Collaboration to Build New Brain-inspired Supercomputer
March 30, 2016 | Lawrence Livermore National LaboratoryEstimated reading time: 3 minutes
Lawrence Livermore National Laboratory (LLNL) today announced it will receive a first-of-a-kind brain-inspired supercomputing platform for deep learning developed by IBM Research. Based on a breakthrough neurosynaptic computer chip called IBM TrueNorth, the scalable platform will process the equivalent of 16 million neurons and 4 billion synapses and consume the energy equivalent of a hearing aid battery – a mere 2.5 watts of power.The brain-like, neural network design of the IBM Neuromorphic System is able to infer complex cognitive tasks such as pattern recognition and integrated sensory processing far more efficiently than conventional chips.
The new system will be used to explore new computing capabilities important to the National Nuclear Security Administration’s (NNSA) missions in cybersecurity, stewardship of the nation’s nuclear weapons stockpile and nonproliferation. NNSA’s Advanced Simulation and Computing (ASC) program will evaluate machine-learning applications, deep-learning algorithms and architectures and conduct general computing feasibility studies. ASC is a cornerstone of NNSA’s Stockpile Stewardship Program to ensure the safety, security and reliability of the nation’s nuclear deterrent without underground testing.
“Neuromorphic computing opens very exciting new possibilities and is consistent with what we see as the future of the high performance computing and simulation at the heart of our national security missions,” said Jim Brase, LLNL deputy associate director for Data Science. “The potential capabilities neuromorphic computing represents and the machine intelligence that these will enable will change how we do science.”
The technology represents a fundamental departure from computer design that has been prevalent for the past 70 years, and could be a powerful complement in the development of next-generation supercomputers able to perform at exascale speeds, 50 times (or two orders of magnitude) faster than today’s most advanced petaflop (quadrillion floating point operations per second) systems. Like the human brain, neurosynaptic systems require significantly less electrical power and volume.
“The low power consumption of these brain-inspired processors reflects industry’s desire and a creative approach to reducing power consumption in all components for future systems as we set our sights on exascale computing,” said Michel McCoy, LLNL program director for Weapon Simulation and Computing.
“The delivery of this advanced computing platform represents a major milestone as we enter the next era of cognitive computing,” said Dharmendra Modha, IBM fellow and chief scientist of Brain-inspired Computing, IBM Research. “We value our partnerships with the national labs. In fact, prior to design and fabrication, we simulated the IBM TrueNorth processor using LLNL’s Sequoia supercomputer. This collaboration will push the boundaries of brain-inspired computing to enable future systems that deliver unprecedented capability and throughput, while minimizing the capital, operating and programming costs – keeping our nation at the leading edge of science and technology.”
A single TrueNorth processor consists of 5.4 billion transistors wired together to create an array of 1 million digital neurons that communicate with one another via 256 million electrical synapses. It consumes 70 milliwatts of power running in real time and delivers 46 giga synaptic operations per second – orders of magnitude lower energy than a conventional computer running inference on the same neural network. TrueNorth was originally developed under the auspices of the Defense Advanced Research Projects Agency’s (DARPA) Systems of Neuromorphic Adaptive Plastic Scalable Electronics (SyNAPSE) program, in collaboration with Cornell University.
Under terms of the $1 million contract, LLNL will receive a 16-chip TrueNorth system representing a total of 16 million neurons and 4 billion synapses. LLNL also will receive an end-to-end ecosystem to create and program energy-efficient machines that mimic the brain’s abilities for perception, action and cognition. The ecosystem consists of a simulator; a programming language; an integrated programming environment; a library of algorithms as well as applications; firmware; tools for composing neural networks for deep learning; a teaching curriculum; and cloud enablement.
Lawrence Livermore computer scientists will collaborate with IBM Research, partners across the Department of Energy complex and universities to expand the frontiers of neurosynaptic architecture, system design, algorithms and software ecosystem.
Suggested Items
Cicor Publishes Nine-month Results Report due to OEP Mandatory Offer
12/20/2024 | CicorCicor Group is publishing a nine-month report today. OEP has published a mandatory offer after it converted its Mandatory Convertible Bonds (MCNs) and thereby crossed the mandatory offer threshold.
Curtiss-Wright Announces New $100 Million Expansion of 2024 Share Repurchase Program, Raises Minimum Annual Repurchase Plan to $60 Million for 2025
12/17/2024 | Curtiss-Wright CorporationCurtiss-Wright Corporation announced a $100 million expansion of its 2024 share repurchase program, which it expects to complete via a 10b5-1 program by the end of the year.
Nordson Corporation Reports Fourth Quarter and Fiscal Year 2024 Results
12/12/2024 | Nordson CorporationNordson Corporation today reported results for the fiscal fourth quarter ended October 31, 2024. Sales were $744 million, a 4% increase compared to the prior year’s fourth quarter sales of $719 million. The increase in fourth quarter 2024 sales included the favorable 6% impact of acquisitions and favorable currency translation of 1%, offset by an organic sales decrease of 3%.
PC Graphics Add-in Board Shipments Down in 3Q24
12/10/2024 | Jon Peddie ResearchAccording to a new research report from the analyst firm Jon Peddie Research, the growth of the global PC-based graphics add-in board market reached 8.1 million units in Q3'24 and desktop PC CPU shipments increased to 20.1 million units.
Kitron: Agility Driving Growth and Profits in 2025 and Beyond
12/10/2024 | KitronKitron is hosting a Capital Markets Presentation to update investors on the company's financial and commercial targets and ambitions.