KOMDIV-32

• 0.5 μm CMOS process, 3-layer metal
• 108-pin ceramic Quad Flat Package (QFP)
• 1.5 million transistors, 8KB L1 instruction cache, 8KB L1 data cache, compatible with IDT 79R3081E

• 0.5 μm CMOS process

• 0.35 μm CMOS process

• 0.35 μm silicon on insulator (SOI) CMOS process
• 108-pin ceramic Quad Flat Package (QFP)
• working temperature from -60 to 125 °C

• 0.5 μm silicon on insulator (SOI) CMOS process
• 108-pin ceramic Quad Flat Package (QFP)
• cache (8KB each for data and instructions)
• working temperature from -60 to 125 °C

• 0.5 μm SOI CMOS process
• 240-pin ceramic QFP
• radiation tolerance to not less than 200 kRad, working temperature from -60 to 125 °C
• System-on-a-chip (SoC) including PCI master / slave, 16 GPIO, 3 UART, 3 32-bit timers
• cache (8KB each for data and instructions)
• second-sourced by MVC Nizhny Novgorod under the name 1904VE1T ({{langx|ru|1904ВЕ1Т}}) with a clock rate of 40 MHz

• development name Rezerv-32
• 0.35 μm SOI CMOS process
• 108-pin ceramic QFP
• radiation tolerance to not less than 200 kRad, working temperature from -60 to 125 °C
• triple modular redundancy on block level with self-healing
• both registers and cache (4KB each for data and instructions) are implemented as dual interlocked storage cells (DICE)

• 0.25 μm SOI CMOS process; manufacturing to be moved to Mikron
• 256-pin ceramic QFP
• production planned for 2016 (previously this device was planned to go into production in 2014 under the name 1907VE1T or 1907VM1T)
• radiation tolerance to not less than 200 kRad
• SoC including SpaceWire, GOST R 52070-2003 (Russian version of MIL-STD-1553), SPI, 32 GPIO, 2 UART, 3 timers, JTAG
• cache (8KB each for data and instructions)

• development name Skhema-10
• 0.25 μm SOI CMOS process; manufacturing to be moved to Mikron
• 675-pin ceramic BGA
• SoC including SpaceWire, GOST R 52070-2003 (MIL-STD-1553), RapidIO, SPI, I²C, 16 GPIO, 2 UART, 3 32-bit timers, JTAG, DSP (same command set as DSP in 1890VM7Ya)
• DDR2 SDRAM controller with ECC
• cache (8KB each for data and instructions)
• working temperature from -60 to 125 °C

• development name Obrabotka-10
• 0.25 μm SOI CMOS process; manufactured by Mikron
• 256-pin ceramic QFP
• SoC including SpaceWire, GOST R 52070-2003 (MIL-STD-1553), SPI, 32 GPIO, 2 UART, 3 timers, JTAG
• radiation tolerance to not less than 200 kRad
• triple modular redundancy in processor core
• both registers and cache (4KB each for data and instructions) are implemented as dual interlocked storage cells (DICE) with 1 parity bit per byte for cache and Hamming code for registers
• SECDED for external memory
• working temperature from -60 to 125 °C

• development name Skhema-23
• 0.25 μm SOI CMOS process; manufactured by Mikron
• 407-pin ceramic PGA
• SoC including 8-channel SpaceWire, GOST R 52070-2003 (MIL-STD-1553), SPI, I²C, CAN bus, 32 GPIO, 2 UART, 3 timers, JTAG
• cache (8KB each for data and instructions)

• development name Obrabotka-26
• 0.25 μm silicon on insulator (SOI) CMOS process; manufactured by Mikron
• 407-pin ceramic PGA
• SoC including 4-channel SpaceWire, GOST R 52070-2003 (MIL-STD-1553), SPI, I²C, RapidIO, GPIO, 2 UART, 3 timers, JTAG, PCI, co-processor for image processing
• cache (8KB each for data and instructions)

• development name Obrabotka-29
• 0.25 μm silicon on insulator (SOI) CMOS process; manufactured by Mikron
• PGA
• SoC including 4-channel SpaceWire, GOST R 52070-2003 (MIL-STD-1553), SPI, 32 GPIO, 2 UART, 3 timers, 128KB SRAM
• triple modular redundancy in processor core

• KOMDIV-64, 64-bit MIPS processors developed by NIISI
• Mongoose-V, a 32-bit MIPS processor for spacecraft applications developed for NASA
• Soviet integrated circuit designation

{{reflist|refs=

{{cite web

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|url=http://dailyrumors.blogspot.com/2007/12/first-russian-mips-compatible.html

|date=22 December 2007

|accessdate=6 September 2016

}}

{{cite web

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| trans-title=VLSI development - Development of microprocessors using the KOMDIV architecture

| publisher=NIISI

| place=Moscow

| url=https://www.niisi.ru/devel.htm

| language=Russian

| accessdate=6 September 2016

}}

{{cite web

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| trans-title=Aspects of the radiation resistance of integrated circuits

| first=Pavel Nikolaevich

| last=Osipenko

| publisher=NIISI

| place=Moscow

| url=http://cad2011.mephi.ru/downloads/Osipenko_Radiation_2011.pdf

| archive-url=https://web.archive.org/web/20120425160521/http://cad2011.mephi.ru/downloads/Osipenko_Radiation_2011.pdf

