large scale integration

简明释义

大规模集成电路

英英释义

例句

1.Companies are investing heavily in large scale integration to reduce costs and improve performance.

公司正在大量投资于大规模集成以降低成本和提高性能。

2.With large scale integration, engineers can design smaller and more efficient devices.

通过大规模集成，工程师可以设计出更小、更高效的设备。

3.The smartphone revolution was fueled by innovations in large scale integration technology.

智能手机革命是由大规模集成技术的创新推动的。

4.In the field of electronics, large scale integration allows for more complex circuits on a single chip.

在电子领域，大规模集成使得在单个芯片上实现更复杂的电路成为可能。

5.The development of microprocessors is a result of advancements in large scale integration.

微处理器的发展是大规模集成技术进步的结果。

作文

In the world of technology, few concepts have revolutionized the way we design and manufacture electronic devices as much as large scale integration. This term refers to the process of integrating thousands, or even millions, of transistors onto a single microchip. The implications of large scale integration are profound, impacting everything from consumer electronics to complex computing systems. Historically, the evolution of microelectronics has been marked by significant milestones. In the early days of electronics, devices were built using discrete components such as resistors, capacitors, and individual transistors. As technology advanced, engineers began to explore the idea of combining these components into a single package, leading to the development of integrated circuits (ICs). However, it was not until the advent of large scale integration that the true potential of ICs was realized.With large scale integration, the number of components that could be placed on a single chip skyrocketed, resulting in smaller, faster, and more efficient devices. This innovation paved the way for the development of microprocessors, which serve as the brains of computers and other digital devices. The ability to fit more transistors onto a chip allowed for increased processing power and functionality, enabling the creation of smartphones, tablets, and a myriad of other gadgets that have become integral to modern life.The impact of large scale integration extends beyond just consumer electronics. In fields such as telecommunications and aerospace, the miniaturization of components has facilitated the development of sophisticated systems that were previously unimaginable. For instance, satellites now rely on highly integrated circuits to perform complex computations and transmit data back to Earth. Similarly, medical devices such as pacemakers and imaging equipment benefit from the advancements made possible by large scale integration, allowing for more effective and reliable healthcare solutions.Moreover, large scale integration has also contributed to the reduction of costs associated with manufacturing electronic devices. By consolidating multiple functions onto a single chip, companies can streamline production processes and reduce material costs. This has ultimately led to lower prices for consumers, making technology more accessible to a broader audience.However, the journey of large scale integration is not without challenges. As transistors continue to shrink in size, engineers face difficulties related to heat dissipation, power consumption, and quantum effects. These challenges necessitate ongoing research and innovation to ensure that the benefits of large scale integration can be sustained in the future. In conclusion, large scale integration represents a cornerstone of modern electronics, driving advancements across various industries. Its ability to combine vast numbers of components into a single chip has transformed the landscape of technology, enabling the creation of powerful and compact devices that enhance our daily lives. As we look forward to the future, the continued exploration of large scale integration promises to unlock even greater possibilities, pushing the boundaries of what is achievable in the realm of electronics.

在技术世界中，少有概念能像大规模集成一样彻底改变我们设计和制造电子设备的方式。这个术语指的是将成千上万甚至数百万个晶体管集成到单一微芯片上的过程。大规模集成的影响深远，影响着从消费电子到复杂计算系统的一切。历史上，微电子学的发展经历了重要的里程碑。在电子学的早期阶段，设备是由离散组件如电阻器、电容器和单个晶体管构建的。随着技术的进步，工程师们开始探索将这些组件组合成一个单一包装的想法，导致了集成电路（IC）的发展。然而，直到大规模集成的出现，IC的真正潜力才得以实现。通过大规模集成，可以放置在单个芯片上的组件数量激增，导致设备变得更小、更快、更高效。这一创新为微处理器的发展铺平了道路，微处理器作为计算机和其他数字设备的“大脑”。能够在芯片上容纳更多的晶体管使得处理能力和功能得以增加，从而促成了智能手机、平板电脑以及无数其他已成为现代生活不可或缺的设备的诞生。大规模集成的影响不仅限于消费电子。在电信和航空航天等领域，组件的小型化促进了以前无法想象的复杂系统的发展。例如，卫星现在依赖高度集成的电路来执行复杂的计算并将数据传回地球。同样，医疗设备如心脏起搏器和成像设备也受益于大规模集成所带来的进步，使得更有效和可靠的医疗解决方案成为可能。此外，大规模集成还帮助降低了与生产电子设备相关的成本。通过将多个功能整合到单一芯片上，公司可以简化生产流程并降低材料成本。这最终导致消费者价格降低，使技术对更广泛的受众更加可及。然而，大规模集成的旅程并非没有挑战。随着晶体管继续缩小，工程师面临着与热散发、功耗和量子效应相关的困难。这些挑战需要持续的研究和创新，以确保未来能够维持大规模集成的好处。总之，大规模集成代表了现代电子学的基石，推动了各行业的进步。它将大量组件结合到单一芯片中的能力改变了技术的格局，使得强大而紧凑的设备得以创造，提升了我们的日常生活。展望未来，持续探索大规模集成有望解锁更大的可能性，推动电子领域的成就边界。