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technologies such as neuromorphic computing and artificial intelligence. Work involves studying individual devices, building prototype circuits, and theoretically analyzing new architectures utilizing exotic
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regimes, and accurate geometry- and biochemistry-based trajectory analyses. However, detailed molecular dynamics simulations are often too time-consuming to become the basis of computational measurements
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is insensitive to variations in molecular architecture reducing its use for sorting chemically similar polymers such as high-density polyethylene, low-density polyethylene, linear low-density
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balance between the choices of mathematical approximation, computer architecture, data structures, and other factors-a balance crucial to the solution of many applications-driven problems. key words
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to achieving these goals. In particular, the development of novel neural network architectures capable of synthesizing data from both sequencing (genomics, transcriptomics) and mass spectrometry (metabolomics
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architectures, such as three-dimensional integrated circuits (3D-ICs), are poised to open up new avenues for more powerful functionally diverse electronics devices. Unfortunately, there is a lack of appropriate
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. Silver richard.silver@nist.gov 301.975.5609 Description Controlling the quantum state of individual electrons is a challenge central to many fundamental measurements and future computation architectures
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facilities include a commercial laser powder bed fusion machine, a commercial laser directed energy deposition machine, and several unique open-architecture laser powder bed fusion metrology testbeds with
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, industrial, operations research, computer science) and social sciences (sociology, human geography, decision science) to address a variety of research areas in a multi-disciplinary approach. Research topics