subsystem
简明释义
n. 子系统;次要系统
英英释义
A smaller, self-contained system that is part of a larger system. | 一个较小的、自包含的系统,它是一个更大系统的一部分。 |
A set of components or processes that work together within a larger framework. | 在一个更大框架内协同工作的组件或过程的集合。 |
单词用法
控制子系统 | |
通信子系统 | |
软件子系统 | |
子系统设计 | |
子系统集成 | |
子系统分析 |
同义词
| 组件 | 发动机是车辆的一个关键组件。 | ||
| 模块 | 软件中的每个模块可以独立运行。 | ||
| 部分 | 项目的这一部分专注于用户体验。 | ||
| 单元 | 如果单元出现故障,可以更换。 |
反义词
| 系统 | The system is designed to work seamlessly with all its components. | 该系统的设计旨在与所有组件无缝协作。 | |
| 整体 | We need to consider the whole before making any changes to the subsystem. | 在对子系统进行任何更改之前,我们需要考虑整体。 |
例句
1.Number of prestart jobs in the QUSRWRK subsystem.
qusrwrk子系统中的预启动任务数。
2.This is needed to establish a connection to the respective DB2 subsystem.
为了建立到各个db2子系统的连接,这是必需的。
3.Each subsystem is called a module.
每个子系统称为一个模块。
4.This function performs a large amount of subsystem initialization.
这个函数执行了大量的子系统初始化操作。
5.Viewing details of the networking subsystem.
查看网络子系统的细节。
6.Calls to the proxies are re-routed to the administrative subsystem.
对代理的调用被重新路由到管理子系统。
7.This greatly improves the vertical scalability of your DB2 subsystem.
这极大地提高了db2子系统的垂直伸缩性。
8.The software is designed to interact with the main program and its various subsystems.
该软件旨在与主程序及其各种子系统进行交互。
9.To improve performance, engineers optimized the database subsystem for faster queries.
为了提高性能,工程师优化了数据库子系统以加快查询速度。
10.Each subsystem of the network must be tested individually before integration.
网络的每个子系统必须在集成之前单独测试。
11.The space station consists of multiple subsystems that handle life support, power, and communication.
空间站由多个子系统组成,处理生命支持、电力和通信。
12.In a car, the engine control subsystem manages fuel injection and ignition timing.
在汽车中,发动机控制子系统管理燃油喷射和点火时机。
作文
In the realm of systems theory, a subsystem (子系统) is a distinct component within a larger system that performs specific functions and interacts with other components. Understanding the concept of a subsystem (子系统) is crucial in various fields, including engineering, biology, and computer science. Each subsystem (子系统) operates under the overarching principles of the main system while contributing to its overall functionality.For example, consider an automobile. The car itself is a complex system made up of various subsystems (子系统), such as the engine, transmission, and braking system. Each of these subsystems (子系统) has its own specific roles; the engine converts fuel into motion, the transmission transfers power from the engine to the wheels, and the braking system ensures safety by slowing down or stopping the vehicle. The efficiency and performance of the entire automobile depend on how well these subsystems (子系统) work together.In a biological context, the human body can also be viewed as a system composed of numerous subsystems (子系统). The circulatory system, respiratory system, and nervous system are all subsystems (子系统) that perform vital functions necessary for survival. The circulatory system transports blood and nutrients, the respiratory system facilitates gas exchange, and the nervous system processes information and coordinates responses. Each subsystem (子系统) is interdependent, illustrating the complexity of biological systems.In the field of computer science, software applications often consist of multiple subsystems (子系统) that work together to provide a cohesive user experience. For instance, a web application may include a user interface subsystem (子系统), a database subsystem (子系统), and a server-side logic subsystem (子系统). Each of these subsystems (子系统) handles specific tasks, such as displaying information, storing data, and processing user requests. The integration of these subsystems (子系统) is essential for the application to function correctly.The study of subsystems (子系统) is not limited to technical fields; it can also be applied to social systems. In sociology, communities can be analyzed as systems with various subsystems (子系统) such as education, healthcare, and transportation. Each subsystem (子系统) plays a role in the well-being of the community, and changes in one subsystem (子系统) can have ripple effects on others. For example, improvements in the education subsystem (子系统) can lead to better job opportunities, which in turn can enhance the economic stability of a community.In conclusion, the concept of a subsystem (子系统) is integral to understanding the structure and dynamics of complex systems across various disciplines. Whether in engineering, biology, computer science, or sociology, recognizing the role of subsystems (子系统) helps us comprehend how individual components interact to create a functioning whole. As we continue to explore and innovate within our respective fields, the importance of analyzing subsystems (子系统) will only grow, providing insights that can lead to improved designs, healthier ecosystems, and more cohesive societies. By appreciating the significance of subsystems (子系统), we can better navigate the complexities of the world around us.
在系统理论的领域中,subsystem(子系统)是一个更大系统内的独特组件,执行特定功能并与其他组件相互作用。理解subsystem(子系统)的概念在工程、生物学和计算机科学等多个领域至关重要。每个subsystem(子系统)在主系统的总体原则下运作,同时为其整体功能做出贡献。例如,考虑一辆汽车。汽车本身是一个复杂的系统,由多个subsystem(子系统)组成,如发动机、变速器和制动系统。这些subsystem(子系统)各自具有特定的角色;发动机将燃料转化为运动,变速器将动力从发动机传递到车轮,而制动系统通过减速或停车确保安全。整个汽车的效率和性能取决于这些subsystem(子系统)之间的协作。在生物学背景下,人类身体也可以被视为一个由众多subsystem(子系统)组成的系统。循环系统、呼吸系统和神经系统都是执行生存所需的重要功能的subsystem(子系统)。循环系统运输血液和营养物质,呼吸系统促进气体交换,而神经系统处理信息并协调反应。每个subsystem(子系统)是相互依赖的,展示了生物系统的复杂性。在计算机科学领域,软件应用程序通常由多个subsystem(子系统)组成,这些subsystem(子系统)共同工作以提供一致的用户体验。例如,一个Web应用程序可能包括一个用户界面subsystem(子系统)、一个数据库subsystem(子系统)和一个服务器端逻辑subsystem(子系统)。这些subsystem(子系统)各自处理特定任务,如显示信息、存储数据和处理用户请求。这些subsystem(子系统)的整合对于应用程序的正常运行至关重要。Subsystem(子系统)的研究不仅限于技术领域;它也可以应用于社会系统。在社会学中,社区可以作为系统进行分析,其中包含各种subsystem(子系统),如教育、医疗保健和交通。每个subsystem(子系统)在社区的福祉中发挥作用,某个subsystem(子系统)的变化可能对其他subsystem(子系统)产生连锁反应。例如,教育subsystem(子系统)的改善可以导致更好的就业机会,从而增强社区的经济稳定性。总之,subsystem(子系统)的概念对于理解各个学科中复杂系统的结构和动态至关重要。无论是在工程、生物学、计算机科学还是社会学中,认识到subsystem(子系统)的作用有助于我们理解单个组件如何相互作用以创建一个功能齐全的整体。随着我们继续在各自的领域探索和创新,分析subsystem(子系统)的重要性只会增加,从而提供可以改善设计、生态系统健康和社会凝聚力的见解。通过欣赏subsystem(子系统)的重要性,我们可以更好地驾驭周围世界的复杂性。
