Journal
2022 IEEE CONFERENCE ON NETWORK FUNCTION VIRTUALIZATION AND SOFTWARE DEFINED NETWORKS (IEEE NFV-SDN)
Volume -, Issue -, Pages 101-102Publisher
IEEE
DOI: 10.1109/NFV-SDN56302.2022.9974722
Keywords
Holographic Applications; In-Network Computing (INC); Slicing; Programmable Switches; P4
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Holographic applications have demanding requirements that current network infrastructure struggles to meet. The in-network computing paradigm offers a promising solution by distributing computing workloads across the network, resulting in improved low latency and high bandwidth capabilities.
Holographic applications are now emerging; however, their requirements, such as ultra-low latency and high bandwidth, are still challenging to meet by the current network infrastructure. The in-network computing (INC) paradigm, which enables the distribution of computing workloads across the network as opposed to computing on servers outside the network, offers strong prospects to address these difficulties. The demonstration will specifically show how INC-enabled networks function outperforms current networks in terms of low latency and high bandwidth.
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