32 parallel-computing-numerical-methods positions at AALTO UNIVERSITY in United Kingdom
Sort by
Refine Your Search
-
to work on the discovery of new superconducting materials with high critical temperatures, using novel methods and concepts such as machine learning and quantum geometry. The project is related to large
-
information sciences. In parallel with basic research, we develop ideas and technologies further into innovations and services. We are experts in systems science; we develop integrated solutions from care
-
(Three positions) The Department of Computer Science at Aalto University invites applications for lecturer positions in computer science. The positions of the Aalto University lecturer career system
-
-quality and high-impact research and for creating research networks supporting their careers. We welcome applications across all areas in Computer Science, including Algorithms and theory Bioinformatics and
-
information sciences. In parallel with basic research, we develop ideas and technologies further into innovations and services. We are experts in systems science; we develop integrated solutions from care
-
metrics (efficiency, bandwidth, angular response, and robustness). In parallel, the candidate will gain in-depth knowledge of analytical modeling techniques and adjoint-based optimization methods for high
-
under the Horizon Europe Marie Skłodowska-Curie Actions (MSCA) program. Acquire knowledge During the thesis, the candidate will acquire a solid understanding of the theoretical and practical requirements
-
community with numerous doctoral students, postdoctoral researchers, and faculty members from several countries and multidisciplinary backgrounds. Our expectations The Postdoctoral Researcher position is
-
and the Department of Built Environment / Master’s programme in Geoinformatics at the School of Engineering. The position is to be filled at the Assistant or Associate professor level of Aalto
-
establishing reliable, multimodal methods that connect interphase chemistry and morphology to electrochemical performance, stability, and degradation mechanisms. Join us in shaping the future of advanced