- Spinnekar 2 supercomputer operates without disc or an operating system for unmatched speed
- The system of sandia uses 152 core per chip to mimic the similarity of the human brain
- With 138,240 terabytes of drama, spinner 2 completely depends on the memory speed
A new computing system prepared after the architecture of the human brain has been active in the Sandia National Laboratories in the US state of New Mexico.
Developed by German -based spinkloud, spinner 2 stands not only for its neuromorphic design, but also for a radical absence of an operating system or internal storage.
Supported by the advanced simulation and computing program of the National Nuclear Safety Administration, the system marks a notable development in an attempt to use brain-inspired machines for national security applications.
Spinner 2 is different from traditional supercomputer
Unlike traditional super computers relying on GPU and centralized disk storage, spinnecker 2 architecture is designed to function more like the human brain, using phenomena-powered components and parallel processing.
Each spinner 2 chip is borne with 152 core and special accelerator, 48 chips per server board. A fully configured system includes 1,440 boards, 69,120 chips and 138,240 Terabytes of DRAM.
These figures point to a system that is not only large, but designed for a very different type of performance, a one that rests on the speed in the drama rather than the traditional disc-based I/O.
In this design, the speed of the system is attributed to the data that maintains perfectly in Sram and Dram, emphasizes a feature spinquuid, it is important, “The super computer is tilted in the existing HPC system and has no OS or disk. The speed is generated by placing data in Sram and Dram.”
Spinchloud further claims that the standard parallel ethernet port “are sufficient to load/save the data,” suggest minimal requirement for wide storage structures found in high-demonstration computing.
Nevertheless, real implications remain speculative. Spinnekar 2 systems are impressive between 150 and 180 million neurons compared to the estimated 100 billion neurons of the human brain.
The original Spinnekar concept was developed by Steve Furber, which was a prominent person in the history of ARM, and this latest recurrence seems to be a commercial culmination of that idea.
Nevertheless, the correct performance and utility of the system in the real world is yet to be performed.
“Spinnekar 2’s efficiency advantage makes it particularly well suited for computational needs demanding national security applications,” Spinklaud co-founder and CEO Hector A. Gonzalez said, “Protecting the next generation and beyond” emphasizing its possible use.
Despite such statements, whether neuromorphic systems such as Spinnekar 2 can fulfill their promises outside special references, remain an open question.
For now, the activation of Sandia’s system marks a cool but potentially important step in the developed intersection of neurocesis and supercomputes.
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