transistor digital computer

简明释义

晶体管数字计算机

英英释义

例句

1.Many early games were developed for the transistor digital computer systems.

许多早期游戏是为晶体管数字计算机系统开发的。

2.In the 1960s, the transistor digital computer became a staple in academic institutions.

在1960年代，晶体管数字计算机成为学术机构的标准配置。

3.The invention of the transistor digital computer revolutionized the field of computing.

晶体管数字计算机的发明彻底改变了计算机领域。

4.Researchers are studying the efficiency of the transistor digital computer compared to modern computers.

研究人员正在研究晶体管数字计算机与现代计算机的效率对比。

5.The transistor digital computer laid the groundwork for the personal computers we use today.

晶体管数字计算机为我们今天使用的个人计算机奠定了基础。

作文

The invention of the transistor digital computer marked a significant turning point in the history of computing technology. Before the advent of transistors, computers were built using vacuum tubes, which were large, inefficient, and generated a lot of heat. The transition to transistor digital computers revolutionized the field by making computers smaller, faster, and more reliable. Transistors are semiconductor devices that can amplify or switch electronic signals, and they consume far less power than vacuum tubes. This efficiency allowed for the development of more compact and powerful machines.One of the most notable early examples of a transistor digital computer is the IBM 1401, introduced in the late 1950s. The IBM 1401 was one of the first computers to use transistors instead of vacuum tubes, and it quickly became popular in businesses for data processing tasks. Its success paved the way for further advancements in computer technology, leading to the proliferation of transistor digital computers in various sectors.The impact of the transistor digital computer extends beyond just hardware improvements. With the introduction of transistors, programming languages and software also evolved. The need for more sophisticated software to harness the power of these new machines led to the development of high-level programming languages, making it easier for programmers to write complex applications. This democratization of computing power opened up numerous opportunities for innovation in fields such as science, engineering, and business.Moreover, the transistor digital computer laid the groundwork for the modern computing era. As technology progressed, the size of transistors continued to shrink, leading to the creation of integrated circuits and microprocessors. These innovations have fueled the rapid advancement of personal computers, smartphones, and other digital devices that we rely on today. Without the foundational work done with transistor digital computers, the technological landscape would look vastly different.In education, the significance of the transistor digital computer cannot be overstated. Schools and universities began incorporating computers into their curricula, allowing students to learn programming and computer science from an early age. This shift has been crucial in preparing future generations for a workforce increasingly dominated by technology. The skills acquired through working with transistor digital computers have become essential in virtually every industry.In conclusion, the transistor digital computer represents a major leap forward in the evolution of computing technology. Its introduction not only transformed the physical design of computers but also influenced software development, education, and the overall trajectory of technological advancement. We owe much of our current digital world to the pioneering efforts in creating and refining transistor digital computers, highlighting their enduring legacy in shaping the future of technology.

晶体管数字计算机的发明标志着计算技术历史上的一个重要转折点。在晶体管出现之前，计算机是用真空管构建的，这些真空管体积庞大、效率低下，并产生大量热量。向晶体管数字计算机的过渡彻底改变了这一领域，使计算机变得更小、更快且更可靠。晶体管是一种半导体器件，可以放大或切换电子信号，其功耗远低于真空管。这种高效性使得开发更紧凑、更强大的机器成为可能。最早的晶体管数字计算机之一是IBM 1401，它在20世纪50年代末推出。IBM 1401是第一批使用晶体管而非真空管的计算机之一，迅速在商业数据处理任务中流行开来。它的成功为计算机技术的进一步进步铺平了道路，导致各种领域中晶体管数字计算机的普及。晶体管数字计算机的影响不仅限于硬件改进。随着晶体管的引入，编程语言和软件也随之发展。为了利用这些新机器的强大功能，对更复杂软件的需求促使了高级编程语言的开发，使程序员更容易编写复杂的应用程序。这种计算能力的民主化为科学、工程和商业等领域的创新开辟了无数机会。此外，晶体管数字计算机为现代计算时代奠定了基础。随着技术的进步，晶体管的尺寸不断缩小，导致集成电路和微处理器的产生。这些创新推动了个人计算机、智能手机和我们今天依赖的其他数字设备的快速发展。如果没有在晶体管数字计算机上所做的基础工作，科技领域的面貌将会截然不同。在教育方面，晶体管数字计算机的重要性不言而喻。学校和大学开始将计算机纳入课程，使学生能够从早期学习编程和计算机科学。这一转变对于为未来的技术主导劳动力做好准备至关重要。通过与晶体管数字计算机的合作获得的技能已成为几乎所有行业的必备技能。总之，晶体管数字计算机代表了计算技术演变中的一次重大飞跃。它的引入不仅改变了计算机的物理设计，还影响了软件开发、教育以及技术进步的整体轨迹。我们当前的数字世界在很大程度上归功于创建和完善晶体管数字计算机的开创性努力，突显了它们在塑造技术未来方面的持久遗产。