SUT: That's because you are not learning.

禅师：那是因为你没有学习。

Netperf on SUT in out-of-the-box configuration.

采用开箱即用配置的SUT上的netperf。

netserver on SUT in out-of-the-box configuration

采用开箱即用配置的 SUT 上的 netserver

After you configure the environment on the SUT, you can configure the client side.

在SUT上配置环境之后，可以配置客户端。

In this example, you want to use the mail template that is on the server (SUT) Dolly.

在这个示例中，希望使用服务器(SUT) Dolly上的邮件模板。

Sometimes I like to go out, sometimes I like to sut at home with candlelight and a glass of wine.

有时我喜欢外出，有时候我喜欢在家享受烛光和一杯酒。

These systems run Lotus Server.Load and the workload scripts simulating user activity against the SUT.

这些系统运行Lotus Server . Load和工作负载脚本，模拟针对SUT的用户活动。

The number of SUT netserver instances and remote netperf instances were increased accordingly for each test.

对于每个测试，相应地增加SUT netserver实例和远程netperf实例的数量。

We recommend setting up a test user ID and creating Location documents on the clients that point to the SUT.

我们建议在指向SUT的客户机上设置测试用户ID并创建Location文档。

After pledging her allegiance, Zita is instructed to kiss the mummy remains of the evil sorceress, Hor Shep Sut.

承诺她的忠诚后，思蒂指示吻木乃伊的邪恶的女巫，贺南洪谢普sut。

As we mentioned previously, we need to create and initialize mail databases on the server (SUT) to run our workload against.

正如前面提到的，需要在运行工作负载的服务器(SUT)上创建和初始化邮件数据库。

The fixture class ACTS as the driver to determine how the sample data sets in the table are to be tested against the SUT.

fixture类的作用相当于驱动程序，确定如何根据SUT来测试表中的示例数据集。

In J2EE performance testing, a tremendous amount of time and effort have been spent setting up the System Under test (SUT) and workload driver.

在J2EE性能测试中，需要花大量的时间和精力来设置System Under Test (SUT)和工作负载驱动程序。

Each corresponding remote instance of netperf or netserver ran on its own Ethernet adapter to ensure the fullest possible traffic to and from the SUT.

对应的netperf或netserver远程实例在它自己的以太网适配器上运行，以确保尽可能完整地测试与SUT之间的通信流。

The remote drivers ran corresponding instances of netperf to provide stream traffic in a one-to-one mapping of remote netperf instances to SUT netserver instances.

远程驱动程序运行对应的 netperf 实例，从而按照远程 netperf 实例到 SUT netserver 实例的一对一映射提供流通信。

The first of the netserver scalability tests utilized a single instance of netserver on each of the two system board Ethernet adapters on the first node of the SUT.

第一个netserver可伸缩性测试在SUT的第一个节点的两个系统板载以太网适配器上各使用一个netserver实例。

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。

If you wish to implement the above weak SUT-check, check your table options exactly as performance problems may arise if the customizing option is not properly set.

如果你希望实现弱sut检查，如果你的配置选项没有合适设置，检查表选项和出现的问题相同。

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。

Next, netperf scalability tests were run just like the netserver scalability tests, except that netperf was run on the SUT while netserver was run on the remote systems.

接下来，按照与netserver可伸缩性测试相同的方式执行netperf可伸缩性测试，惟一的差异是netperf在SUT上运行，netserver在远程系统上运行。

CPU utilization was measured on the SUT and is reported as it was recorded by the SAR utility (from the sysstat package) as the system average for the duration of the netperf test.

在SUT上度量cpu利用率并由sysstat包中的sar实用程序报告，这一信息表示为netperf测试期间的系统平均值。

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 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 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。

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 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。