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NIST only participates in the February and August reviews. The Alternative Computing Group at NIST has an ongoing program in developing prototype circuits and designing new architectures
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polymer networks, with well-defined chemistry and architecture, are needed to carry out quantitative measurements to establish design principles for programmable disentanglement or dissociation of network
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conformation and dynamics in the one-phase region of oppositely charged polyelectrolyte solutions. Systems under investigation include polyelectrolytes of novel chain architecture (multi-arm star and block
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is an epigenetic modification and plays critical roles in many biological processes, including genomic imprinting, cell-fate determination, chromatin architecture organization, and regulation of gene
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non-linear materials is required. This data includes viscoelasticity, molecular architecture, rate and temperature sensitivity, mesoscale architecture. This project couples full-field measurements using
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mechanical behavior of polymers from low impact speeds to ballistic speeds. We are particularly interested in the role of polymer architecture, such as network structure, backbone stiffness and side group
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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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opportunities are available in developing integrated nanophotonic architectures and devices for realizing compact, efficient, accurate and dynamic quantum AMO systems-on-a-chip. By creating a set of scalable
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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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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