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.
在多cpu(或多核)系统中,需要将平均负载除以cpu的个数。
In a multi-CPU (or multi-core) system, divide the load average by the number of CPUs.
以下比较展示在10%的负载水平上每个处理器的利用率,这样系统的平均利用率为10%。
The following comparisons show the utilization for each processor at the 10 percent load, so the system is on average 10 percent utilized.
以下比较展示在10%的负载水平上每个处理器的利用率,这样系统的平均利用率为10%。
The following comparisons are showing the utilization for each processor at the 10 percent load, so the system is, on average, 10 percent utilized.
该测试场景比较各种负载情况下的平均用户响应时间、探针响应时间、系统cpu利用率、占用的内存和磁盘利用率。
This test scenario compared average user response times, probe response time, system CPU utilization, memory used, and disk utilization at various loads.
注意最小值是接近还是远离最大值或平均值也是有意义的,接近意味着响应速度稳定(也意味着系统的负载可能不重)。
It is also interesting to note if the minimum range is close or far from the maximum or average values, which would imply a constant response rate (meaning the system is probably not overutilized).
例如,一个4CPU的系统可以承受的最大平均负载为5。
For example, a four-CPU system would have a maximum load average of 5.
图11:显示平均系统负载的eurekaj图表。
另一个需要被考虑的重要因素是,用户社区的地理分布,这也影响着系统的平均负载和最大负载。
Another important factor to consider is the geographic distribution of the user community which will also impact the average and peak load of the system.
这些统计数据表明,平均情况下,对于Groupware工作负载,系统7000的性能要比进行评估的其他系统高出20%。
These statistics show, that on average, system 7000 performed 20 percent better with the Groupware workload than the other systems we evaluated.
高平均负载通常表示系统任务繁重,因而响应时间变慢。
High load averages usually mean that the system is being used heavily and the response time is correspondingly slow.
同时采用最迟分配原则,改善系统的负载均衡能力,缩短系统平均响应时间。
Also according to latest distribution rule, the load balance of the system is im-proved, and average response time of the system is decreased.
测试表明,在相同任务负载的情况下,系统消耗时钟数平均减少58.33%,内存冲突数平均减少55.28%。
The result shows that under equal task workloads, the system reduces the clocks by 58.33%, and memory conflicts by 55.28%.
测试表明,在相同任务负载的情况下,系统消耗时钟数平均减少58.33%,内存冲突数平均减少55.28%。
The result shows that under equal task workloads, the system reduces the clocks by 58.33%, and memory conflicts by 55.28%.
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