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9:45-10:50 AM
MEDE-301B-1: VR – Virtual Stories, Experiences You Control (Media & Entertainment Track)
Paper Title: High Performance Computational Storage for Video, Volumetric and VR

Paper Abstract: Emerging 3D and VR video content, produced using 360 spherical cameras or volumetric capture techniques, will require an order of magnitude increase in video data volume, resulting in terabytes of video data files that will need to be stored, edited, processed, compressed and distributed to produce a single 3D video title or live stream. This session will focus on computational storage architectures for high performance video processing. Leveraging the extensibility of the NVMe protocol, computational storage devices are available today that combine NAND Flash memory, PCIe Gen4 throughput, together with ASIC-based video transcode/encode accelerators, to improve the efficiencies and economics for UHD video storage, processing, and distribution. The session will then explore the requirements for extending NVMe SSD computational storage architectures to meet volumetric and 3D video production requirements of the near future.

Paper Author: John Plasterer, Chief Architect, NETINT Technologies

Author Bio: John Plasterer is the chief architect for hardware and ASIC engineering at NETINT Technologies. He has over 18 years experience in high-speed digital design, mixed signal design and signal integrity. Prior to joining NETINT, John worked as a Senior Manager at PMC-Sierra in the Mixed Signal Department developing SoCs for Storage, Optical and Wireless markets. John has presented and shared his viewpoints at numerous industry conferences, including FMS 2018. John received a B.Eng from the University of Victoria and an MBA from Simon Fraser University and holds six patents in the area of mixed-signal and signal integrity design.