Multicore (Russian: МУЛЬТИКОР) is a series of 32-bit microprocessors with embedded DSP cores developed by ELVEES, Russia.[1] The microprocessor is a MIPS32 core (called RISCore32 by ELVEES; optionally with an FPU) or an ARM Cortex-A9 core. Some of the processors in the series are radiation hardened (rad-hard) for space applications.

ELVEES Multicore
General information
Launched2004; 20 years ago (2004)
Designed byELVEES
Performance
Max. CPU clock rate80 MHz to 1.5 GHz
Architecture and classification
Technology node250 nm to 16 nm
Instruction setCPU MIPS32 + DSP ELcore
Physical specifications
Cores
  • 0–8 processors + 0–16 DSP

Overview

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Device Microprocessor core DSP core Production start (year) Process (nm) Clock rate (MHz) Remarks
1892VM1T RISCore32 1x ELcore ? ? ? [2]
1892VM1Ya RISCore32 1x ELcore ? ? ? [2][3]
1892VM2Ya RISCore32 1x ELcore-24 2005 250 80 [2][3][4][5]
1892VM3T RISCore32 1x ELcore-14 2005 250 80 [2][3][4]
1892VM4Ya RISCore32 2x ELcore-26 2006 250 100 [2][3][4][6]
1892VM5Ya RISCore32 2x ELcore-26 2006 250 100 [2][3][4][6]
1892VM5BYa RISCore32 2x ELcore-26 ? ? 90 [3]
1892VM7Ya RISCore32 + FPU 4x ELcore-28 2009 130 200 [4][5][7]
1892VM8Ya RISCore32 + FPU 1x ELcore-26 2010 250 80 rad-hard[2][3][5][8][9]
1892VM10Ya RISCore32 + FPU 2x ELcore-30 2012 130 250 [3][7]
1892VM11Ya RISCore32 + FPU 2x ELcore-30 2011 65 500 [10]
1892VM12AT RISCore32 + FPU 2013 180 100 rad-hard[5][7][8][9]
1892VM14Ya 2x ARM Cortex-A9 + GPU Mali-300 2x ELcore-30M 2014 40 816 [7][8][9]
1892VM15AF RISCore32 + FPU 2x ELcore-30M 2014 180 120 rad-hard[5][7][8][9]
1892VM16T RISCore32 + FPU 1x ELcore 2014 180 110 rad-hard[2][8][11][12]
1892VM17F RISCore32 + FPU 1x ELcore 2014 180 110 rad-hard[2][8][11][12]
1892VM18F RISCore32 + FPU 2x ELcore 2015 180 110 rad-hard[2][8][11][12]
1892VM196 RISCore32 + FPU 2018 180 120 rad-hard[7][8]
1892VM206 RISCore32 + FPU 2x ELcore-30M 2018 180 120 rad-hard[7][8]
1892VM218 ? ? ? ? ?
1892VM226 ? ? 2020 ? ? ? rad-hard[9]
1892VM236 ? ? 2019 90 ? rad-hard[8][9]
1892VM248 8x MIPS64 + PowerVR GPU 16x ELcore-50 2020 ? 16 1500 [9]
1892VM258 ? ? ? ? ?
1892VM268 ARM Cortex-M33 ? 2021 ? ? ? [13]
1892VA018 4x ARM Cortex-A53 + PowerVR GPU 2x ELcore-50 2020 ? ? 1200 [9]
1892VK016 2x RISCore32 2019 180 100 rad-hard[5][7][9]
1892VK024 RISCore32 + FPU 2x ELcore 2020 ? 180 ? rad-hard[5][9]
1892KP1Ya RISCore32 2010 ? 100 rad-hard[2][3][5][7][9]
1892KhD2Ya RISCore32 2007 ? ? rad-hard[2][3][4][5][9]

