Elbrus-8S

Elbrus-8SV^[1]^[2]
General information
Launched	end of 2017 prototypes, 2018
Designed by	MCST
Performance
Max. CPU clock rate	1.5 GHz
Architecture and classification
Instruction set	Elbrus 2000
Physical specifications
Cores	8;
History
Predecessor(s)	Elbrus-4S
Successor(s)	Elbrus-16S

Elbrus-8S
General information
Launched	end of 2014 prototypes,
Designed by	MCST
Performance
Max. CPU clock rate	1.3 GHz
Architecture and classification
Instruction set	Elbrus 2000
Physical specifications
Cores	8;
History
Predecessor(s)	Elbrus-4S
Successor(s)	Elbrus-16S

The Elbrus-8S (

Moscow Center of SPARC Technologies (MCST). The first prototypes were produced by the end of 2014 and serial production started in 2016.^[3] The Elbrus-8S is to be used in servers and workstations.^[4] The processor's architecture allows support of up to 32 processors on a single server motherboard.^[5]^[6]

In 2018 MCST announced plans to produce the Elbrus-8SV, an upgraded version of the 8C with doubled performance. The CPU can process 576

DDR3.^[1]^[2] Engineering samples were already completed in Q3 2017.^[7] Development was completed in 2019^[8]

and its fabrication started in 2020.

In 2021 the processor was offered to Sberbank, Russia's largest bank, for evaluation in light of a potential use for some of the company's hardware needs. The evaluation had a negative outcome, as the functional requirements were not met.^[9]

2023 benchmark demonstrated that the Elbrus-8SV performed moderately in gaming with games that were 10 years old but was incompatible with modern games tested.^[10]

Successor Elbrus-16C was announced in 2020 with declared start of manufacturing in October 2021^[11] but hasn't entered the market as of 2023 yet.

Supported operating systems

The Elbrus-8S and -SV processors support binary compatibility with Intel

compiled

for Elbrus.

Elbrus Elbrus-8S information

Production start	2014 (samples), 2015 (for data-servers)
Cores	8
Computer architecture	VLIW, Elbrus (proprietary, closed) version 4, 64-bit
Tech. node	28 nm, TSMC process
Clock rate	1.3 GHz
Cache	L1 caches per core: 128 KB for instructions (1 port) + 64 KB for data (4 ports) L2 cache per core: 512 KB, 1 port L3 cache, shared across cores: 16 MB, 4 banks 1 port each
Integrated memory controller	DDR3 -1600, 4 72-bit channels (with ECC)
Peak performance per CPU, Gflops	125 for DP or 250 for SP
Supported programming platforms	Fortran 90
Performance	250 Gflops

Elbrus Elbrus-8SV information

Production start	2018 Q4^[12]
Cores	8
Computer architecture	VLIW, Elbrus (proprietary, closed) version 5, 64-bit
Tech. node	28 nm, TSMC process
Clock rate	1.5 GHz
Cache	L1 caches per core: 64KB data + 128KB instructions L2 cache 512 KB in each core, 4 MB total L3 cache, 16 MB per processor
Integrated memory controller	4 channel DDR4 -2400 registered as ECC, to 68.3 GB/s 64 GB per processor, 1 TB address space
Peak performance per CPU, Gflops	288 for DP or 576 for SP
Operating conditions	−60...+85 °C, −40...+90 °C
Performance	576 Gflops

References

^ ^a ^b "Руководство по эффективному программированию на платформе «Эльбрус» — Документация Руководство по эффективному программированию на платформе «Эльбрус» 1.0". ftp.altlinux.org. Retrieved 1 June 2020.
^ ^a ^b ^c ^d Cutress, Ian (1 June 2020). "Russia's Elbrus 8CB Microarchitecture: 8-core VLIW on TSMC 28nm". www.anandtech.com. Retrieved 1 June 2020.
^ "The Central processor "Elbrus-8S" (TUGI.431281.016)". Retrieved 16 May 2018.
^ "Elbrus 8C mit acht Kernen soll 250 GFlops erreichen" [Elbrus 8S with eight cores should reach 250 GFlops] (in German). Golem.de. 14 July 2014. Retrieved 16 May 2018.
^ A pilot batch of 8-core processors Elbrus-8S started in manufacture Archived 23 May 2015 at the Wayback Machine
^ New Elbrus-8C processor could usher in a new level of computing speed
^ "Elbrus 8SV data". Retrieved 16 May 2018.
^ В Минпроторге заявили о создании российского процессора "Эльбрус-8СВ"
^ Shilov, Anton (24 December 2021). "Russian-Made Elbrus CPUs Fail Trials, 'A Completely Unacceptable Platform'". Tom's Hardware. Retrieved 13 March 2023.
^ Zhiye Liu (30 January 2023). "Russian-Made Elbrus CPU's Gaming Benchmarks Posted". Tom's Hardware. Retrieved 1 September 2023.
^ Anton Shilov (7 October 2020). "Russian Company Tapes Out 16-Core Elbrus CPU: 2.0 GHz, 16 TB of RAM in 4-Way System". Tom's Hardware. Retrieved 1 September 2023.
^ "Russian Microprocessors of the Elbrus Architecture Series for Servers and Supercomputers" (PDF). Retrieved 16 May 2018.

External links

Official
MCST
announcements
Data provided by
MCST

[2020-06-01-elbrus-doc-1] "Руководство по эффективному программированию на платформе «Эльбрус» — Документация Руководство по эффективному программированию на платформе «Эльбрус» 1.0". ftp.altlinux.org. Retrieved 1 June 2020.

[2020-06-01-anandtech-2] Cutress, Ian (1 June 2020). "Russia's Elbrus 8CB Microarchitecture: 8-core VLIW on TSMC 28nm". www.anandtech.com. Retrieved 1 June 2020.

[3] "The Central processor "Elbrus-8S" (TUGI.431281.016)". Retrieved 16 May 2018.

[golem-4] "Elbrus 8C mit acht Kernen soll 250 GFlops erreichen" [Elbrus 8S with eight cores should reach 250 GFlops] (in German). Golem.de. 14 July 2014. Retrieved 16 May 2018.

[5] A pilot batch of 8-core processors Elbrus-8S started in manufacture Archived 23 May 2015 at the Wayback Machine

[6] New Elbrus-8C processor could usher in a new level of computing speed

[7] "Elbrus 8SV data". Retrieved 16 May 2018.

[8] В Минпроторге заявили о создании российского процессора "Эльбрус-8СВ"

[toms21-9] Shilov, Anton (24 December 2021). "Russian-Made Elbrus CPUs Fail Trials, 'A Completely Unacceptable Platform'". Tom's Hardware. Retrieved 13 March 2023.

[10] Zhiye Liu (30 January 2023). "Russian-Made Elbrus CPU's Gaming Benchmarks Posted". Tom's Hardware. Retrieved 1 September 2023.

[11] Anton Shilov (7 October 2020). "Russian Company Tapes Out 16-Core Elbrus CPU: 2.0 GHz, 16 TB of RAM in 4-Way System". Tom's Hardware. Retrieved 1 September 2023.

[12] "Russian Microprocessors of the Elbrus Architecture Series for Servers and Supercomputers" (PDF). Retrieved 16 May 2018.

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