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The pipeline was tested on a dataset used in experiments run on the Madmax cluster at MPI-CBG [https://imagej.net/Automated_workflow_for_parallel_Multiview_Reconstruction]. The Madmax cluster had 44 nodes with two Intel Xeon E5-2640, 2.5 GHz CPUs with 6 cores each (average CPU PassMark 9 498). In comparison, Salomon nodes are equipped with two Intel Xeon E5-2680v3, 2.5 GHz CPU with 12 cores each (average CPU PassMark 18 626). Salomon is running a newer generation of Xeon processors (Haswell) providing double the performance of the Sandy Bridge architecture used on Madmax.
Using the developed plugin, we executed the pipeline on the Salomon supercomputer at IT4Innovations in Ostrava, Czech Republic. As the test data set we used 90 time-point SPIM acquisition of a Drosophila melanogaster embryo expressing FlyFos fluorescent GFP fusion reporter for the nrv2 gene.
The embryo was imaged with Lightsheet Z.1 SPIM microscope (Carl Zeiss Microscopy) from 5 views every 15 minutes from cellular blastoderm stage until late stages of fruitfly embryogenesis. The data transfer and pipeline execution on Salomon using 90 nodes took 6 hours 37 minutes. For comparison, processing of the same dataset on a common PC took 44 hours and 8 minutes.
= Citation =
Please note that the plugin SPIM Workflow Manager for HPC available through Fiji is based on a publication. If you use it successfully for your research please be so kind to cite our work: