例如,我们以默认设置表示网络利用率和错误率。
For example, we're representing network utilization and error rates in the default set.
网络利用率低,网络教育投入不足;
The network utilization is low, The devotion of the network education is short;
另外,两个网卡上的平均网络利用率都低于10%。
Plus, network utilization was less than 10% on average for both network CARDS.
我们得到的结果显示服务器的平均网络利用率为 1%。
Our results showed an average network utilization of approximately one percent from a given server.
下面的例子显示了sar输出的CPU、内存和网络利用率。
The following example shows SAR output for CPU, memory, and network utilization.
在接入网中提供多业务可以有效地降低运营维护成本和网络铺设费用,同时提高网络利用率。
To provide multiservice in access network may effectively reduce operation, maintenance and network construction expense and also increase network utilization rate.
sar工具用于收集一段时间内的网络利用率统计数据,并将所有利用率数据的快照记录到一个文件。
The sar tool is useful for gathering network utilization statistics and recording snapshots of all utilization data to a file over a period of time.
每周定期查看数据,并监控反映cpu利用率、磁盘使用、邮件发送延迟(如果运行邮件的话)、内存利用率和网络利用率的统计数据。
Review your data on a week-to-week basis and monitor stats that reflect CPU utilization, disk usage, mail delivery latency (if you are running mail), memory utilization, and network utilization.
这可能造成时有时无的性能结果,这与测试时网络的利用率直接有关。
This can cause sporadic performance results depending directly upon the network utilization at the time of the tests.
集成连接功能同时有助于管理网络环境和负载平衡以达到更好的资源利用率。
The Integrated Connect function also assists in managing the network environment, and with workload balancing for better resource utilization.
图3显示双向可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 3 shows the network stream throughput and CPU utilization for the bidirectional scalability test runs while using the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图6显示双向可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 6 shows the network stream throughput and CPU utilization for the bidirectional scalability test runs while using the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
众所周知,有效的虚拟化可以提高资产利用率,让服务器、存储、网络和其他功能更模块化,由此提高可重用性。
It is well known that effective virtualization can improve asset utilization making servers, storage, network and other capabilities more modular and hence more reusable.
图12显示测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 12 shows the network stream throughput and CPU utilization for the test runs while using the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
完整测试使用15种不同的消息大小,对于每种消息大小执行3分钟的测试,并度量网络流吞吐量和系统cpu利用率。
The full test run measured network stream throughput and system CPU utilization for 15 different send message sizes for 3 minutes per message size.
公司在运行该服务时必须考虑所有细节 —服务利用率、网络费用、坏掉的硬盘驱动器等等。
The company that runs it has to worry about all the details—server utilization, network bills, dead hard drives, and so on.
图11显示netperf可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 11 shows the network stream throughput and CPU utilization for the netperf scalability test runs while utilizing the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图1显示netserver可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 1 shows the network stream throughput and CPU utilization for the netserver scalability test runs while using the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图4显示netserver可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 4 shows the network stream throughput and CPU utilization for the netserver scalability test runs while utilizing the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图10显示netserver可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 10 shows the network stream throughput and CPU utilization for the netserver scalability test runs while utilizing the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图7显示netserver可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 7 shows the network stream throughput and CPU utilization for the netserver scalability test runs while using the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图8显示netperf可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 8 shows the network stream throughput and CPU utilization for the netperf scalability test runs while utilizing the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图5显示netperf可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 5 shows the network stream throughput and CPU utilization for the netperf scalability test runs while using the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
图2显示netperf可伸缩性测试的网络流吞吐量和系统cpu利用率,分别使用SUT中1、2和4个节点上的系统板载以太网适配器。
Figure 2 shows the network stream throughput and CPU utilization for the netperf scalability test runs while utilizing the system board Ethernet adapters on 1, 2, and 4 nodes of the SUT.
测试应该可以得到CPU(s)、内存、I/O和网络等主要内核区域的高水平的资源利用率。
The tests should allow the attainment of high-resource utilization levels for main kernel areas, such as the CPU(s), memory, I/O, and networking.
例如,每个事务或每个应用程序的网络带宽、CPU利用率和磁盘利用率可确定PaaS 的成本。
For example, the network bandwidth, CPU utilization, and disk usage per transaction or application can determine PaaS cost.
这种行为会损害网络吞吐量、CPU利用率以及总体网络性能和可伸缩性。
This behavior degraded networking throughput, CPU utilization, and overall networking performance and scalability.
光分组交换技术的引入,改善了带宽的利用率和网络的灵活性,延伸了光的透明性。
The introduction of OPS has improved the use rate of bandwidth and flexibility of network, extended the optical transparency.
如何提高网络的利用率,加快信息的传递速度是网格技术需要研究的重要内容。
How to improve network utilization, and how to speed up information transmission are important aspects of grid technology.
仿真结果表明,该方法提高了网络对呼叫的实时处理能力,又增加了网络资源的利用率。
The simulation results show that this method can raise the call processing capability in real time and raise the utilization of the network resources in the meanwhile.
应用推荐