Add to ORKGThis work is part of the k-Wave project, which is a toolbox designed for time ultrasound simulations in complex and heterogeneous media. The simulation functions are based on the k-space pseudospectral method. The goal of this work is to compute these simulations on graphics cards using local domain decompostion. Thanks to decomposition we could compute these simulations faster, and on larger data grids. The main goal of this work is to achieve efficiency and scalability
International audienceIn this paper we present an optimization of a spectral finite element method i...
Computation of the spatial impulse response (SIR) is a time-consuming but fundamental step in the co...
This paper presents a parallel algorithm for rendering ultrasonic volume data based on image space s...
Tato práce se zabývá rozšířením projektu k-Wave, který řeší simulace šíření ultrazvukových vln v het...
The main focus of this project is usage of multi - GPU systems and usage of CUDA unified memory . It...
This document introduces a brand new method of the 1D, 2D and 3D decomposition with the use of local...
A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear ultrasoun...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
Nowadays, the simulation of ultrasound acoustic waves has a wide range of practical usage. As one of...
The realistic simulation of ultrasound wave propagation is computationally intensive. The large size...
Abstract—The realistic simulation of ultrasound wave propa-gation is computationally intensive. The ...
This thesis is a part of the k-Wave project, which is a toolbox for the simulation and reconstructio...
It is estimated that mind-boggling 14.1 million new cases of cancer occurred worldwide in 2012 alone...
International audienceAcoustic simulation has always played an important role in the development of ...
This thesis explores potential use of GPGPU libraries to accelerate k-Wave toolkit's acoustic wave p...
International audienceIn this paper we present an optimization of a spectral finite element method i...
Computation of the spatial impulse response (SIR) is a time-consuming but fundamental step in the co...
This paper presents a parallel algorithm for rendering ultrasonic volume data based on image space s...
Tato práce se zabývá rozšířením projektu k-Wave, který řeší simulace šíření ultrazvukových vln v het...
The main focus of this project is usage of multi - GPU systems and usage of CUDA unified memory . It...
This document introduces a brand new method of the 1D, 2D and 3D decomposition with the use of local...
A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear ultrasoun...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
Nowadays, the simulation of ultrasound acoustic waves has a wide range of practical usage. As one of...
The realistic simulation of ultrasound wave propagation is computationally intensive. The large size...
Abstract—The realistic simulation of ultrasound wave propa-gation is computationally intensive. The ...
This thesis is a part of the k-Wave project, which is a toolbox for the simulation and reconstructio...
It is estimated that mind-boggling 14.1 million new cases of cancer occurred worldwide in 2012 alone...
International audienceAcoustic simulation has always played an important role in the development of ...
This thesis explores potential use of GPGPU libraries to accelerate k-Wave toolkit's acoustic wave p...
International audienceIn this paper we present an optimization of a spectral finite element method i...
Computation of the spatial impulse response (SIR) is a time-consuming but fundamental step in the co...
This paper presents a parallel algorithm for rendering ultrasonic volume data based on image space s...