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Making I/O Virtualization Easy with Device Files

Personal computers have diverse and fast-evolving I/O devices, making their I/O virtualization different from that of servers and data centers. In this paper, we present our recent endeavors in simplifying I/O virtualization for personal computers. Our key insight is that many operating systems, including Unix-like ones, abstract I/O devices as device files. There is a small and stable set of operations on device files, therefore, I/O virtualization at the device file boundary requires a one-time effort to support various I/O devices. We present devirtualization, our design of I/O virtualization at the device file boundary and its implementation for Linux/x86 systems. We are able to virtualize various GPUs, input devices, cameras, and audio devices with fewer than 4900 LoC, of which only about 300 are specific to I/O device classes. Our measurements show that devirtualized devices achieve interactive performance indistinguishable from native ones by human users, even when running 3D HD games.

preprint2013arXivOpen access
Ardalan Amiri SaniSreekumar NairLin ZhongQuinn Jacobson
Operating Systems
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Open access4 authors1 topic
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Ardalan Amiri SaniSreekumar NairLin ZhongQuinn Jacobson

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