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Multiclet

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Multiclet
Processor R1
General information
Launched2014; 10 years ago (2014)
Marketed byMultiClet Corp.,[1] resident of Skolkovo[2]
Designed byDigital Solutions[3]
Performance
Max. CPU clock rate80 MHz to 120 MHz [4]
Architecture and classification
Instruction setMulticellular
Physical specifications
Cores
  • 4

MultiClet is an ongoing innovation project for a microprocessor that became the first post von Neumann, multicellular microprocessor, breaking the paradigm for computing technology that has been in place for more than 60 years.[5][6] There have been attempts in the past to shift away from the von Neumann architecture.[7] Under MultiClet a 4-cellular dynamically reconfigurable microprocessor is implemented.[8]

History

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  • In April 2013, the Russian company Sputnix signed an agreement for joint development of the MultiClet microprocessor.[9]
  • In January 2014, an announcement was made that the FreeRTOS operating system be ported to the MultiClet microprocessor,[10] this demonstrates that the microprocessor potentially can perform tasks that makes it suitable for real products.[11]
  • In April 2014, the Kickstarter project Key_P1 MultiClet: Your Powerful Digital Guardian, failed to raise sufficient funding.[12]
  • Since June 2014, the MultiClet microprocessor has been reportedly under test in real space conditions onboard Sputnix’s microsatellite TabletSat-Aurora.[13][14][15]
  • In March 2014, Multiclet present first multicellular dynamically reconfigurable microprocessor in Inatronics[clarification needed] 2014.[8]

Financing

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Since 2004 more than 300 million roubles has been provided for the project by the Danish venture fund Symbion Capital and the Bortnik Fund. In 2009 there was an unsuccessful request for co-financing by Rusnano. In 2010 it was reported that more than 1 billion roubles would be needed in total before any actual production could take place. In 2011 the MultiClet company, currently responsible for the development of the microprocessor was founded with a capital of 323 million roubles.[16]

In August 2014, a financial request for 80 million US dollars from the Russian-Chinese Investment Fund (RKIF) was made in order to develop a MultiClet based computer.[17]

Technical concept

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As opposed to the traditional multi-core processor architecture each individual cell in the microprocessor can communicate with each other, without the need to store intermediate results in memory registers. This removes the concept of assembly language instructions with sequential dependence, in favor of realizing a high level programming language directly on the computer hardware. The smallest indivisible unit is a set of instructions described in the triadic language. Each triad can describe an operation between references to other triads, rather than references to the current contents in memory registers. The result of the sequence of triads is evaluated when selected, e.g. when an operation to write the result to a memory register is issued.[18]

Potential benefits

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The multicellular microprocessor architecture makes it easier to perform parallel execution because the need to access intermediate memory for each operation is eliminated, thus each cell can operate independently until the result is needed. The microprocessor can operate with reduced performance if one or more of the microprocessor cells become non-functioning. The dynamic reconfiguration of the microprocessor, in case of permanent failures makes it ideal for operation under harsh conditions such as in space applications.[19]

Realization of all operations within each statement, without memory involvement improves computing power by 4–5 times and reduces the microprocessor energy consumption by up to 10 times.[20]

Criticism

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July, 2012, a critical view was posted on a forum which discusses potential challenges related to scaling of the technology. The main obstacle would be the high level of communication required between the different cells of the multicellular architecture and its implementation using CMOS semiconductor process technology below 180 nanometer.[21]

Variants

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Available and suggested multicellular processor variants:[22]

Type Description
P high Рerformance and simultaneous reduction of power consumption
C ultra-low power Consumption and high performance
R dynamic Reconfiguration
L Liveness, fault tolerance

Models

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Available multicellular processor models:

Article Cells Clock frequency Type Process Year Manufacturer
MCp041P100104[4] 4 120 MHz P1 180 nanometer 2013 SilTerra Malaysia[23]
MCp0411100101[4] 4 120 MHz P1 180 nanometer 2013 SilTerra Malaysia[23]
MCp042R100102[24] 4 80 MHz R1 180 nanometer 2014 SilTerra Malaysia[23]

