You can see that almost all of the operations complete within 10 ms, but some operations take longer than a half second (50 times longer).
可以看到,几乎所有操作都在10毫秒内完成,但是一些操作花了超过半秒(长50倍)的时间。
This tag creates an automatic progress bar that moves by 1% every 50 ms.
这个标签引起一个自动进度工具条每50毫秒移动1%。
Our experience is that it? S not uncommon to see lookup views with several columns of information index (refresh) in less than 100 ms.
我们的经验是经常可以看到在不到100毫秒内便完成对具有多列信息的查询视图建立(或刷新)索引。
The first run of this query takes 179 ms, but the next run takes only 15 ms.
第一次运行该查询耗时179毫秒,但下一次运行则只耗费了15毫秒的时间。
With this last change, we substantially improve both the worst operation time (down to only 19 ms) as well as the overall throughput (up to 357 operations per second).
通过此更改,我们显著改善了最差的操作时间(降低到19毫秒)和总吞吐量(提升到每秒357个操作)。
Checkpoint frequency is configurable but documented to occur every 25 ms.
检查点频率是可配置的,但文档记录是每25毫秒出现一次。
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。
The execution time for the compiled LINQ query is 305 ms on the first execution and 15 ms on subsequent ones.
对于编译了的LINQ查询而言,第一次执行耗时305毫秒,而随后的执行时间则为15毫秒。
The execution time of an SQL statement is 4 ms.
一个SQL语句的执行时间为4毫秒。
The average length of a saccade is about 20-40 ms.
通常每次扫视的平均时间是20-40毫秒。
The ID test took only 218 ms, while the CLASS test took 19.9 seconds!
ID测试耗时218毫秒,而CLASS测试耗时19.9秒!
Usually, 50-100 ms delay time is normal.
通常来讲,50- 100毫秒的延迟时间都属于正常的范围。
In the example, you can see that the average response time for the Web service returns was 831.33 ms.
在这个例子中,您可以看到这个Web服务返回的平均应答时间是831.33毫秒。
FreePoolSize (orange) is the number of free connections in the pool and UseTime (green) is the average time (in ms) that a connection is used.
FreePoolSize(黄色)是池中空闲连接的数量,而UseTime(绿色)是连接所使用的平均时间(毫秒)。
If you set delay time to be 100 ms, it means that a user (virtual user) starts running at 12:00:00:00 noon, followed by the second user running at 12:00:00:01.
如果您将延迟时间设置为100毫秒,那么这意味着一个用户(虚拟用户)在12:00:00:00开始运行,第二个用户在12:00:00:01开始运行。
Another interesting observation is that the common operation times have gotten somewhat longer (from around 9 to 10 ms, to 11 to 12 ms).
另一个有趣的结果是,普通操作时间变得更长了(从9 -10毫秒增加到了11- 12毫秒)。
We were able to average a response time of less than 2 ms in the DS8000s, VM, and Linux kernel.
在DS8000、VM和Linux内核中的平均响应时间少于2毫秒。
These are the corresponding properties (all property values are in milliseconds, or ms).
有一些相应的属性(所有的属性值单位都是毫秒,或者ms)。
Although Uranus appears all one colour, faint bands observed by the Hubble Space Telescope show winds of up to 160 ms -1 at middle latitudes.
虽然天王星似乎都是一个颜色,微弱级别的哈勃太空望远镜的秀风观察到160毫秒- 1在中纬度地区。
Play chirp the time of played chirp in ms.
播放声音播放的短促声波的时间,以毫秒表示。
The slides were presented for 6 s or for only 150 ms, depending on the group.
根据小组的情况,幻灯片播放6秒或仅播放150毫秒。
In Figure 1, the main page took 516 milliseconds (ms) to load, but it was 5101 ms before everything was loaded and the entire page could be displayed.
在图1中,装载主要页面所用的时间是516毫秒(ms),但是装载所有东西并显示整个页面所用的时间是5101 ms。
This fear-potentiated startle effect was maintained for the later probe times and was identical in the 150-ms condition.
这种因恐惧而增强的惊吓效果在之后的的探测中仍然存在,并与150毫秒时的情况相同。
The system can sample continuously once per ms.
并能做到每毫秒一次的连续采样;
Using this method, the fast recording system can obtain complete informations of fast activities at ms level.
运用这种技术可使快速记录系统获得毫秒级的、完整的快速活动信息。
The initial timeout value is 100000000 ms, which is approximately 28 hours. Use the mqsichangeproperties command to change the values of needCache and timout, using the syntax below
初始的timeout值为 100000000毫秒,大约为28小时。
This paper briefly describes a technique of continuously fast sampling. Using this method, the fast recording system can obtain complete informations of fast activities at ms level.
本文简要介绍了一种快速连续采样技术。运用这种技术可使快速记录系统获得毫秒级的、完整的快速活动信息。
Measuring for the beat error (frequency error) : Numerical display in milliseconds. Resolution is 0.1 milliseconds; the measuring range is 0-9.9 ms.
偏振(频率错误)测量:数值以毫秒显示。分辨率是0.1毫秒,测量范围是0—9.9毫秒。
This paper introduces an application example of KINGVIEW5.1 in the design of computer monitoring system. It is how to save data by the rate of ms.
本文介绍了利用组态王5.1在开发微机监控系统时的一个应用实例—实现毫秒级数据保存功能。
This paper introduces an application example of KINGVIEW5.1 in the design of computer monitoring system. It is how to save data by the rate of ms.
本文介绍了利用组态王5.1在开发微机监控系统时的一个应用实例—实现毫秒级数据保存功能。
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