NEC SX-9

The SX-9 is a supercomputer built by NEC Corporation. The SX-9 Series implements an SMP system in a compact node module and uses an enhanced version of the single chip vector processor that was introduced with the SX-6. The NEC SX-9 processors run at 3.2 GHz, with eight-way replicated vector pipes, each having two multiply units and two addition units; this results in a peak vector performance of 102.4 gigaFLOPS. For non-vectorized code, there is a scalar processor that runs at half the speed of the vector unit, i.e. 1.6 GHz. Up to 16 CPUs and 1 terabyte of memory may be used in a single node. Each node is packaged in an air-cooled cabinet, similar in size to a standard 42U computer rack. The SX-9 series ranges from the single-node SX-9/B system with 4 CPUs to the maximum expansion stage with 512 nodes, 8,192 CPUs, and 970 TFLOPS peak performance. There is up to 4 TB/s shared memory bandwidth per node and 2×128 GB/s node interconnect bandwidth. The operating system is NEC's SUPER-UX, a Unix-like OS.

NEC SX-9, right side
NEC SX-9, left side
NEC SX-9 CPU modules
NEC SX-9 memory module

The SX-9 has the world's fastest vector CPU core.[1][2] A fully equipped system with 512 nodes would have been the world's fastest supercomputer at the time of release in the first quarter of 2008, with a performance of 819 TFLOPS. The SX-9 was discontinued in 2015. [3]

The German national meteorological service (DWD) operated two independent SX-9 clusters, with 976 processors, 31,232 GB of RAM and 98 TFLOPS performance in total.[4]

NEC Published Product Highlights

  • 1.6 TFLOPS max. peak performance per node
  • 350 million transistors per CPU, 1.0 V, 8,960 pins (1,791 signal pins)[5]
  • Up to 16 CPUs per node, manufactured in 65 nm CMOS cu technology, 11 copper layers
  • Up to 64 GB of memory per CPU, 1 TB in a single node
  • Up to 4 TB/s bandwidth per node, 256 GB/s per CPU
  • IXS Super-Switch between nodes, up to 512 nodes supported, 256 GB/s per node (128 GB/s for each direction)
  • 50% less power consumption compared to the NEC SX-8R
gollark: PHP-ASM when?
gollark: > oform.<|endoftext|>I'll try upgrading the next version, I'll have to switch to a better version.<|endoftext|>It's a shame I could switch a CC BIOS, but that's very irritating.<|endoftext|>I see. If you're running the commands directly into the sandbox, it will use a lot of logic.<|endoftext|>Well, yes, I did.<|endoftext|>Oh, you said that, and didn't do anything?<|endoftext|>But it's still running now.<|endoftext|>I have no clue what the "beware" means, because it's not really `gps`.<|endoftext|>No, the CLI is not an example.<|endoftext|>It also does random stuff, it's not helpful.<|endoftext|>It's not like it goes through your sandbox.<|endoftext|>I see.<|endoftext|>It's not like a program.<|endoftext|>Well, yes, for that.<|endoftext|>It's not really much easier to program.<|endoftext|>
gollark: So it'll be done with the 10 kilosteps I initially configured soon; I guess I'll run another 16000 or so, which should take about 3 hours.
gollark: The incredible march of technology.
gollark: (ping was in the output, blame the ineffable machinations of it)

See also

  • SUPER-UX
  • SX architecture
  • NEC Corporation

References

  1. Zeiser, Thomas; Hager, Georg; Wellein, Gerhard (2009). "The world's fastest CPU and SMP node: Some performance results from the NEC SX-9". 2009 IEEE International Symposium on Parallel & Distributed Processing. pp. 1–8. doi:10.1109/IPDPS.2009.5161089. ISBN 978-1-4244-3751-1.
  2. http://insidehpc.com/2008/11/12/nec-sx-9-and-the-hpc-challenge-a-fairy-tale-story/
  3. https://jpn.nec.com/hpc/sx9/
  4. http://www.dwd.de/bvbw/generator/DWDWWW/Content/Presse/Pressekonferenzen/2009/PK__17__03__09/20090317__ZundF__Rechner,templateId=raw,property=publicationFile.pdf/20090317_ZundF_Rechner.pdf
  5. LSI and Circuit Technologies of the SX-9 TANAHASHI Toshio, TSUCHIDA Junichi, MATSUZAWA Hajime, NIWA Kenji, SATOH Tatsuo, KATAGIRI Masaru, NEC TECHNICAL JOURNAL, Vol.3, No.4, 2008
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