Semiconductor & Computer Engineering
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- * June 30: [[Via Technologies]] announced the acquisition of [[Cyrix]] division from [[National Semiconductor]].533 bytes (60 words) - 23:21, 27 January 2018
- * Unknown: [[rockwell international|Rockwell's Semiconductor division]] was established.123 bytes (13 words) - 02:01, 2 January 2018
- <tr><td>Integer/FP Division and [[Square Root]]</td></tr>30 KB (4,192 words) - 13:48, 10 December 2023
- ...[[Advanced Micro Devices]], [[Cyrix Corporation]], [[IBM Microelectronics Division]], and [[SGS-Thomson]]. These specification have long been obsolete and hav ...jointly by Advanced Micro Devices, Cyrix Corporation, IBM Microelectronics Division, SGS-Thomson</small>11 KB (1,244 words) - 06:26, 8 July 2020
- ...n be done by any of the ALUs whereas the more expensive multiplication and division ones can only be done by their respective ALUs (there is one of each). Addi79 KB (12,095 words) - 15:27, 9 June 2023
- The MSM2 is a dual-mode ([[code-division multiple-access|CDMA]]/[[advanced mobile phone system|AMPS]]) and digital p2 KB (230 words) - 16:18, 2 January 2017
- ...as founded in [[2006]] when [[Philips Electronics]] sold its semiconductor division to a consortium of private equity investors. In [[2015]] NXP merged with [[1 KB (122 words) - 06:54, 17 August 2020
- ...BM's own {{ibm|Power}} [[microprocessors]] on a bleeding edge process. The division was sold to [[GlobalFoundries]]. While they still design chips, they are no2 KB (251 words) - 11:14, 15 September 2019
- ...oating multiplication is 3 cycles, addition is 3 cycles, and longest float division is 16 cycles.7 KB (940 words) - 00:12, 8 March 2021
- ...e ARM1 was the initial result of the ''Advanced Research and Development'' division Acorn Computers formed in order to advance the development of their own [[R12 KB (1,886 words) - 12:56, 14 January 2021
- ...powerful computers, Acorn formed the ''Advanced Research and Development'' division. In 1983 the group was established in an attempt to develop a their own RIS6 KB (834 words) - 01:12, 29 January 2019
- **** 8/16/32/64 bit signed integer division/modulo latency improved from 17/22/30/46 cycles to 10/12/14/20. (Unsigned o15 KB (1,978 words) - 22:13, 6 April 2023
- ...tly dissolved with all its assets absorbed into Fujitsu's microelectronics division. The {{\|SPARC64 GP}} was a single-chip design, incorporating the [[memory4 KB (468 words) - 18:22, 12 April 2017
- Integer division latency: "Throughput improves proportionately." is incorrect if fully pipel113 bytes (13 words) - 06:22, 1 October 2021
- | colspan="7" | Parallel addition, division (source1 / source2), maximum, minimum, multiplication, or subtraction (sour83 KB (13,667 words) - 15:45, 16 March 2023
- <tr><td>Integer/FP Division and [[Square Root]]</td></tr>52 KB (7,651 words) - 00:59, 6 July 2022
- | M || Standard Extension for Integer Multiplication and Division || 2.0 || Frozen || 83 KB (363 words) - 12:04, 30 May 2023
- ...Corporation]]. The list is federally funded by the National Cyber Security Division (NCSD) of the U.S. Department of Homeland Security (DHS). MITRE maintains t6 KB (914 words) - 22:56, 17 January 2018
- ...ve integer ALUs with only the first one capable of also multiplication and division. It's worth pointing out that while all three pipes are capable of executio13 KB (1,962 words) - 14:48, 21 February 2019
- ...[RISC-V]] cores with support for the {{risc-v|m|integer multiplication and division instructions}} (M) and {{risc-v|c|compressed instructions}} (C) {{risc-v|st6 KB (981 words) - 14:11, 28 February 2018