Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
-
Field
-
or a closely related field. • You have experience in matrix algorithms, data compression, parallel computing, optimization of advanced applications on parallel and distributed systems
-
research for digital security and is a pioneer in developing highly innovative concepts, algorithms and systems for anomaly detection, cyber threat intelligence, penetration testing and cryptography. Through
-
stellar population models applied to state-of- the-art spectroscopy requires novel optimisation algorithms and efficient programming. • You can show a proven track record in object-oriented programming as
-
stellar population models applied to state-of- the-art spectroscopy requires novel optimisation algorithms and efficient programming. • You can show a proven track record in object-oriented programming as
-
working in the research group “Theory and Applications of Algorithms” at the Faculty of Computer Science. The position is limited to six months and is planned to be filled from 01.10.2025. Your future tasks
-
control algorithms and forecasting tools under realistic and reproducible conditions. You will collaborate with your team and project partners and bring your own ideas to help us define national and
-
-of- the-art spectroscopy requires novel optimisation algorithms and efficient programming. • You can show a proven track record in object-oriented programming as necessary in larger software development teams
-
outstanding candidates whose work lies at the intersection of statistics, machine learning, data analytics and modern AI algorithms. This includes, in particular, statistics for high-dimensional and complex
-
Innsbruck and help bring quantum computing to its full potential. The ideal candidate has achieved excellent research results in several of the following fields: Quantum algorithms Quantum complexity Quantum
-
the 2D plane is a long-studied problem in robotics resulting in a broad spectrum of feasible methods and algorithms. However, performance relies heavily on the problem itself, the robot, the environment