| archive-date=25 April 2012

| date=12 October 2011

| accessdate=7 September 2016

| language=Russian

}}

{{cite conference

| title=ИЗДЕЛИЯ НАУЧНО-ИССЛЕДОВАТЕЛЬСКОГО ИНСТИТУТА СИСТЕМНЫХ ИССЛЕДОВАНИЙ РАН ДЛЯ АЭРОКОСМИЧЕСКИХ ПРИЛОЖЕНИЙ

| trans-title=ELECTRONIC COMPONENTS OF SCIENTIFIC RESEARCH INSTITUTE FOR SYSTEM ANALYSIS RAS FOR SPACE APPLICATION

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{{cite web

| title=ОДНОКРИСТАЛЬНЫЙ МИКРОПРОЦЕССОР С АРХИТЕКТУРОЙ MIPS 1B812

| trans-title=Single-chip microprocessor with MIPS architecture 1V812

| publisher=NIISI

| place=Moscow

| url=https://www.niisi.ru/o/1b578omp_short.doc

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{{cite web

| title=Отделение разработки вычислительных систем

| trans-title=Computer systems development branch

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| language=Russian

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{{cite web

| title=1890ВМ2Т

| trans-title=1890VM2T

| publisher=NIISI

| place=Moscow

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| language=Russian

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{{cite web

| title=Микросхема 1907ВМ038

| trans-title=Integrated circuit 1907VM038

| publisher=NIISI

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| accessdate=28 March 2017

| language=Russian

}}

{{cite web

| title=Микросхема 1907ВМ044

| trans-title=Integrated circuit 1907VM044

| publisher=NIISI

| place=Moscow

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| accessdate=3 April 2017

| language=Russian

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{{cite web

| title=Микропроцессоры и микроконтроллеры

| trans-title=Microprocessors and microcontrollers

| publisher=MVC

| place=Nizhny Novgorod

| url=http://mvc-nn.ru/%d0%bf%d1%80%d0%be%d0%b4%d1%83%d0%ba%d1%86%d0%b8%d1%8f/%d0%bc%d0%b8%d0%ba%d1%80%d0%be%d0%bf%d1%80%d0%be%d1%86%d0%b5%d1%81%d1%81%d0%be%d1%80%d1%8b-%d0%b8-%d0%bc%d0%b8%d0%ba%d1%80%d0%be%d0%ba%d0%be%d0%bd%d1%82%d1%80%d0%be%d0%bb%d0%bb%d0%b5%d1%80%d1%8b/

| archive-url=https://web.archive.org/web/20170310170246/http://mvc-nn.ru/%D0%BF%D1%80%D0%BE%D0%B4%D1%83%D0%BA%D1%86%D0%B8%D1%8F/%D0%BC%D0%B8%D0%BA%D1%80%D0%BE%D0%BF%D1%80%D0%BE%D1%86%D0%B5%D1%81%D1%81%D0%BE%D1%80%D1%8B-%D0%B8-%D0%BC%D0%B8%D0%BA%D1%80%D0%BE%D0%BA%D0%BE%D0%BD%D1%82%D1%80%D0%BE%D0%BB%D0%BB%D0%B5%D1%80%D1%8B

| archive-date=10 March 2017

| language=Russian

| date=2014

| accessdate=29 March 2018

| url-status=dead

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{{cite web

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|trans-title = Integrated circuits for computing devices, including microprocessors, microcomputers, digital signal processors, and controllers

|publisher = Promelektronika VPK

|url = http://promvpk.ru/Catalog/Index/51a26afb6d0fad80e40359fc

|archive-url = https://web.archive.org/web/20170328054636/http://promvpk.ru/Catalog/Index/51a26afb6d0fad80e40359fc

|archive-date = 28 March 2017

|language = ru

|accessdate = 25 October 2017

|url-status = dead

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{{cite web

| title=Методика обеспечения сбоеустойчивости ПЛИС для ракетно-космического применения

| trans-title=Method for ensuring the fail-safe operation of FPGA in rocket and space applications

| place=Moscow

| first=Иван Николаевич

| last=Костарев

| publisher=Moscow Institute of Electronics and Mathematics

| url=http://statref.ru/ref_qaspolotryfs.html

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{{cite web

| title=Изделия отечественного производства

| trans-title=Domestic products

| publisher=AO "ENPO SPELS"

| place=Moscow

| url=http://www.spels.ru/index.php?option=com_easytablepro&view=easytable&id=13

| language=Russian

| accessdate=1 September 2016

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{{cite journal

| title=The special radiation-hardened processors for new highly informative experiments in space

| journal=Journal of Physics: Conference Series

| volume=798

| date=2017

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| last=Serdin

| issue=1

| page=012010

| doi=10.1088/1742-6596/798/1/012010

| bibcode=2017JPhCS.798a2010S

| doi-access=free

}}

{{cite web

| title=The special radiation-hardened processors for new highly informative experiments in space

| date=13 October 2016

| accessdate=5 April 2017

| first=O.V.

| last=Serdin

| url=http://indico.cfr.mephi.ru/event/4/session/29/contribution/19/material/slides/0.pdf

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{{cite web

| title=Российская микроэлектроника для космоса: кто и что производит

| trans-title=Russian microelectronics for space applications: Who manufactures what

| date=28 March 2014

| publisher=Geektimes

| url=https://geektimes.ru/post/254138/

| first=Валерий

| last=Шунков

| language=Russian

| accessdate=8 April 2017

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{{cite web

| title=Перспективные ЭВМ семейства БАГЕТ

| trans-title=Future computers in the BAGET family

| date=2017

| publisher=AO KB "Korund-M"

| place=Moscow

| url=http://nesmelov.com/images/portfolio/polygraphy/korund-m.pdf

| language=ru

| access-date=1 April 2021

}}

}}

{{List of Russian microprocessors}}

{{List of Soviet microprocessors}}

Category:Radiation-hardened microprocessors

Category:Avionics computers

Category:MIPS implementations

Category:32-bit microprocessors