PhD Position in Chebyshev Lattice Algorithms for High-Dimensional Integration Catholic University of Leuven Department of Computer Science

NUMA is a research section within the Department of Computer Science of KU Leuven, with 12 permanent staff members and approximately 40 PhD and postdoctoral researchers. NUMA works on the crossing of numerical analysis and computational mathematics and develops numerical algorithms and software for large-scale problems in science and engineering. This position is on a project in cooperation with the research group of Frances Kuo of the School of Mathematics and Statistics of the University of New South Wales, Sydney, Australia. Project This position is part of an FWO project in cooperation with UNSW Sydney which develops new algorithms for approximating high dimensional integrals. Very high dimensional integrals are one of the most challenging problems in computational mathematics and in particular in the theoretical development of Uncertainty Quantification techniques (a very hot topic these days). To approximate high dimensional integrals we make use of sampling point sets based on lattices. The simplest form are "lattice rules" and they have been extensively studied, mostly in the worst case setting, by the project supervisors (both in Leuven and in Sydney). This project extends the analysis of lattice based methods to higher order convergence in non-periodic spaces aiming for optimal randomized error bounds. Very recently the supervisors were able to formulate a complete framework for approximating non-periodic functions in a multivariate Chebyshev basis using FFT-based algorithms on lattice based sampling points. However, a lot of the theory which we normally have available to analyse numerical integration is still missing. There are two PhD positions on this project. This job posting is concerned with pushing the limits for Chebyshev lattice methods and will develop both the worst case error analysis as well as root mean squared error analysis for a recently discovered randomized algorithm. The two PhD students will also work together on a more general framework for the randomization of lattice based point sets. Profile Hold a Master in Mathematical Engineering, Mathematics, Computational Mathematics or equivalent Solid background and interest in numerical analysis and computational mathematics Experience with programming and developing scientific software Persistent and proud of your work Excellent proficiency in English and good oral and written communication skills Offer A high-level and exciting international research environment The opportunity to build research and innovation skills that are essential for a future career in research and development Funding is secured for four years, the initial offer is a one-year appointment, renewal depends on the progress in the PhD program A competitive salary Interested? For more information please contact Prof. dr. ir. Dirk Nuyens, mail: dirk.nuyens@kuleuven.be or Prof. dr. ir. Ronald Cools, tel.: +32 16 32 75 62, mail: ronald.cools@kuleuven.be. You can apply for this job no later than June 30, 2020 via the KU Leuven seeks to foster an environment where all talents can flourish, regardless of gender, age, cultural background, nationality or impairments. If you have any questions relating to accessibility or support, please contact us at diversiteit.HR@kuleuven.be. Employment percentage: Voltijds Location: Leuven Apply before: June 30, 2020 Tags: Computerwetenschappen If you apply for this position please say you saw it on Computeroxy Apply

NUMA is a research section within the Department of Computer Science of KU Leuven, with 12 permanent staff members and approximately 40 PhD and postdoctoral researchers. NUMA works on the crossing of numerical analysis and computational mathematics and develops numerical algorithms and software for large-scale problems in science and engineering. This position is on a project in cooperation with the research group of Frances Kuo of the School of Mathematics and Statistics of the University of New South Wales, Sydney, Australia.

Project

This position is part of an FWO project in cooperation with UNSW Sydney which develops new algorithms for approximating high dimensional integrals.

Very high dimensional integrals are one of the most challenging problems in computational mathematics and in particular in the theoretical development of Uncertainty Quantification techniques (a very hot topic these days).

To approximate high dimensional integrals we make use of sampling point sets based on lattices. The simplest form are "lattice rules" and they have been extensively studied, mostly in the worst case setting, by the project supervisors (both in Leuven and in Sydney).

This project extends the analysis of lattice based methods to higher order convergence in non-periodic spaces aiming for optimal randomized error bounds.

Very recently the supervisors were able to formulate a complete framework for approximating non-periodic functions in a multivariate Chebyshev basis using FFT-based algorithms on lattice based sampling points.

However, a lot of the theory which we normally have available to analyse numerical integration is still missing.

There are two PhD positions on this project. This job posting is concerned with pushing the limits for Chebyshev lattice methods and will develop both the worst case error analysis as well as root mean squared error analysis for a recently discovered randomized algorithm.

The two PhD students will also work together on a more general framework for the randomization of lattice based point sets.

Profile

Hold a Master in Mathematical Engineering, Mathematics, Computational Mathematics or equivalent
Solid background and interest in numerical analysis and computational mathematics
Experience with programming and developing scientific software
Persistent and proud of your work
Excellent proficiency in English and good oral and written communication skills

Offer

A high-level and exciting international research environment
The opportunity to build research and innovation skills that are essential for a future career in research and development
Funding is secured for four years, the initial offer is a one-year appointment, renewal depends on the progress in the PhD program
A competitive salary

Interested?

For more information please contact Prof. dr. ir. Dirk Nuyens, mail: dirk.nuyens@kuleuven.be or Prof. dr. ir. Ronald Cools, tel.: +32 16 32 75 62, mail: ronald.cools@kuleuven.be.

You can apply for this job no later than June 30, 2020 via the

KU Leuven seeks to foster an environment where all talents can flourish, regardless of gender, age, cultural background, nationality or impairments. If you have any questions relating to accessibility or support, please contact us at diversiteit.HR@kuleuven.be.

Employment percentage: Voltijds
Location: Leuven
Apply before: June 30, 2020
Tags: Computerwetenschappen

If you apply for this position please say you saw it on Computeroxy

Apply