Memory overcommitment can increase the demand for all other system resources.
内存超量使用可能增加所有其他系统资源的需求。
Linux provides additional mechanisms to address memory overcommitment specific to virtualization.
Linux提供了额外的机制用来解决由虚拟化引起的内存超量使用。
A thorough investigation of memory overcommitment in KVM should begin with the Linux memory manager itself.
彻底的KVM内存超量使用调查应该从Linux内存管理器本身开始。
But unlike regular processes, KVM guests contain a nested operating system, which impacts memory overcommitment in two key ways.
但与常规进程不同的是,KVM客户包含一套内嵌的操作系统,它以两种关键方式影响内存超量使用。
The performance impacts of memory overcommitment could be reduced if a similar guest-driven protocol existed for yielding memory resources.
如果相同客户驱动的协议存在并产生内存自愿,内存超量使用的性能影响就会降低。
Their advice and technical expertise were instrumental in the conception and development of the Memory Overcommitment Manager and this research.
他们的建议和技术经验,对于Memory OvercommitmentManager及相关研究的概念和开发具有指导意义。
Other resource management features such as Cgroups have applications in memory overcommitment that can dynamically shuffle resources among virtual machines.
其他资源管理特性,例如 Cgroups有内存超量使用方面的应用程序,它能在虚拟机之间动态分配资源。
The use of any overcommitment mechanism fundamentally affects the operation of the host and guest memory management systems.
使用任何超量使用机制都会从根本上影响主机和客户内存管理系统的运行。
The use of any overcommitment mechanism fundamentally affects the operation of the host and guest memory management systems.
使用任何超量使用机制都会从根本上影响主机和客户内存管理系统的运行。
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