The yin and yang of power and performance for asymmetric hardware and managed software

Author:

Cao Ting1,Blackburn Stephen M1,Gao Tiejun1,McKinley Kathryn S2

Affiliation:

1. Australian National University

2. Microsoft Research and The University of Texas at Austin

Abstract

On thehardwareside, asymmetric multicore processors present software with the challenge and opportunity of optimizing in two dimensions: performance and power. Asymmetric multicore processors (AMP) combine general-purposebig(fast, high power) cores andsmall(slow, low power) cores to meet power constraints. Realizing their energy efficiency opportunity requires workloads with differentiated performance and power characteristics.On the software side, managed workloads written in languages such as C#, Java, JavaScript, and PHP are ubiquitous. Managed languages abstract over hardware using Virtual Machine (VM) services (garbage collection, interpretation, and/or just-in-time compilation) that together impose substantial energy and performance costs, ranging from 10% to over 80%. We show that these services manifest a differentiated performance and power workload. To differing degrees, they are parallel, asynchronous, communicate infrequently, and are not on the application?s critical path.We identify a synergy between AMP and VM services that we exploit to attack the 40% average energy overhead due to VM services. Using measurements and very conservative models, we show that adding small cores tailored for VM services should deliver, at least, improvements in performance of 13%, energy of 7%, and performance per energy of 22%. Theyinof VM services is overhead, but it meets theyangof small cores on an AMP. Theyinof AMP is exposed hardware complexity, but it meets theyangof abstraction in managed languages. VM services fulfill the AMP requirement for an asynchronous, non-critical, differentiated, parallel, and ubiquitous workload to deliver energy efficiency. Generalizing this approach beyond system software to applications will require substantially more software and hardware investment, but these results show the potential energy efficiency gains are significant.

Publisher

Association for Computing Machinery (ACM)

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Cited by 2 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Toward a language design for energy prediction;Proceedings of the Conference Companion of the 3rd International Conference on Art, Science, and Engineering of Programming;2019-04

2. How android app developers manage power consumption?;Proceedings of the 13th International Conference on Mining Software Repositories;2016-05-14

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