Scientific Computing Content
https://cs.ucdavis.edu/
Scientific Computing Content for Computer ScienceenJesus De Loera
https://cs.ucdavis.edu/directory/jesus-de-loera
<p>Professor Jesus A. De Loera works in discrete mathematics. He is particularly interested in applications of discrete <a href="http://en.wikipedia.org/wiki/Computational_geometry">computational geometry</a>, in topics such as algorithms, optimization, data science, statistics, and operation research. But he has also studied the combinatorial and topological structures arising from combinatorial and algebraic questions too.</p>February 21, 2020 - 1:05pmJoseph Menkehttps://cs.ucdavis.edu/directory/jesus-de-loeraFrancois Gygi
https://cs.ucdavis.edu/directory/francois-gygi
<h5>Scientific computing, high-performance computing, computational physics, chemistry and materials science</h5>
<p>Gygi's main research activity focuses on the design and implementation of numerical algorithms for applications to first-principles molecular dynamics simulations and electronic structure computations of molecules, liquids and solids. His research group develops and maintains open-source, high-performance simulation software designed for operation on supercomputers.</p>February 19, 2020 - 7:41amAnonymoushttps://cs.ucdavis.edu/directory/francois-gygiPeter Linz
https://cs.ucdavis.edu/directory/peter-linz
<p>Professor Linzâ€™s research emphasizes the development of a theory of numerical analysis that can be used in the construction of reliable numerical methods used in the design of problem-solving environments for scientific computing.</p>
February 05, 2020 - 11:07amAnonymoushttps://cs.ucdavis.edu/directory/peter-linzPatrice Koehl
https://cs.ucdavis.edu/directory/patrice-koehl
<h5>Computational geometry and topology, computational physics, computational biology</h5>
<p>Koehl is interested in the geometry, topology and dynamics of biological shapes. The Koehl groups develop new methods for characterizing the geometries of biomolecules and for predicting how they changes upon changes in their environments. These efforts aim to investigate the dynamics of large biomolecular systems such as viral particles, as well as their interactions against potential antibodies.</p>
February 04, 2020 - 11:14amAnonymoushttps://cs.ucdavis.edu/directory/patrice-koehlZhaojun Bai
https://cs.ucdavis.edu/directory/zhaojun-bai
<h5>Computational mathematics, numerical algorithm design and analysis</h5>
<p>Bai performs research in computational mathematics, numerical algorithm design and analysis, mathematical software and high-performance computing. He is particularly interested in developing numerical linear algebra algorithms for large-scale matrix computations, and high performance mathematical software for applications in computational science and engineering and data analysis.</p>
February 04, 2020 - 10:49amAnonymoushttps://cs.ucdavis.edu/directory/zhaojun-bai