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 paved the way for the development of personal computers in the following decades.

这台全晶体管计算机为随后几十年个人计算机的发展铺平了道路。

2.Many companies began to invest in research for all transistor computers 全晶体管计算机 during the technological boom of the 1960s.

在20世纪60年代的技术繁荣时期，许多公司开始投资于全晶体管计算机的研究。

3.Engineers were excited to work on the new all transistor computer 全晶体管计算机 because it was faster and more reliable than previous models.

工程师们对新款全晶体管计算机感到兴奋，因为它比之前的型号更快、更可靠。

4.In my computer history class, we learned about the impact of the all transistor computer 全晶体管计算机 on modern technology.

在我的计算机历史课上，我们学习了全晶体管计算机对现代技术的影响。

5.The first all transistor computer 全晶体管计算机 was developed in the 1950s, marking a significant advancement in computing technology.

第一台全晶体管计算机在20世纪50年代开发，标志着计算技术的重要进步。

作文

The evolution of computers has been one of the most fascinating journeys in technology. Among the many milestones, the development of the all transistor computer (全晶体管计算机) stands out as a significant leap forward. Prior to the advent of the all transistor computer, computers relied heavily on vacuum tubes, which were bulky, inefficient, and generated a lot of heat. The transition to transistors marked a new era in computing, allowing for smaller, faster, and more reliable machines.Transistors are semiconductor devices that can amplify or switch electronic signals. They are much smaller than vacuum tubes and consume less power, making them ideal for use in computers. The first all transistor computer was developed in the late 1950s, and it represented a complete shift in how computers were built and operated. Unlike earlier models that used a combination of vacuum tubes and other components, the all transistor computer relied solely on transistors for its operations.One of the most notable characteristics of the all transistor computer is its reliability. Transistors are less prone to failure compared to vacuum tubes, which often burned out and required frequent replacements. This reliability allowed computers to be used in a wider range of applications, from scientific research to commercial enterprises.Moreover, the compact size of transistors enabled engineers to design computers that were significantly smaller than their predecessors. This miniaturization paved the way for the development of personal computers and laptops, which have become ubiquitous in modern society. The all transistor computer also contributed to the increase in processing speed. With transistors capable of switching states much faster than vacuum tubes, computers could perform more calculations per second, leading to enhanced performance in various tasks.The impact of the all transistor computer extends beyond just hardware improvements. It also influenced software development and programming languages. As computers became more powerful and accessible, a new wave of software applications emerged, catering to diverse needs and industries. This democratization of computing laid the groundwork for the tech-driven world we live in today.In conclusion, the all transistor computer (全晶体管计算机) represents a pivotal moment in the history of technology. Its introduction not only transformed the physical design of computers but also revolutionized how we interact with technology. The legacy of the all transistor computer continues to influence modern computing, reminding us of the importance of innovation and adaptability in the ever-changing landscape of technology. As we look towards the future, it is essential to recognize the foundational advancements made by the all transistor computer and how they have shaped our current digital age.

计算机的发展历程是科技中最令人着迷的旅程之一。在众多里程碑中，全晶体管计算机的开发显然是向前迈出的重要一步。在全晶体管计算机出现之前，计算机主要依赖于真空管，而真空管笨重、效率低下且产生大量热量。向晶体管的过渡标志着计算机新时代的到来，使得机器变得更小、更快和更可靠。晶体管是一种可以放大或切换电子信号的半导体器件。它们比真空管小得多，消耗的电力也更少，因此非常适合用于计算机。第一台全晶体管计算机于20世纪50年代末开发，它代表了计算机构建和操作方式的完全转变。与使用真空管和其他组件组合的早期型号不同，全晶体管计算机完全依赖晶体管进行操作。全晶体管计算机最显著的特点之一就是其可靠性。与真空管相比，晶体管不易故障，真空管经常烧坏，需要频繁更换。这种可靠性使得计算机能够在更广泛的应用中使用，从科学研究到商业企业。此外，晶体管的小巧尺寸使工程师能够设计出比其前身显著更小的计算机。这种微型化为个人计算机和笔记本电脑的发展铺平了道路，这些设备已成为现代社会的普遍存在。全晶体管计算机还促进了处理速度的提高。由于晶体管能够比真空管更快地切换状态，计算机可以每秒执行更多的计算，从而在各种任务中提升性能。全晶体管计算机的影响不仅限于硬件的改进。它还影响了软件开发和编程语言。随着计算机变得更强大、可获取性更高，一波新的软件应用应运而生，满足了多样化的需求和行业。这种计算机的民主化奠定了我们今天这个以科技驱动的世界的基础。总之，全晶体管计算机（全晶体管计算机）代表了技术历史上的一个重要时刻。它的引入不仅改变了计算机的物理设计，还革命性地影响了我们与技术的互动方式。全晶体管计算机的遗产继续影响着现代计算，提醒我们在不断变化的科技环境中创新和适应的重要性。当我们展望未来时，重要的是要认识到全晶体管计算机所做的基础性进步，以及这些进步如何塑造了我们当前的数字时代。