Semiconductor & Computer Engineering
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- |max memory addr=4 kB |tstorage max=125 °C5 KB (748 words) - 21:37, 21 November 2021
- | clock max = 31 MHz ...any multiple of 4-bit wide data path (8, 12, 16, 32, etc. bits) and memory address for use in larger systems.9 KB (1,061 words) - 22:55, 18 June 2019
- | clock max = 16.67 MHz | {{\|3232}} || Address Multiplexer and Refresh Counter for 4K DRAMs3 KB (308 words) - 05:03, 18 February 2020
- | clock max = | {{\\|100220}} || Address and Data Interface Unit (ADIU)4 KB (521 words) - 14:38, 11 June 2017
- | clock max = 740 kHz At the time, Intel was only known for their memory chips. On 15 November 1971, they publicly announced the first commercial mi4 KB (433 words) - 22:40, 27 June 2019
- |max memory=16 KiB |temp max=70 °C2 KB (254 words) - 19:24, 23 March 2022
- |stages max=19 * 2 [[address generation units]] (AGUs)38 KB (5,468 words) - 20:29, 23 May 2019
- | stages max = 14 While the previous {{intel|Atom}} architecture did away with the memory controller by integrating and other support chips on-die, it still used a F9 KB (1,160 words) - 09:35, 25 September 2019
- |stages max=19 ** Address prediction for branches and returns was improved14 KB (1,891 words) - 14:37, 6 January 2022
- |stages max=19 * New memory model for {{x86|TSX|Transactional Synchronization Extensions}}27 KB (3,750 words) - 06:57, 18 November 2023
- |stages max=19 ** Memory Subsystem84 KB (13,075 words) - 00:54, 29 December 2020
- |stages max=19 **** Limits motherboard trace design to 7 inches max from the CPU to chipset (down from 8)79 KB (11,922 words) - 06:46, 11 November 2022
- | clock max = 50 MHz * 14x chip selects (8x peripherals, 6x memory)7 KB (962 words) - 04:25, 22 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (364 words) - 16:51, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB3 KB (364 words) - 16:51, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (364 words) - 16:52, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (374 words) - 16:51, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (374 words) - 16:52, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB3 KB (367 words) - 16:50, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB3 KB (367 words) - 16:51, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB3 KB (367 words) - 16:51, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (378 words) - 16:50, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (378 words) - 16:51, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (390 words) - 16:49, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (390 words) - 16:50, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (390 words) - 16:50, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (402 words) - 16:50, 30 June 2017
- | max cpus = 1 | max memory = 1 MiB4 KB (402 words) - 16:50, 30 June 2017
- | max cpus = | max memory =8 KB (1,031 words) - 14:09, 10 May 2019
- | max cpus = 1 | max memory =3 KB (359 words) - 16:13, 13 December 2017
- | max cpus = 1 | max memory =3 KB (337 words) - 16:13, 13 December 2017
- | max cpus = 1 | max memory =3 KB (331 words) - 16:13, 13 December 2017
- | max cpus = 1 | max memory =3 KB (331 words) - 16:13, 13 December 2017
- | max cpus = 20,000 | max memory =6 KB (731 words) - 15:41, 5 July 2018
- ** 16-entry return address stack ...h><th>Core</th><th>Launched</th><th>Power Dissipation</th><th>Freq</th><th>Max Mem</th></tr>4 KB (578 words) - 18:57, 22 May 2019
- === Memory Hierarchy === ...n all four areas of the core (the front end, the execution engine, and the memory subsystem) as well as Zen's new [[SoC]] CCX (CPU Complex) modular design. T79 KB (12,095 words) - 15:27, 9 June 2023
- ** Memory subsystem * <code>{{x86|MCOMMIT}}</code> - Commit stores to memory57 KB (8,701 words) - 22:11, 9 October 2022
- ...performance further, the MIPS cores and the PEZY cores now share the same address space, reducing data transfer overhead. It's worth noting that the use of p ...onally, there is another 40 MiB consisting of 20 KiB per PE of scratch pad memory. This was increased from 16 KiB in the {{\\|Pezy-SC}}.5 KB (683 words) - 11:15, 22 September 2018
- .... The new chip, which made use of a slightly different package in order to address a number of signal-related issues (DRAM/PCIe signal failures). The new mode Additionally, there is another 16 MiB of scratch-pad memory consisting of 16 KiB per PE.3 KB (403 words) - 11:15, 22 September 2018
- ...nario demands it (such as in cases where higher fixed-function geometry or memory demands occur). ...down the pipeline. In addition, the CS unit reads “constant data” from memory29 KB (3,752 words) - 13:14, 19 April 2023
- ** Shared Virtual Memory (SVM) improvements ** Floating point atomics (min/max/cmpexch)33 KB (4,255 words) - 17:41, 1 November 2018
- |stages max=16 ! SoC Codename || SoC Description || Module || Memory Channels || PCIe || {{ibm|XBUS}} || [[OpenCAPI]]14 KB (1,905 words) - 23:38, 22 May 2020
- |stages max=15 === Memory Hierarchy ===6 KB (822 words) - 13:01, 19 May 2021
- * {{arm|26-bit|26-bit address space}} ...simplify system design, these clocks may be stretched to work in-sync with memory access times.12 KB (1,886 words) - 12:56, 14 January 2021
- | stages max = ** Early zero bubble predictor using Target Address Registers controlled by the compiler7 KB (978 words) - 21:16, 20 January 2021
- | max cpus = 1 | max memory = 2 GiB6 KB (683 words) - 16:31, 13 December 2017
- | max cpus = 1 | max memory = 2 GiB6 KB (666 words) - 16:31, 13 December 2017
- | max cpus = 1 | max memory =6 KB (681 words) - 17:03, 24 January 2018
- |stages max=12 ** Separate data & address buses4 KB (527 words) - 02:09, 4 August 2017
- ...ements. The ARM2 was capable of exceeding 10 MIPS when not bottlenecked by memory with an average of around 6 MIPS. Unlike the ARM1 which was predominantly a * > 2x MIPS when not bottlenecked by memory14 KB (2,093 words) - 04:42, 10 July 2018
