CMU-CS-97-176 Computer Science Department School of Computer Science, Carnegie Mellon University
Effects of Data Passing Semantics and Operating Systems Structure on Network I/O Performance Jose' Carlos Brustoloni September 1997 Ph.D. Thesis
CMU-CS-97-176.ps
To demonstrate the thesis, I introduce new models of I/O organization, optimization, and data passing, emphasizing structure and compatibility rather than implementation. I review previous network I/O optimizations and propose many new ones, including emulated copy, for data passing without copying but with copy semantics between application and system buffers, and I/O-oriented IPC, for efficient data passing to and from user-level server buffers. I examine in detail network adapter requirements for copy avoidance. I describe the implementation of the different optimizations in Genie, a new I/O framework. Using Genie, I experimentally compare the optimizations on a variety of platforms and with different levels of hardware support. The experiments confirm the thesis, showing that: (1) Emulated copy performs competitively with data passing schemes with move or share semantics; (2) Emulated copy performs competitively with data and control passing optimizations enabled by extensible kernels; and (3) I/O-oriented IPC gives user-level I/O servers performance approaching that of kernel-level ones. In all tests, network I/O performance was determined primarily by limitations of the physical I/O subsystem and presence or absence of data copying, and not by semantics or structure of the operating system. Moreover, end-to-end differences among optimizations varied inversely to the processor's SPECint95 benchmark. The experiments also demonstrate that emulated copy interoperates efficiently with mapped file I/O, allowing applications to pass data without copying between networks and file systems. 198 pages
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