large scale integration

简明释义

大规模集成化

英英释义

例句

1.A key challenge in large scale integration is managing heat dissipation in densely packed circuits.

在大规模集成中，一个关键挑战是管理密集电路中的热量散发。

2.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。

3.Modern smartphones rely heavily on large scale integration to pack multiple functions into a single chip.

现代智能手机严重依赖于大规模集成技术，将多种功能集成到单个芯片中。

4.Engineers are constantly pushing the boundaries of large scale integration to create more powerful devices.

工程师们不断突破大规模集成的界限，以创造更强大的设备。

5.The field of electronics has been revolutionized by large scale integration technologies.

电子学领域因大规模集成技术而发生了革命性的变化。

作文

The concept of large scale integration (LSI) has revolutionized the field of electronics and computer engineering. It refers to the process of integrating thousands of transistors onto a single silicon chip, which allows for the creation of complex circuits that were once unimaginable. This technological advancement has led to the miniaturization of electronic devices, making them more efficient and cost-effective. In the past, electronic components such as resistors, capacitors, and transistors were housed in separate packages, which limited their performance and increased the overall size of devices. However, with large scale integration technology, multiple functions can now be performed on a single chip, drastically reducing the size of electronic products.One of the most significant impacts of large scale integration is seen in the development of microprocessors. These powerful chips are the brains of computers and smartphones, allowing them to perform millions of calculations per second. The introduction of microprocessors has not only enhanced computing power but has also made technology accessible to the masses. As a result, we now have personal computers, laptops, and mobile devices that fit in our pockets, all thanks to the advancements brought about by large scale integration.Moreover, large scale integration has paved the way for the Internet of Things (IoT), where everyday objects are embedded with sensors and connected to the internet. This connectivity enables devices to communicate with each other, leading to smarter homes, cities, and industries. For instance, smart thermostats can learn user preferences and adjust temperatures automatically, while smart refrigerators can monitor food inventory and suggest recipes. The ability to integrate numerous functions into a single chip has made these innovations possible, showcasing the profound impact of large scale integration on our daily lives.In addition to consumer electronics, large scale integration has also transformed various industries, including healthcare, automotive, and telecommunications. In healthcare, advanced medical devices such as MRI machines and wearable health monitors rely on integrated circuits to provide accurate diagnostics and real-time monitoring. In the automotive sector, modern vehicles are equipped with numerous sensors and control systems that enhance safety and performance, all made possible through large scale integration technology.However, the journey of large scale integration is not without challenges. As the demand for smaller and more powerful chips continues to grow, engineers face difficulties in managing heat dissipation and power consumption. Additionally, as transistors shrink to the nanoscale, issues related to quantum effects and manufacturing complexities arise. Researchers are actively exploring new materials and technologies, such as quantum computing and neuromorphic chips, to overcome these obstacles and continue the evolution of integrated circuits.In conclusion, large scale integration has fundamentally changed the landscape of technology, enabling the development of compact and powerful electronic devices that enhance our lives. From microprocessors to IoT applications, the influence of LSI is evident in every aspect of modern society. As we look to the future, it is essential to continue pushing the boundaries of what is possible through large scale integration, ensuring that we harness its potential to create innovative solutions that address the challenges of tomorrow.

大型集成电路（large scale integration）的概念彻底改变了电子和计算机工程领域。它是指将成千上万的晶体管集成到单个硅芯片上的过程，这使得创建曾经不可想象的复杂电路成为可能。这一技术进步导致电子设备的小型化，使其更加高效且具有成本效益。在过去，电子元件如电阻器、电容器和晶体管被放置在单独的封装中，这限制了它们的性能并增加了设备的整体尺寸。然而，借助于large scale integration技术，现在可以在单个芯片上执行多种功能，从而大幅减少电子产品的体积。large scale integration最显著的影响体现在微处理器的发展上。这些强大的芯片是计算机和智能手机的“大脑”，使其能够每秒执行数百万次计算。微处理器的引入不仅增强了计算能力，还使技术变得普及。因此，我们现在拥有个人电脑、笔记本电脑和口袋里的移动设备，这一切都要归功于large scale integration带来的进步。此外，large scale integration为物联网（IoT）的发展铺平了道路，在物联网中，日常物品嵌入传感器并连接到互联网。这种连接性使设备能够相互通信，从而导致更智能的家居、城市和工业。例如，智能恒温器可以学习用户偏好并自动调节温度，而智能冰箱可以监控食品库存并建议食谱。将多个功能集成到单个芯片中的能力使这些创新成为可能，展示了large scale integration对我们日常生活的深远影响。除了消费电子产品，large scale integration还改变了医疗、汽车和电信等各个行业。在医疗保健方面，先进的医疗设备如MRI机器和可穿戴健康监测器依赖于集成电路提供准确的诊断和实时监测。在汽车行业，现代车辆配备了许多传感器和控制系统，以提高安全性和性能，这一切都得益于large scale integration技术。然而，large scale integration的旅程并非没有挑战。随着对更小、更强大芯片的需求不断增长，工程师在管理热量散发和功耗方面面临困难。此外，随着晶体管缩小到纳米级，量子效应和制造复杂性等问题也随之而来。研究人员正在积极探索新材料和技术，如量子计算和类脑芯片，以克服这些障碍，并继续推动集成电路的发展。总之，large scale integration从根本上改变了技术的格局，使紧凑而强大的电子设备的开发成为可能，从而提升了我们的生活。从微处理器到物联网应用，LSI的影响在现代社会的方方面面都显而易见。展望未来，继续推动large scale integration的可能性至关重要，以确保我们利用其潜力创造出应对明天挑战的创新解决方案。