integration density

简明释义

集成密度

英英释义

例句

1.In telecommunications, higher integration density 集成密度 improves signal processing capabilities.

在电信领域，更高的集成密度提高了信号处理能力。

2.Increasing the integration density 集成密度 can lead to reduced costs in manufacturing.

提高集成密度可以降低制造成本。

3.High integration density 集成密度 in microchips allows for faster processing speeds.

微芯片中的高集成密度允许更快的处理速度。

4.The research focuses on enhancing the integration density 集成密度 of neural networks.

该研究专注于增强神经网络的集成密度。

5.The new software architecture aims to improve the integration density 集成密度 of various modules.

新的软件架构旨在提高各种模块的集成密度。

作文

In today's rapidly evolving world, the concept of integration density (集成密度) has become increasingly significant across various fields, including technology, urban planning, and social sciences. At its core, integration density refers to the extent to which different components or systems are combined or interconnected within a particular environment. This integration can enhance efficiency, foster innovation, and promote sustainability, making it a critical factor in the design and development of modern solutions.In the realm of technology, for instance, integration density plays a vital role in the development of complex systems, such as integrated circuits and software applications. High integration density in electronic components allows for more functionality to be packed into smaller spaces, thereby improving performance while reducing costs. This principle is evident in the evolution of smartphones, where numerous features—like cameras, GPS, and internet connectivity—are integrated into a single device. The result is not only a more convenient user experience but also a significant reduction in the physical footprint of technology.Similarly, in urban planning, integration density is crucial for creating livable and sustainable cities. It refers to how well different land uses, such as residential, commercial, and recreational areas, are combined within a given space. Higher integration density can lead to reduced travel times, lower carbon emissions, and enhanced community interaction. For example, a neighborhood that integrates parks, shops, and homes encourages residents to walk or bike rather than rely solely on cars, promoting healthier lifestyles and a stronger sense of community.Moreover, integration density is not limited to physical spaces; it also applies to social systems. In sociology, the term can describe how well different social groups and networks interact and collaborate. A high integration density within a community can lead to increased social cohesion, where diverse groups work together towards common goals. This is particularly important in multicultural societies, where fostering understanding and cooperation among various cultural backgrounds is essential for social harmony.However, achieving optimal integration density is not without its challenges. In technology, for example, the push for higher integration can lead to complexities in design and manufacturing processes. Engineers must balance the benefits of compactness with the need for reliability and ease of maintenance. Similarly, in urban planning, while high integration density can yield many benefits, it can also lead to issues like overcrowding and resource strain if not managed properly.In conclusion, the concept of integration density (集成密度) is a multifaceted one that holds significant implications across various domains. Whether in technology, urban development, or social structures, understanding and optimizing integration density can lead to more efficient, sustainable, and harmonious environments. As we continue to face global challenges, such as climate change and urbanization, the importance of integrating diverse components effectively will only grow, making integration density a key focus for future innovations and developments.

在当今快速发展的世界中，集成密度这一概念在技术、城市规划和社会科学等多个领域变得越来越重要。集成密度的核心含义是指在特定环境中，不同组件或系统的组合或相互连接的程度。这种集成可以提高效率、促进创新并推动可持续发展，使其成为现代解决方案设计和开发中的关键因素。例如，在技术领域，集成密度在复杂系统（如集成电路和软件应用）的开发中发挥着至关重要的作用。电子组件的高集成密度允许在更小的空间内容纳更多功能，从而提高性能，同时降低成本。这一原则在智能手机的发展中尤为明显，其中许多功能——如摄像头、GPS和互联网连接——被集成到一台设备中。结果不仅提供了更方便的用户体验，而且显著减少了技术的物理占用空间。同样，在城市规划中，集成密度对于创建宜居和可持续的城市至关重要。它指的是不同土地使用（如住宅、商业和休闲区域）在特定空间内的结合程度。较高的集成密度可以减少旅行时间、降低碳排放并增强社区互动。例如，一个将公园、商店和住宅整合在一起的社区鼓励居民步行或骑自行车，而不是单靠汽车出行，从而促进更健康的生活方式和更强的社区意识。此外，集成密度不仅限于物理空间，它也适用于社会系统。在社会学中，该术语可以描述不同社会群体和网络之间的互动与合作程度。社区内的高集成密度可以导致社会凝聚力的增强，各种群体共同朝着共同目标努力。这在多元文化社会中特别重要，在这样的社会中，促进不同文化背景之间的理解与合作对社会和谐至关重要。然而，实现最佳的集成密度并非没有挑战。例如，在技术领域，追求更高的集成度可能导致设计和制造过程中的复杂性。工程师必须在紧凑性和可靠性、易维护性之间找到平衡。同样，在城市规划中，虽然高集成密度可以带来许多好处，但如果管理不当，也可能导致过度拥挤和资源紧张等问题。总之，集成密度这一概念是一个多面向的概念，在各个领域都具有重要意义。无论是在技术、城市发展还是社会结构中，理解和优化集成密度可以创造出更高效、可持续和和谐的环境。随着我们继续面临气候变化和城市化等全球挑战，有效整合多样化组件的重要性只会增加，使得集成密度成为未来创新和发展的关键焦点。