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Toward Carbon-Aware Networking

Noa Zilberman, Eve M. Schooler, Uri Cummings, Rajit Manohar, Dawn Nafus, Robert Soulé, Rick Taylor

2023ACM SIGEnergy Energy Informatics Review19 citationsDOI

Abstract

Data transmission tends to be neglected when considering the carbon efficiency of systems, even though the electricity usage of data networks as a whole is as large, or larger, than that of data centers. Accounting for carbon cost of the movement of data is hard, and is often assumed to be the responsibility of the receiver or an intermediate provider. To be able to account for the carbon footprint of networks, mutually agreed metrics are required, covering the end-to-end environmental cost of data transmission and up-the-stack network software costs of data processing, rather than merely the independent network devices. Beyond discussing the considerations for defining these metrics, this paper suggests building upon existing practices, such as network telemetry, programmable network elements and cost-aware routing to enable carbon-intelligent networking, a concept that goes beyond network energy efficiency and considers the impact of energy decarbonization on the routing and scheduling of data transmission.

Topics & Concepts

Carbon footprintComputer scienceData transmissionScheduling (production processes)ElectricityTransmission networkComputer networkData centerSoftware-defined networkingTransmission (telecommunications)Routing (electronic design automation)Distributed computingTelecommunicationsGreenhouse gasEngineeringElectrical engineeringOperations managementBiologyEcologyGreen IT and SustainabilityCloud Computing and Resource ManagementSoftware-Defined Networks and 5G
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