Table of ContentsSummaryIntroductionWhat is Green Computing?Key Issues in Green ComputingKey Objectives of Green ComputingApproaches to Green ComputingManagement energy TeleworkingProduct longevityResource allocationVirtualizationMaterials recyclingRecent implementation of green computingUsing an Energy Star labeled productElectronic waste recyclingRemote workingCloud ComputingAdvantages and disadvantages of green computingAdvantages of green computingDisadvantages of green computingThe future of Green ComputingConclusionReferencesSummaryGreen computing reduces energy consumption and regulates carbon dioxide emissions. Future renewable IT proposals should include reliable power-saving facilities, because in the future, green computing will be performance-based rather than demand-side economics. The objective of Green Computing is to improve computing capacity. Research into efficient and environmentally friendly computing resources is being brought to the attention not only of environmental organizations, but also of other sectors. Modern computer systems depend on a dynamic mix of people, network systems, and hardware; as such, a green computing program would address all of these areas. Cloud computing leads to efficient use of energy, which is beneficial to the trend of innovation in green technologies. Potential research in academia has focused on studies in the field of green computing, as it is a new field and there is still much to be done. Energy informatics will have significant potential implications. Green computing has implications across all IT domains, as its goal is to save the world and ultimately, lives. Say no to plagiarism. Get a tailor-made essay on “Why violent video games should not be banned”?Get the original essayIntroductionGreen computing, the search for efficient and environmentally friendly computing resources, is brought to the attention not only of environmental organizations, but also companies from other industries. The environment is the first thing that comes to mind when you hear “Green Computing”. But this concept was not affected by the environment, nor by money. In recent years, IT industries have recognized that going green is in their best interest, in terms of public awareness and cost reduction. Green technology is growing continuously and is not just a narrow term for increasing energy consumption in information technology. However, it is expected to be a field with innovations and changes in daily life with and without information technology. What is green computing? Green computing is an application of environmental science that provides financially viable methods that conserve the natural environment and its resources. Green computing efficiently designs, manufactures, uses and disposes of computers and their resources, with minimal impact on the environment. Green computer reduces electricity bill and gives complete rest to your mind. Today, we use leading management strategies and technologies that reduce wasted energy consumption. The green computer is created to operate without negative impact on the environment. Such design includes everything from materials and components to how the computer uses its power.Green computing has the same goals as green chemistry, which increases the life of the product and makes it more energy efficient, makes the recycled product and manufacturing waste easier to decompose and biodegrade with less chemicals toxic. Key Issues in Green Computing The most important computing issue is the widespread concern about conservation in the operation of computers. By having a central argument in temperature, energy and efficiency, it is necessary to obtain the maximum benefit by respecting appropriate layout strategies to have a major difference between them. There are still many areas to address and some issues to resolve: Control of cooling equipment and other data center requirements is necessary, which primarily improves the power of the IT infrastructure and is a growing obstacle. Heat removal equipment also needs to be regulated, as this also leads to a significant increase in total energy consumption. Proper disposal and finding ways to properly recycle electronic items. New optimization strategies are needed in performance-, energy-, and temperature-conscious computing. Key Objectives of Green Computing Green computing is designed to achieve sustainability and improve the utilization of computing resources. Green computing activities include implementing environmentally friendly manufacturing methods, designing energy-efficient devices, and optimizing processing and recycling systems. Green computing eliminates the use of hazardous materials, optimizes energy efficiency over the life of the device, and facilitates the modifiability or recyclability of obsolete goods and waste from factories. Research continues in key areas such as the use of computing devices as resources, as productive as efficient, computing technology-based algorithms and systems for performance. Continued efforts from engineers, manufacturing companies, and users are required to ensure that green computing goals are achieved. Approaches to Green Computing Modern computer systems depend on a complex mix of people, network systems, and hardware; As such, all of these areas should be addressed by a green IT initiative. Businesses also have significant financial incentives to control their energy use, and the most powerful one might be easy. Power Management Advanced Configuration and Power Interface (ACPI) is an open industry standard that allows an operating system to control the power saving features of its corresponding operating system. material directly. Many applications allow the user to manually change the voltages supplied to the processor, thereby reducing both the amount of heat generated and the amount of electricity consumed. Telecommuting Technologies such as teleconferencing and telepresence are often used in green IT projects. The advantages are numerous; improved staff productivity, reduced greenhouse gas emissions from travel, and higher profit margins resulting from reduced office overheads, electricity, lighting, etc. Product LongevityThe method of producing a PC accounts for 70% of the resources used in the life cycle of a PC. . The longevity of a product plays aessential role at all stages of its life, from conception to the end of life phase. Product longevity helps ensure intelligent use of resources in the manufacturing of products and solutions. E-waste is a growing global problem as millions of machines are thrown into landfills and many of the raw materials used in their manufacturing, such as arsenic, cadmium, mercury and chromium, become toxic if left unused. infiltrate into soil and groundwater. allocation is used to efficiently divide available resources. It is part of resource management, the distribution of project management services is the coordination of the tasks and resources necessary for these operations, thus taking into account both the accessibility of resources and the duration of the project. Resource allocation has two parts: strategic planning and resource leveling. VirtualizationComputer virtualization refers to the abbreviation of computing resources, such as running two or more physical hardware and logical computer systems on a single package. Through virtualization, an administrator can merge multiple physical systems onto a single powerful system in virtual machines, thereby unplugging the original system and reducing power consumption and cooling. Virtualization can help distribute search so that computers are busy or in a low-power sleep state. Material Recycling Recycling IT equipment can prevent the entry of harmful products such as lead, mercury and chromium, and can also replace equipment that would otherwise have to be produced. , thereby saving energy and additional emissions.Recent implementation of green computingUsageEnergy Star labeled productENERGY STAR products are better than ordinary products and consume less energy. ENERGY STAR products must meet strict energy efficiency criteria set by the U.S. Environmental Protection Agency or the U.S. Department of Energy. These products save money on the electricity bill because they use less energy and help protect the environment by generating fewer harmful emissions from power plants. E-Waste RecyclingE-waste, commonly known as e-waste or e-waste, is the recycling of used electronic items. . Electronics contain various toxic and hazardous chemicals and materials that are released into the atmosphere if we do not dispose of them properly. Instead of throwing away e-waste, it could be donated to non-profit charities or private recycling organizations. Remote work Remote work is an arrangement where people can work from home using the Internet, the telephone and email. People have the freedom to plan their days so that they can fully enjoy their professional and personal lives and coexist in harmony. There has been a cultural shift in what society considers an appropriate workspace, and virtual working has capitalized on this emerging freedom. Cloud Computing Cloud computing involves storing and accessing data and programs over the Internet, rather than on your computer's hard drive. . The cloud is just an internet metaphor. Whether carried out in a private or public cloud configuration, cloud technology addresses two essential elements of green computing, namely energy efficiency and resource efficiency through "virtualization