Yang Yu

Yang Yu

Quantum many-body theory and algorithms for strongly correlated systems.
Tianyue (Choco) Li

Tianyue (Choco) Li

We develop scalable boundary integral methods for simulating low-Re flows in complex geometries. My current focus is on forward solution, shape and design optimization of micro-swimmers in confined geometries. We derive the spectra of Stokes boundary integral...
Juan-Alberto Estrada-Garcia

Juan-Alberto Estrada-Garcia

Juan Estrada is a Ph.D. student in Industrial and Operations Engineering. His research focuses on developing models and methodologies for solving large-scale nonconvex optimization problems in complex networks. Methods include stochastic optimization, distributionally...
Gabriel Ponte

Gabriel Ponte

Computational and mathematical optimization to solve large-scale experimental design problems.
Anvay Pradhan

Anvay Pradhan

Weaving enables us to create complex geometries with unique properties. Basketweaving, for example, can achieve stiff three-dimensional shapes by combining flexible fibers. I am developing computational models that can simulate woven geometries to understand how...
Liuyun Xu

Liuyun Xu

Developing probabilistic frameworks for efficient uncertainty quantification and reliability assessment of high-rise systems against natural hazards leveraging data-driven and artificial intelligent techniques
Soumik Das

Soumik Das

My research involves developing new computational tools and techniques and applying them to quantum chemically simulate realistic chemical systems. Currently a third year Ph.D. candidate in the Chemistry Department.
Anne Draelos

Anne Draelos

My research goal is to understand computation in large-scale neural circuits through adaptive perturbations and real-time inference. My lab develops scalable and efficient machine learning algorithms to adaptively build models of neural and behavioral data online, and...