punched tape

简明释义

穿孔带

英英释义

例句

1.During the workshop, participants learned how to read punched tape for data input.

在研讨会上，参与者学习了如何读取打孔带以进行数据输入。

2.The old computer system still relies on punched tape, which is a method of storing data using holes in a tape.

旧计算机系统仍然依赖于打孔带，这是一种使用带子上的孔来存储数据的方法。

3.The programmer had to convert the punched tape into a digital format for modern computers.

程序员必须将打孔带转换为现代计算机的数字格式。

4.In the museum, we found an exhibit showcasing how punched tape was used in early computing.

在博物馆，我们发现了一个展览，展示了早期计算中如何使用打孔带。

5.The factory used punched tape to control machinery before the advent of digital systems.

在数字系统出现之前，工厂使用打孔带来控制机器。

作文

In the realm of early computing and data storage, the term punched tape refers to a method of encoding information using a long strip of paper or plastic that has holes punched in it. This technique was widely used from the mid-20th century until the advent of more advanced data storage solutions. The concept of punched tape is fascinating not only for its historical significance but also for its role in the evolution of technology. The process of creating punched tape involves feeding a continuous strip of material through a machine that punches holes in specific locations according to the data being encoded. Each hole represents a binary digit, or bit, which can be interpreted by a computer or other electronic device. This means that a single strip of punched tape could store a substantial amount of information, depending on its length and the density of the holes. Historically, punched tape was used in various applications, including communication between computers, data storage, and even in the control of machinery. For example, early computer programmers would use punched tape to input commands into their systems, as it provided a reliable way to transfer data without the risk of human error that comes with manual input. One of the most notable uses of punched tape was in the field of telecommunications. It allowed for the transmission of messages over long distances, enabling early computers to communicate with one another. This was particularly important during the development of the first networks, where data needed to be shared quickly and efficiently. Despite its advantages, the use of punched tape had its limitations. The physical nature of the tape made it susceptible to wear and tear, and it required specialized equipment to read and write the data. As technology advanced, punched tape was gradually replaced by more efficient storage media, such as magnetic tapes and floppy disks, which offered greater durability and ease of use. Today, while punched tape may seem obsolete, it serves as a reminder of how far we have come in the world of technology. It laid the groundwork for modern data storage methods and inspired innovations that have shaped the digital landscape we know today. Furthermore, enthusiasts and historians often collect vintage computing equipment, including punched tape, to preserve this important part of our technological heritage. In conclusion, the term punched tape encapsulates a significant chapter in the history of computing and data storage. Understanding its function and impact helps us appreciate the advancements we enjoy today. While we may no longer rely on punched tape for our data needs, its legacy lives on in the technologies that followed, reminding us of the ingenuity and creativity of those who came before us.

在早期计算和数据存储的领域中，术语打孔带指的是一种使用长条纸或塑料编码信息的方法，这种材料上打有孔。该技术在20世纪中叶到更先进的数据存储解决方案出现之前被广泛使用。打孔带的概念不仅因其历史意义而引人入胜，还因其在技术演变中的作用而备受关注。制作打孔带的过程涉及将一条连续材料送入机器，该机器根据要编码的数据在特定位置打孔。每个孔代表一个二进制数字或位，可以被计算机或其他电子设备解释。这意味着一条打孔带可以存储大量信息，具体取决于其长度和孔的密度。历史上，打孔带被用于各种应用，包括计算机之间的通信、数据存储，甚至在机器控制中。例如，早期的计算机程序员会使用打孔带将命令输入系统，因为它提供了一种可靠的方式来传输数据，而不会出现手动输入时可能出现的人为错误。打孔带最显著的用途之一是在电信领域。它允许消息在长距离上传输，使早期计算机能够相互通信。这在第一批网络的发展过程中尤为重要，因为数据需要快速高效地共享。尽管有其优势，打孔带的使用也有其局限性。带子的物理性质使其容易磨损，并且需要专门的设备来读取和写入数据。随着技术的进步，打孔带逐渐被更高效的存储介质所取代，如磁带和软盘，这些介质提供了更大的耐用性和易用性。今天，虽然打孔带可能看起来过时，但它提醒我们在技术世界中走过的路。它为现代数据存储方法奠定了基础，并激发了塑造我们今天所知数字环境的创新。此外，爱好者和历史学家常常收集复古计算设备，包括打孔带，以保存这一重要的技术遗产。总之，术语打孔带概括了计算和数据存储历史上的一个重要章节。理解其功能和影响帮助我们欣赏今天所享有的进步。虽然我们可能不再依赖打孔带来满足我们的数据需求，但它的遗产在随后的技术中继续存在，提醒我们那些在我们之前的人的聪明才智和创造力。