all-transistor computer

简明释义

全晶伐管计算机;

英英释义

例句

1.The all-transistor computer 全晶体管计算机 revolutionized data processing in businesses.

在商业中，全晶体管计算机 全晶体管计算机彻底改变了数据处理方式。

2.The first commercially successful all-transistor computer 全晶体管计算机 was introduced in the early 1960s.

第一台商业上成功的全晶体管计算机 全晶体管计算机是在1960年代初期推出的。

3.Many universities began incorporating all-transistor computers 全晶体管计算机 into their curriculum.

许多大学开始将全晶体管计算机 全晶体管计算机纳入他们的课程中。

4.Engineers were excited about the speed of the new all-transistor computer 全晶体管计算机 compared to its vacuum tube predecessors.

工程师们对新款全晶体管计算机 全晶体管计算机的速度感到兴奋，相较于其真空管前身。

5.Learning how to program an all-transistor computer 全晶体管计算机 was a key skill for computer science students in the 1960s.

在1960年代，学习如何编程全晶体管计算机 全晶体管计算机是计算机科学学生的一项重要技能。

作文

The advent of the all-transistor computer marked a significant milestone in the evolution of computing technology. Prior to this innovation, computers relied heavily on vacuum tubes to perform calculations and process data. Vacuum tubes were large, inefficient, and generated a considerable amount of heat, which limited their practical applications. The introduction of the all-transistor computer revolutionized the industry by replacing these cumbersome components with transistors, which are smaller, more reliable, and consume less power.Transistors, first developed in the late 1940s, allowed for the miniaturization of electronic circuits. An all-transistor computer is defined as a computer that utilizes only transistors in its circuitry, eliminating the need for any vacuum tubes. This shift not only improved the performance of computers but also made them more accessible to a wider audience. As transistors became cheaper and more widely available, manufacturers began producing computers that were smaller, faster, and more affordable than their predecessors.One of the most notable examples of an all-transistor computer is the IBM 1401, introduced in 1959. It was one of the first commercially successful transistorized computers and played a crucial role in the transition from vacuum tube technology to transistor technology. The IBM 1401 was used extensively in business applications, such as payroll processing and inventory management, showcasing the practicality and efficiency of transistor-based computing.The impact of the all-transistor computer extended beyond just performance improvements. It also paved the way for the development of integrated circuits, which further miniaturized electronic components. Integrated circuits combine multiple transistors into a single chip, allowing for even greater efficiency and functionality. This technological advancement set the stage for the modern computing era, leading to the creation of personal computers, smartphones, and other advanced electronic devices that we rely on today.In addition to their technical advantages, all-transistor computers also contributed to the democratization of technology. As computers became smaller and more affordable, businesses and individuals could harness the power of computing for various applications. Educational institutions began incorporating computers into their curricula, and the rise of programming languages made it easier for people to create software and applications.In conclusion, the all-transistor computer represents a pivotal moment in the history of computing. By replacing vacuum tubes with transistors, this innovation led to smaller, faster, and more efficient computers. The success of early all-transistor computers, such as the IBM 1401, demonstrated the potential of this technology, paving the way for future advancements in computing. Today, we continue to benefit from the legacy of the all-transistor computer, as it laid the groundwork for the sophisticated devices we use in our daily lives. Understanding the significance of this technological breakthrough helps us appreciate the rapid evolution of computers and their profound impact on society.

全晶体管计算机的出现标志着计算技术演变中的一个重要里程碑。在此之前，计算机主要依赖真空管进行计算和数据处理。真空管体积庞大、效率低下，并且产生大量热量，这限制了其实际应用。全晶体管计算机的引入通过用晶体管取代这些笨重的组件，彻底改变了行业，晶体管体积更小、更可靠且功耗更低。晶体管于20世纪40年代末首次开发，使电子电路的小型化成为可能。全晶体管计算机定义为仅在其电路中使用晶体管的计算机，消除了对任何真空管的需求。这一转变不仅提高了计算机的性能，还使它们对更广泛的受众更加可及。随着晶体管变得更便宜、更普遍，制造商开始生产比其前身更小、更快、更实惠的计算机。全晶体管计算机最著名的例子之一是IBM 1401，于1959年推出。它是第一台商业成功的晶体管计算机之一，在从真空管技术向晶体管技术的过渡中发挥了关键作用。IBM 1401被广泛用于商业应用，如工资处理和库存管理，展示了基于晶体管的计算的实用性和效率。全晶体管计算机的影响不仅限于性能改进。它还为集成电路的发展铺平了道路，进一步小型化了电子元件。集成电路将多个晶体管组合到一个芯片中，从而实现更大的效率和功能。这一技术进步为现代计算时代奠定了基础，导致个人计算机、智能手机和其他我们今天依赖的先进电子设备的诞生。除了技术优势，全晶体管计算机还促进了技术的民主化。随着计算机变得更小、更实惠，企业和个人可以利用计算的力量进行各种应用。教育机构开始将计算机纳入其课程中，编程语言的兴起使人们更容易创建软件和应用程序。总之，全晶体管计算机代表了计算历史上的一个关键时刻。通过用晶体管取代真空管，这一创新导致了更小、更快、更高效的计算机。早期全晶体管计算机（如IBM 1401）的成功展示了这一技术的潜力，为未来的计算机发展铺平了道路。今天，我们继续从全晶体管计算机的遗产中受益，因为它为我们日常生活中使用的复杂设备奠定了基础。理解这一技术突破的重要性有助于我们欣赏计算机的快速演变及其对社会的深远影响。