anticoincidence gate

简明释义

1. 按位加门; 2. 反符合门; 3. 异门;

英英释义

例句

1.In particle physics, an anticoincidence gate helps filter out background noise from detectors.

在粒子物理学中，反巧合门有助于过滤探测器中的背景噪声。

2.Researchers used an anticoincidence gate to eliminate false positives in their data collection.

研究人员使用反巧合门来消除数据收集中的假阳性。

3.By implementing an anticoincidence gate, we improved the accuracy of our measurements significantly.

通过实施反巧合门，我们显著提高了测量的准确性。

4.The experiment required the use of an anticoincidence gate to ensure that only valid signals were recorded.

实验需要使用反巧合门以确保仅记录有效信号。

5.The design of the anticoincidence gate was crucial for the success of the nuclear experiment.

该反巧合门的设计对于核实验的成功至关重要。

作文

In the world of modern technology, the term anticoincidence gate plays a crucial role in ensuring the accuracy and reliability of various systems, particularly in the fields of computing and telecommunications. An anticoincidence gate is a logical device that prevents simultaneous occurrences of events from affecting the output, thereby enhancing the integrity of data processing. This concept is especially important in environments where precise timing and coordination are essential, such as in digital circuits and information systems.To understand the significance of an anticoincidence gate, we can look at its application in digital electronics. In a typical digital circuit, signals are processed based on binary values, either 0 or 1. When multiple signals are received simultaneously, it can lead to conflicts and erroneous outputs. The anticoincidence gate resolves this issue by ensuring that only one signal is allowed to pass through at any given moment. This mechanism is vital for maintaining the proper functioning of complex systems, where even the slightest error can result in catastrophic failures.Moreover, the use of an anticoincidence gate extends beyond electronics; it is also applicable in data communication protocols. In networking, for instance, data packets are transmitted between devices. If two packets arrive at the same time, it could lead to data corruption or loss. By implementing an anticoincidence gate, networks can manage these situations effectively, ensuring that packets are processed in the correct order and without interference.The importance of an anticoincidence gate can also be illustrated through real-world scenarios. Consider a manufacturing assembly line where robots are programmed to perform specific tasks. If two robots attempt to pick up the same item simultaneously, it could result in damage to the product or the machinery. The introduction of an anticoincidence gate in their control systems would prevent such occurrences, allowing each robot to operate independently without conflict.Furthermore, the concept of an anticoincidence gate can be metaphorically applied to our daily lives. Just as this device ensures that only one event occurs at a time in technical systems, we too can benefit from managing our activities more effectively. In a world filled with distractions, learning to prioritize tasks and focus on one thing at a time can lead to greater productivity and reduced stress.In conclusion, the anticoincidence gate is a fundamental component in various technological systems, providing a solution to the challenges posed by simultaneous events. Its applications in digital electronics, data communication, and even in everyday life highlight its versatility and importance. As technology continues to evolve, the principles behind the anticoincidence gate will remain relevant, guiding us toward more efficient and reliable systems. Understanding this concept not only enhances our knowledge of technology but also encourages us to apply similar principles in our personal and professional lives, ultimately leading to better outcomes and experiences.

在现代科技的世界中，术语反巧合门在确保各种系统的准确性和可靠性方面发挥着至关重要的作用，特别是在计算和电信领域。反巧合门是一种逻辑设备，可以防止事件的同时发生影响输出，从而增强数据处理的完整性。这个概念在需要精确时序和协调的环境中尤为重要，例如数字电路和信息系统。为了理解反巧合门的重要性，我们可以看看它在数字电子学中的应用。在典型的数字电路中，信号是基于二进制值（0或1）进行处理的。当多个信号同时到达时，可能会导致冲突和错误输出。反巧合门通过确保在任何给定时刻只允许一个信号通过来解决这个问题。这个机制对于维护复杂系统的正常运行至关重要，因为即使是最轻微的错误也可能导致灾难性的故障。此外，反巧合门的使用超越了电子学，它在数据通信协议中也适用。例如，在网络中，数据包在设备之间传输。如果两个数据包同时到达，可能会导致数据损坏或丢失。通过实施反巧合门，网络可以有效管理这些情况，确保数据包按正确顺序处理且不受干扰。反巧合门的重要性还可以通过现实世界的场景来说明。考虑一个制造装配线，其中机器人被编程执行特定任务。如果两个机器人试图同时拾起同一物品，可能会导致产品或机器损坏。在它们的控制系统中引入反巧合门将防止这种情况的发生，使每个机器人能够独立操作而不发生冲突。此外，反巧合门的概念也可以比喻性地应用于我们的日常生活。就像这个设备确保技术系统中一次只发生一个事件一样，我们也可以通过更有效地管理我们的活动来受益。在一个充满干扰的世界中，学会优先处理任务并专注于一件事情可以提高生产力并减少压力。总之，反巧合门是各种技术系统中的基本组成部分，为同时发生事件所带来的挑战提供了解决方案。它在数字电子学、数据通信甚至日常生活中的应用突显了它的多功能性和重要性。随着技术的不断发展，反巧合门背后的原则将保持相关性，引导我们朝着更高效和可靠的系统迈进。理解这个概念不仅增强了我们对技术的认识，还鼓励我们在个人和职业生活中应用类似的原则，最终带来更好的结果和体验。