In the past decade, many numerical algorithms for the Eikonal equation have been proposed. Recently, the research of Eikonal equation solver has focused more on developing efficient parallel algorithms in order to leverage the computing power of parallel systems, such as multi-core CPUs and GPUs (Graphics Processing Units). In this paper, we introduce an efficient parallel algorithm that extends Jeong et al.???s FIM (Fast Iterative Method, [1]), originally developed for the GPU, for multi-core shared memory systems. First, we propose a parallel implementation of FIM using a lock-free local queue approach and provide an in-depth analysis of the parallel performance of the method. Second, we propose a new parallel algorithm, Group-Ordered Fas...
We present an adaptive domain decomposition strategy to introduce distributed memory parallelism int...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
In this paper we propose a novel computational technique to solve the Eikonal equation efficiently o...
AbstractThe fast marching method is widely used to solve the eikonal equation. By introducing a new ...
Abstract. Generating numerical solutions to the eikonal equation and its many variations has a broad...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and o...
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...
AbstractSolving the eikonal equation allows to compute a monotone front propagation of anisotropic n...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
This paper presents an efficient, fine-grained parallel algorithm for solving the Eikonal equation o...
This is a library of algorithms for the eikonal equation solution. It includes implementations of pr...
We present an adaptive domain decomposition strategy to introduce distributed memory parallelism int...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
In this paper we propose a novel computational technique to solve the Eikonal equation efficiently o...
AbstractThe fast marching method is widely used to solve the eikonal equation. By introducing a new ...
Abstract. Generating numerical solutions to the eikonal equation and its many variations has a broad...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and o...
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...
AbstractSolving the eikonal equation allows to compute a monotone front propagation of anisotropic n...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
This paper presents an efficient, fine-grained parallel algorithm for solving the Eikonal equation o...
This is a library of algorithms for the eikonal equation solution. It includes implementations of pr...
We present an adaptive domain decomposition strategy to introduce distributed memory parallelism int...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...