I/O virtualization performance is an important problem in KVM. In this paper, we evaluate KVM I/O performance and propose several optimizations for improvement. First, we reduce VM Exits by merging successive I/O instructions and decreasing the frequency of timer interrupt. Second, we simplify the Guest OS by removing redundant operations when the guest OS operates in a virtual environment. We eliminate the operations that are useless in the virtual environment and bypass the I/O scheduling in the Guest OS whose results will be rescheduled in the Host OS. We also change NIC driver\u27s configuration in Guest OS to adapt the virtual environment for better performance
Many enterprises are increasingly moving their applications to private cloud environments or public ...
Direct device assignment enhances the performance of guest virtual machines by allowing them to comm...
The most popular I/O virtualization method today is paravirtual I/O. Its popularity stems from its r...
There are some operations in Guest OS causing the I/O performance degradation. For it is the general...
This paper surveys virtualization of I/O devices, which is one of the most difficult parts in system...
Full virtualization is vastly applied in desktop virtualization. Although hardware-assisted virtuali...
Virtualization is a fundamental component in cloud computing because it provides numerous guest VM t...
An input/output (I/O) device can incorporate mechanical devices that require physical movements, suc...
Virtualization is increasingly utilized for consolidating server resources to improve efficiency by ...
Currently, I/O device virtualization models in virtual machine (VM) environments require involvement...
Virtual machine (VM) technologies are making rapid progress and VM performance is approaching that o...
This paper explores the relationship between domain scheduling in a virtual machine monitor (VMM) an...
A Symmetric MultiProcessing (SMP) virtual machine (VM) enables users to take advantage of a multipro...
In this paper, we propose a scheme that manages the Performance and resource of virtual machines tha...
This paper shows how to use an open virtualisation architecture to analyse and improve the forwardin...
Many enterprises are increasingly moving their applications to private cloud environments or public ...
Direct device assignment enhances the performance of guest virtual machines by allowing them to comm...
The most popular I/O virtualization method today is paravirtual I/O. Its popularity stems from its r...
There are some operations in Guest OS causing the I/O performance degradation. For it is the general...
This paper surveys virtualization of I/O devices, which is one of the most difficult parts in system...
Full virtualization is vastly applied in desktop virtualization. Although hardware-assisted virtuali...
Virtualization is a fundamental component in cloud computing because it provides numerous guest VM t...
An input/output (I/O) device can incorporate mechanical devices that require physical movements, suc...
Virtualization is increasingly utilized for consolidating server resources to improve efficiency by ...
Currently, I/O device virtualization models in virtual machine (VM) environments require involvement...
Virtual machine (VM) technologies are making rapid progress and VM performance is approaching that o...
This paper explores the relationship between domain scheduling in a virtual machine monitor (VMM) an...
A Symmetric MultiProcessing (SMP) virtual machine (VM) enables users to take advantage of a multipro...
In this paper, we propose a scheme that manages the Performance and resource of virtual machines tha...
This paper shows how to use an open virtualisation architecture to analyse and improve the forwardin...
Many enterprises are increasingly moving their applications to private cloud environments or public ...
Direct device assignment enhances the performance of guest virtual machines by allowing them to comm...
The most popular I/O virtualization method today is paravirtual I/O. Its popularity stems from its r...