sequence controlled computer

简明释义

程序控制计算机

英英释义

例句

1.The factory uses a sequence controlled computer to automate the assembly line operations.

工厂使用顺序控制计算机来自动化装配线操作。

2.The new model of the CNC machine incorporates a sequence controlled computer for better accuracy.

新型号的数控机床采用了顺序控制计算机以提高准确性。

3.In robotics, a sequence controlled computer is essential for executing precise movements.

在机器人技术中，顺序控制计算机对于执行精确的动作至关重要。

4.A sequence controlled computer can help in managing complex tasks in real-time applications.

顺序控制计算机可以帮助实时应用管理复杂任务。

5.Our research lab has developed a sequence controlled computer that enhances data processing speed.

我们的研究实验室开发了一种顺序控制计算机，提高了数据处理速度。

作文

In the modern world, technology plays a crucial role in various fields, including manufacturing, research, and education. One of the most significant advancements in this domain is the development of the sequence controlled computer (序列控制计算机). This type of computer is designed to execute a series of commands or operations in a predetermined order, making it an essential tool for automation and precision tasks.The concept of a sequence controlled computer can be traced back to the early days of computing when engineers sought ways to enhance efficiency and reduce human error in processes. By programming a computer to follow a specific sequence of instructions, industries could streamline operations and improve productivity. For instance, in manufacturing, a sequence controlled computer can manage the assembly line by controlling the timing and coordination of machines, ensuring that each part is produced and assembled in the correct order.One of the key advantages of using a sequence controlled computer is its ability to maintain consistency and accuracy. Unlike manual processes, which are prone to mistakes due to fatigue or oversight, a computer can execute tasks with precision. This reliability is particularly important in sectors such as pharmaceuticals, where the production of drugs must adhere to strict regulations and standards. By utilizing a sequence controlled computer, companies can ensure that their products meet the required specifications, thereby safeguarding public health.Moreover, the versatility of sequence controlled computers extends beyond manufacturing. In research settings, these computers can be programmed to conduct experiments in a specific order, allowing scientists to gather data systematically. This capability is invaluable in fields like chemistry and biology, where the outcome of an experiment may depend on the precise timing and sequence of reactions. By automating these processes with a sequence controlled computer, researchers can focus on analyzing results rather than managing tedious manual tasks.Additionally, the rise of smart technology has further enhanced the functionality of sequence controlled computers. With the integration of artificial intelligence and machine learning, these computers can adapt their sequences based on real-time data, optimizing performance and efficiency. For example, in smart home systems, a sequence controlled computer can adjust heating and lighting based on occupancy patterns, providing comfort while conserving energy.However, the implementation of sequence controlled computers also brings challenges. The initial cost of acquiring and setting up such systems can be significant, especially for small businesses. Furthermore, there is a learning curve associated with programming these computers, which may require specialized knowledge and training. Companies must weigh these factors against the long-term benefits of increased efficiency and reduced operational costs.In conclusion, the sequence controlled computer (序列控制计算机) represents a pivotal innovation in the realm of technology. Its ability to automate processes, enhance accuracy, and adapt to changing conditions makes it an invaluable asset across various industries. As technology continues to evolve, the importance of sequence controlled computers will only grow, paving the way for more efficient and reliable operations in the future.

在现代世界中，技术在制造、研究和教育等多个领域中发挥着至关重要的作用。这个领域最重要的进展之一是开发了序列控制计算机。这种计算机被设计用于按照预定顺序执行一系列命令或操作，使其成为自动化和精密任务的重要工具。序列控制计算机的概念可以追溯到计算机发展的早期，当时工程师们寻求提高效率并减少过程中的人为错误。通过编程计算机以遵循特定的指令顺序，各行业能够简化操作，提高生产率。例如，在制造业中，序列控制计算机可以通过控制机器的时间和协调来管理装配线，确保每个部件按正确的顺序生产和组装。使用序列控制计算机的一个主要优点是它能够保持一致性和准确性。与容易因疲劳或疏忽而出错的手动过程不同，计算机可以精确地执行任务。这种可靠性在制药等行业中尤为重要，因为药物的生产必须遵循严格的法规和标准。通过利用序列控制计算机，公司可以确保其产品符合所需规格，从而保障公众健康。此外，序列控制计算机的多功能性超越了制造业。在研究环境中，这些计算机可以被编程为按特定顺序进行实验，从而使科学家能够系统地收集数据。这种能力在化学和生物学等领域中是无价的，因为实验的结果可能依赖于反应的精确时机和顺序。通过使用序列控制计算机自动化这些过程，研究人员可以专注于分析结果，而不是管理繁琐的手动任务。此外，智能技术的兴起进一步增强了序列控制计算机的功能。通过人工智能和机器学习的整合，这些计算机可以根据实时数据调整其顺序，从而优化性能和效率。例如，在智能家居系统中，序列控制计算机可以根据占用模式调整供暖和照明，提供舒适感的同时节约能源。然而，实施序列控制计算机也带来了挑战。获取和设置这种系统的初始成本可能相当高，尤其是对于小型企业。此外，编程这些计算机需要专业知识和培训，存在学习曲线。公司必须权衡这些因素与长期提高效率和降低运营成本的好处。总之，序列控制计算机（序列控制计算机）代表了技术领域的一项重要创新。其自动化过程、提高准确性和适应变化条件的能力，使其成为各行业中不可或缺的资产。随着技术的不断发展，序列控制计算机的重要性只会增加，为未来更高效、更可靠的运营铺平道路。