Achieve transformational, breakthrough impacts in scientific domains through the discovery and use of advanced computational methods and systems and make them accessible to the broad scientific community.
Delivering transformative solutions to complex scientific challenges through expertise in data processing and management, pioneering AI models for science, and high performance computing and network facilities.
Addressing the ever-growing scientific demands for computing performance through microelectronics co-design, new transistor technologies, heterogeneous accelerators, and innovative approaches such as quantum and neuromorphic computing.
Seamlessly integrating scientific facilities, data technologies, and supercomputing capabilities through a high-performance network to support reproducible science and accelerate discovery.
Driving Scientific Innovation Through Collaborative Partnerships
The three initiatives complement our traditional strengths in modeling and simulation, data-intensive science, applied mathematics and high performance computing; moving aggressively into machine learning, heterogeneous digital computing, and quantum computing while having a focused effort to integrate DOE’s experimental facilities and instrumented observational sites with its high performance computing and networking facilities in a superfacility model that will enable more effective facilities and reproducible science. Our vision cannot be realized in isolation; it will require partnerships with universities, industry, and other laboratories. We believe our initiatives will draw support from across the research community, united by a shared commitment to the mission of DOE and goals of scientific excellence.
