large scale intergration
简明释义
大规模集成化
英英释义
例句
1.With large scale integration 大规模集成, we can reduce the size of electronic devices significantly.
通过大规模集成 large scale integration,我们可以显著减少电子设备的尺寸。
2.The company is investing in large scale integration 大规模集成 to improve its production efficiency.
公司正在投资于大规模集成 large scale integration以提高生产效率。
3.The new chip design utilizes large scale integration 大规模集成 to enhance processing power.
新的芯片设计利用大规模集成 large scale integration来增强处理能力。
4.Implementing large scale integration 大规模集成 can lead to significant savings in manufacturing.
实施大规模集成 large scale integration可以在制造中节省大量成本。
5.The tech industry is moving towards large scale integration 大规模集成 for better performance and lower costs.
科技行业正朝着大规模集成 large scale integration的方向发展,以获得更好的性能和更低的成本。
作文
In the modern world, technology is advancing at an unprecedented rate. One of the most significant developments in recent years has been the concept of large scale integration, which refers to the process of integrating a large number of components into a single chip or system. This innovation has revolutionized the electronics industry and has had a profound impact on various sectors, including telecommunications, computing, and consumer electronics.The idea of large scale integration emerged in the 1960s when engineers began to realize that it was possible to fit more transistors onto a single silicon chip. This breakthrough led to the creation of integrated circuits (ICs), which replaced traditional discrete components. As technology progressed, the ability to integrate even more components onto a chip increased exponentially, leading to what we now refer to as very large scale integration (VLSI).One of the primary advantages of large scale integration is that it allows for the miniaturization of electronic devices. By packing a vast number of functions into a single chip, manufacturers can create smaller, lighter, and more efficient products. For example, smartphones today contain multiple functionalities, such as cameras, GPS, and internet connectivity, all made possible through large scale integration. This has not only enhanced user experience but also made technology more accessible to the masses.Furthermore, large scale integration has significantly improved the performance of electronic systems. Integrated circuits can operate at higher speeds and consume less power than their discrete counterparts. This efficiency is crucial in applications where processing speed and energy consumption are critical, such as in high-performance computing and mobile devices. The ability to integrate complex functionalities into a single chip also reduces the overall cost of production, making advanced technology more affordable.However, the journey of large scale integration is not without its challenges. As the number of components on a chip increases, so does the complexity of design and manufacturing. Engineers must tackle issues such as heat dissipation, signal integrity, and manufacturing yield. Additionally, as technology continues to evolve, there is a constant need for innovation in materials and processes to keep up with the demands of large scale integration.Looking ahead, the future of large scale integration appears promising. Emerging technologies, such as artificial intelligence, the Internet of Things (IoT), and 5G, rely heavily on advanced integrated circuits. The ongoing research in quantum computing and neuromorphic chips also points towards a new era of integration that could redefine computing as we know it.In conclusion, large scale integration has transformed the landscape of modern electronics by enabling the miniaturization and enhancement of electronic devices. Its impact is felt across various industries, driving innovation and improving efficiency. As we continue to push the boundaries of technology, the role of large scale integration will undoubtedly remain central to our progress, shaping the future of how we interact with the digital world.
在现代世界中,技术以空前的速度发展。近年来最重要的发展之一就是大规模集成的概念,它指的是将大量组件集成到单个芯片或系统中的过程。这一创新彻底改变了电子行业,并对电信、计算和消费电子等各个领域产生了深远的影响。大规模集成的想法出现在20世纪60年代,当时工程师们开始意识到可以将更多的晶体管放置在单个硅芯片上。这一突破导致了集成电路(IC)的创建,取代了传统的分立组件。随着技术的进步,将更多组件集成到芯片上的能力呈指数级增长,最终形成了我们现在所称的超大规模集成(VLSI)。大规模集成的主要优点之一是它允许电子设备的小型化。通过将大量功能打包到单个芯片中,制造商可以创造出更小、更轻、更高效的产品。例如,今天的智能手机包含多种功能,如相机、GPS和互联网连接,这一切都得益于大规模集成。这不仅增强了用户体验,还使技术更容易为大众所接受。此外,大规模集成显著提高了电子系统的性能。与分立组件相比,集成电路可以以更高的速度运行并消耗更少的电力。这种效率在处理速度和能耗至关重要的应用中至关重要,例如高性能计算和移动设备。将复杂功能集成到单个芯片中也降低了整体生产成本,使先进技术变得更加实惠。然而,大规模集成的发展之路并非没有挑战。随着芯片上组件数量的增加,设计和制造的复杂性也随之增加。工程师们必须解决散热、信号完整性和制造良率等问题。此外,随着技术的不断发展,材料和工艺的创新也成为跟上大规模集成需求的持续需要。展望未来,大规模集成的前景看起来非常光明。人工智能、物联网(IoT)和5G等新兴技术在很大程度上依赖于先进的集成电路。量子计算和类脑芯片的持续研究也预示着一个新的集成时代,这可能会重新定义我们所知的计算。总之,大规模集成通过实现电子设备的小型化和增强,改变了现代电子产品的格局。它的影响遍及各个行业,推动了创新,提高了效率。随着我们继续推动技术的边界,大规模集成无疑将在我们的进步中保持核心地位,塑造我们与数字世界互动的未来。
