
Meshes and Particles and GPUs Oh My!, Ann Almgren, Berkeley Lab
Abstract: Computational science seems to get more and more complicated every year — we talk about multiphysics, multiscale, multirate, multicore and more. We talk about
Abstract: Computational science seems to get more and more complicated every year — we talk about multiphysics, multiscale, multirate, multicore and more. We talk about
Abstract: Graphs provide a rich abstraction for modeling interactions in science and society. Graph algorithms have been instrumental in solving some of the hardest combinatorial
Abstract: Computing has become a critical component of science and engineering. Software is the key crosscutting technology that enables advances in mathematics, computer science, and
Abstract: In many physical systems, the internal structure of a material can only be observed by analyzing measurements obtained on the exterior of it. For
Abstract: Currently, there are 2.5 quintillion bytes of electronic data created every day and this pace is not going to decrease in the future. Scientific
Abstract: Modeling the dynamics of ice sheets like those found in Antarctica and Greenland has become an exciting research topic. Once thought to be stable
Abstract: Quantum computing has been studied for almost 40 years, but only recently hardware capable of running simple quantum algorithms has become available. Because quantum
Abstract: Open-science practices are important to ensure the results of research, and in particular publicly funded research, are accessible to all, to make findings reproducible
Abstract: A Computational Scientist comes armed with expertise in algorithms, fluency in software, and intuition for physical processes of scientific/engineering systems. There are tremendous opportunities
Abstract: From a certain point of view, scientists and engineers are customers in need of new digital tools to forge the technologies of tomorrow. Teams
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