binary coded Hollerith

简明释义

二进制的霍拉里斯代码

英英释义

例句

1.The legacy systems relied heavily on binary coded Hollerith for data entry.

遗留系统在数据输入方面严重依赖于二进制编码霍勒瑞斯。

2.In our research, we found that binary coded Hollerith can improve the speed of data retrieval.

在我们的研究中，我们发现二进制编码霍勒瑞斯可以提高数据检索的速度。

3.The new data processing system uses binary coded Hollerith to efficiently encode information.

新数据处理系统使用二进制编码霍勒瑞斯高效地编码信息。

4.Understanding binary coded Hollerith is crucial for anyone working with historical data processing methods.

理解二进制编码霍勒瑞斯对任何从事历史数据处理方法的人来说都是至关重要的。

5.To ensure compatibility, we converted the old files into binary coded Hollerith format.

为了确保兼容性，我们将旧文件转换为二进制编码霍勒瑞斯格式。

作文

In the realm of data processing and information technology, various encoding systems have been developed to facilitate the efficient handling of data. One such system is the binary coded Hollerith, which plays a crucial role in the history of computing and data representation. Understanding this term requires us to delve into its origins and applications.The term 'Hollerith' refers to Herman Hollerith, an American inventor who developed a mechanical tabulator based on punched cards. This innovation emerged in the late 19th century and was primarily used for the 1890 U.S. Census, dramatically speeding up the process of data collection and analysis. Hollerith's system relied on physical holes in cards to represent data, which were then read by machines. However, as technology advanced, the need for more sophisticated encoding methods became apparent.This is where binary coded Hollerith comes into play. The term signifies a modern adaptation of Hollerith's original concept, utilizing binary code—a system that represents data using only two states, typically 0 and 1. In a binary coded Hollerith system, each piece of data is encoded in a way that allows it to be processed by electronic devices, making it more compatible with contemporary computing technologies.The significance of binary coded Hollerith lies in its ability to bridge the gap between traditional punched card systems and modern digital computing. By converting the data represented by punched cards into binary code, it enables faster processing speeds and greater efficiency in data management. This transition has paved the way for the development of more advanced data processing systems and has influenced various fields such as statistics, research, and business analytics.Moreover, the use of binary coded Hollerith is not limited to historical contexts; it continues to be relevant in today’s digital world. Many data processing applications and programming languages incorporate binary coding as a fundamental principle. For instance, when we input data into a computer, it is often converted into binary format for storage and manipulation. This highlights the enduring legacy of Hollerith’s initial ideas, adapted to meet the demands of modern technology.In summary, the term binary coded Hollerith encapsulates a vital evolution in data processing techniques. By combining the foundational concepts introduced by Herman Hollerith with the efficiency of binary coding, this system exemplifies how innovations in technology can transform the way we handle information. As we continue to advance in the digital age, understanding such terms becomes essential for grasping the complexities of data management and computing. Furthermore, recognizing the historical context of these developments enriches our appreciation for the technological advancements that shape our world today.

在数据处理和信息技术领域，已经开发出各种编码系统，以便有效地处理数据。其中一个这样的系统是二进制编码霍勒里斯，它在计算机和数据表示的历史中扮演了至关重要的角色。理解这个术语需要我们深入其起源和应用。‘霍勒里斯’这个词指的是赫尔曼·霍勒里斯，一位美国发明家，他开发了一种基于打孔卡片的机械制表机。这项创新出现在19世纪末，主要用于1890年美国人口普查，大大加快了数据收集和分析的过程。霍勒里斯的系统依赖于卡片上的物理孔来表示数据，然后由机器读取。然而，随着技术的进步，对更复杂的编码方法的需求变得显而易见。这就是二进制编码霍勒里斯发挥作用的地方。该术语表示霍勒里斯原始概念的现代适应，利用二进制代码——一种仅使用两个状态（通常是0和1）来表示数据的系统。在二进制编码霍勒里斯系统中，每条数据都以一种方式编码，使其能够被电子设备处理，从而使其与当代计算技术更加兼容。二进制编码霍勒里斯的重要性在于它能够弥合传统打孔卡片系统与现代数字计算之间的差距。通过将打孔卡片所表示的数据转换为二进制代码，它能够实现更快的处理速度和更高效的数据管理。这一过渡为更先进的数据处理系统的发展铺平了道路，并影响了统计、研究和商业分析等多个领域。此外，二进制编码霍勒里斯的使用并不仅限于历史背景；它在今天的数字世界中仍然具有相关性。许多数据处理应用程序和编程语言将二进制编码作为基本原则。例如，当我们将数据输入计算机时，它通常会被转换为二进制格式进行存储和操作。这突显了霍勒里斯最初思想的持久遗产，适应了现代技术的需求。总之，术语二进制编码霍勒里斯概括了数据处理技术的重要演变。通过将赫尔曼·霍勒里斯提出的基础概念与二进制编码的效率结合，这一系统体现了技术创新如何改变我们处理信息的方式。随着我们在数字时代的不断进步，理解这些术语对于掌握数据管理和计算的复杂性变得至关重要。此外，认识到这些发展的历史背景丰富了我们对塑造当今世界的技术进步的欣赏。