microseconds

简明释义

英[ˈmaɪkrəʊsɛkəndz]美[ˈmaɪkroʊˌsɛkəndz]

n. 微秒（microsecond 的复数）

英英释义

单词用法

同义词

反义词

例句

1.That tuning includes a large value for MinBatchingMicro, so I changed it to 50 microseconds.

这一优化包括MinBatchingMicro 的较大值，所以我将其更改为50 微秒。

2.When I used to write code for electrophysiology data acquisition, real time meant microseconds.

我过去编写电生理学数据检索代码时，实时意味着毫秒。

3.As trading moves from milliseconds to microseconds to nanoseconds, everyone is learning to act more quickly.

在这个交易速度已从毫秒到微秒再提升至纳秒的今天，每个人都学会了更迅速地采取行动。

4.A point estimate for the standard deviation of the execution time is 645.586 microseconds.

执行时间的标准偏差估值点是645.586微秒。

5.That 9.1 magnitude quake shifted the Earth's axis by 2.3 milliarcseconds and shortened a day by 6.8 microseconds.

那场9.1级的地震使地球自转轴心线发生2.3毫弧度的偏移，并将一天的时间缩短6.8毫秒。

6.Metronome uses quanta of 500 microseconds in length over a 10-millisecond window and has a default utilization target of 70%.

Metronome在 10 毫秒的时间窗内使用 500微秒的时间量，默认的利用率目标为 70%。

7.The latency of the network is measured in 微秒 to ensure quick data transmission.

网络延迟以微秒为单位进行测量，以确保快速的数据传输。

8.GPS satellites synchronize their clocks to within 微秒 for accurate positioning.

GPS卫星将它们的时钟同步到几微秒内，以确保准确定位。

9.The computer can process data in just a few 微秒.

这台计算机可以在短短几微秒内处理数据。

10.A laser can emit pulses lasting only a few 微秒.

激光可以发出持续仅几微秒的脉冲。

11.In high-frequency trading, decisions are made in 微秒 to capitalize on market movements.

在高频交易中，决策是在微秒内做出的，以抓住市场波动。

作文

In the realm of technology and science, time is often measured in increasingly smaller units. One such unit is the microsecond, which represents one millionth of a second. Understanding the significance of a microsecond can provide insight into the speed and efficiency of modern systems, particularly in fields like computing and telecommunications. The ability to process data in microseconds has revolutionized the way we interact with technology. For instance, when you click a button on your smartphone, the response time is often measured in microseconds. This rapid processing is essential for providing a seamless user experience. In scientific experiments, especially in physics and chemistry, reactions can occur in a matter of microseconds. For example, in high-energy particle collisions, the particles may exist for only a few microseconds before decaying into other forms. Researchers must use advanced technology to capture data within these fleeting moments. The precision required in these measurements highlights the importance of microseconds in understanding the fundamental laws of nature.Moreover, in the world of telecommunications, the transmission of data is often measured in microseconds. Latency, or the delay before a transfer of data begins following an instruction, is critical in ensuring efficient communication. A delay of just a few microseconds can affect the quality of a video call or the responsiveness of an online game. As technology advances, the demand for lower latency continues to grow, pushing engineers to innovate and develop faster networks that can operate within microseconds.The significance of microseconds extends beyond technology and science; it also plays a role in everyday life. Consider the world of sports, where athletes strive for milliseconds of improvement. In competitive swimming, for instance, races can be won or lost by mere microseconds. Coaches and athletes analyze every aspect of performance, from starts to turns, to shave off those crucial microseconds that can lead to victory.In the medical field, advancements in imaging technology allow doctors to make diagnoses based on images captured in microseconds. Techniques like MRI and CT scans have become faster and more efficient, enabling healthcare professionals to obtain critical information quickly. The ability to visualize internal structures in such a short time frame can be lifesaving, as timely interventions are often necessary in emergencies.As we delve deeper into the digital age, the relevance of microseconds will only continue to increase. With the rise of artificial intelligence and machine learning, algorithms are designed to process vast amounts of data in real-time, often relying on operations that occur within microseconds. This capability allows machines to learn and adapt at unprecedented speeds, transforming industries and reshaping our future.In conclusion, the microsecond is more than just a unit of time; it embodies the essence of speed and efficiency in our modern world. From technology to sports and medicine, the ability to measure and act within microseconds is crucial for progress and innovation. As we continue to push the boundaries of what is possible, understanding the implications of microseconds will be essential for harnessing the full potential of our advancements.

在科技和科学的领域，时间往往以越来越小的单位来衡量。其中一个单位是微秒，表示一百万分之一秒。理解微秒的重要性可以深入了解现代系统的速度和效率，尤其是在计算机和电信等领域。在微秒内处理数据的能力彻底改变了我们与技术互动的方式。例如，当你点击智能手机上的按钮时，响应时间通常以微秒为单位来测量。这种快速处理对于提供无缝的用户体验至关重要。在科学实验中，尤其是在物理和化学领域，反应可能在微秒内发生。例如，在高能粒子碰撞中，粒子可能只存在几微秒就会衰变成其他形式。研究人员必须使用先进的技术在这些短暂的时刻捕获数据。这些测量所需的精度突显了微秒在理解自然基本法则中的重要性。此外，在电信世界中，数据传输的延迟通常以微秒来衡量。延迟，即在指令后数据传输开始之前的延迟，对于确保高效通信至关重要。仅仅几微秒的延迟就可能影响视频通话的质量或在线游戏的响应能力。随着技术的进步，对更低延迟的需求不断增长，推动工程师创新并开发能够在微秒内运行的更快网络。微秒的重要性不仅限于技术和科学，它还在日常生活中发挥着作用。考虑一下体育界，运动员争取毫秒的改进。在竞技游泳中，比赛的胜负可能仅仅由几微秒决定。教练和运动员分析表现的每一个方面，从起跳到转身，以期削减那些关键的微秒，从而赢得胜利。在医疗领域，成像技术的进步使医生能够根据在微秒内捕获的图像做出诊断。MRI和CT扫描等技术变得更加快速和高效，使医疗专业人员能够迅速获得关键信息。在如此短的时间内可视化内部结构的能力可能是救命的，因为在紧急情况下，及时干预往往是必要的。随着我们深入数字时代，微秒的相关性将继续增加。随着人工智能和机器学习的兴起，算法被设计为实时处理大量数据，通常依赖于在微秒内进行的操作。这种能力使机器能够以前所未有的速度学习和适应，改变行业并重塑我们的未来。总之，微秒不仅仅是一个时间单位；它体现了我们现代世界中速度和效率的本质。从技术到体育和医学，在微秒内衡量和行动的能力对于进步和创新至关重要。随着我们继续推进可能性的边界，理解微秒的含义将对充分利用我们的进步至关重要。