The multitiered iterative phasing (MTIP) algorithm is used to determine the biological structures of macromolecules from fluctuation scattering data. It is an iterative algorithm that reconstructs the electron density of the sample by matching the computed fluctuation X-ray scattering data to the external observations, and by simultaneously enforcing constraints in real and Fourier space. This paper presents the first ever MTIP algorithm acceleration efforts on contemporary graphics processing units (GPUs). The Compute Unified Device Architecture (CUDA) programming model is used to accelerate the MTIP algorithm on NVIDIA GPUs. The computational performance of the CUDA-based MTIP algorithm implementation outperforms the CPU-based version by ...
The GAP project aims at the deployment of Graphic Processing Units (GPU) in real-time applications, ...
AbstractThe Monte Carlo simulation of particle transport does not solve an explicit equation, but ra...
The GAP project aims at the deployment of Graphic Processing Units (GPU) in real-time applications, ...
The multitiered iterative phasing (MTIP) algorithm is used to determine the biological structures of...
X-ray scattering is a valuable tool for measuring the structural properties of materialsused in the ...
Simulation of atomic-resolution image formation in scanning transmission electron microscopy can req...
This thesis is part of a larger project in the field of computational microscopy. Its main contribut...
In this paper, we combine and extend two of our previous works to provide a more complete solution f...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
In this thesis, the method of moments (MoM) and the multilevel fast multipole algorithm (MLFMA) are ...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
We discuss an implementation of molecular dynamics (MD) simulations on a graphic processing unit (GP...
: Many-body perturbation theory is a powerful method to simulate electronic excitations in molecules...
We present 'jasmine', an implementation of a fully relativistic, 3D, electromagnetic Particle-In-Cel...
The GAP project aims at the deployment of Graphic Processing Units (GPU) in real-time applications, ...
AbstractThe Monte Carlo simulation of particle transport does not solve an explicit equation, but ra...
The GAP project aims at the deployment of Graphic Processing Units (GPU) in real-time applications, ...
The multitiered iterative phasing (MTIP) algorithm is used to determine the biological structures of...
X-ray scattering is a valuable tool for measuring the structural properties of materialsused in the ...
Simulation of atomic-resolution image formation in scanning transmission electron microscopy can req...
This thesis is part of a larger project in the field of computational microscopy. Its main contribut...
In this paper, we combine and extend two of our previous works to provide a more complete solution f...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
In this thesis, the method of moments (MoM) and the multilevel fast multipole algorithm (MLFMA) are ...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
We discuss an implementation of molecular dynamics (MD) simulations on a graphic processing unit (GP...
: Many-body perturbation theory is a powerful method to simulate electronic excitations in molecules...
We present 'jasmine', an implementation of a fully relativistic, 3D, electromagnetic Particle-In-Cel...
The GAP project aims at the deployment of Graphic Processing Units (GPU) in real-time applications, ...
AbstractThe Monte Carlo simulation of particle transport does not solve an explicit equation, but ra...
The GAP project aims at the deployment of Graphic Processing Units (GPU) in real-time applications, ...