Placement of Virtual Containers on NUMA systems: A Practical and Comprehensive Model
Justin Funston, Maxime Lorrillere, Alexandra Fedorova, Baptiste Lepers, David Vengerov, Jean-Pierre Lozi, Vivien Quéma
11 July 2018
Our work addresses the problem of placement of threads,
or virtual cores, onto physical cores in a multicore
NUMA system. Different placements result in varying
degrees of contention for shared resources, so choosing
the right placement can have a large effect on performance.
Prior work has studied this problem, but either addressed hardware with specific properties, leaving us unable to generalize the models to other systems, or modeled
much simpler effects than the actual performance in
Our contribution is a general framework for reasoning
about workload placement on machines with shared resources.
It enables us to build an accurate performance
model for any machine with a hierarchy of known shared
resources automatically, with only minimal input from
the user. Using our methodology, data center operators
can minimize the number of NUMA (CPU+memory) nodes allocated for an application or a service, while ensuring that it meets performance objectives.
Venue : 2018 USENIX Annual Technical Conference