design power efficiency
简明释义
设计功能效率
英英释义
例句
1.Incorporating renewable energy sources can greatly improve design power efficiency 设计功率效率 in buildings.
引入可再生能源可以大大改善建筑物的设计功率效率 设计功率效率。
2.The team conducted tests to measure the design power efficiency 设计功率效率 of various prototypes.
团队进行了测试,以测量各种原型的设计功率效率 设计功率效率。
3.The latest software update aims to enhance design power efficiency 设计功率效率 for better performance.
最新的软件更新旨在增强设计功率效率 设计功率效率以提升性能。
4.The engineers focused on improving design power efficiency 设计功率效率 to reduce energy consumption in the new model.
工程师们专注于提高设计功率效率 设计功率效率,以减少新型号的能耗。
5.By optimizing the design power efficiency 设计功率效率, the company was able to lower operational costs significantly.
通过优化设计功率效率 设计功率效率,公司能够显著降低运营成本。
作文
In today's fast-paced technological landscape, the concept of design power efficiency has gained significant attention. This term refers to the ability to create products and systems that maximize performance while minimizing energy consumption. As we strive for sustainability and environmental responsibility, understanding design power efficiency becomes crucial for engineers, designers, and manufacturers alike.The importance of design power efficiency can be observed across various industries. For instance, in the electronics sector, devices such as smartphones and laptops are designed not only for functionality but also for energy efficiency. Engineers focus on using materials and components that consume less power without compromising performance. This approach not only extends battery life but also reduces the overall carbon footprint of these devices, contributing to a more sustainable future.Moreover, the automotive industry is undergoing a significant transformation with the rise of electric vehicles (EVs). The principles of design power efficiency are integral to the development of EVs, as manufacturers aim to optimize the energy usage of their vehicles. By implementing advanced technologies like regenerative braking and lightweight materials, automakers can enhance the range and performance of electric cars while ensuring they remain environmentally friendly.In the context of architecture and construction, design power efficiency plays a vital role in creating buildings that minimize energy consumption. Architects and builders are increasingly incorporating energy-efficient designs that utilize natural light, proper insulation, and renewable energy sources. These practices not only lower utility costs for occupants but also contribute to a reduction in greenhouse gas emissions, aligning with global efforts to combat climate change.Furthermore, the concept of design power efficiency extends beyond physical products to encompass software and algorithms. In the realm of computing, developers are tasked with creating applications that perform efficiently while consuming the least amount of processing power. This is particularly important in cloud computing, where energy costs can quickly escalate. By optimizing code and utilizing efficient algorithms, developers can ensure that their applications run smoothly without unnecessary energy expenditure.The benefits of design power efficiency are manifold. Not only does it lead to cost savings for consumers and businesses, but it also fosters innovation and competitiveness in the market. Companies that prioritize energy-efficient design are often viewed favorably by consumers who are increasingly conscious of their environmental impact. This shift in consumer behavior encourages businesses to adopt sustainable practices and invest in research and development aimed at enhancing design power efficiency.In conclusion, design power efficiency is a critical component of modern design and engineering that seeks to balance performance with energy conservation. As we face pressing environmental challenges, embracing this concept will be essential for creating a sustainable future. Whether in electronics, automotive, architecture, or software development, the principles of design power efficiency will continue to shape our world, driving us toward more responsible and innovative solutions. By prioritizing energy efficiency in our designs, we not only improve our products but also contribute positively to the planet, ensuring a better quality of life for future generations.
在当今快速发展的技术环境中,“设计能效”这一概念引起了广泛关注。这个术语指的是创造产品和系统的能力,最大限度地提高性能,同时最小化能耗。随着我们追求可持续性和环境责任,理解设计能效对于工程师、设计师和制造商来说变得至关重要。设计能效的重要性可以在各个行业中观察到。例如,在电子行业,智能手机和笔记本电脑等设备的设计不仅考虑功能,还注重能效。工程师们专注于使用消耗更少电力而不妥协性能的材料和组件。这种方法不仅延长了电池寿命,还减少了这些设备的整体碳足迹,为更加可持续的未来做出了贡献。此外,随着电动汽车(EV)的崛起,汽车行业正在经历重大转型。设计能效的原则对于电动汽车的发展至关重要,因为制造商旨在优化车辆的能量使用。通过实施先进的技术,如再生制动和轻量化材料,汽车制造商可以增强电动汽车的续航和性能,同时确保其环保。在建筑和施工的背景下,设计能效在创建最小化能耗的建筑方面发挥着重要作用。建筑师和建筑商越来越多地采用能效设计,利用自然光、适当的绝缘和可再生能源。这些做法不仅降低了居住者的公用事业成本,还减少了温室气体排放,与全球应对气候变化的努力相一致。此外,设计能效的概念超越了物理产品,还包括软件和算法。在计算领域,开发人员的任务是创建在消耗最少处理能力的情况下高效运行的应用程序。这在云计算中尤为重要,因为能源成本可能迅速上升。通过优化代码和利用高效算法,开发人员可以确保他们的应用程序平稳运行,而不产生不必要的能量支出。设计能效的好处是多方面的。它不仅为消费者和企业带来了成本节省,还促进了市场中的创新和竞争力。优先考虑能效设计的公司通常受到消费者的青睐,消费者越来越关注他们的环境影响。这种消费者行为的转变鼓励企业采取可持续实践,并投资于旨在增强设计能效的研究和开发。总之,设计能效是现代设计和工程的一个关键组成部分,旨在平衡性能与能源节约。面对紧迫的环境挑战,拥抱这一概念对于创造可持续的未来至关重要。无论是在电子、汽车、建筑还是软件开发中,设计能效的原则将继续塑造我们的世界,推动我们迈向更负责任和创新的解决方案。通过在我们的设计中优先考虑能效,我们不仅改善了我们的产品,还积极地为地球做出贡献,确保子孙后代的更高生活质量。