In design

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Variants currently in design[25]
4-cell microprocessor of the L variant
16-cell microprocessor for audio and video applications, using a 45 nanometer CMOS manufacturing process
64-cell microprocessor for supercomputers, using a 22 nanometer CMOS manufacturing process

References

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  1. ^ "Company Overview of MULTICLET Corp". investing.businessweek.com. Archived from the original on September 12, 2014. Retrieved 2015-01-03.
  2. ^ "ОАО "Мультиклет" - Skolkovo Community". community.sk.ru. Retrieved 2015-01-03.
  3. ^ "Layout design development of a domestic multicellular processor MultiClet P1". eng.dsol.ru. Retrieved 2015-01-03.
  4. ^ a b c "Price list last updated 01.12.2014". multiclet.com. Retrieved 2015-01-08.
  5. ^ "Introduction in multicellular processors". multiclet.com. Retrieved 2015-01-03.
  6. ^ "Multiclet makes first multicellular microprocessors". eng.spb-venchur.ru. Retrieved 2015-01-03.
  7. ^ "What are some examples of non-Von Neumann architectures?". stackoverflow.com. Retrieved 2015-01-03.
  8. ^ a b "MULTICLET's future perspectives after Inatronics 2014". multiclet.com. Retrieved 2015-03-16.
  9. ^ "SPUTNIX and MULTICLET Corp. will jointly develop advanced microprocessors for space technology". sputnix.ru. Retrieved 2015-01-03.
  10. ^ "ОC FreeRTOS успешно портирована на процессор MULTICLET P1" (in Russian). community.sk.ru. Retrieved 2015-01-03.
  11. ^ "Portirovany FreeRTOS on the processor from Multiklet". sysmagazine.com. Retrieved 2015-01-03.
  12. ^ "Key_P1 MultiClet: Your Powerful Digital Guardian". kickstarter.com. Retrieved 2015-01-03.
  13. ^ "SPUTNIX, MultiClet Partner to Develop Advanced Microprocessors for Space Technology". satellitetoday.com. 26 April 2013. Retrieved 2015-01-06.
  14. ^ "Sputniks and Multiclet join forces in the development of advanced microprocessors". survincity.com. Archived from the original on 2015-01-06. Retrieved 2015-01-06.
  15. ^ "The Russian start-up company SPUTNIX designed and built the TabletSat-Aurora (ТаблетСат-Аврора) technology demonstrator and earth observing satellite". space.skyrocket.de. Retrieved 2015-01-06.
  16. ^ "Российский процессор принципиально новой архитектуры уже в производстве" (in Russian). cnews.ru. Retrieved 2015-01-06.
  17. ^ "Russian supercomputer waiting for Chinese money". gazeta.ru. Retrieved 2015-01-06.
  18. ^ "Multicellular processors(conception, architecture)" (PDF). multiclet.com. Retrieved 2015-01-03.
  19. ^ "Sputnix and Multiclet To Develop Advanced Microprocessors For Space". spacenewsfeed.com. Archived from the original on 2015-01-03. Retrieved 2015-01-03.
  20. ^ "MultiClet: superprocessor for supercomputers". community.sk.ru. Retrieved 2015-01-03.
  21. ^ "A critical view on the part of processors Multiclet". 3.14.by. Retrieved 2015-01-03.
  22. ^ "Multicellular processors". multiclet.com. Retrieved 2015-01-03.
  23. ^ a b c "Multiclet SilTerra and strengthen strategic partnership". survincity.com. Retrieved 2015-01-03.
  24. ^ "MCp042R100102-1 LQ 256". multiclet.com. Retrieved 2015-01-11.
  25. ^ "In design". multiclet.com. Retrieved 2015-01-15.
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