network synthesis

简明释义

网络合成

英英释义

例句

1.The engineer presented a detailed plan for the network synthesis 网络综合 of the new telecommunications system.

工程师展示了新电信系统的详细网络综合 network synthesis计划。

2.The project required advanced network synthesis 网络综合 techniques to optimize performance.

该项目需要先进的网络综合 network synthesis技术来优化性能。

3.The software tool simplifies network synthesis 网络综合 for complex systems.

该软件工具简化了复杂系统的网络综合 network synthesis。

4.In our research, we focused on the network synthesis 网络综合 of various data sources to improve accuracy.

在我们的研究中，我们专注于各种数据源的网络综合 network synthesis以提高准确性。

5.During the workshop, we learned about the principles of network synthesis 网络综合 in electronic design.

在研讨会上，我们学习了电子设计中网络综合 network synthesis的原理。

作文

In the modern era of technology, the concept of network synthesis has gained significant importance in various fields, particularly in engineering and computer science. Network synthesis refers to the process of designing and constructing a network that meets specific performance criteria. This can involve creating electrical circuits, communication networks, or even social networks that optimize connectivity and efficiency. The essence of network synthesis lies in its ability to combine multiple components into a cohesive system that functions seamlessly. One of the primary applications of network synthesis is in the field of telecommunications. As the demand for faster and more reliable communication increases, engineers are tasked with developing networks that can handle vast amounts of data while minimizing latency. Through network synthesis, they can design networks that integrate various technologies, such as fiber optics, wireless communication, and satellite systems. By carefully analyzing the requirements of the network and its intended use, engineers can create a robust infrastructure that supports efficient data transmission.Moreover, network synthesis plays a crucial role in the development of integrated circuits. In electronics, designers must consider factors like power consumption, signal integrity, and component placement when creating circuits. Network synthesis allows for the optimization of these parameters, ensuring that the final product not only performs well but also adheres to industry standards. With the rise of smart devices and the Internet of Things (IoT), the significance of network synthesis in circuit design is more pronounced than ever.In addition to telecommunications and electronics, network synthesis is also applicable in social sciences. Researchers analyze social networks to understand how individuals interact within a community. By applying principles of network synthesis, they can identify key influencers, detect patterns of behavior, and even predict the spread of information or behaviors within a network. This understanding is essential for developing strategies in marketing, public health, and community engagement.Furthermore, the rise of big data has transformed the landscape of network synthesis. With the vast amounts of data generated every day, the ability to synthesize networks that can efficiently process and analyze this information is critical. Data scientists employ network synthesis techniques to create models that reveal insights from complex datasets, enabling organizations to make informed decisions based on empirical evidence.In conclusion, network synthesis is a multifaceted concept that encompasses various disciplines, from engineering to social sciences. Its ability to integrate components into a functional whole is vital for advancing technology and understanding complex systems. As our world becomes increasingly interconnected, the importance of network synthesis will continue to grow, driving innovation and enhancing our ability to solve real-world problems. Embracing this concept will empower professionals across industries to create efficient, effective networks that meet the demands of the future.

网络综合在现代科技时代中变得越来越重要，尤其是在工程和计算机科学领域。网络综合是指设计和构建一个满足特定性能标准的网络的过程。这可以涉及创建电路、通信网络，甚至是优化连接性和效率的社交网络。网络综合的本质在于其将多个组件结合成一个功能无缝的系统的能力。 网络综合的主要应用之一是在电信领域。随着对更快和更可靠通信的需求增加，工程师们被要求开发能够处理大量数据并最小化延迟的网络。通过网络综合，他们可以设计集成各种技术的网络，例如光纤、无线通信和卫星系统。通过仔细分析网络的需求及其预期用途，工程师可以创建一个强大的基础设施，以支持高效的数据传输。此外，网络综合在集成电路的发展中也发挥着至关重要的作用。在电子学中，设计人员在创建电路时必须考虑功耗、信号完整性和组件布局等因素。网络综合允许优化这些参数，确保最终产品不仅性能良好，而且符合行业标准。随着智能设备和物联网（IoT）的兴起，网络综合在电路设计中的重要性愈发明显。除了电信和电子学，网络综合在社会科学中也适用。研究人员分析社交网络，以了解个人在社区中的互动。通过应用网络综合的原理，他们可以识别关键影响者、检测行为模式，甚至预测信息或行为在网络中的传播。这种理解对于制定市场营销、公共卫生和社区参与策略至关重要。此外，大数据的兴起改变了网络综合的格局。随着每天生成的大量数据，合成能够有效处理和分析这些信息的网络的能力至关重要。数据科学家采用网络综合技术创建模型，从复杂的数据集中揭示见解，使组织能够根据实证证据做出明智的决策。总之，网络综合是一个多面向的概念，涵盖了从工程到社会科学的各个学科。它将组件集成成一个功能整体的能力对推动技术进步和理解复杂系统至关重要。随着我们的世界变得越来越互联，网络综合的重要性将继续增长，推动创新并增强我们解决现实问题的能力。接受这一概念将使各行业的专业人士能够创建满足未来需求的高效、有效的网络。