subsystems

简明释义

[ˈsʌbˌsɪstəmz][ˈsʌbˌsɪstəmz]

n. [计]子系统(subsystem 的复数)

英英释义

Subsystems are smaller, self-contained systems that are part of a larger system, functioning independently while contributing to the overall operation.

子系统是更大系统中较小的、自成一体的系统,能够独立运行,同时为整体操作做出贡献。

单词用法

control subsystems

控制子系统

communication subsystems

通信子系统

subsystems design

子系统设计

integrate subsystems

集成子系统

subsystems and components

子系统和组件

subsystems architecture

子系统架构

subsystems performance

子系统性能

subsystems interaction

子系统交互

同义词

components

组件

The system consists of several components that work together.

该系统由几个组件共同工作。

modules

模块

Each module can function independently within the larger system.

每个模块可以在更大的系统中独立运行。

elements

元素

The elements of the design must be integrated seamlessly.

设计的元素必须无缝集成。

sections

部分

We need to analyze each section of the project for efficiency.

我们需要分析项目的每个部分以提高效率。

units

单元

The units of the machine can be replaced easily.

机器的单元可以很容易地更换。

反义词

system

系统

The entire system needs to be updated.

整个系统需要更新。

whole

整体

We should consider the whole before analyzing the parts.

在分析各个部分之前,我们应该考虑整体。

例句

1.Major subsystems of the Linux kernel.

Linux内核的主要子系统。

2.To refine requirements on the operations of subsystems and/or their interfaces.

改进关于对设计类操作的需求。

3.Would we define subsystems according to domain or architecture?

我们根据领域还是架构来定义子系统?

4.The effects repeated for many other services and subsystems, and caused an outage.

此影响将对很多其他服务和子系统重复,从而导致停机。

5.XCF is a software facility that allowed MVS subsystems to communicate more efficiently.

XCF是可以使得mvs子系统更高效地通信的软件工具。

6.We felt the system was small enough that we could enforce consistency across the subsystems.

我们觉得系统是足够小的,我们可以保持好子系统之间的一致性。

7.The application must typically provide some mapping of information among subsystems.

应用程序通常必须提供子系统间的一些信息映射。

8.These logical paths are defined over physical links between disk subsystems.

这些逻辑路径在磁盘子系统之间的物理链路上定义。

9.The software architecture consists of several subsystems that handle different functionalities.

该软件架构由多个子系统组成,处理不同的功能。

10.Our research focuses on how subsystems can enhance the efficiency of the main system.

我们的研究集中在子系统如何提高主系统的效率。

11.In a complex project, managing the interactions between subsystems is crucial.

在复杂项目中,管理子系统之间的交互至关重要。

12.Each subsystem must be tested individually to ensure overall system reliability.

每个子系统必须单独测试,以确保整体系统的可靠性。

13.The engineering team designed various subsystems to optimize performance.

工程团队设计了各种子系统以优化性能。

作文

In the study of complex systems, understanding the role of subsystems is crucial. A subsystem refers to a smaller, self-contained system that operates within a larger system. For instance, in an ecological context, a forest can be viewed as a large system while the various species of animals, plants, and microorganisms within it represent different subsystems. Each of these subsystems interacts with one another and contributes to the overall health and functionality of the forest ecosystem. The concept of subsystems extends beyond ecology; it is prevalent in engineering, computer science, and even social sciences. In engineering, a car is a complex system made up of various subsystems such as the engine, transmission, and braking system. Each subsystem must function properly for the vehicle to operate efficiently. Engineers often focus on optimizing each subsystem to enhance the performance of the entire system. Similarly, in computer science, software applications are often built using a modular approach where each module acts as a subsystem. This allows developers to work on different subsystems independently, making the development process more manageable and efficient. When all subsystems are integrated, they form a cohesive application that meets user needs. In social sciences, organizations can be considered as complex systems composed of various subsystems like departments or teams. Each department has its own goals, processes, and functions, yet they must collaborate to achieve the organization’s overall objectives. Understanding how these subsystems interact helps leaders manage their teams more effectively and foster a collaborative environment. The interdependence of subsystems highlights the importance of communication and coordination within any complex system. For example, if one subsystem in a manufacturing process fails, it can halt production across the entire system. Therefore, monitoring the performance of each subsystem is essential for maintaining efficiency and productivity. Moreover, the study of subsystems can lead to innovations and improvements. By analyzing how individual subsystems function, researchers and practitioners can identify weaknesses and areas for enhancement. This iterative process of evaluation and modification can lead to breakthroughs that significantly improve the performance of the entire system. In conclusion, the concept of subsystems plays a vital role in understanding and managing complex systems across various fields. Whether in nature, engineering, technology, or social structures, recognizing the significance of subsystems allows for better analysis, optimization, and innovation. As we continue to navigate increasingly complex challenges in our world, a deep understanding of subsystems will undoubtedly be invaluable.

在复杂系统的研究中,理解子系统的作用至关重要。子系统指的是一个较小的、自我包含的系统,它在一个更大的系统内运作。例如,在生态环境中,一片森林可以被视为一个大系统,而其中的各种动物、植物和微生物则代表不同的子系统。这些子系统彼此之间相互作用,促进了森林生态系统的整体健康和功能。子系统的概念不仅限于生态学;它在工程学、计算机科学甚至社会科学中都很普遍。在工程学中,一辆车是一个复杂的系统,由多个子系统组成,例如发动机、变速器和制动系统。每个子系统必须正常运作,才能使车辆高效运行。工程师通常专注于优化每个子系统,以提升整个系统的性能。同样,在计算机科学中,软件应用程序通常采用模块化的方法构建,每个模块作为一个子系统。这使得开发人员可以独立地处理不同的子系统,从而使开发过程更加可管理和高效。当所有的子系统集成在一起时,它们形成一个满足用户需求的统一应用。在社会科学中,组织可以被视为由各种子系统(如部门或团队)组成的复杂系统。每个部门都有自己的目标、流程和职能,但它们必须协作以实现组织的整体目标。理解这些子系统如何相互作用有助于领导者更有效地管理团队,并促进合作环境的形成。子系统之间的相互依赖性突显了任何复杂系统中沟通和协调的重要性。例如,如果制造过程中的一个子系统出现故障,可能会导致整个生产停滞。因此,监控每个子系统的性能对维持效率和生产力至关重要。此外,研究子系统可以带来创新和改进。通过分析各个子系统的功能,研究人员和从业者可以识别出弱点和改进的领域。这种评估和修改的迭代过程可以导致显著改善整个系统性能的突破。总之,子系统的概念在理解和管理各个领域的复杂系统中发挥着至关重要的作用。无论是在自然界、工程、技术还是社会结构中,认识到子系统的重要性都能更好地进行分析、优化和创新。随着我们继续应对日益复杂的全球挑战,对子系统的深入理解无疑将是非常宝贵的。