analog/digital computing system

简明释义

模拟—数字计算系统;

英英释义

例句

1.The digital computing system 数字计算系统 in smartphones allows for multitasking and running complex applications smoothly.

智能手机中的数字计算系统 digital computing system 允许多任务处理和流畅运行复杂应用程序。

2.The new research lab is equipped with an advanced analog computing system 模拟计算系统 that can solve complex differential equations.

新的研究实验室配备了一个先进的模拟计算系统 analog computing system，可以解决复杂的微分方程。

3.Many modern devices rely on a digital computing system 数字计算系统 to perform calculations at high speeds.

许多现代设备依赖于数字计算系统 digital computing system 以高速进行计算。

4.Engineers often choose an analog computing system 模拟计算系统 for simulations that require continuous data processing.

工程师通常选择模拟计算系统 analog computing system 来进行需要连续数据处理的模拟。

5.In the field of robotics, an analog computing system 模拟计算系统 can provide real-time processing for sensor data.

在机器人领域，模拟计算系统 analog computing system 可以为传感器数据提供实时处理。

作文

In the realm of technology, the evolution of computing systems has been nothing short of revolutionary. Among these advancements, the distinction between analog/digital computing system and digital computing systems has played a crucial role in shaping how we process information today. To understand this better, we must delve into the fundamental differences and applications of both systems.An analog/digital computing system (模拟/数字计算系统) operates on continuous data, representing information in a physical form. This type of system is particularly adept at handling real-world phenomena, such as temperature, sound, and light, which can vary smoothly over time. For instance, an analog thermometer measures temperature through changes in the physical properties of a liquid, providing a continuous reading that reflects the actual temperature at any given moment.On the other hand, digital computing systems (数字计算系统) operate using discrete values, typically represented in binary code (0s and 1s). These systems convert real-world inputs into a format that computers can process. An example of this is a digital thermometer, which takes temperature readings and converts them into numerical values that can be displayed on a screen. This conversion allows for greater precision and easier manipulation of data, making digital systems more versatile in many applications.The choice between using an analog/digital computing system (模拟/数字计算系统) or a digital system often depends on the specific requirements of a task. Analog systems are favored in scenarios where real-time processing of continuous signals is essential. For instance, in audio engineering, analog devices are prized for their ability to capture the warmth and depth of sound waves, providing a rich auditory experience that some digital systems struggle to replicate.Conversely, digital systems excel in environments where accuracy, speed, and data storage are paramount. In fields such as computer science, finance, and telecommunications, the ability to quickly process large volumes of discrete data makes digital computing systems indispensable. They allow for complex calculations, simulations, and data analysis that would be impractical with analog systems.Moreover, the integration of both analog/digital computing systems (模拟/数字计算系统) has led to innovative hybrid technologies. For example, modern smartphones utilize both analog and digital components to deliver a seamless user experience. The microphone captures sound in an analog format, while the device processes this information digitally to facilitate voice recognition and communication.In conclusion, the distinction between analog/digital computing system (模拟/数字计算系统) and digital computing systems highlights the diverse approaches to processing information. Each system has its strengths and weaknesses, and understanding these can help us choose the right technology for our needs. As technology continues to evolve, the interplay between analog and digital systems will undoubtedly lead to further advancements, enriching our lives in ways we are only beginning to explore.

在技术领域，计算系统的演变可谓是革命性的。在这些进步中，模拟/数字计算系统与数字计算系统之间的区别在塑造我们今天处理信息的方式方面发挥了至关重要的作用。为了更好地理解这一点，我们必须深入探讨这两种系统的基本差异和应用。模拟/数字计算系统（analog/digital computing system）以连续数据为基础，以物理形式表示信息。这种类型的系统特别擅长处理现实世界现象，如温度、声音和光线，这些现象随时间平滑变化。例如，模拟温度计通过液体物理特性的变化来测量温度，提供一个连续的读数，反映出任何给定时刻的实际温度。另一方面，数字计算系统（digital computing systems）使用离散值进行操作，通常以二进制代码（0和1）表示。这些系统将现实世界的输入转换为计算机可以处理的格式。数字温度计就是一个例子，它获取温度读数并将其转换为可以在屏幕上显示的数值。这种转换允许更高的精度和更容易的数据处理，使数字系统在许多应用中更具多功能性。选择使用模拟/数字计算系统（analog/digital computing system）还是数字系统通常取决于任务的具体要求。在需要实时处理连续信号的场景中，通常会青睐模拟系统。例如，在音频工程中，模拟设备因其能够捕捉声波的温暖和深度而受到推崇，提供了一种丰富的听觉体验，而一些数字系统难以复制这种效果。相反，数字系统在准确性、速度和数据存储至关重要的环境中表现出色。在计算机科学、金融和电信等领域，快速处理大量离散数据的能力使数字计算系统不可或缺。它们允许进行复杂的计算、模拟和数据分析，这在模拟系统中是不可行的。此外，模拟/数字计算系统（analog/digital computing system）的整合导致了创新的混合技术。例如，现代智能手机利用模拟和数字组件提供无缝的用户体验。麦克风以模拟格式捕获声音，而设备则以数字方式处理这些信息，以便实现语音识别和通信。总之，模拟/数字计算系统（analog/digital computing system）与数字计算系统之间的区别突显了处理信息的多样化方法。每种系统都有其优缺点，理解这些可以帮助我们为需求选择合适的技术。随着技术的不断发展，模拟与数字系统之间的相互作用无疑将带来进一步的进步，以我们尚未开始探索的方式丰富我们的生活。