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 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 , using it to compute images for atomic electron tomography at sufficient speeds to include in the reconstruction pipeline. is freely available both as an open-source CUDA/C++ package with a graphical user interface and as a Python package, .
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| http://dx.doi.org/10.1186/s40679-017-0048-z | DOI Listing |
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