large core memory

简明释义

大容量磁芯存储器

英英释义

例句

1.The new computer system was designed with a large core memory to handle complex calculations efficiently.

新计算机系统设计了一个大核心内存以高效处理复杂计算。

2.The gaming console features a large core memory to enhance graphics rendering.

这款游戏机配备了大核心内存以增强图形渲染。

3.With the addition of large core memory, the server can support more simultaneous users.

通过增加大核心内存，服务器可以支持更多的同时用户。

4.Researchers are excited about the performance boost provided by the large core memory in their simulations.

研究人员对他们的模拟中提供的大核心内存带来的性能提升感到兴奋。

5.Upgrading to a large core memory allows for faster data processing in financial applications.

升级到大核心内存可以加快金融应用中的数据处理速度。

作文

In the early days of computing, the term large core memory referred to a type of computer memory that was widely used before the advent of semiconductor memory. This technology, known as magnetic core memory, utilized tiny magnetic rings, or cores, to store data. Each core could represent a single bit of information, allowing computers to access and manipulate data efficiently. The development of large core memory was a significant milestone in the evolution of computer technology, providing a reliable and relatively fast means of storing information compared to earlier methods such as punched cards or magnetic tape.As computers began to grow in size and complexity, the demand for larger storage capacities became essential. This is where large core memory came into play. It allowed for the storage of thousands, and eventually millions, of bits of data, making it possible for computers to handle more complex calculations and processes. The introduction of large core memory enabled engineers and scientists to perform tasks that were previously unimaginable, paving the way for advancements in various fields, including aerospace, medicine, and finance.One of the most remarkable aspects of large core memory was its durability and reliability. Unlike modern-day memory systems, which can be susceptible to power loss and data corruption, large core memory retained information even when the power was turned off. This feature made it particularly valuable for critical applications where data integrity was paramount. For instance, early space missions relied on large core memory to ensure that vital data was not lost during long periods without power.The physical construction of large core memory was also fascinating. The cores were typically arranged in a grid-like pattern, with wires threaded through them to read and write data. This intricate design required skilled craftsmanship and was often labor-intensive to produce. Despite its complexity, the performance of large core memory was impressive for its time, with access times measured in microseconds, which was revolutionary compared to earlier technologies.However, as technology progressed, the limitations of large core memory became apparent. While it was effective for its era, the rise of semiconductor memory brought about faster, smaller, and more efficient storage solutions. As a result, large core memory gradually fell out of favor and was replaced by newer technologies that could meet the growing demands of modern computing.Today, large core memory is often regarded as a relic of computing history, but its impact on the development of computer technology cannot be understated. It laid the groundwork for the sophisticated memory systems we use today and demonstrated the importance of reliable data storage in computing. Understanding the significance of large core memory helps us appreciate the rapid advancements in technology and the continuous quest for better, faster, and more efficient ways to store and process information.In conclusion, large core memory played a pivotal role in the evolution of computer technology. Its reliability, durability, and capacity for storing large amounts of data made it an essential component in early computing systems. Although it has been largely replaced by modern memory technologies, its legacy remains a testament to the ingenuity and innovation of early computer scientists. By studying the history and development of large core memory, we gain a deeper understanding of how far we have come in the field of computing and the exciting future that lies ahead.

在计算机发展的早期，术语large core memory指的是一种在半导体内存出现之前广泛使用的计算机内存类型。这项技术被称为磁心内存，利用微小的磁环或核心来存储数据。每个核心可以表示一位信息，使计算机能够高效地访问和处理数据。large core memory的发展是计算机技术演变中的一个重要里程碑，提供了一种可靠且相对快速的信息存储方式，相比于早期的方法如打孔卡或磁带。随着计算机规模和复杂性的不断增长，对更大存储容量的需求变得至关重要。这就是large core memory发挥作用的地方。它允许存储成千上万，甚至数百万位的数据，使计算机能够处理更复杂的计算和过程。large core memory的引入使工程师和科学家能够执行以前无法想象的任务，为航空航天、医学和金融等各个领域的进步铺平了道路。large core memory最引人注目的方面之一是其耐用性和可靠性。与现代内存系统相比，后者可能容易受到电源故障和数据损坏的影响，large core memory即使在断电时也能保留信息。这一特性使其在关键应用中尤为宝贵，在这些应用中，数据完整性至关重要。例如，早期的太空任务依赖于large core memory来确保在长时间没有电源的情况下不会丢失重要数据。large core memory的物理构造也很吸引人。核心通常以网格状排列，导线穿过它们以读取和写入数据。这种复杂的设计需要熟练的工艺，生产过程往往劳动密集。尽管其复杂性，large core memory在其时代的性能令人印象深刻，访问时间以微秒为单位测量，这在当时是革命性的，远比早期技术要快。然而，随着技术的进步，large core memory的局限性逐渐显现。虽然在其时代有效，但半导体内存的崛起带来了更快、更小和更高效的存储解决方案。因此，large core memory逐渐失宠，被能够满足现代计算日益增长需求的新技术所取代。今天，large core memory常常被视为计算历史的遗物，但它对计算机技术发展的影响不可低估。它为我们今天使用的复杂内存系统奠定了基础，并展示了可靠数据存储在计算中的重要性。理解large core memory的重要性帮助我们欣赏技术的快速进步以及对更好、更快和更高效的信息存储和处理方式的持续追求。总之，large core memory在计算机技术的演变中发挥了关键作用。其可靠性、耐用性和存储大量数据的能力使其成为早期计算系统的一个重要组成部分。尽管它已经被现代内存技术所取代，但它的遗产仍然证明了早期计算机科学家的创造力和创新精神。通过研究large core memory的历史和发展，我们更深入地了解了我们在计算领域取得的进展以及未来令人兴奋的前景。