bit standoff

简明释义

1. 钻头支距; 2. 钻头伐部工作刃在井底支起的距离;

英英释义

例句

1.The team faced a bit standoff 小僵局 when trying to agree on the budget for the project.

团队在尝试就项目预算达成一致时遇到了bit standoff 小僵局。

2.The political debate reached a bit standoff 小僵局 as neither side was willing to compromise.

政治辩论达到了一个bit standoff 小僵局，因为双方都不愿意妥协。

3.Their discussions resulted in a bit standoff 小僵局, delaying the decision-making process.

他们的讨论导致了一个bit standoff 小僵局，延迟了决策过程。

4.During the negotiation, both parties reached a bit standoff 小僵局 over the contract terms.

在谈判过程中，双方在合同条款上达成了一个bit standoff 小僵局。

5.The chess match ended in a bit standoff 小僵局 with no clear winner.

这场国际象棋比赛以bit standoff 小僵局结束，没有明确的赢家。

作文

In the world of technology and digital communication, terms often arise that encapsulate complex ideas in just a few words. One such term is bit standoff, which refers to a situation where there is a stalemate in data transmission or processing due to conflicting signals or protocols. This phenomenon can occur in various contexts, particularly in computer networking and data transfer between devices. Understanding bit standoff is crucial for anyone involved in technology, as it highlights the challenges that can arise when different systems attempt to communicate with one another.To illustrate this concept, consider a scenario in which two computers are trying to send data over a network. Each computer sends its data packets, but if both packets collide at the same time, a bit standoff occurs. The network cannot determine which packet should be processed first, leading to a delay in communication. This is similar to two people speaking at the same time; neither can be heard clearly until one stops talking. In networking, this issue can result in lost data, increased latency, and the need for retransmission, which ultimately affects the efficiency of the system.The implications of a bit standoff extend beyond mere inconvenience. In critical applications, such as medical devices or financial transactions, delays caused by such standoffs can have serious consequences. For example, a medical monitoring device that fails to transmit vital data in real-time due to a bit standoff could jeopardize a patient’s health. Similarly, in the world of finance, a transaction that is delayed because of a data collision may lead to significant financial losses or missed opportunities.To mitigate the risks associated with bit standoff, engineers and developers implement various strategies. One common approach is the use of protocols that manage how data is transmitted. For instance, the Carrier Sense Multiple Access (CSMA) protocol helps to prevent collisions by requiring devices to listen to the network before sending their data. If a device detects that the network is busy, it will wait for a random amount of time before attempting to send its data again. This method reduces the likelihood of a bit standoff and ensures smoother communication.Another effective strategy is the implementation of error detection and correction mechanisms. These systems can identify when a bit standoff has occurred and take corrective actions, such as resending the lost data packets. By incorporating these technologies, networks can maintain high levels of reliability and efficiency, minimizing the impact of potential standoffs.In conclusion, the term bit standoff represents a significant challenge in the realm of digital communication and networking. It serves as a reminder of the complexities involved in data transmission and the importance of developing robust systems to facilitate seamless communication. As technology continues to evolve, understanding concepts like bit standoff will be essential for professionals in the field, ensuring they can navigate the intricacies of modern networks and maintain efficient operations.

在技术和数字通信的世界中，术语常常以少量的词汇概括复杂的想法。其中一个术语是bit standoff，它指的是由于信号或协议冲突而导致的数据传输或处理中的僵局。这种现象可以在各种上下文中发生，尤其是在计算机网络和设备之间的数据传输中。理解bit standoff对任何参与技术的人来说都是至关重要的，因为它突显了不同系统尝试相互通信时可能出现的挑战。为了说明这个概念，考虑一个场景，其中两台计算机试图通过网络发送数据。每台计算机都发送其数据包，但如果两个数据包同时碰撞，就会发生bit standoff。网络无法确定哪个数据包应该首先处理，从而导致通信延迟。这类似于两个人同时说话；直到一个人停止说话，另一个人才可以清楚地听到。在网络中，这个问题可能导致数据丢失、延迟增加以及需要重新传输，从而最终影响系统的效率。bit standoff的影响不仅仅是麻烦。在关键应用程序中，如医疗设备或金融交易，由于这种僵局造成的延迟可能会产生严重后果。例如，由于bit standoff而未能实时传输重要数据的医疗监测设备可能危及患者的健康。同样，在金融领域，由于数据碰撞而延迟的交易可能导致重大财务损失或错失机会。为了减轻与bit standoff相关的风险，工程师和开发人员实施各种策略。一种常见的方法是使用管理数据传输的协议。例如，载波监听多路访问（CSMA）协议通过要求设备在发送数据之前先监听网络来帮助防止碰撞。如果设备检测到网络繁忙，它将等待一段随机时间，然后再尝试发送数据。这种方法减少了发生bit standoff的可能性，并确保了更顺畅的通信。另一种有效的策略是实施错误检测和纠正机制。这些系统可以识别何时发生bit standoff并采取纠正措施，例如重新发送丢失的数据包。通过整合这些技术，网络可以保持高水平的可靠性和效率，尽量减少潜在僵局的影响。总之，术语bit standoff代表了数字通信和网络领域中的一个重大挑战。它提醒我们数据传输中的复杂性，以及开发强大系统以促进无缝通信的重要性。随着技术的不断发展，理解像bit standoff这样的概念将对该领域的专业人士至关重要，以确保他们能够驾驭现代网络的复杂性并保持高效运营。