Geometry, compatibility and structure preservation in computational differential equations
Created: | 2019-07-17 14:42 |
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Institution: | Isaac Newton Institute for Mathematical Sciences |
Editors' group: | Members of "Isaac Newton Institute for Mathematical Sciences". |
Description: | Computations of differential equations are a fundamental activity in applied mathematics. While historically the main quest was to derive all-purpose algorithms such as finite difference, finite volume and finite element methods for space discretization, Runge–Kutta and linear multistep methods for time integration, in the last 25 years the focus has shifted to special classes of differential equations and purpose-built algorithms that are tailored to preserve special features of each class. This has given rise to the new fields of geometric numerical integration and of structure preserving discretization. In addition to being quantitatively accurate, these novel methods have the advantage of also being qualitatively accurate as they inherit the key structural properties of their continuum counterparts. This has meant a large-scale introduction of geometric and topological thinking into modern numerical mathematics.
During this scientific programme at the Isaac Newton Institute for Mathematical Sciences, we will address fundamental questions in the field of structure preserving discretizations of differential equations on manifolds in space and time. We will bring together two communities that have been pursuing their science along parallel tracks to endeavour breakthroughs in some major scientific applications, which call for advanced numerical simulation techniques. This will lead to the development of a new generation of space-time discretizations for evolutionary equations. During the programme we intend to organise three workshops and two focused study periods lasting two weeks on selected application areas. The core themes of the programme are: Compatible discretizations. Geometric numerical integration. Structure preservation and numerical relativity. Applications to computations in quantum mechanics. |
Media items
This collection contains 74 media items.
Media items
Computational Challenges in Numerical Relativity
22 views
Pretorius, F
Monday 30th September 2019 - 16:00 to 17:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Mon 30 Sep 2019
Equivariance and structure preservation in numerical methods; some cases and viewpoints
14 views
Owren, B
Wednesday 11th December 2019 - 15:05 to 15:50
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Mon 16 Dec 2019
General Relativity: One Block at a Time
12 views
Miller, W
Thursday 3rd October 2019 - 13:30 to 14:30
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 3 Oct 2019
Hamiltonian Monte Carlo on Homogeneous Manifolds for QCD and Statistics.
11 views
Barp, A
Thursday 21st November 2019 - 13:05 to 13:45
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Fri 22 Nov 2019
Hyperbolicity and boundary conditions.
7 views
Reula, O
Tuesday 1st October 2019 - 13:30 to 14:30
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Tue 1 Oct 2019
New prospects in numerical relativity
14 views
Witek, H
Wednesday 2nd October 2019 - 13:30 to 14:30
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Wed 2 Oct 2019
Numerical relativity beyond astrophysics: new challenges and new dynamics
12 views
Figueras, P
Monday 30th September 2019 - 13:30 to 14:30
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Mon 30 Sep 2019
Optimal control and the geometry of integrable systems
0 views
Bloch, A
Wednesday 31st July 2019 - 15:00 to 16:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 1 Aug 2019
Optimal control and the geometry of integrable systems
15 views
Bloch, A
Wednesday 31st July 2019 - 15:00 to 16:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 1 Aug 2019
Putting Infinity on the Grid
8 views
Hilditch, D
Thursday 3rd October 2019 - 11:00 to 12:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 3 Oct 2019
Some Research Problems in Mathematical and Numerical General Relativity
38 views
Holst, M
Monday 30th September 2019 - 11:00 to 12:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Tue 1 Oct 2019
Structure-preserving time discretization: lessons for numerical relativity?
27 views
Stern, A
Monday 30th September 2019 - 14:30 to 15:30
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Mon 30 Sep 2019
Tetrad methods in numerical relativity
11 views
Garfinkle, D
Friday 4th October 2019 - 16:00 to 17:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Fri 4 Oct 2019
Variational discretizations of gauge field theories using group-equivariant interpolation spaces
9 views
Leok, M
Tuesday 1st October 2019 - 11:00 to 12:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Tue 1 Oct 2019
A Monte Carlo method to sample a Stratification
5 views
Holmes-Cefron, M
Wednesday 20th November 2019 - 15:40 to 16:10
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 21 Nov 2019
A new wave-to-wire wave-energy model: from variational principle to compatible space-time discretisation
8 views
Bokhove, O
Wednesday 24th July 2019 - 15:00 to 16:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Wed 24 Jul 2019
A Reynolds-robust preconditioner for the 3D stationary Navier-Stokes equations
1 view
Farrell, P
Thursday 31st October 2019 - 16:00 to 17:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Mon 4 Nov 2019
A Reynolds-robust preconditioner for the 3D stationary Navier-Stokes equations
5 views
Farrell, P
Thursday 31st October 2019 - 16:00 to 17:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 7 Nov 2019
Application of the Wiener-Hopf approach to incorrectly posed BVP of plane elasticity
14 views
Galybin, A
Friday 16th August 2019 - 13:30 to 14:00
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Mon 19 Aug 2019
Approximation of eigenvalue problems arising from partial differential equations: examples and counterexamples
10 views
Boffi, D
Wednesday 9th October 2019 - 15:05 to 15:50
Collection: Geometry, compatibility and structure preservation in computational differential equations
Institution: Isaac Newton Institute for Mathematical Sciences
Created: Thu 10 Oct 2019