superlarge scale integration

简明释义

超大规模集成

英英释义

例句

1.With advancements in superlarge scale integration, we can now fit an entire computer on a single chip.

随着超大规模集成的进步，我们现在可以将整个计算机集成在一个芯片上。

2.The field of robotics has greatly benefited from superlarge scale integration, enabling smarter and more efficient machines.

机器人领域因超大规模集成而受益匪浅，使得机器更加智能和高效。

3.In modern computing, superlarge scale integration is crucial for developing high-performance processors.

在现代计算中，超大规模集成对开发高性能处理器至关重要。

4.Many consumer electronics rely on superlarge scale integration to minimize size while maximizing performance.

许多消费电子产品依赖于超大规模集成来最小化尺寸，同时最大化性能。

5.The latest smartphone features a chip built using superlarge scale integration technology, which allows for more functionality in a smaller size.

最新的智能手机采用了基于超大规模集成技术制造的芯片，这使得它在更小的体积中具备更多功能。

作文

In the rapidly evolving world of technology, the term superlarge scale integration refers to a sophisticated process of integrating an immense number of electronic components onto a single chip. This innovation has transformed the landscape of electronics, enabling the development of more compact, efficient, and powerful devices. As we delve into the significance of superlarge scale integration in modern technology, it is essential to understand its implications on various fields such as computing, telecommunications, and consumer electronics.The concept of superlarge scale integration can be traced back to the early days of microelectronics when engineers sought ways to pack more transistors onto a chip to enhance performance. Traditional integration techniques allowed for only a limited number of components, but advancements in fabrication technologies have made it possible to integrate millions, and even billions, of transistors on a single silicon wafer. This leap in technology has led to the miniaturization of devices, making them more accessible and user-friendly.One of the most significant impacts of superlarge scale integration is observed in the computing industry. Modern processors, which are at the heart of computers, rely heavily on this technology to function efficiently. With the integration of numerous cores and advanced functionalities on a single chip, computers today are capable of performing complex calculations at unprecedented speeds. This has not only improved the performance of personal computers but has also paved the way for powerful servers that support cloud computing and big data analytics.Moreover, superlarge scale integration plays a crucial role in telecommunications. The demand for faster and more reliable communication networks has driven the need for advanced chips that can handle vast amounts of data. Integrated circuits designed using superlarge scale integration techniques enable the development of smartphones and other communication devices that are both powerful and energy-efficient. These advancements have revolutionized how we connect with each other, breaking geographical barriers and fostering global communication.Consumer electronics have also benefitted immensely from superlarge scale integration. Devices such as televisions, gaming consoles, and smart home appliances have become more sophisticated due to the integration of multiple functions into single chips. For instance, the latest smart TVs come equipped with features like streaming, gaming, and internet browsing, all powered by integrated circuits that utilize superlarge scale integration technology. This convergence of functionalities not only enhances user experience but also reduces manufacturing costs and energy consumption.Despite the numerous advantages of superlarge scale integration, there are challenges that accompany this technology. As the density of transistors continues to increase, issues such as heat dissipation and power consumption become more pronounced. Engineers must innovate continually to address these challenges while maintaining performance and reliability. Furthermore, the complexity of designing and manufacturing superlarge scale integration chips requires significant investment and expertise, posing barriers for smaller companies and startups.In conclusion, superlarge scale integration has become a cornerstone of modern electronics, driving innovation across various industries. Its ability to integrate vast numbers of components onto a single chip has led to remarkable advancements in computing, telecommunications, and consumer electronics. As we continue to push the boundaries of technology, understanding and harnessing the potential of superlarge scale integration will be essential for future developments. The journey of technological evolution is far from over, and superlarge scale integration will undoubtedly play a pivotal role in shaping the future of our digital world.

在快速发展的科技世界中，术语超大规模集成指的是将大量电子元件集成到单个芯片上的复杂过程。这一创新改变了电子产品的格局，使得更紧凑、高效和强大的设备得以开发。深入探讨超大规模集成在现代科技中的重要性，有必要理解其在计算、通信和消费电子等各个领域的影响。超大规模集成的概念可以追溯到微电子学的早期，当时工程师们寻求将更多的晶体管打包到芯片上以提高性能。传统的集成技术仅允许有限数量的组件，但制造技术的进步使得在单个硅片上集成数百万甚至数十亿个晶体管成为可能。这一技术飞跃导致了设备的小型化，使其更加便捷和用户友好。超大规模集成最显著的影响之一体现在计算行业。现代处理器作为计算机的核心，严重依赖这一技术来高效运行。随着多个核心和先进功能的集成，今天的计算机能够以前所未有的速度执行复杂的计算。这不仅提高了个人计算机的性能，也为支持云计算和大数据分析的强大服务器铺平了道路。此外，超大规模集成在电信中也发挥着至关重要的作用。对更快、更可靠的通信网络的需求推动了对能够处理大量数据的先进芯片的需求。利用超大规模集成技术设计的集成电路使智能手机和其他通信设备的开发成为可能，这些设备既强大又节能。这些进步彻底改变了我们彼此之间的联系，打破了地理障碍，促进了全球通信。消费电子产品也因超大规模集成而受益匪浅。电视、游戏机和智能家居电器等设备由于将多个功能集成到单个芯片中而变得更加复杂。例如，最新的智能电视具备流媒体、游戏和互联网浏览等功能，所有这些都由利用超大规模集成技术的集成电路提供动力。这种功能的融合不仅增强了用户体验，还降低了制造成本和能源消耗。尽管超大规模集成具有众多优势，但伴随这一技术也存在挑战。随着晶体管密度的不断增加，热量散发和功耗等问题变得愈加明显。工程师必须不断创新，以应对这些挑战，同时保持性能和可靠性。此外，设计和制造超大规模集成芯片的复杂性需要大量投资和专业知识，这对较小的公司和初创企业构成了障碍。总之，超大规模集成已成为现代电子产品的基石，推动了各个行业的创新。其将大量组件集成到单个芯片上的能力，导致了计算、电信和消费电子领域的显著进步。随着我们继续推动技术的边界，理解和利用超大规模集成的潜力将对未来的发展至关重要。科技演变的旅程远未结束，超大规模集成无疑将在塑造我们数字世界的未来中发挥关键作用。