delay line memory

简明释义

延迟线存储器

英英释义

例句

1.We discussed the advantages of using delay line memory in audio processing.

我们讨论了在音频处理过程中使用延迟线存储器的优势。

2.The delay line memory technology was crucial for early radar systems.

对于早期雷达系统来说，延迟线存储器技术至关重要。

3.Modern applications have largely replaced delay line memory with faster alternatives.

现代应用已大大用更快的替代品取代了延迟线存储器。

4.The old computer used a delay line memory to store data temporarily.

这台旧电脑使用了延迟线存储器来临时存储数据。

5.In our engineering class, we learned how delay line memory works in digital circuits.

在我们的工程课上，我们学习了延迟线存储器在数字电路中的工作原理。

作文

In the realm of computing, the concept of memory is fundamental to the operation and efficiency of devices. One intriguing type of memory that has historical significance is known as delay line memory. This term refers to a method of storing data using a physical medium that delays the signal as it travels through it. Originally developed in the 1950s, delay line memory was primarily used in early computers and radar systems. The principle behind this technology involves a series of transducers and a medium, such as mercury or a wire, which allows data to be stored temporarily by delaying the signal's transmission. The operation of delay line memory can be likened to a conveyor belt. Imagine placing objects on a moving belt; as each object passes a certain point, it can be picked up and processed. Similarly, in delay line memory, data is fed into the system and travels along the delay line, where it can be accessed at various points along its journey. This method of data storage was revolutionary for its time, allowing for more complex computations and data handling than were previously possible. However, with the rapid advancement of technology, delay line memory has largely been replaced by more efficient forms of memory, such as magnetic core memory and semiconductor memory. These newer technologies offer faster access times, greater storage capacity, and improved reliability. Despite its decline in practical applications, delay line memory remains an important part of computing history, illustrating the evolution of memory storage solutions. Understanding delay line memory is not just about recognizing its historical context; it also provides insights into how modern memory systems have developed. The principles of signal delay and data retrieval are still relevant today, influencing the design of contemporary memory architectures. For instance, concepts derived from delay line memory have informed the development of buffer systems and caching mechanisms in modern processors, where managing the timing of data flow is critical for performance. In conclusion, delay line memory represents a fascinating chapter in the story of computing. While it may no longer be in widespread use, its legacy continues to inform the way we understand and develop memory technologies. As we move forward into an era dominated by artificial intelligence and big data, the foundational concepts encapsulated by delay line memory remind us of the innovative spirit that drives technological progress. By studying such historical technologies, we can appreciate the complexities of modern computing and the ongoing quest for faster, more efficient ways to store and process information.

在计算机领域，内存的概念对设备的操作和效率至关重要。一个引人入胜的内存类型是被称为延迟线存储器的概念。这个术语指的是一种利用物理介质延迟信号传输来存储数据的方法。最初在20世纪50年代开发的延迟线存储器，主要用于早期计算机和雷达系统。这项技术的原理涉及一系列换能器和介质，如水银或导线，允许通过延迟信号的传输来暂时存储数据。延迟线存储器的操作可以比作传送带。想象一下将物体放在移动的传送带上；当每个物体经过某个点时，可以被拾起并处理。类似地，在延迟线存储器中，数据被输入系统，并沿着延迟线传输，可以在其旅程的不同点访问。这种数据存储方法在当时是革命性的，允许进行比之前更复杂的计算和数据处理。然而，随着技术的快速发展，延迟线存储器已经被更高效的内存形式所取代，如磁芯存储器和半导体存储器。这些新技术提供了更快的访问时间、更大的存储容量以及更高的可靠性。尽管在实际应用中逐渐减少，延迟线存储器仍然是计算机历史的重要组成部分，展示了存储解决方案的演变。理解延迟线存储器不仅仅是认识其历史背景；它还提供了对现代内存系统如何发展的见解。信号延迟和数据检索的原理在今天依然相关，影响着当代内存架构的设计。例如，源自延迟线存储器的概念已经为现代处理器中的缓冲系统和缓存机制的发展提供了指导，在这些系统中，管理数据流的时序对性能至关重要。总之，延迟线存储器代表了计算机故事中的一个迷人章节。虽然它可能不再广泛使用，但其遗产继续影响我们对内存技术的理解和发展。当我们进入一个由人工智能和大数据主导的时代时，延迟线存储器所体现的基础概念提醒我们推动技术进步的创新精神。通过研究这样的历史技术，我们可以欣赏现代计算的复杂性以及持续追求更快、更高效的信息存储和处理方式。