Cray XMT

The Cray XMT (codenamed Eldorado) is the third generation of the Cray MTA supercomputer architecture originally developed by Tera. The earlier generations were called the Cray MTA and the Cray MTA-2.^[1] The XMT makes the MTA's multithreaded processors, now dubbed Threadstorm, compatible with the 1207-pin Socket F used by AMD Opteron processors.^[2] The Threadstorm processors are plugged into systems otherwise identical to the Cray XT4.

The primary advantage of these processors come from efficiency masking memory access time. In a simplified model, at each clock cycle an instruction from one of the threads is executed and another memory request is queued with the understanding that by the time the next round of execution is ready the requested data has arrived.^[3] This is contrast to many conventional architectures which stall on memory access. The architecture excels in data walking schemes where subsequent memory access cannot be easily predicted and thus wouldn't be well suited to a conventional cache model.^[4]

The Threadstorm processors only execute user code, on top of a simple BSD Unix-based microkernel called MTX; system I/O is performed by Opteron processors running Linux.^[4] This third generation MTA system improves clock speed from 220 MHz to 500 MHz, the maximal processor count from 256 to 8192, and maximum memory to 512 TB.

The architecture has been reworked in CPUs such as Threadstorm4,^[5] which is used by the XMTs technological successor: Cray's Urika line of big data appliances. Currently, the future of the line is unclear due to competition from commodity processors such as Intel's Xeon.^[6]

References

↑ "Cray History". Cray Inc. Archived from the original on July 12, 2014. Retrieved August 19, 2014.
↑ Timothy Prickett Morgan (February 20, 2011). "Swiss boffins go nuts for Cray supers". The Register. Retrieved February 14, 2015.
↑ Nieplocha J, Marquez A, Petrini F, Chavarria-Miranda D (2007). "Unconventional Architectures for High-Throughput Sciences" (PDF). SciDAC Review. Pacific Northwest National Laboratory (5, Fall 2007): 46–50. Retrieved February 14, 2015.
1 2 "Why is uRiKA So Fast on Graph-Oriented Queries?". Cray, Inc. November 14, 2012. Retrieved February 14, 2015.
↑ Kopser A, Vollrath D (May 2011). Overview of the Next Generation Cray XMT (PDF). 53rd Cray User Group meeting, CUG 2011. Fairbanks, Alaska. Retrieved February 14, 2015.
↑ "Cray CTO Connects The Dots On Future Interconnects". The Next Platform. 8 January 2016. Retrieved 2 May 2016. Steve Scott: You can do it just great with a Xeon. We are not planning on doing another ThreadStorm processor. But it does take some software technology that comes out of the ThreadStorm legacy.

External links

Cray computers

Cray Research	Cray-1 Cray X-MP Cray-2 Cray Y-MP Cray XMS Cray Y-MP EL Cray C90 Cray EL90 Cray T3D Cray J90 Cray T90 Cray T3E Cray SV1

Cray Computer Corp.	Cray-3 Cray-3/SSS Cray-4

Cray Research Superservers	Cray APP Cray S-MP Cray CS6400

Cray Inc.	Cray SX-6 Cray MTA-2 Cray Red Storm Cray X1 Cray XT3 Cray XD1 Cray XT4 Cray XMT Cray XT5 Cray CX1 Cray XT6 Cray XE6 Cray CX1000 Cray XK6 Cray XK7 Cray XC30 Cray XC40 Cray XC50 Urika-XA Urika-GD

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