GreenPy: Evaluating Application-Level Energy Efficiency in Python for Green Computing

Nurzihan Fatema Reya, Abtahi Ahmed, T. Zaman, Md. Motaharul Islam
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Abstract

The increased use of software applications has resulted in a surge in energy demand, particularly in data centers and IT infrastructures. As global energy consumption is projected to surpass supply by 2030, the need to optimize energy consumption in programming has become imperative. Our study explores the energy efficiency of various coding patterns and techniques in Python, with the objective of guiding programmers to a more informed and energy-conscious coding practices. The research investigates the energy consumption of a comprehensive range of topics, including data initialization, access patterns, structures, string formatting, sorting algorithms, dynamic programming and performance comparisons between NumPy and Pandas, and personal computers versus cloud computing. The major findings of our research include the advantages of using efficient data structures, the benefits of dynamic programming in certain scenarios that saves up to 0.128J of energy, and the energy efficiency of NumPy over Pandas for numerical calculations. Additionally, the study also shows that assignment operator, sequential read, sequential write and string concatenation are 2.2 times, 1.05 times, 1.3 times and 1.01 times more energy-efficient choices, respectively, compared to their alternatives for data initialization, data access patterns, and string formatting. Our findings offer guidance for developers to optimize code for energy efficiency and inspire sustainable software development practices, contributing to a greener computing industry.
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GreenPy:在Python中评估绿色计算的应用级能源效率
软件应用程序使用的增加导致了能源需求的激增,尤其是在数据中心和IT基础设施中。随着全球能源消耗预计到2030年将超过供应,在规划中优化能源消耗的必要性已成为当务之急。我们的研究探索了Python中各种编码模式和技术的能源效率,目的是引导程序员进行更知情、更注重能源的编码实践。该研究调查了一系列主题的能耗,包括数据初始化、访问模式、结构、字符串格式、排序算法、NumPy和Pandas之间的动态编程和性能比较,以及个人计算机与云计算。我们研究的主要发现包括使用高效数据结构的优势,在某些情况下动态编程的好处,可以节省高达0.128J的能量,以及NumPy在数值计算中比Pandas的能量效率。此外,该研究还表明,与数据初始化、数据访问模式和字符串格式化的替代方案相比,赋值运算符、顺序读取、顺序写入和字符串级联的能效分别提高了2.2倍、1.05倍、1.3倍和1.01倍。我们的发现为开发人员优化代码以提高能效提供了指导,并启发了可持续的软件开发实践,为更环保的计算行业做出了贡献。
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来源期刊
Annals of Emerging Technologies in Computing
Annals of Emerging Technologies in Computing Computer Science-Computer Science (all)
CiteScore
3.50
自引率
0.00%
发文量
26
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