但是应该注意一点,由于这不是正式的JAX - RS框架基准测试,改变负载和测试条件可能会导致不同的结果。
However, it is important to note that because this is not a formal benchmark for JAX-RS frameworks, varying loads and testing conditions might cause different results.
第一组测试运行应严格被用于在各种配置点和负载级别上收集数据。
The first set of test runs is strictly for gathering data at a variety of configuration points and load levels.
一般来说,对于个别测试,您应该只在最大负载级别上运行下面描述的个别测试和配置点,运行时间最多为10至30分钟。
Typically, the individual tests and configuration points that are described below should only be run at the peak load level for an individual test for a maximum of 10 to 30 minutes.
服务测试控制点 –负载测试和压力测试。
考虑到这一点,我们需要能够在一张图中显示系统平均负载和进程加载后产生的负载。
Consider being able to have access to a chart that displays both the average system load, as well as the load your process is generating on your system.
这一点可以实现把浪费降到最低,不会给员工和设备带来过度的负载,也不会出现不均衡的生产水平。
This helps achieve the goal of minimizing waste (muda), not overburdening people or the equipment (muri), and not creating uneven production levels (mura).
现在您已经构建了可以处理和返回xml有效负载的自定义web服务,接下来在清单9中看一下如何实现这一点的一个简单代码示例。
Now that you've built the custom web service that can handle and return XML payloads, look at a simple code example of how to do this in Listing 9.
新增的“currentlycommitted”锁语法可以消除读和写工作负载之间的冲突,让数据库实现真正的时间点响应。
A newly added "currently committed" locking syntax eliminates the conflict between read and write workloads so the database can deliver a true point-in-time response.
从单一控制点监视和分析多个运行各种工作负载的DB 2实例—oltp、数据仓库和企业内容管理。
Monitor and analyze multiple DB2 instances running a wide variety of workloads - OLTP, data warehouse, and enterprise content management - all from a single control point.
这一点在“分流电容负载和保护”一节中详细讨论。
This is discussed in detail in the paragraphs on Shunt Capacitance Loading and Guarding.
并联型有源滤波器根据其谐波检测点的不同,有两种控制方法。即负载电流检测控制方法和电源电流检测控制方法。
Based on the differences of harmonic testing point, there are two control ways for shunt active filters, that is, the way of load current sensing and the way of power supply current sensing.
对同步电机试验中的空载点和零功率负载点两个特殊工作点的运行情况进行分析。
This paper aims at the analysis of the operating modes at the two special working points:the no load point and the zero power loading point, during testing the synchronous electric machine.
通过定位点的使用和路径复用,使得无用空间的探索大幅减少,降低了服务器的负载,最终探索出一条接近最优的路径。
The algorithm reduced the unnecessary search space by using anchors and path reuse, and reduced load on server. Finally it discovered a near optimal path.
这些影响和负载都集中在一个点或线的接触追随者和摄像机,如前所述。
These impacts and loads are concentrated at a single point or line of contact between follower and cams, as mentioned before.
本文主要对同步电机试验中的空载点和零功率负载点两个特殊工作点的运行工况进行了分析。
This paper mainly discusses the two operating points for the test of synchronous machines, no-load point and zero power loading point.
这一点可以忽略不计,如果您使用硬件负载均衡器和Tomcat的集群功能。
This point could be ignored if you use a hardware load balancer and Tomcat's clustering capabilities.
这一点可以忽略不计,如果您使用硬件负载均衡器和Tomcat的集群功能。
This point could be ignored if you use a hardware load balancer and Tomcat's clustering capabilities.
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