Details

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1892VM1Ya

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1892VM2Ya

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  • Russian: 1892ВМ2Я (MC-24)
  • 2 cores: RISCore32 + ELcore-24 (DSP-core with SIMD architecture)
  • manufactured in a 250 nm CMOS process
  • 18 million transistors
  • HSBGA292 package

1892VM3T

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  • Russian: 1892ВМ3Т (MC-12)
  • 2 cores: RISCore32 + ELcore-14 (DSP-core with SISD architecture)
  • manufactured in a 250 nm CMOS process
  • 18 million transistors
  • PQFP240 package

1892VM4Ya

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  • Russian: 1892ВМ4Я (MC-0226G, МЦОС)
  • 3 cores: RISCore32 + 2x ELcore-26 (DSP-core with MIMD architecture)
  • manufactured in a foundry outside Russia in a 250 nm CMOS process
  • 26 million transistors
  • HSBGA416 package
  • includes 2 PCI controllers

1892VM5Ya

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  • Russian: 1892ВМ5Я (МС-0226, ЦПОС-02)
  • 3 cores: RISCore32 + 2x ELcore-26 (DSP-core with MIMD architecture)
  • manufactured in a foundry outside Russia in a 250 nm CMOS process
  • 26 million transistors
  • HSBGA416 package
  • includes 1 PCI controller

1892VM7Ya

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  • Russian: 1892ВМ7Я (МС-0428)
  • 130 nm CMOS process, 81 million transistors
  • HSBGA765 package
  • includes 2 SpaceWire ports

1892VM8Ya

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  • Russian: 1892ВМ8Я (MC-24R)
  • manufactured by X-Fab Malaysia in a 250 nm CMOS process and later by TSMC in a 40 nm CMOS process (with the clock speed increased to 100 MHz)
  • HSBGA416 package
  • includes 2 SpaceWire ports; supports ECC memory

1892VM10Ya

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  • Russian: 1892ВМ10Я (NVCom-02T)
  • manufactured in a foundry outside Russia in a 130 nm CMOS process
  • does not contain any IP blocks from outside Russia[14]
  • 50 million transistors
  • HSBGA400 package
  • includes 24-channel correlator for GPS / GLONASS

1892VM11Ya

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  • Russian: 1892ВМ11Я (NVCom-02)
  • manufactured by Angstrem in a 65 nm CMOS process
  • BGA586 package
  • includes 24-channel correlator for GPS and GLONASS signals

1892VM12AT

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  • Russian: 1892ВМ12АТ (MCT-03P)
  • manufactured in Zelenograd in a 180 nm CMOS process
  • does not contain any IP blocks from outside Russia[14]
  • CQFP240 package
  • includes 2 SpaceWire ports; supports ECC memory
  • radiation tolerance to not less than 300 kRad, working temperature from -60 to 85 °C

1892VM14Ya

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1892VM15AF

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  • Russian: 1892ВМ15АФ (MC-30SF6)
  • manufactured in Zelenograd in a 180 nm CMOS process
  • does not contain any IP blocks from outside Russia[14]
  • CPGA720 package
  • includes 2 SpaceWire ports; supports ECC memory; hardware accelerators for FFT and JPEG encoding
  • power consumption 5 W
  • triple redundancy for registers; radiation tolerance to not less than 300 kRad, working temperature from -60 to 85 °C

1892VM16T

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  • Russian: 1892ВМ16Т
  • manufactured by Mikron Group in a 180 nm CMOS process
  • CQFP240 package
  • working temperature from -60 to 85 °C

1892VM17F

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  • Russian: 1892ВМ17Ф
  • manufactured by Mikron Group in a 180 nm CMOS process
  • CPGA416 package
  • working temperature from -60 to 85 °C

1892VM18F

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  • Russian: 1892ВМ18Ф
  • manufactured by Mikron Group in a 180 nm CMOS process
  • CPGA720 package
  • working temperature from -60 to 85 °C

