Add to ORKGThis thesis is part of a larger project in the field of computational microscopy. Its main contribution is to facilitate the implementation of high performance tools to assist in the understanding and simulation of microscopic coherent x-ray imaging of objects. The main focus of this thesis is improving the performance of PaXPro, which is a C++ library focused on solving the paraxial wave equation in 2D and 3D. Some optimizations are made to an existing solver implementing the Split-Step Fourier Transform Method on the CPU. A GPU-based implementation of this solver is also created, using CUDA. Benchmarking tools for PaXPro are created, and docker is used to measure performance on a wide range of systems, with a total of 4 different CPUs a...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
The objective of this research is to accelerate the Physical Optics - Shooting and Bouncing Ray (PO-...
X-ray crystallography is a powerful method that has significantly contributed to our understanding o...
X-ray scattering is a valuable tool for measuring the structural properties of materialsused in the ...
The availability of digital X-ray detectors, together with advances in reconstruction algorithms, cr...
In this thesis a software solution was developed that simulates the scattering of X-rays in matter u...
The multitiered iterative phasing (MTIP) algorithm is used to determine the biological structures of...
<div><p>Recent developments in modern computational accelerators like Graphics Processing Units (GPU...
The open-source PyNX toolkit has been extended to provide tools for coherent X-ray imaging data anal...
In this paper, a GPU-accelerated implementation of a three-dimensional full-wave electromagnetic sol...
Simulation of atomic-resolution image formation in scanning transmission electron microscopy can req...
International audienceThe open-source PyNX toolkit has been extended to provide tools for coherent X...
Recent developments in modern computational accelerators like Graphics Processing Units (GPUs) and c...
In this paper, we combine and extend two of our previous works to provide a more complete solution f...
In this paper we describe and demonstrate a C++ code written to determine the trajectory of particle...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
The objective of this research is to accelerate the Physical Optics - Shooting and Bouncing Ray (PO-...
X-ray crystallography is a powerful method that has significantly contributed to our understanding o...
X-ray scattering is a valuable tool for measuring the structural properties of materialsused in the ...
The availability of digital X-ray detectors, together with advances in reconstruction algorithms, cr...
In this thesis a software solution was developed that simulates the scattering of X-rays in matter u...
The multitiered iterative phasing (MTIP) algorithm is used to determine the biological structures of...
<div><p>Recent developments in modern computational accelerators like Graphics Processing Units (GPU...
The open-source PyNX toolkit has been extended to provide tools for coherent X-ray imaging data anal...
In this paper, a GPU-accelerated implementation of a three-dimensional full-wave electromagnetic sol...
Simulation of atomic-resolution image formation in scanning transmission electron microscopy can req...
International audienceThe open-source PyNX toolkit has been extended to provide tools for coherent X...
Recent developments in modern computational accelerators like Graphics Processing Units (GPUs) and c...
In this paper, we combine and extend two of our previous works to provide a more complete solution f...
In this paper we describe and demonstrate a C++ code written to determine the trajectory of particle...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
The objective of this research is to accelerate the Physical Optics - Shooting and Bouncing Ray (PO-...
X-ray crystallography is a powerful method that has significantly contributed to our understanding o...