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Green Software Engineering

You're reading from   Green Software Engineering Exploring Green Technology for Sustainable IT Solutions

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Product type Paperback
Published in Jul 2024
Publisher Packt
ISBN-13 9781835885888
Length 236 pages
Edition 1st Edition
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Author (1):
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Santiago Fontanarrosa Santiago Fontanarrosa
Author Profile Icon Santiago Fontanarrosa
Santiago Fontanarrosa
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Toc

Table of Contents (16) Chapters Close

Preface 1. Part 1: Environmental Impact of Software
2. Chapter 1: Digital Carbon Footprint FREE CHAPTER 3. Chapter 2: Sustainable Software Engineering and Digital Sobriety Principles 4. Part 2: Developing Energy-Efficient Software
5. Chapter 3: Green Architecture and Measuring Impact 6. Chapter 4: User Experience and Design 7. Chapter 5: Algorithms and Programming Languages 8. Chapter 6: Development and Testing 9. Chapter 7: Infrastructure and Deployment 10. Chapter 8: Data Management 11. Part 3: Green Engineering at Scale
12. Chapter 9: Sustainable Software Delivery Framework 13. Chapter 10: Regulations, Standards, and Future Perspectives 14. Index 15. Other Books You May Enjoy

What this book covers

Chapter 1, Digital Carbon Footprint, links software’s impact to climate change, establishing the relationship between energy consumption and software development. It introduces the “Digital Carbon Footprint” as a metric for quantifying carbon emissions from digital activities. It provides a technical understanding of how software contributes to climate change and establishes the foundations of how to assess the environmental impact of digital operations.

Chapter 2, Sustainable Software Engineering and Digital Sobriety Principles, introduces the foundational principles underpinning the book’s technical framework, encompassing methodology and practical examples. It delineates the core principles of sustainable software engineering and the fundamental pillars of the Digital Sobriety methodology. In examining the principles guiding software development, it emphasizes minimizing environmental impact, optimizing energy efficiency, and fostering responsible resource usage.

Chapter 3, Green Architecture and Measuring Impact, explores methodologies, software design patterns, and practical strategies designed to improve the energy efficiency of software applications, thereby reducing their overall carbon footprint. The chapter presents design patterns that align with the green software principles. The chapter also provides essential tools and techniques to proficiently measure the environmental impact of digital solutions, fostering a comprehensive understanding of how to quantify and effectively mitigate the ecological footprint associated with software development and usage.

Chapter 4, User Experience and Design, explores the intersection of user experience (UX), design, and green coding. It critically examines how minimalist UI design can optimize energy efficiency, and how UX can foster energy-conscious user behavior. It further discusses the value of responsive design in adaptability to various devices, optimizing energy utilization, and enhancing the overall user experience in the paradigm of sustainable software development.

Chapter 5, Algorithms and Programming Languages, extensively examines the implications outlined in previous chapters, offering concrete examples and implementation strategies. It explores essential tools and best practices for constructing digital products. It analyzes the energy efficiency of different programming languages, emphasizing the importance of considering sustainability alongside traditional performance metrics. Additionally, it explores how to integrate environmentally sustainable practices within software development.

Chapter 6, Development and Testing, delves into methodologies, coding practices, and testing strategies aimed at enhancing the sustainability of software applications. This chapter focuses on implementing green coding practices and digital sobriety to ensure web and mobile applications are energy efficient. It explores best practices for backend services development, targeting the energy efficiency of data-consuming applications. This chapter concludes by emphasizing the critical role of sustainable testing, outlining strategies for automation and performance testing to identify and reduce the impact of resource-intensive components. By integrating these practices, this chapter aims to foster a comprehensive understanding of creating and maintaining eco-friendly software solutions.

Chapter 7, Infrastructure and Deployment, concentrates on the essential elements of deploying, running, and monitoring sustainable software. It encompasses strategies to optimize infrastructure, minimizing energy consumption and carbon footprint. The emphasis lies on efficient resource allocation, scalability considerations, and the integration of green engineering practices within the infrastructure. This ensures a sustainable deployment, running, and monitoring process in alignment with green engineering principles. It also explores the best practices in designing and operating environmentally friendly data centers.

Chapter 8, Data Management, explores the efficient practices for data management and AI model training, highlighting resource conservation, reduced storage, and faster execution. The chapter provides insights to decrease energy consumption, promoting environmentally conscious coding to mitigate the carbon footprint.

Chapter 9, Sustainable Software Delivery Framework, explores the integration of green software principles discussed throughout the book into the Agile Software Development Life Cycle (SDLC). It investigates the advantages of early adoption of best practices, emphasizing energy-efficient coding, optimized and energy-efficient algorithms, and prudent use of cloud services to minimize the environmental footprint of digital products and services within organizational frameworks.

Chapter 10, Regulations, Standards, and Future Perspectives, explores current industry standards and methodologies for reporting software carbon emissions, emphasizing the alignment of software practices with environmental standards and legal requirements. It also envisions the future of green software engineering, highlighting policy developments, emerging trends, and anticipated challenges. By emphasizing the importance of environmental considerations in software development, it underscores the need to stay proactive and adaptive in a rapidly evolving, digital, and climate-conscious world.

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