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Beyond Moore

Highlights

Nature Quantum Information - Quantum Chemistry as a Benchmark for Near-term Quantum Computation
Nature Quantum Information - Quantum Chemistry as a Benchmark for Near-term Quantum Computation
Coefficient of variation (CoV) and total fuel injected results for the best spiking neural networks for each generation of evolution for all ten runs for the engine simulator. The best network is defined as the network with the lowest fuel injected that is also below the CoV threshold of 3 percent (averaged over ten test runs).
Low Size, Weight, and Power Neuromorphic Computing to Improve Combustion Engine Efficiency
XACC: A System-level Software Infrastructure for Heterogeneous Quantum-Classical Computing
XACC: A System-level Software Infrastructure for Heterogeneous Quantum-Classical Computing
spiking neural network generated by EONS using the Caspian platform CDA ORNL
Caspian: A Neuromorphic Development Platform
Visual Analytics System Overview: The system consists of three different views: a lineage view (1), a fitness-parameter view (2), and a network architecture view (3). CDA ORNL
Visualization System for Evolutionary Neural Networks for Deep Learning
Neuromorphic Graph Algorithms: Extracting Longest Shortest Paths and Minimum Spanning Trees
Summary of Bayesian-based Hyperparameter Optimization Results: a. Grid search: Whetstone accuracy for 256 different HP sets. b. Bayesian-based HP optimization: selected 15 HP combinations to find optimal hyperparameter set (shown with red star). c. Bayesian-based HP optimization result for four state-of-the-art datasets
Hyperparameter Optimization in Binary Communication Networks for Neuromorphic Deployment
EONS algorithm overview ORNL CDA Computer Data Analytics
Evolutionary Optimization for Neuromorphic Systems
Resilience and Robustness of Spiking Neural Networks for Neuromorphic Systems - CDA ORNL
Resilience and Robustness of Spiking Neural Networks for Neuromorphic Systems
Left - Memristive neuromorphic system Right - Spiking neural network designed by EONS
Automated Design of Neuromorphic Networks for Scientific Applications at the Edge
Bayesian-based Hyperparameter Optimization for Spiking Neuromorphic Systems
Bayesian-based Hyperparameter Optimization for Spiking Neuromorphic Systems
Multi-Objective Optimization for Size and Resilience of Spiking Neural Networks
Multi-Objective Optimization for Size and Resilience of Spiking Neural Networks
Evolving Energy Efficient Convolutional Neural Networks
Evolving Energy Efficient Convolutional Neural Networks
Hybrid Programming for Near-term Quantum Computing Systems
Hybrid Programming for Near-term Quantum Computing Systems
Experimentally optimized ground
Scalar quantum field theories as a benchmark for near-term quantum computers

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Department of Energy - Office of Science