cortex-A57|l=arch}} CPU3 KB (404 words) - 16:38, 16 March 2023
- '''Seattle''' is the codename for a series of [[AMD]] server microprocessors based on3 KB (380 words) - 14:32, 17 March 2023
- '''FP4''' is a BGA-968 package for [[AMD]] mobile and embedded microprocessors with an integrated north bridge, graphics processor, and controller hub. So5 KB (679 words) - 23:22, 25 March 2023
- '''FP5''' is a BGA-1140 package for [[AMD]] mobile and embedded microprocessors with an integrated north bridge, graphics processor, and controller hub tar5 KB (642 words) - 23:22, 25 March 2023
- ...ps which have become considerably more powerful than other [[ARM]]-based [[microprocessors]].-->2 KB (230 words) - 19:10, 9 August 2023
- ...''-packaged AMD [[amd/opteron|Opteron]] and [[amd/athlon_64|Athlon 64 FX]] microprocessors with integrated [[DDR2]] memory controllers. It succeeded {{\\|Socket 940}}11 KB (1,717 words) - 17:25, 5 February 2021
- ...s, was a low-profile ZIF socket for '''OPGA-638'''-packaged [[AMD]] mobile microprocessors with an integrated [[DDR2]] memory controller, and the successor to {{\\|So8 KB (1,126 words) - 18:53, 12 January 2021
- ...t S1g2''' was the second socket for '''OPGA-638'''-packaged [[AMD]] mobile microprocessors with an integrated [[DDR2]] memory controller, and the successor to {{\\|So8 KB (1,211 words) - 19:08, 12 January 2021
- ...et S1g3''' was the third socket for '''OPGA-638'''-packaged [[AMD]] mobile microprocessors with an integrated DDR2 memory controller, and the successor to {{\\|Socket5 KB (767 words) - 19:14, 12 January 2021
- ...was the fourth and last socket for '''OPGA-638'''-packaged [[AMD]] mobile microprocessors with an integrated [[DDR2]] and [[DDR3]] memory controller, and the success10 KB (1,781 words) - 19:23, 12 January 2021
- ...et for '''LGA-1207'''-packaged [[AMD]] [[amd/opteron|Opteron]] 4000 Series microprocessors in servers optimized for energy efficiency and cost. Like the prior generat7 KB (998 words) - 20:07, 7 February 2021
- ...ed for '''LGA-1944'''-packaged [[AMD]] [[amd/opteron|Opteron]] 6000 Series microprocessors optimized for performance per Watt and scalability. The designation G34 sta36 KB (7,214 words) - 15:50, 23 April 2022
- ...Lake S is the first series of mainstream desktop heterogeneous multi-core microprocessors from Intel. Alder Lake S (C0) microprocessors are fabricated on [[Intel]]'s [[Intel 7|Intel 7 process]]. This SoC uses a4 KB (522 words) - 15:56, 5 November 2021
- ...r {{alchemy|Alchemy}} family of high performance, ultra low power embedded microprocessors. Details about Au1 were disclosed at the Embedded Processor Forum in San Jo13 KB (2,114 words) - 16:00, 17 April 2022
- '''Alchemy''' is a family of high performance, ultra low power embedded microprocessors implementing the [[MIPS32]] ISA. They were originally designed by [[Alchemy31 KB (4,972 words) - 03:09, 20 March 2022
- '''Socket 563''' was a socket for low voltage [[AMD]] {{amd|Athlon XP-M}} microprocessors targeting thin and light mobile and value PCs. The majority of Athlon proce6 KB (849 words) - 21:29, 13 May 2023