In POWER5, you can have a maximum of two Simultaneous Multi-Threading threads per processor.
在POWER 5中,对于每个处理器,您最多可以拥有两个同步多线程的线程。
Figure 4 shows a sample execution of processor cycles in a Simultaneous Multi-Threading environment.
图4显示了同步多线程环境中处理器周期的一个执行示例。
In the testing environment, each node has two 4-core processors that support simultaneous multi-threading, so you have a total of 16 available slots and can set both parameters to 7.
在测试环境中,每个节点有两个支持并发多线程的4核处理器,所以有16个可用的位置,可以把这两个参数设置为7。
Simultaneous multi-threading presented 16 concurrent execution threads or logical processors.
并发多线程提供16个并发执行线程或逻辑处理器。
This emphasis was recognized and Simultaneous Multi-Threading was introduced in POWER5 systems.
这一点是广为认可的,因此在 POWER5 系统中引入了同步多线程。
In order to discuss Simultaneous Multi-Threading, you need to understand the normal execution of a single-threaded execution in a processor.
为了讨论同步多线程,您需要了解单线程执行过程在处理器中的正常执行。
Simultaneous Multi-Threading ensures that all different units are utilized simultaneously.
同步多线程可以确保同步地利用所有不同的单元。
The POWER5 architecture features the Simultaneous Multi-Threading technology.
POWER5体系结构的特色之一是同步多线程技术。
Two 4-core processors, support simultaneous multi-threading
两个4 核处理器,支持并发多线程
Two 4-core processors, support simultaneous multi-threading
两个4 核处理器,支持并发多线程
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