Abstract. Generating numerical solutions to the eikonal equation and its many variations has a broad range of applications in both the natural and computational sciences. Efficient solvers on cutting-edge, parallel architectures require new algorithms that may not be theoretically optimal, but that are designed to allow asynchronous solution updates and have limited memory access pat-terns. This paper presents a parallel algorithm for solving the eikonal equation on fully unstructured tetrahedral meshes. The method is appropriate for the type of fine-grained parallelism found on modern massively-SIMD architectures such as graphics processors and takes into account the partic-ular constraints and capabilities of these computing platforms. Th...
This paper introduces an efficient Euler solver for large tetrahedral grids (6,700,000 cells). The u...
Desire to model in ever increasing detail geometrical and physical features has lead to a steady inc...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
This paper presents an efficient, fine-grained parallel algorithm for solving the Eikonal equation o...
Algorithms for the numerical solution of the Eikonal equation discretized with tetrahedra are discus...
The numerical solution of the Eikonal equation follows the fast iterative method with its applicatio...
In this paper we propose a novel computational technique to solve the Eikonal equation efficiently o...
In the past decade, many numerical algorithms for the Eikonal equation have been proposed. Recently,...
AbstractThe fast marching method is widely used to solve the eikonal equation. By introducing a new ...
AbstractThe recent research trend of Eikonal solver focuses on employing state-of-the-art parallel c...
The recent research trend of Eikonal solver focuses on employing state-of-the-art parallel computing...
The semi-ordered fast iterative method is used to com-pute a monotone front propagation of anisotrop...
[EN]We propose a new algorithm on distributed-memory parallel computers for our simultaneous untangl...
The desire to model in ever increasing detail geometrical and physical features has lead to a steady...
In order to prepare modern finite element analysis a program for the efficient parallel generation ...
This paper introduces an efficient Euler solver for large tetrahedral grids (6,700,000 cells). The u...
Desire to model in ever increasing detail geometrical and physical features has lead to a steady inc...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
This paper presents an efficient, fine-grained parallel algorithm for solving the Eikonal equation o...
Algorithms for the numerical solution of the Eikonal equation discretized with tetrahedra are discus...
The numerical solution of the Eikonal equation follows the fast iterative method with its applicatio...
In this paper we propose a novel computational technique to solve the Eikonal equation efficiently o...
In the past decade, many numerical algorithms for the Eikonal equation have been proposed. Recently,...
AbstractThe fast marching method is widely used to solve the eikonal equation. By introducing a new ...
AbstractThe recent research trend of Eikonal solver focuses on employing state-of-the-art parallel c...
The recent research trend of Eikonal solver focuses on employing state-of-the-art parallel computing...
The semi-ordered fast iterative method is used to com-pute a monotone front propagation of anisotrop...
[EN]We propose a new algorithm on distributed-memory parallel computers for our simultaneous untangl...
The desire to model in ever increasing detail geometrical and physical features has lead to a steady...
In order to prepare modern finite element analysis a program for the efficient parallel generation ...
This paper introduces an efficient Euler solver for large tetrahedral grids (6,700,000 cells). The u...
Desire to model in ever increasing detail geometrical and physical features has lead to a steady inc...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...