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Smart Multiscale Nano-Imaging

Smart Multiscale Nano-Imaging. Francisco Blanco-Silva IMI and Department of Mathematics. Smart Multiscale Nano -Imaging. Dr. Thomas Vogt USC NanoCenter. Smart Multiscale Nano - Imaging. Dr. Thomas Vogt USC NanoCenter. Dr. Douglas Blom Electron Microscopy Center.

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Smart Multiscale Nano-Imaging

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  1. Smart Multiscale Nano-Imaging Francisco Blanco-Silva IMI and Department of Mathematics

  2. Smart Multiscale Nano-Imaging Dr. Thomas Vogt USC NanoCenter

  3. Smart Multiscale Nano-Imaging Dr. Thomas Vogt USC NanoCenter Dr. Douglas Blom Electron Microscopy Center

  4. Smart Multiscale Nano-Imaging Dr. Thomas Vogt USC NanoCenter Dr. Douglas Blom Electron Microscopy Center Dr. Robert Sharpley IMI Dr. Peter Binev IMI

  5. Smart Multiscale Nano-Imaging <slide introducing hardware/software for supercomputing> Jupiter: SUN 4 Quad-Core AMD Opteron 2.3GHz with 128GB RAM (to be expanded to 8 Quad-Core AMD Opteron 2.3GHz with 256GB RAM) CUDA Cluster: Homogeneous 30–node cluster with newest AMD processors and nVidia graphics cards. Xgrid: Software to turn a heterogeneous group of computers into a cluster using Mac OS X Server. <look for pics>

  6. Objective: High resolution visualization High resolution visualization of the M1 catalyst (MoVTeNb-oxide) under a FEI XL30 environmental scanning electron microscope

  7. Data: Low resolution time-series projections

  8. The trick: Super-resolution <this slide needs lots of work>

  9. Super-resolution—the “program”

  10. Super-resolution—the “program”

  11. Super-resolution—the “program”

  12. Super-resolution for EM—not so easy ≠ =

  13. Super-resolution for EM—not so easy ≠ =

  14. Super-resolution for EM—not so easy <insert a timeseries projection showing some Biological material getting burned under the Electron microscopy>

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