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algorithms in the context of sparse optimization and applications in real world data sets. We are also interested in exploring opportunities for parallelism of the completion process, highlighting
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and chemical processes controlling organic carbon sequestration in the soil. Translate the basic scientific knowledge generate from the above-mentioned disciplines into sound management practices on how
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computational models to capture the Multiphysics behavior— including fluid flow, heat transfer, and reaction dynamics—governing the co-precipitation process. Leveraging the ASCC supercomputer at UM6P, three
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parallel, a new portfolio of clients is growing with the development of an R&D cluster around the University and a growing number of international partnerships. About the College of Agriculture and
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measurements, behavior, and modeling; its connection with the biogeochemical cycling of C, N, and P, and fundamental biological and chemical processes controlling organic carbon sequestration in the soil