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 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.
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 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.
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 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 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 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 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 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 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 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 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.
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。
The BreakingPoint system delivered a strike level 5 test that included exploits, network worms, denial-of-service attack, reconnaissance attacks, Trojan horse and backdoor intrusions.
BreakingPoint的系统提供了一个5级强度的攻击测试,包括了侦测、网络蠕虫、拒绝服务攻击、踩点攻击、特洛伊木马和后门入侵。
In order to test our Team Room notification function without accessing the external network or having an email validation system in place, we can write mock test methods.
为了测试TeamRoom的通知功能,而不必访问外部网络,也不使用电子邮件检验系统,我们可以编写mock测试方法。
You'll test the system on the standard OpenLaszlo environment that includes OpenLaszlo running on Apache Tomcat with the Derby database being accessed via the Derby Network Server.
我们将在标准的OpenLaszlo环境中测试这个系统,包括在ApacheTomcat上运行的OpenLaszlo以及通过Derby NetworkServer访问的Derby数据库。
The MuDynamics unit tested the ability of the system under test (SUT) to protect a network from threats with published threat signatures even before patches are applied.
MuDynamics部分,测试了被测系统(SUT)保护网络免受已知木马威胁的能力,甚至是在被测系统打补丁之前。
The full test run measured network stream throughput and system CPU utilization for 15 different send message sizes for 3 minutes per message size.
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。
Analyze test results and adjust, change or repair switching system, network, associated equipment and software.
分析测试结果和调整,改变或修理交换系统,网络,相关的设备和软件。
Pervasive for network test and network trends, to develop an online exam simulation system is a very real thing.
针对网络考试的普遍深入和网络化趋势,开发一个网上考试模拟系统是一个很现实的事情。
A network port is needed to hook the notebook up to the network to test system performance.
需要一个网络端口把笔记本电脑接到网络来测试系统性能。
A method of design and implementation for computer network test analysis system applying in the multimedia network classroom is proposed.
提供一种在多媒体网络教室管理中使用的考试分析系统的设计与实现方案。
Computer network test system has its own advantages and has become the key measure to solve problems.
计算机网络考试系统以其特有的优势,成为了解决问题的关键手段。
In contrast to traditional test ways, network testing system improve the flexibility of teaching, and it has been widely used in many fields.
相比传统的考试方式,网络考试系统极大地提高了教学的灵活性,现有许多领域已经有了广泛的应用。
Finally, a test platform is built to test the prototype system in terms of remote control, network security and network parameter configuration.
本文最后搭建了一个测试平台,从远程控制、网络安全性和参数配置三方面对原型系统进行测试。
Because of some reasons, the network manager can seldom apply a full security test of his system in time.
网络管理人员由于种种原因,很难及时、全面地测试系统的安全性。
Analyzes the function of non-paper test system, and discusses the design of the function modules, then gives out program about the test system of network.
分析了无纸化考试系统的功能,研究了各项功能模块的设计方案,并给出了网络考试系统的部分实现程序。
The key technology of the network and information security prototype system is studied, the network and information security test platform is introduced, and the testing methods are explained.
主要研究了网络与信息安全原型系统中的关键技术,介绍了网络与信息安全测试平台的组成,阐述了测试方法。
The network test system becomes one of main test means of the modern education owing to its new technology and new model.
网络考试系统以新的技术、新的模式成为现代教育的主要测试手段之一。
Based on the deficiency of current implementation of adaptation layer for network protocol test system, a new approach base on object-oriented methodology was proposed.
分析了现有网络协议测试系统中适配层实现方式的不足,提出了面向对象的解决方案。
This paper studies the soft architecture of test field based on firstly introduces the VI(Virtual Instrument)test system on network .
本文在讨论了研究互连网测试系统结构的基础上,对测试领域的软件体系结构进行研究。
Test results show that the developed car body network system has good performance.
在模型轿车上的实验证明,所开发的车身网络系统具有良好的性能。
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