1892VM196

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1892VM206

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1892VM226

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1892VM236

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1892VM248

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1892VA018

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1892VK016

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  • Russian: 1892ВК016 (MCT-04R)
  • manufactured in Russia in a 180 nm CMOS process
  • CPGA720 package
  • intended for SSD controllers; includes SpaceWire and SpaceFibre interfaces; ECC for internal and external memory
  • radiation tolerance to not less than 200 kRad, working temperature from -60 to 85 °C

1892VK024

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  • Russian: 1892ВК024 (MCT-07R)
  • manufactured in a 180 nm CMOS process
  • includes SpaceFibre, MIL-STD-1553, and I²C interfaces as well as an 8-channel, 12-bit 200 kHz ADC

1892KP1Ya

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  • Russian: 1892КП1Я (MCK-022)
  • manufactured in a CMOS process
  • HSBGA-416 package
  • includes 16-port SpaceWire router
  • working temperature from -60 to 85 °C

1892KhD2Ya

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See also

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References

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  1. ^ Solokhina, Tatiana (23 June 2010). "Next Generation DSP Multi-Core Processor with SpaceWire Links as the Development of the 'MCFlight' Chipset For the On-Board Payload Data Processing Applications" (PDF). International Spacewire Conference 2010. St. Petersburg: Space Technology Centre, University of Dundee. pp. 313–318. Retrieved 12 January 2017.
  2. ^ a b c d e f g h i j k l "Изделия отечественного производства" [Domestic products] (in Russian). Moscow: AO "ENPO SPELS". Retrieved 1 September 2016.
  3. ^ a b c d e f g h i j "СЕРИЯ 1892" [1892 series] (in Russian). Promelektronika-VPK. Archived from the original on 1 March 2017. Retrieved 25 October 2017.
  4. ^ a b c d e f "КАТАЛОГ 2008" [Catalog 2008] (PDF) (in Russian). Elvees Multicore. Archived from the original (PDF) on 21 May 2009. Retrieved 4 March 2019.
  5. ^ a b c d e f g h i "eidOS" (in Russian). MiT. Retrieved 2021-03-09.
  6. ^ a b "Новые трехпроцессорные DSP-контроллеры "Мультикор"" [New 3-core DSP controllers "Multicore"] (in Russian). Elvees Multicore. 20 March 2006. Retrieved 12 January 2017.
  7. ^ a b c d e f g h i "КАТАЛОГ 2018" [Catalog 2018] (PDF) (in Russian). Elvees Multicore. Retrieved 4 March 2019.
  8. ^ a b c d e f g h i j Piskarev, M.S. (25 April 2018). "Процессоры "Мультикор": от оборудования КА до систем искусственного интеллекта" ["Multicore" processors: from spacecraft equipment to artificial intelligence systems] (PDF) (in Russian). Retrieved 26 November 2018.
  9. ^ a b c d e f g h i j k l Sergey Naumov (2020). АО НПЦ "ЭЛВИС" - Презентация компании [AO NPC "ELVEES" - Company presentation] (PDF). MES (in Russian). Moscow. Retrieved 2021-03-04.
  10. ^ "Цифровой сигнальный процессор 1892ВМ11Я (NVCOM-02)" [Digital signal processor 1892VM11Ya (NVCOM-02)] (in Russian). TechnoUnity. Retrieved 13 January 2017.
  11. ^ a b c "Серии Предприятия НИИМЭ и Микрон" [Series from the company NIIME and Micron] (in Russian). Optochip. Retrieved 8 February 2018.
  12. ^ a b c "Микросхемы ПАО Микрон 2020" [Integrated Circuits PAO Mikron 2020] (PDF) (in Russian). Mikron. Retrieved 16 February 2021.
  13. ^ Sergey Gruzdyev (2021). Aladdin LiveOffice (PDF). TB Forum (in Russian). p. 12. Retrieved 2021-03-05.
  14. ^ a b c "Российские микросхемы 1 и 2 уровня" [Russian integrated circuits of the first and second level] (in Russian). Elvees Multicore. 23 January 2018. Retrieved 8 February 2018.
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