all transistor computer

简明释义

全晶体管计算机

英英释义

例句

1.Engineers at the university are studying the efficiency of the all transistor computer 全晶体管计算机 for modern applications.

大学的工程师们正在研究全晶体管计算机在现代应用中的效率。

2.In my computer history class, we learned that the all transistor computer 全晶体管计算机 replaced vacuum tube technology.

在我的计算机历史课上，我们了解到全晶体管计算机取代了真空管技术。

3.Many early models of the all transistor computer 全晶体管计算机 were large and expensive, making them accessible only to institutions.

许多早期型号的全晶体管计算机体积庞大且昂贵，仅供机构使用。

4.The all transistor computer 全晶体管计算机 paved the way for smaller and more efficient computers.

这台全晶体管计算机为更小、更高效的计算机铺平了道路。

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大进步。

作文

The evolution of computing technology has been marked by significant milestones, one of which is the development of the all transistor computer. This term refers to a type of computer that uses only transistors for its circuitry, replacing the earlier vacuum tube technology. The introduction of the all transistor computer in the mid-20th century represented a pivotal shift in the design and functionality of computers. Transistors are smaller, more reliable, and consume less power than vacuum tubes, allowing for the creation of machines that were not only more efficient but also more compact.The first all transistor computer, known as the TX-0, was developed at MIT in 1956. This groundbreaking machine utilized over 5,000 transistors and was capable of performing complex calculations much faster than its predecessors. The TX-0 set the stage for future innovations in computer design, demonstrating the potential of transistors to revolutionize the field of computing.One of the most significant advantages of the all transistor computer was its ability to operate at higher speeds. While vacuum tubes could often be slow and unreliable, transistors allowed for faster switching times, meaning that computations could be performed in a fraction of the time. This speed increase paved the way for more advanced programming and applications, ultimately leading to the development of modern computing systems.Moreover, the transition to all transistor computers marked a reduction in size and cost. Early computers were massive machines that required entire rooms to house their components. With the advent of transistor technology, computers could be made smaller and more affordable, making them accessible to a wider audience. This democratization of computing helped spur innovation across various industries, from business to education.As the technology progressed, the all transistor computer became the standard for computer architecture. Companies began to produce commercial models, further fueling the growth of the computer industry. By the 1960s, many businesses had adopted these machines, recognizing their superior performance and reliability.In conclusion, the all transistor computer represents a crucial chapter in the history of computing. Its introduction marked the transition from bulky, inefficient machines to sleek, powerful devices that laid the groundwork for the digital age. The impact of this technological advancement can still be felt today, as modern computers continue to build upon the principles established by the first all transistor computers. As we look towards the future, it is essential to acknowledge the innovations that have brought us to where we are now, and the all transistor computer will always hold a special place in that narrative.

计算技术的发展经历了许多重要的里程碑，其中之一就是全晶体管计算机（all transistor computer）的出现。这个术语指的是一种仅使用晶体管作为电路元件的计算机，取代了早期的真空管技术。在20世纪中叶，all transistor computer的引入代表了计算机设计和功能的重大转变。晶体管比真空管更小、更可靠且耗电更少，使得可以创造出不仅更高效而且更紧凑的机器。第一台all transistor computer，被称为TX-0，于1956年在麻省理工学院开发。这台开创性的机器使用了超过5000个晶体管，能够比其前身更快地进行复杂计算。TX-0为未来计算机设计的创新奠定了基础，展示了晶体管革命化计算领域的潜力。all transistor computer的一个显著优势是其操作速度更快。虽然真空管通常较慢且不可靠，但晶体管允许更快的切换时间，这意味着计算可以在极短的时间内完成。这种速度的提升为更先进的编程和应用铺平了道路，最终导致现代计算系统的发展。此外，过渡到all transistor computers标志着尺寸和成本的降低。早期的计算机是庞大的机器，需要整个房间来容纳其组件。随着晶体管技术的出现，计算机可以变得更小、更实惠，使其能够被更广泛的人群所接触。这种计算机的民主化帮助推动了各行业的创新，从商业到教育。随着技术的发展，all transistor computer成为计算机架构的标准。公司开始生产商业模型，进一步推动了计算机行业的增长。到1960年代，许多企业已经采用了这些机器，认识到它们的卓越性能和可靠性。总之，all transistor computer代表了计算历史中的一个重要篇章。它的引入标志着从笨重、低效的机器到流线型、高效设备的过渡，这为数字时代奠定了基础。这一技术进步的影响至今仍然存在，因为现代计算机继续建立在第一台all transistor computers所确立的原则之上。展望未来，承认那些将我们带到现在的创新至关重要，而all transistor computer将在这一叙述中始终占有特殊的位置。