104 parallel-and-distributed-computing-phd research jobs at Pennsylvania State University
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tools (e.g., light sheet fluorescent microscopy) and computational approaches to examine cellular resolution details in the whole mouse brain. Moreover, we use systems neuroscience approaches (e.g
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focuses are: 1) Investigating the underlying molecular mechanisms by which 3D genome topology controls the hematopoietic transcription program and lineage differentiation in normal and malignant
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journals and present at academic and professional conferences. Mentor graduate and undergraduate students, including guiding PhD students in their research. Collaborate with faculty and other researchers in
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REQUIREMENTS: The Office of Technology Transfer (OTT) is inviting candidates with an interest in technology commercialization to apply for an opportunity to join a one-year paid fellowship program called
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of physics beyond the Standard Model, using analytical and computational approaches. The successful applicant will join Dr. Carlos Blanco's research group with significant academic freedom to pursue
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and build computational interventional models for individuals. Required qualifications: MD or PhD (completed by start of employment) in computer science or behavioral science. A technical background is
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), and 3) developing digital 3D atlases and various neuroinformatics tools. We utilize high-resolution 3D imaging tools (e.g., light sheet fluorescent microscopy) and computational approaches to examine
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Sriperumbudur. Potential research projects include (but are not limited to) developing theory and methods for metric-valued (including functions, distributions) data analysis, optimal transport and gradient flows
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distribution system. Qualifications & Requirements: MS in Mechanical Engineering. BACKGROUND CHECKS/CLEARANCES Employment with the University will require successful completion of background check(s) in
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electronics. Specifically, they will be setting up laser systems, including laser frequency stabilization setups based on atomic spectroscopy, frequency distribution setups based on acoust-optic modulators, and