KOMDIV-64

The KOMDIV-64 (Russian: КОМДИВ-64) is a family of 64-bit microprocessors developed by the Scientific Research Institute of System Development (NIISI) of the Russian Academy of Sciences and manufactured by TSMC, UMC, GlobalFoundries, and X-Fab.[1] The KOMDIV-64 processors are intended primarily for industrial and high-performance computing applications.

KOMDIV-64
General Info
Launched2007 (2007)
Designed byNIISI
Performance
Max. CPU clock rate200 MHz to 1.5 GHz
Architecture and classification
Min. feature size28 nm to 0.35 μm
Instruction setMIPS IV
Physical specifications
Cores
  • 1 to 2

These microprocessors implement the MIPS IV instruction set architecture (ISA).

Overview
Designation Cores Production start (year) Process (nm) Clock rate (MHz) Remarks
Russian English
1990ВМ3Т 1990VM3T 1 2008 ? 350 ? [2][3][4]
1890ВМ5Ф 1890VM5F 1 2007 ? 350 350 [2][3][4]
1890ВМ6Я 1890VM6Ya 1 2011 180 270 [2][3][4][5][6]
1890ВМ7Я 1890VM7Ya 1 2011 180 200 [2][3][4][5][7]
1890ВМ8Я 1890VM8Ya 2 2015 65 800 [2][4][5][8]
1890ВМ9Я 1890VM9Ya 2 2016 65 1000 [2][4][5]
1890ВМ108 1890VM108 1 2017 65 800 [5][9]
1890ВМ118 1890VM118 2 2018 28 1500 [5][9][10]
1890ВМ128 1890VM128 1 2018 65 800 [5][9]
1907BM028 1907VM028 1 2016 250 150 rad-hard[2][4][11]

Details

1990VM3T
  • 0.35 μm CMOS process
  • 240-pin QFP

1890VM5F
  • 0.35 μm CMOS process
  • 16 KB L1 instruction cache, 16 KB L1 data cache, 256 KB L2 cache
  • in-order, dual-issue superscalar; 5-stage integer pipeline, 7-stage floating point pipeline
  • 26.6 million transistors
  • compatible with PMC-Sierra RM7000
  • performance: 0.68 dhrystones/MHz, 1.03 whetstones/MHz, 1.09 coremarks/MHz[12]

1890VM6Ya
  • 0.18 μm CMOS process
  • 16 KB L1 instruction cache, 16 KB L1 data cache, 256 KB L2 cache
  • 680-pin BGA
  • System-on-a-chip (SoC) including a PCI controller, 5 64-bit timers, RapidIO, Ethernet 100/10 Mbit/s, USB 2.0, I²C
  • performance: 0.90 dhrystones/MHz, 1.32 whetstones/MHz, 1.47 coremarks/MHz[12]

1890VM7Ya
  • 0.18 μm CMOS process
  • 16 KB L1 instruction cache, 16 KB L1 data cache, 32 KB general-purpose SRAM
  • 680-pin BGA
  • System-on-a-chip (SoC) including a PCI controller, 3 64-bit timers, RapidIO, I²C, SPI, 128-bit DSP with 4 cores and 64 KB RAM per core

1890VM8Ya

1890VM9Ya

1890VM108

1890VM118

1890VM128
  • 65 nm CMOS process; manufactured at TSMC[5]
  • System-on-a-chip (SoC) including a PCI controller, Ethernet 1000/100/10 Mbit/s, USB 2.0, I²C, SPI, graphics co-processor
  • power consumption 20 W, temperature range -60 °C to +85 °C

1907VM028
gollark: Spoiler: the increased CPU use in newer windowses is actually due to spare CPU being used to mine krists.
gollark: Thanks to someone my computer just ran out of RAM and froze!
gollark: But nobody could *entirely* dislike potatOS, surely?
gollark: So, `yes` and `maybe`?
gollark: We could go for better options though, like `yes`, `certainly` and `absolutely`.

See also

References
  1. "Отделение разработки вычислительных систем" [Computer systems development branch] (in Russian). Moscow: NIISI. Retrieved 9 September 2016.
  2. "Разработка СБИС - Развитие микропроцессоров с архитектурой КОМДИВ" [VLSI development - Development of microprocessors using the KOMDIV architecture] (in Russian). Moscow: NIISI. Retrieved 6 September 2016.
  3. "Микросхемы вычислительных средств, включая микропроцессоры, микроЭВМ, цифровые процессоры обработки сигналов и контроллеры" [Integrated circuits for computing devices, including microprocessors, microcomputers, digital signal processors, and controllers] (in Russian). Promelektronika VPK. Archived from the original on 28 March 2017. Retrieved 25 October 2017.
  4. "Изделия отечественного производства" [Domestic products] (in Russian). Moscow: AO "ENPO SPELS". Retrieved 1 September 2016.
  5. Aryashev, Sergei (13 April 2017). "Отечественные системы на кристалле с архитектурой Комдив64. Текущее состояние. Перспективы развития" [Domestic systems-on-chip with a KOMDIV-64 architecture. Current State. Future developments.] (PDF) (in Russian). Retrieved 21 November 2018.
  6. "Микросхема 1890ВМ6Я / 1890ВМ6АЯ / 1890ВМ6БЯ" [Integrated Circuit 1890VM6Ya / 1890VM6AYa / 1890VM6BYa] (PDF) (in Russian). Moscow: NIISI. Retrieved 12 September 2016.
  7. "Микросхема 1890ВМ7Я" [Integrated Circuit 1890VM7Ya] (PDF) (in Russian). Moscow: NIISI. Retrieved 12 September 2016.
  8. "Микросхема 1890ВМ8Я" [Integrated Circuit 1890VM8Ya] (PDF) (in Russian). Moscow: NIISI. Retrieved 13 September 2016.
  9. Andrei, Senkov (30 October 2018). "Новые пакеты поддержки российских процессорных платформ под ЗОСРВ "Нейтрино"" [New support packages for Russian processor platforms for the Protected Real-Time Operating System "Neutrino"] (PDF) (in Russian). Retrieved 26 November 2018.
  10. Aryashev, Sergei (2017). "High-Performance Microprocessor 1890BM118 for Trusted Computing Systems" (PDF). Software & Systems (in Russian). 30 (3): 345–352.
  11. "Микросхема 1907ВМ028, 1907ВМ02Н4" [Integrated Circuit 1907VM028, 1907VM02N4] (PDF) (in Russian). Moscow: NIISI. Retrieved 24 March 2017.
  12. Чибисов, Петр Александрович (28 September 2012). "Запуск ОС Linux как этап функционального тестирования микропроцессоров" [Launch of the Linux OS as a stage of the functional testing of microprocessors] (in Russian). NIISI. pp. 12–14. Retrieved 13 April 2017.
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