latency
简明释义
n. 潜伏;潜在因素
复 数 l a t e n c i e s
英英释义
单词用法
延迟时间,等待时间 |
同义词
反义词
| 活动 | The system's activity level increased significantly after the update. | 系统在更新后活动水平显著提高。 | |
| 迅速 | The promptness of the response was appreciated by the users. | 用户对响应的迅速表示赞赏。 |
例句
1.Thus, the results obtained here don't include network latency.
因此,这里获得的结果不包括网络延时。
2.If the latency is more than around 200 ms, you're likely to notice.
如果延迟超过200毫秒左右,你很可能就会感觉到通话质量不好。
3.Lower latency from EC2 instances to their clients.
降低从ec2实例到其客户的响应时间。
4.Figure 15 shows a latency of five seconds.
图15展示了一个5秒的延迟。
5.Moreover, the costs for latency will also be low.
此外,延时成本也会十分低。
6.For instance, they may increase data latency and create data redundancy.
例如,它们可能会增加数据延迟和导致数据冗余。
7.You also gain low latency and high availability.
您还可以实现低延迟和高可用性。
8.This pause introduces a latency in your application.
这段暂停使应用程序产生一个延时。
9.Average latency and the trend are shown underneath the graph.
在图的底部显示了平均延时和趋势。
10.We need to measure the latency of our server response times.
我们需要测量服务器响应时间的延迟。
11.In gaming, low latency is crucial for a smooth experience.
在游戏中,低延迟对顺畅体验至关重要。
12.High latency can result in poor user experience on websites.
高延迟会导致网站用户体验不佳。
13.The network's latency caused delays in video streaming.
网络的延迟导致视频流播放延迟。
14.The latency in the system was reduced after the upgrade.
系统中的延迟在升级后减少了。
作文
In the world of technology and communication, the term latency refers to the delay before a transfer of data begins following an instruction for its transfer. This concept is crucial in various fields, especially in networking, gaming, and online communications. Understanding latency can significantly impact user experience and system performance. For instance, in online gaming, low latency is essential to ensure that players receive real-time responses to their actions. A high latency can lead to lag, making the game less enjoyable and frustrating for players. Similarly, in video conferencing applications, a high latency can result in delays that disrupt conversations, causing participants to talk over each other or miss important points altogether.The causes of latency can vary widely. One common factor is the physical distance between the sender and receiver of the data. The farther apart they are, the longer it takes for the data to travel. Additionally, network congestion can also contribute to increased latency. When too many users are trying to access the same network resources simultaneously, the data packets may be delayed as they wait for their turn to be transmitted. Other factors include the quality of the network hardware, the type of connection (wired vs. wireless), and even the protocols used for data transmission.To mitigate latency, various strategies can be employed. For example, using a wired connection instead of a wireless one often results in lower latency due to reduced interference and more stable signal strength. Additionally, optimizing network routes can help reduce the distance that data must travel, thereby decreasing latency. In gaming, developers often implement techniques such as client-side prediction, where the game predicts what the player will do next, allowing for a smoother experience even if there is some degree of latency.Moreover, understanding latency is not only important for end-users but also for developers and engineers. By analyzing latency issues, they can improve system designs and enhance performance. For instance, they might conduct tests to measure latency at different times of day or under varying loads to identify bottlenecks and optimize their systems accordingly.In conclusion, latency is a vital concept in the realm of technology that affects how we interact with digital systems. Whether it’s in gaming, video calls, or any other form of online interaction, understanding and managing latency can lead to a much more satisfactory experience. As technology continues to evolve, addressing latency will remain a key focus for developers and users alike, ensuring that our digital interactions are as seamless and efficient as possible.
在技术和通信的世界中,术语延迟指的是在传输数据的指令发出后,数据开始传输之前的延迟。这一概念在多个领域至关重要,尤其是在网络、游戏和在线通信中。理解延迟可以显著影响用户体验和系统性能。例如,在在线游戏中,低延迟对确保玩家能够实时响应他们的操作至关重要。高延迟可能导致延迟,使游戏体验变得不愉快并让玩家感到沮丧。同样,在视频会议应用中,高延迟可能导致对话中出现延迟,打断谈话,使参与者互相插话或完全错过重要观点。造成延迟的原因可能各不相同。一个常见因素是数据发送者和接收者之间的物理距离。他们之间的距离越远,数据传输所需的时间就越长。此外,网络拥塞也会导致延迟增加。当太多用户同时试图访问同一网络资源时,数据包可能会被延迟,因为它们需要等待轮到自己进行传输。其他因素包括网络硬件的质量、连接类型(有线与无线)以及用于数据传输的协议。为了减轻延迟,可以采用各种策略。例如,使用有线连接而不是无线连接通常可以减少延迟,因为减少了干扰并且信号强度更稳定。此外,优化网络路径可以帮助减少数据必须传输的距离,从而降低延迟。在游戏中,开发者通常会实施客户端预测等技术,在这种情况下,游戏预测玩家接下来会做什么,即使存在一定程度的延迟,也能提供更流畅的体验。此外,理解延迟不仅对最终用户重要,对开发者和工程师来说也同样重要。通过分析延迟问题,他们可以改善系统设计并增强性能。例如,他们可能会进行测试,以测量在不同时间或不同负载下的延迟,以识别瓶颈并相应地优化他们的系统。总之,延迟是技术领域中的一个重要概念,影响着我们与数字系统的互动。无论是在游戏、视频通话还是任何其他形式的在线互动中,理解和管理延迟都可以带来更令人满意的体验。随着技术的不断进步,解决延迟问题将始终是开发者和用户关注的重点,确保我们的数字互动尽可能无缝和高效。
