Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
an autonomous framework for setting up, executing, and optimizing complex electronic structure workflows, ranging from ground-state Density Functional Theory (DFT) to many-body perturbation theory methods such as
-
University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 16 hours ago
decision-making about tobacco products. The specific project the postdoc will work on uses microsimulation modeling to estimate the public health impact of a ban on flavored cigars in different plausible
-
collaboration with local water utilities and software developers Integrate digital urban water twins with data, applying methodologies for data assimilation, parameter estimation, and quantification of model
-
be working primarily with scientific machine learning methods, including symbolic regression and neural networks. You will apply the algorithms to the discovery of new models in different fields
-
multi-modal analytics, privacy-preserving methods, and resilience-by-design systems methodologies. . Having experience in foundational disciplines in engineering and science is a plus. We seek to hire a
-
twin of sperm motility, and utilize it to develop a separation method. Your tasks will include: Performing computer simulations and matching them to experimental data Very close collaboration with
-
implement new computational and statistical methods. Create, test, and use relevant computer code (R, Python, SQL or equivalent). Maintain, modify, and execute analytic machinery that results. Draft
-
such as aphasia and apraxia. The World Health Organization (WHO) estimates that more than 50 million people worldwide suffer from dementia, with AD accounting for 60-70% of all cases. Unlike familial
-
developing large language models. Experience in DNA and protein AI/ML models and multimodal datasets. Knowledge in different deep learning architectures, tokenization and embedding methods. Experience in
-
orthopaedic surgery. This role combines medical imaging (ultrasound and MRI), computer-assisted surgical technologies, and the study of how bones and joints move. The targeted starting date is March 1, 2026