transistorized electronic digital computer

简明释义

晶体管电子数字计算机

英英释义

例句

1.The development of the transistorized electronic digital computer (晶体管电子数字计算机) led to the miniaturization of technology.

对晶体管电子数字计算机 (transistorized electronic digital computer) 的发展导致了技术的小型化。

2.The first generation of computing devices was largely based on vacuum tubes, but the introduction of the transistorized electronic digital computer (晶体管电子数字计算机) marked a significant advancement in technology.

第一代计算设备主要基于真空管，但晶体管电子数字计算机 (transistorized electronic digital computer) 的引入标志着技术的重大进步。

3.Many educational institutions now teach the principles of how a transistorized electronic digital computer (晶体管电子数字计算机) operates.

许多教育机构现在教授晶体管电子数字计算机 (transistorized electronic digital computer) 的工作原理。

4.The transistorized electronic digital computer (晶体管电子数字计算机) revolutionized data processing in various industries.

晶体管电子数字计算机 (transistorized electronic digital computer) 革新了各行业的数据处理。

5.In the 1960s, engineers began designing transistorized electronic digital computers (晶体管电子数字计算机) that were smaller and more efficient than their predecessors.

在20世纪60年代，工程师们开始设计比前辈更小、更高效的晶体管电子数字计算机 (transistorized electronic digital computer)。

作文

The evolution of computing technology has been a remarkable journey, and at the forefront of this transformation is the invention of the transistorized electronic digital computer. This groundbreaking device revolutionized the way we process information, paving the way for modern computing as we know it today. Before the advent of the transistorized electronic digital computer (晶体管电子数字计算机), computers were bulky machines that relied on vacuum tubes for processing data. These early computers were not only large but also consumed a significant amount of power and generated a lot of heat, making them impractical for widespread use.The introduction of transistors in the late 1940s marked a significant turning point in the field of electronics. Transistors are semiconductor devices that can amplify or switch electronic signals and electrical power. They are much smaller, more reliable, and energy-efficient compared to vacuum tubes. The transition from vacuum tubes to transistors allowed engineers to create smaller, faster, and more efficient computers. This new generation of computers, known as transistorized electronic digital computers, became the backbone of technological advancement in the latter half of the 20th century.One of the most notable transistorized electronic digital computers was the IBM 1401, which was introduced in 1959. This computer was widely used in businesses and institutions for data processing tasks. Its ability to handle large amounts of data quickly and accurately made it an invaluable tool for organizations looking to improve their operational efficiency. The success of the IBM 1401 highlighted the potential of transistorized electronic digital computers and encouraged further investment in computer technology.The impact of transistorized electronic digital computers extended beyond just business applications. They played a crucial role in scientific research, enabling scientists to perform complex calculations and simulations that were previously impossible. For instance, the development of nuclear weapons during the Cold War era relied heavily on the capabilities of these computers. Their ability to model intricate physical phenomena allowed researchers to gain insights that were critical for national security.As technology continued to evolve, the transistorized electronic digital computer laid the groundwork for the personal computer revolution in the 1970s and 1980s. Companies like Apple and Microsoft emerged, bringing computing power into homes and schools. The accessibility of transistorized electronic digital computers transformed society, changing the way people communicate, work, and learn. Today, computers are an integral part of our daily lives, and the legacy of the transistorized electronic digital computer continues to influence the design and functionality of modern devices.In conclusion, the transistorized electronic digital computer represents a monumental leap in technology that has shaped the world we live in today. Its introduction marked the beginning of a new era in computing, characterized by smaller, faster, and more efficient machines. As we look towards the future, it is essential to recognize the significance of this innovation and how it has paved the way for advancements in artificial intelligence, cloud computing, and beyond. The journey of the transistorized electronic digital computer is a testament to human ingenuity and the relentless pursuit of progress in the realm of technology.

计算技术的演变是一段非凡的旅程，而在这一转型的前沿是晶体管电子数字计算机的发明。这一突破性设备彻底改变了我们处理信息的方式，为现代计算奠定了基础。在晶体管电子数字计算机（transistorized electronic digital computer）问世之前，计算机是依赖真空管进行数据处理的庞大机器。这些早期计算机不仅体积庞大，而且消耗大量电力并产生大量热量，使其在广泛使用上不够实用。20世纪40年代末，晶体管的引入标志着电子学领域的重大转折点。晶体管是一种半导体器件，可以放大或切换电子信号和电力。与真空管相比，它们体积更小、可靠性更高且能效更好。由真空管到晶体管的过渡使工程师能够创造出更小、更快和更高效的计算机。这一新一代计算机被称为晶体管电子数字计算机，成为20世纪后半叶技术进步的支柱。最著名的晶体管电子数字计算机之一是IBM 1401，于1959年推出。这台计算机广泛用于企业和机构的数据处理任务。它快速且准确地处理大量数据的能力使其成为希望提高运营效率的组织的宝贵工具。IBM 1401的成功突显了晶体管电子数字计算机的潜力，并鼓励了对计算机技术的进一步投资。晶体管电子数字计算机的影响不仅限于商业应用。它们在科学研究中发挥了关键作用，使科学家能够进行以前不可能进行的复杂计算和模拟。例如，在冷战时期，核武器的发展在很大程度上依赖于这些计算机的能力。它们模拟复杂物理现象的能力使研究人员获得了对国家安全至关重要的见解。随着技术的不断发展，晶体管电子数字计算机为1970年代和1980年代的个人计算机革命奠定了基础。苹果和微软等公司应运而生，将计算能力带入家庭和学校。晶体管电子数字计算机的可及性改变了社会，改变了人们的沟通、工作和学习方式。如今，计算机已成为我们日常生活不可或缺的一部分，而晶体管电子数字计算机的遗产继续影响着现代设备的设计和功能。总之，晶体管电子数字计算机代表了科技的巨大飞跃，塑造了我们今天生活的世界。它的引入标志着计算的新纪元的开始，这一纪元以更小、更快和更高效的机器为特征。当我们展望未来时，认识到这一创新的重要性及其为人工智能、云计算等领域的进步铺平的道路是至关重要的。晶体管电子数字计算机的历程是人类聪明才智和在技术领域不断追求进步的见证。