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FeiTeng

From Wikipedia, the free encyclopedia
FeiTeng
Performance
Max. CPU clock rate0.8 GHz to 1.0 GHz
Architecture and classification
Instruction setSPARCv9

FeiTeng (飞腾, fēiténg) is the name of several computer central processing units designed and produced in China for supercomputing applications.[1] The microprocessors have been developed by Tianjin Phytium Technology.[2] The processors have also been described as the YinHeFeiTeng (银河飞騰, YHFT) family.[citation needed] This CPU family has been developed by a team directed by NUDT's Professor Xing Zuocheng.[3]

Initial designs

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The first generation was binary compatible with the Intel Itanium 2.[4][dubiousdiscuss] The second generation, the FT64, was a system on a chip with CPU and 64-bit stream processor.[citation needed] FT64 chips were used in YinHe (银河) supercomputers as accelerators.[4]

FeiTeng-1000

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The FeiTeng-1000 is the third generation CPU in the family. It is manufactured with 65 nm technology and contains 350 million gates. Its clock frequency is 0.8–1 GHz. It is compatible with the SPARCv9 instruction set architecture.[5]

Each chip contains 8 cores and is capable of executing 64 threads. There are 3 HyperTransport channels for coherent links, 4 DDR3 memory controllers and a 8x PCIe 2.0 link.[6]

The Tianhe-1A supercomputer uses 2,048 FeiTeng 1000 processors.[7] Tianhe-1A has a theoretical peak performance of 4.701 petaflops, also employing 7,168 Nvidia Tesla M2050 GPUs and 14,336 Intel Xeon X5670 CPUs in addition to FT1000 processors.[6][8] The FeiTeng-1000 is an eight-core processor based on the SPARC system and is used to operate service nodes on the Tianhe-1.[1][6]

A 2012 report for the European High Performance Computing service stated that FeiTeng used the work of the OpenSPARC project.[9]

Galaxy FT-1500

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The Tianhe-2 supercomputer uses 4096 Galaxy FT-1500 processors with 16 cores, OpenSPARC architecture based and 65 W TDP. They are made with 40 nm technology, processor cores work at 1.8 GHz.[10] Peak performance of FT-1500 is 115–144 GFLOPS; every core may execute up to 8 interleaving threads and supports 256-bit wide SIMD vector operations including Fused Mul-Add (FMA). Cache of this SoC works at 2 GHz frequency, there are 16 KB L1i, 16 KB L1d, 512 KB L2 per core, and shared 4 MB L3 cache. L3 cache has 4 segments (1 segment per block of 4 CPU cores), each of 1 MB with 32-way associative. Cache uses directory-based cache coherency protocol. FT-1500 also has:[11]

  • Links to connect several processors into NUMA machine
  • 4 integrated DDR3 memory controllers
  • 2 PCI-express controllers
  • 10 Gbit Ethernet ports

FT-1500A

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FT-1500A is an ARM64 SoC designed by Phytium, which includes 16 cores of ARMv8 processor, a 32-lane PCIe host, 2 GMAC on-chip Ethernet controller and a GICv3 interrupt controller with ITS support.[12]

Future processors

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In 2020, Feiteng announced availability of the S2500 processor and a roadmap for the following years.[13]

FeiTeng processors
Processor Cores Core type Year Process
FeiTeng-1000 8 SPARCv9 compatible 2011 65 nm
FT-1500 16 OpenSPARC 2014 40 nm
FT-1500-A/4 4 FTC660 Earth 2016 28 nm
FT-1500-A/16 16 FTC660 Earth 2016 28 nm
FT-2000A/2 2 FTC661 Mars 2018 28 nm
FT-2000/64 64 FTC661 Mars 2017 28 nm
FT-2000+/64 64 FTC662 Mars II 2019 16 nm
FT-2000/4 4 FTC663 2019 16 nm
S2500 64 FTC663 2020 16 nm
D2000 8 custom 64-bit ARMv8-compatible FTC663 2020 14 nm
D3000 2021 14 nm
E2000 FTC310, FTC664 2021 14 nm
E3000 14 nm
S5000 FTC862 2021 7 nm
S6000 128 2022 5 nm

See also

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References

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  1. ^ a b Patrick Thibodeau (2010-11-04). "U.S. says China building 'entirely indigenous' supercomputer". Computerworld. Archived from the original on 2012-10-11. Retrieved 2016-06-17.
  2. ^ Wu, Yimian (23 May 2018). "China Supports Local Semiconductor Firms By Adding Them To Government Procurement List". China Money Network. Retrieved 31 May 2018.
  3. ^ "HKUST - Department of Electronic & Computer Engineering". Ee.ust.hk. 2011-10-20. Archived from the original on 2013-12-03. Retrieved 2016-06-17.
  4. ^ a b "HKUST - Department of Electronic & Computer Engineering". ust.hk. Archived from the original on 22 May 2013. Retrieved 17 June 2016.
  5. ^ "China introduces homegrown Feiteng CPU server - People's Daily Online". English.people.com.cn. 2011-03-25. Retrieved 2016-06-17.
  6. ^ a b c The TianHe-1A Supercomputer: Its Hardware and Software by Xue-Jun Yang, Xiang-Ke Liao, et al in the Journal of Computer Science and Technology, Volume 26, Number 3, May 2011, pp. 344–351 "Archived copy". Archived from the original on 2011-06-21. Retrieved 2012-02-08.{{cite web}}: CS1 maint: archived copy as title (link)
  7. ^ "Top100爆冷门 天河一号力压星云再夺魁-IT168 服务器专区" [Top 100 upset, Tianhe One beats Nebulae and wins]. Server.it168.com (in Chinese). 2010-10-28. Retrieved 2016-06-17.
  8. ^ "China builds world's fastest supercomputer". ZDNet UK. 29 October 2010.
  9. ^ "INFRA-2010-2.3.1 – First Implementation Phase of the European High Performance Computing (HPC) service PRACE" (PDF). Prace-project.eu. Archived from the original (PDF) on 2016-09-27. Retrieved 2016-06-17.
  10. ^ Dongarra, Jack (3 June 2013). "Visit to the National University for Defense Technology Changsha, China" (PDF). netlib.org. p. 9.
  11. ^ MilkyWay-2 supercomputer: system and application. Xiangke LIAO, Liquan XIAO, Canqun YANG, Yutong LU. Front. Comput. Sci., 2014, 8(3): 345–356 DOI:10.1007/s11704-014-3501-3 (September 6, 2013)
  12. ^ "'[PATCH 0/3] Add support for Phytium FT-1500A SoC' - MARC". marc.info. Retrieved 17 June 2016.
  13. ^ "Feiteng's strongest server CPU Tengyun S2500 released: up to 8 channels 512 cores".
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