Processor utilization resource-pur register.
处理器使用率资源——PUR寄存器。
Here we look at overall processor utilization.
这里,我们查看处理器的总体利用率。
The same can be seen with processor utilization (Figure 13).
对于处理器的使用也可以看到相类似的情况(图13)。
Increase in 500 users led to only an 8 percent increase in processor utilization.
增加500名用户后处理器使用率仅增加了8%。
Processor utilization is not the only consideration in tuning the thread pool size.
处理器利用率不是调整线程池大小过程中的唯一考虑事项。
Figure 3a: Processor utilization - 50k Rational Quality Manager and database servers.
图3a.处理器的使用—50KRational QualityManager与数据库服务器。
Figure 3c: Processor utilization - 500k Rational Quality Manager and database servers.
图3c .处理器使用—500KRational QualityManager与数据库服务器。
Figure 3b: Processor utilization - 250k Rational Quality Manager and database servers.
图3b .处理器使用—250KRational QualityManager与数据库服务器。
A new register called PUR is introduced for accurate processor utilization measurements.
为了对处理器使用率进行精确的度量,引入了一个称为PUR的新寄存器。
Measuring physical processor utilization based on cycles allocated to the CPU would not be so accurate.
所以,如果根据分配给CPU的周期来度量物理处理器的使用率,将不是十分精确的。
For 1500 Apple devices active users, the processor utilization was about 51 percent and 1.5 GB memory usage.
对于1500个Apple设备活动用户,处理器利用率为51%,内存占用为1.5GB。
A new dynamic load balancing method based on Recently-Loaded List is given to improve processor utilization.
采用静态与动态相结合的负载平衡策略和任务预分配策略,提高了处理机的利用率。
Rounding away from zero prevents busy-wait loops where a zero time-out value causes 100 percent processor utilization.
避免舍入为零可防止出现“繁忙等待”循环,即零超时值导致100%的处理器使用。
Performance measurements showing disk bandwidth and processor utilization demonstrate the high level of performance achieved.
显示有磁盘带宽和处理器利用率的性能测量可证明取得了高水平的性能。
The most interesting data is the processor utilization numbers for the machine running the Rational Quality Manager application.
最有趣的数据是运行Rational QualityManager 程序的机器所用的处理器使用数量。
When this parameter is set to 1, any processes with a "nice" value will not be counted toward the overall processor utilization.
当这个参数设置为1时,任何具有“nice”值的处理器不计入总处理器利用率。
The processor utilization at 1000 active users was 15 percent, and at 1500 active users the processor utilization was 23 percent.
在拥有1000个活动用户时的处理器使用率是15%,在拥有1500个活动用户时处理器使用率为23%。
The processor utilization at 1000 active users was 21 percent, and at 2000 active users, the processor utilization was 48 percent.
在拥有1000个活动用户时的处理器使用率是21%,在拥有2000个活动用户时处理器使用率为48%。
The processor utilization at 1000 active users was 27 percent, while at 1500 active users the processor utilization was 40 percent.
拥有 1000 个活动用户时的处理器利用率为 27%,而拥有 1500 个活动用户时的处理器利用率为 40%。
Figure 7 shows the processor resource utilization for Apple devices and a mixed device workload processor utilization at 34 percent.
图7展示Apple设备的处理器资源利用率,且混合设备工作负载的处理器利用率为34%。
If response times are slow even though processor utilization is low, the server may not have enough threads to handle incoming requests.
如果响应时间比较慢,处理器使用也比较低,可能是服务器没有足够的线程用于处理输入请求。
At 2000 users with a mixed set of devices (50 percent Windows Mobile 6 and Nokia, 50 percent Apple) the processor utilization was 40 percent.
在拥有2000个用户和一套混合设备(50%的WindowsMobile6和Nokia、50%的Apple)的情况下处理器利用率是40%。
Lastly, the up_threshold setting allows the user to change the Max processor utilization threshold that triggers a change in processor frequencies.
最后,up _ threshold设置允许用户修改最大处理器利用率阈值,这个阈值触发处理器频率修改。
In addition to the excellent storage cost reduction that has been achieved, processor utilization on the Lotus Domino mail servers was also reduced.
这样,不仅大大减少了存储成本,而且LotusDomino邮件服务器上的处理器占用减少了。
The processor utilization at 1000 active users was 20 percent, and at 1500 active users, the processor utilization was 32 percent, as shown in figure 7.
拥有 1000 个活动用户时的处理器利用率为 20%,而拥有 1500 个活动用户时的处理器利用率为 32%,如图 7 所示。
First, the up_threshold is set to 80 by default, meaning that once the processor utilization reaches above 80 percent, the governor increases the frequency.
首先,up _ threshold默认设置为80,表示一旦处理器利用率超过80%,该调控器将提高频率。
As shown in figure 4, beyond 500 concurrent users, the XPages discussion application shows a nonlinear increase in processor utilization and a higher response time.
如图4所示,超过500个并发用户时,XPages讨论应用程序在处理器利用率方面出现非线性增长,并且响应时间增加。
This means that every sampling_rate, the kernel will check the processor utilization and if it is below 20 percent utilized, the governor will decrease the frequency.
这意味着,内核将按照 sampling_rate 指定的时间间隔检查处理器利用率,如果低于百分之 20,调控器会降低频率。
The sampling_rate, measured in microseconds, determines how often the governor will look at the processor utilization so that it can determine which frequency to set.
sampling_rate(以微秒为单位)决定调控器间隔多长时间检查处理器利用率,以便决定设置什么频率。
The sampling_rate, measured in microseconds, determines how often the governor will look at the processor utilization so that it can determine which frequency to set.
sampling_rate(以微秒为单位)决定调控器间隔多长时间检查处理器利用率,以便决定设置什么频率。
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