We define application utilization as the percentage of time allotted to an application in a given window of time continuously sliding over the application's complete run.
我们将应用程序利用率定义为:分配给特定时间窗内的应用程序的时间百分比,在这段时间内应用程序连续地执行完整个运行过程。
Utilization is the percentage of time in a particular time window that the application is permitted to run, with the remainder being devoted to GC.
利用率是指应用程序所能够运行的特定时间窗中的时间百分比,剩余时间则用于GC。
You can use it to determine if the parameters (heap size, target utilization, window size, and quantum time) support the running application. Listing 1 shows an example of verbose output.
您可以使用它来确定参数(堆大小、目标利用率、窗口大小和时间量)是否支持应用程序运行。
To analyze the load time and the HTTP requests made by your application, click the Resources button at the top of the Inspector window.
要分析应用程序的加载时间和HTTP请求,单击Inspector窗口顶部的Resources按钮。
Indeed, if you are using a graphical desktop, you may have opened more than one terminal window at a time, or perhaps opened a file browser, Internet browser, game, spreadsheet, or other application.
事实上,如果您使用图形化桌面,您可能一次打开了多个终端窗口,或者打开了文件浏览器、Internet浏览器、游戏、电子表格或其他应用程序。
Across the entire time window shown in Figure 3, the application utilization remains at or above the specified 70% (0.7).
图3所示的整个时间期限内,应用程序utilization保持在指定的70%(0.7)或以上。
For every operation you can compare to the same time window yesterday and a week ago so you can follow the behavior as your application changes.
你可以和昨天或者一周前的同一时间窗口内的操作进行对比,从中可以观察到应用程序的改进过程。
These values are often stored in a database row that you can add to over time and use to populate choices in an application window.
这些值通常存储在一个数据库行中,这个数据库行可以随时间变化添加内容并用于填充应用程序窗口中的选项。
It is only a matter of time until rectangular-window based application become a thing of the past.
基于矩形窗口的应用程序将成为历史,这只是时间的问题。
The window shows how well the application is performing in real time with respect to a threshold level set by the provider in a threshold policy that should be a part of the SLA.
这个窗口显示了应用程序的实时运行状态,它是与提供商在SLA 中规定的临界值策略所设定的临界值相关。
By default, the utilization is 70% : in any 10-millisecond time window, at least 7 milliseconds will be devoted solely to the application.
默认情况下,utilization值为70%:在任何10毫秒的时限内,至少有7毫秒专门用于应用程序。
Meanwhile, the current status and the waves during stimulation will be displayed in window real-time, which improved the visualization and availability in medical application.
同时,状态参数和波形的实时监测显示窗口更进一步地提高了临床应用的直观性和有效性。
A series of control tests such as inner consistency test, threshold value test, FH test, time window moving test, etc. show that the application result of the method is stable.
内符合检验、阈值试验、FH检验、时间窗移动试验等一系列控制试验表明识别结果较稳定。
Conclusions the application of DSAK in lateral window maxillary sinus lifting could shorten the surgery time obviously with low membrane perforation rate and slighter postoperative reaction.
结论应用新型上颌窦提升工具进行上颌窦外提升术较普通球钻手术时间明显缩短,黏膜穿孔率低,患者术后反应轻,高效安全。
Conclusions the application of DSAK in lateral window maxillary sinus lifting could shorten the surgery time obviously with low membrane perforation rate and slighter postoperative reaction.
结论应用新型上颌窦提升工具进行上颌窦外提升术较普通球钻手术时间明显缩短,黏膜穿孔率低,患者术后反应轻,高效安全。
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