Homomorphic Encryption Acceleration
Article Homomorphic Encryption Acceleration FPGA acceleration enables this unique solution that allows compute on encrypted data without decrypting or sharing keys Traditional Encryption Limits Encrypting
High-performance storage is changing as acceleration moves closer to storage and traditional form factors change to accommodate. Join BittWare and co-presenters Stephen Bates, CTO of Eideticom, and Peter Baldwin, CEO of Myrtle.ai, as we explain where computational storage is today—and where it’s going.
Case studies include ZFS compression for Los Alamos National Lab and a new recommendation system accelerator from Myrtle.ai.
We will also debut a new 250-series accelerator and give an update on our NVMe High-Speed Data Recorder project.
"*" indicates required fields
Article Homomorphic Encryption Acceleration FPGA acceleration enables this unique solution that allows compute on encrypted data without decrypting or sharing keys Traditional Encryption Limits Encrypting
BittWare Partner IP NVMe Bridge Platform NVMe Intercept AXI-Stream Sandbox IP Computational storage devices (CSD) allow storage endpoints to provide computational storage functions (CSF) to
The New IA-220-U2 with PCIe Gen 4 FPGA Computational storage PROCESSOR (CSP) Gen 4 PCIe NVMe Eideticom NoLoad Support BittWare’s IA-220-U2 Accelerates NVMe FLASH SSDs
For a data recorder, how many drives are required for a given sustained data rate? Find the answer in this informative white paper.