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A streaming multi-GPU implementation of image simulation algorithms for scanning transmission electron microscopy.

Authors :
Pryor, Alan
Pryor, Alan
Ophus, Colin
Miao, Jianwei
Pryor, Alan
Pryor, Alan
Ophus, Colin
Miao, Jianwei
Source :
Advanced structural and chemical imaging; vol 3, iss 1, 15; 2198-0926
Publication Year :
2017

Abstract

Simulation of atomic-resolution image formation in scanning transmission electron microscopy can require significant computation times using traditional methods. A recently developed method, termed plane-wave reciprocal-space interpolated scattering matrix (PRISM), demonstrates potential for significant acceleration of such simulations with negligible loss of accuracy. Here, we present a software package called Prismatic for parallelized simulation of image formation in scanning transmission electron microscopy (STEM) using both the PRISM and multislice methods. By distributing the workload between multiple CUDA-enabled GPUs and multicore processors, accelerations as high as 1000 × for PRISM and 15 × for multislice are achieved relative to traditional multislice implementations using a single 4-GPU machine. We demonstrate a potentially important application of Prismatic, using it to compute images for atomic electron tomography at sufficient speeds to include in the reconstruction pipeline. Prismatic is freely available both as an open-source CUDA/C++ package with a graphical user interface and as a Python package, PyPrismatic.

Details

Database :
OAIster
Journal :
Advanced structural and chemical imaging; vol 3, iss 1, 15; 2198-0926
Notes :
application/pdf, Advanced structural and chemical imaging vol 3, iss 1, 15 2198-0926
Publication Type :
Electronic Resource
Accession number :
edsoai.on1287351559
Document Type :
Electronic Resource