Abstract
In object-based systems, applications are composed of multiple objects and transactions created on clients issue methods to manipulate the objects. Multiple conflicting transactions have to be serialize to keep all the objects mutually consistent. If the more number of transactions are concurrently performed in a system, the throughput of a system decreases since the overhead to serialize conflicting transactions increases. In addition, a large amount of electric energy is consumed on servers which hold objects since the larger number of methods are performed on the servers to manipulate objects. In this paper, the EE2PL (Energy-Efficient Two-Phase Locking) protocol is newly proposed to reduce not only the total electric energy consumption of servers but also the execution time of each transaction by omitting meaningless write methods on each object. We show the total electric energy consumption of servers and the average execution time of each transaction can be reduced in the EE2PL protocol than the 2PL (Two-Phase Locking) protocol in the evaluation.
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Enokido, T., Duolikun, D., Takizawa, M. (2022). Energy-Efficient Concurrency Control by Omitting Meaningless Write Methods in Object-Based Systems. In: Barolli, L., Hussain, F., Enokido, T. (eds) Advanced Information Networking and Applications. AINA 2022. Lecture Notes in Networks and Systems, vol 449. Springer, Cham. https://doi.org/10.1007/978-3-030-99584-3_12
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