1·You can now configure a private memory cache for every CPUVP to decrease the time of server memory allocation on large multiprocessor computers.
现在可以为每个CPUVP配置一个私有内存缓存,以减少大型多处理器计算机上的服务器内存分配时间。
2·It was quickly ported to multiple platforms and was updated to include support for multiprocessor installations.
它被迅速地移植到多种平台,并得到更新,包括支持多处理器配置。
3·Allocation groups also help to optimize parallel IO performance on multiprocessor systems, because more than one metadata update can be "in transit" at the same time.
分配组还有助于在多处理器系统上优化并行io性能,因为可以同时有多个元数据更新处于“在传输中”。
4·These new collectors address the problem of the garbage collector being a scalability bottleneck on multiprocessor systems.
这些新收集器是为了解决在多处理器系统中垃圾收集器成为伸缩性瓶颈这一问题的。
5·In addition, multiple clones of a single server can run on a single machine, taking advantage of multiprocessor architectures.
另外,一个服务器的多个克隆模型也能运行与一台机子上,充分利用了多处理器的结构特点。
1·Clones can run on any server machine in the cluster, and multiple clones of a single server can run on a single machine to take advantage of multiprocessor architectures.
克隆可以在群集中的任一台服务器机器上运行,单个服务器的多个克隆可以在单台机器上运行以利用多处理机体系结构。
2·With this new viewpoint, we yield an easy way to diagnose a multiprocessor system.
在新的观点下,我们展示了一个简单的方法来诊断一个多处理机系统。
3·In this thesis, we study some variants of diagnosis problems on multiprocessor systems.
在这篇论文当中,我们针对多处理机系统研究了一些不同的诊断问题。
4·A paralleling solver to the linear equations in multiprocessor environment is realized.
实现了一个在多处理机环境下线性方程组的并行求解器。
5·This peper gives a brief description of the three basic hardware structures, functions, features and application principles of the distributed multiprocessor system.
本文简要阐述了分布式多处理机系统的三种基本硬件结构、功能、特点及其实现原理。