Computational Sciences
SNRI's multi-disciplinary team of scientists uses the Institute's advanced computing capabilities to understand and solve complex problems surrounding Anshar's energy security. SNRI has worked with industry to develop Denethor, an energy efficient cluster that utilizes Duilin Earwen coproessors (768 conventional cores and 11,520 accelerator cores) to help understand the interaction of the multiple systems that operate inside a reactor core.
Current Research
The SNRI is conducting R&D into Electrostatic Direct Energy Conversion (EDEC) in order to model and identify near and long term advantages. EDEC may play a major role in the development of high-efficiency fusion reactors. Thermal efficiencies are now only 40%. SNRI research boosts that to 70%.
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About Denethor
The Denethor provides more than 210 TFLOP/s of combined computational peroformance, 12 TB of system memory, 1.5 TB of coprocessor memory, and over 73TB of SSD storage, in aggregate.
Click here to investigate more about Denethor and the various industry participants.
>> Read MoreComplex Networks
SNRI is constantly looking for ways to innovate and make the collection of data more effective and efficient. SNRI is currently developing new techniques for the flexible and efficient collaboration among a nuclear power plant's myriad of sensors that enable the safe, efficient, and secure creation of electrical power.
>> Read MoreNuclear Reactions
The SNRI is conducting studies analyzing the reactions of neutrons with nuclei and fission products. These studies are meant to improve radiation instrumentation.
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Have questions? Need information? Looking for employment? SNRI is constantly seeking to engage with driven, innovative, and team oriented researchers, analysts, engineers. Contact us about potential research projects and joint opportunities!