very large scale integration

简明释义

超大规模集成化

英英释义

例句

1.In modern computer systems, very large scale integration 超大规模集成 allows for more compact circuit designs.

在现代计算机系统中，超大规模集成允许更紧凑的电路设计。

2.The advent of very large scale integration 超大规模集成 has revolutionized the electronics industry.

超大规模集成的出现彻底改变了电子行业。

3.With very large scale integration 超大规模集成, we can now fit millions of transistors on a single chip.

有了超大规模集成，我们现在可以在单个芯片上放置数百万个晶体管。

4.Engineers are constantly looking for ways to improve very large scale integration 超大规模集成 technology.

工程师们不断寻找改进超大规模集成技术的方法。

5.The latest smartphones utilize very large scale integration 超大规模集成 to enhance their processing power.

最新的智能手机利用超大规模集成来增强其处理能力。

作文

The rapid advancement of technology has led to significant changes in the way we interact with electronic devices. One of the most notable developments in this field is the concept of very large scale integration (VLSI). 超大规模集成 refers to the process of integrating thousands or even millions of transistors onto a single chip, which has revolutionized the electronics industry. This innovation has enabled the creation of compact and efficient devices that are now ubiquitous in our daily lives.To understand the impact of very large scale integration, it is essential to recognize its historical context. In the early days of computing, circuits were built using discrete components, which were bulky and inefficient. The introduction of integrated circuits (ICs) marked a significant breakthrough, allowing multiple components to be combined into a single package. However, it was with the advent of very large scale integration that the true potential of ICs was realized.The benefits of very large scale integration are manifold. Firstly, it significantly reduces the size of electronic devices. For instance, smartphones today contain powerful processors that would have required entire rooms filled with equipment just a few decades ago. This miniaturization has not only made devices more portable but has also reduced manufacturing costs, making technology accessible to a broader audience.Moreover, very large scale integration enhances the performance of electronic devices. By packing more transistors into a single chip, manufacturers can create processors that operate at higher speeds and consume less power. This efficiency is crucial in an age where energy conservation is a growing concern. As a result, modern devices can perform complex tasks, such as real-time data processing and high-definition video playback, seamlessly.Another significant advantage of very large scale integration is its role in enabling advanced technologies. Innovations such as artificial intelligence (AI), machine learning, and the Internet of Things (IoT) rely heavily on powerful processors that can handle vast amounts of data. The ability to integrate millions of transistors allows for the development of sophisticated algorithms and applications that were previously unimaginable.However, the journey of very large scale integration is not without challenges. As chips become more complex, issues such as heat dissipation and signal integrity arise. Engineers must continually innovate to address these problems, ensuring that the performance gains from very large scale integration do not come at the expense of reliability.In conclusion, very large scale integration has transformed the landscape of electronics, paving the way for smaller, faster, and more efficient devices. As we move forward, it will continue to play a critical role in shaping the future of technology. By understanding the significance of very large scale integration and its implications, we can better appreciate the advancements that have become integral to our modern lives. The evolution of VLSI is a testament to human ingenuity and the relentless pursuit of innovation, reminding us that the possibilities are limitless when we harness the power of technology effectively.

科技的快速发展导致了我们与电子设备互动方式的重大变化。在这一领域中，最显著的发展之一就是超大规模集成（VLSI）的概念。超大规模集成是指将成千上万甚至数百万个晶体管集成到单个芯片上的过程，这一创新彻底改变了电子行业。这一创新使得紧凑高效的设备的创造成为可能，这些设备如今在我们的日常生活中无处不在。要理解超大规模集成的影响，必须认识到其历史背景。在计算机发展的早期，电路是由离散组件构建的，这些组件笨重且效率低下。集成电路（IC）的引入标志着一个重要的突破，允许多个组件组合成一个单一的封装。然而，正是随着超大规模集成的出现，IC的真正潜力才得以实现。超大规模集成的好处是多方面的。首先，它显著减少了电子设备的尺寸。例如，如今的智能手机包含强大的处理器，而这些处理器在几十年前需要整整一个房间的设备才能实现。这种小型化不仅使设备更便携，还降低了制造成本，使技术对更广泛的受众变得可及。此外，超大规模集成提高了电子设备的性能。通过将更多的晶体管打包到单个芯片中，制造商可以创建速度更快、功耗更低的处理器。这种高效性在能源节约日益受到重视的时代尤为重要。因此，现代设备能够无缝执行复杂的任务，如实时数据处理和高清晰度视频播放。超大规模集成的另一个重要优势是它在推动先进技术中的作用。人工智能（AI）、机器学习和物联网（IoT）等创新在很大程度上依赖于能够处理大量数据的强大处理器。集成数百万个晶体管的能力使得开发复杂的算法和应用成为可能，这些在之前是不可想象的。然而，超大规模集成的发展之路并非没有挑战。随着芯片变得越来越复杂，热量散发和信号完整性等问题随之而来。工程师们必须不断创新，以解决这些问题，确保从超大规模集成中获得的性能提升不会以可靠性为代价。总之，超大规模集成改变了电子产品的格局，为更小、更快和更高效的设备铺平了道路。随着我们向前迈进，它将继续在塑造技术未来中发挥关键作用。通过理解超大规模集成的重要性及其影响，我们可以更好地欣赏那些已成为我们现代生活不可或缺的进步。VLSI的演变是人类智慧和对创新不懈追求的见证，提醒我们，当我们有效利用技术的力量时，可能性是无限的。