제목Coordinated and Efficient Huge Page Management with Ingens
날짜2017.11.16 (목) 14:00-
장소권영진 박사과정 (The University of Texas at Austin)
Modern computing is hungry for RAM, with today’s enormous capacities eagerly
consumed by diverse workloads. Hardware address translation overheads have
grown with memory capacity, motivating hardware manufacturers to provide TLBs
with thousands of entries for large page sizes (called huge pages). Operating
systems and hypervisors support huge pages with a hodge-podge of best-effort
algorithms and spot fixes that made sense for architectures with limited huge page
support, but the time has come for a more fundamental redesign. Ingens is a
framework for huge page support that relies on a handful of basic primitives
to provide transparent huge page support in a principled, coordinated way.
By managing contiguity as a first-class resource and by tracking utilization
and access frequency of memory pages, Ingens is able to eliminate a number
of fairness and performance pathologies that plague current systems.
Experiments with our prototype demonstrate fairness improvements, performance
improvements (up to 18%), tail-latency reduction (up to 71%), and reduction of
memory bloat from 69% to less than 1% for important applications like Web services
(e.g., the Cloudstone benchmark) and the Redis key-value store.
Youngjin Kwon is a Ph.D. student in The University of Texas at Austin under supervision of
Prof. Emmett Witchel and Prof. Simon Peter. His research interests primarily lie in operating systems,
including file systems, emerging storage and memory technologies, system support for security, and virtualization.