TY - GEN
T1 - Energy vs Privacy
T2 - 14th ACM International Conference on Future Energy Systems, e-Energy 2023
AU - Schwermer, René
AU - Mayer, Ruben
AU - Jacobsen, Hans Arno
N1 - Publisher Copyright:
© 2023 ACM.
PY - 2023/6/20
Y1 - 2023/6/20
N2 - The increasing usage of edge devices and stricter data privacy regulations motivate the use of federated learning (FL). At the same time, more and more stakeholders are concerned about the ecological impact of machine learning and its associate network traffic. The current research in FL does not investigate the impact of different network constraints and privacy-enhancing techniques, such as differential privacy, on the network traffic and energy consumption of the clients. Most experiments run either on virtual machines or on one machine with simulated clients. In such environments, it is challenging to measure each client's network and energy usage. Therefore, we built our "Distributed Edge Device Testbed"(DEDT) and evaluate a convolutional neural network trained on the MNIST data set under different network constraints on DEDT, with differential privacy and with an increasing amount of participating clients. For each experiment, we quantify the network traffic, energy consumption, and training time. The results show the importance of experiments on physically separated nodes and the need to improve software-based power monitoring. The estimated energy consumption deviates by up to 35 % from the measured ones. The accuracy of the estimated network traffic depends on the monitored network interface and gives an error of 18 % for virtual machines in combination with monitoring the Ethernet interface. The training time also increases linearly with the number of participating clients.
AB - The increasing usage of edge devices and stricter data privacy regulations motivate the use of federated learning (FL). At the same time, more and more stakeholders are concerned about the ecological impact of machine learning and its associate network traffic. The current research in FL does not investigate the impact of different network constraints and privacy-enhancing techniques, such as differential privacy, on the network traffic and energy consumption of the clients. Most experiments run either on virtual machines or on one machine with simulated clients. In such environments, it is challenging to measure each client's network and energy usage. Therefore, we built our "Distributed Edge Device Testbed"(DEDT) and evaluate a convolutional neural network trained on the MNIST data set under different network constraints on DEDT, with differential privacy and with an increasing amount of participating clients. For each experiment, we quantify the network traffic, energy consumption, and training time. The results show the importance of experiments on physically separated nodes and the need to improve software-based power monitoring. The estimated energy consumption deviates by up to 35 % from the measured ones. The accuracy of the estimated network traffic depends on the monitored network interface and gives an error of 18 % for virtual machines in combination with monitoring the Ethernet interface. The training time also increases linearly with the number of participating clients.
KW - Distributed Systems
KW - Energy
KW - Federated Learning
UR - http://www.scopus.com/inward/record.url?scp=85163735391&partnerID=8YFLogxK
U2 - 10.1145/3575813.3597344
DO - 10.1145/3575813.3597344
M3 - Conference contribution
AN - SCOPUS:85163735391
T3 - e-Energy 2023 - Proceedings of the 2023 14th ACM International Conference on Future Energy Systems
SP - 347
EP - 352
BT - e-Energy 2023 - Proceedings of the 2023 14th ACM International Conference on Future Energy Systems
PB - Association for Computing Machinery, Inc
Y2 - 20 June 2023 through 23 June 2023
ER -
