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EVENT DETAILS |
Distributed systems present a tremendous opportunity to advance some of the worlds most interesting use cases from smart cities (processing) to emergency response systems (machine-to-machine communication) & censorship resistance (encryption). To date, the barrier to real world use cases has been the extreme level of heterogeneity exhibited by contemporary distributed systems coupled with the need to be dynamic & responsive to change.
In this talk, lead engineers Peterson & Hiroaki from the Celeritas Project will discuss the breakthrough they have developed in Complex Distributed Systems through the use of orphan chains to scale transaction processing. Peterson & Hiroaki will discuss their novel approach that allows for the isolation of processing without the downside of aggregate knowledge sharing, enabling users to process information independently, among varying computing apparatus or devices.
For context, below are academic research papers & editorial materials that will provide a frame of reference for the subject matter to be discussed.
Reading:
CURRENT STATE: DISTRIBUTED SYSTEMS & ARTIFICIAL INTELLIGENCE
https://insidebigdata.com/2020/12/31/everything-in-its-right-place-the-potential-of-decentralized-ai/
https://www.forbes.com/sites/cognitiveworld/2019/03/21/distributed-artificial-intelligence-part-i-a-primer-on-mas-abm-and-swarm-intelligence/?sh=76ac7b3918a3
GAP: A NEED FOR A NOVEL APPROACH
Complex Distributed Systems The Need for Fresh Perspectives, Gordon S. Blair School of Computing & Communications, Lancaster University, Bailrigg, Lancaster, UK https://eprints.lancs.ac.uk/id/eprint/124428/1/ICDCS_Blue_Skies_Paper_formatted_Blair_camera_ready_.pdf
FUTURE STATE: BRAIDED ORPHAN CHAINS
https://www.celeritas-project.com/celeritas_lightpaper.pdf
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