parallel system

简明释义

并联系统并联式

英英释义

例句

1.In our research, we implemented a parallel system 并行系统 to enhance computational efficiency.

在我们的研究中，我们实施了一个并行系统 并行系统以提高计算效率。

2.The new software is designed to work with a parallel system 并行系统 for data processing.

新软件旨在与一个并行系统 并行系统一起处理数据。

3.The factory uses a parallel system 并行系统 to increase production speed by operating multiple machines simultaneously.

工厂使用一个并行系统 并行系统来通过同时操作多台机器来提高生产速度。

4.To ensure reliability, the network is set up with a parallel system 并行系统 that provides backup connections.

为了确保可靠性，网络设置了一个并行系统 并行系统，提供备份连接。

5.The team developed a parallel system 并行系统 for simulations that can run several scenarios at once.

团队开发了一个并行系统 并行系统用于模拟，可以同时运行多个场景。

作文

In today's rapidly evolving technological landscape, the concept of a parallel system has gained significant attention across various fields. A parallel system refers to a configuration where multiple processes or components operate simultaneously to achieve a common goal or enhance performance. This approach is often utilized in computing, engineering, and organizational structures to improve efficiency and reliability.One of the most prominent examples of a parallel system is found in computer architecture. Modern computers often use multi-core processors that can execute several instructions at once. By distributing tasks across multiple cores, these systems can perform complex calculations and data processing much faster than traditional single-core processors. This not only enhances the speed of operations but also allows for more efficient resource utilization.In addition to computing, the concept of a parallel system is also prevalent in engineering fields, particularly in the design of transportation networks. For instance, consider a city's public transit system, which may include buses, trains, and subways operating concurrently. By having multiple modes of transport available at the same time, cities can better accommodate the needs of their residents, reduce congestion, and improve overall service reliability. This integration of various transport methods exemplifies how a parallel system can enhance functionality and user experience.Moreover, organizations often implement parallel systems in their operational frameworks. For example, a company might adopt a dual-sourcing strategy, where it procures a particular component from two different suppliers. This not only mitigates the risk of supply chain disruptions but also fosters competition among suppliers, leading to better pricing and quality. In this context, the parallel system serves as a strategic approach to enhance resilience and adaptability in business operations.The benefits of utilizing a parallel system extend beyond mere efficiency; they also promote innovation. When multiple processes run concurrently, there is a greater opportunity for experimentation and discovery. For instance, in research and development, teams can work on different aspects of a project simultaneously, leading to faster breakthroughs and advancements. This collaborative spirit is essential in today’s fast-paced environment, where the ability to innovate quickly can determine an organization's success.However, implementing a parallel system is not without its challenges. Coordination and communication become critical as multiple components operate simultaneously. Without proper management, the potential for confusion and inefficiency increases. Thus, organizations must invest in robust project management tools and practices to ensure that all parts of the parallel system function harmoniously.In conclusion, the concept of a parallel system plays a vital role in enhancing performance across various domains, from computing to transportation and organizational management. By enabling simultaneous operations, these systems not only improve efficiency but also foster innovation and resilience. As technology continues to advance, the adoption and optimization of parallel systems will undoubtedly become increasingly important in meeting the demands of our dynamic world.

在当今快速发展的技术环境中，并行系统这一概念在各个领域引起了广泛关注。并行系统是指多个过程或组件同时运行以实现共同目标或提高性能的配置。这种方法通常用于计算、工程和组织结构中，以提高效率和可靠性。一个最显著的并行系统例子可以在计算机架构中找到。现代计算机通常使用多核处理器，可以同时执行多个指令。通过将任务分配到多个核心，这些系统能够比传统的单核处理器更快地执行复杂的计算和数据处理。这不仅提高了操作速度，还允许更有效地利用资源。除了计算，并行系统的概念在工程领域也很普遍，尤其是在交通网络的设计中。例如，一个城市的公共交通系统可能包括同时运行的公交车、火车和地铁。通过同时提供多种交通方式，城市可以更好地满足居民的需求，减少拥堵，提高整体服务可靠性。这种各种交通方式的整合展示了并行系统如何增强功能性和用户体验。此外，组织在其运营框架中也经常实施并行系统。例如，一家公司可能采用双重采购策略，从两个不同的供应商采购特定组件。这不仅降低了供应链中断的风险，还促进了供应商之间的竞争，从而导致更好的价格和质量。在这种情况下，并行系统作为一种战略方法，有助于增强商业运营的韧性和适应性。利用并行系统的好处不仅限于效率，它们还促进了创新。当多个过程同时运行时，实验和发现的机会就会增加。例如，在研发中，团队可以同时研究项目的不同方面，从而加快突破和进展。这种协作精神在当今快速变化的环境中至关重要，因为快速创新的能力可以决定一个组织的成功。然而，实施并行系统并非没有挑战。随着多个组件同时运行，协调和沟通变得至关重要。如果没有适当的管理，混乱和低效的潜力就会增加。因此，组织必须投资于强大的项目管理工具和实践，以确保并行系统的所有部分和谐运作。总之，并行系统的概念在提高各个领域的性能中发挥着至关重要的作用，从计算到交通再到组织管理。通过实现同时操作，这些系统不仅提高了效率，还促进了创新和韧性。随着技术的不断进步，并行系统的采用和优化无疑将在满足我们动态世界的需求中变得越来越重要。