Sandy Ryza created YARN-972: ------------------------------- Summary: Allow requests and scheduling for fractional virtual cores Key: YARN-972 URL: https://issues.apache.org/jira/browse/YARN-972 Project: Hadoop YARN Issue Type: Improvement Components: api, scheduler Affects Versions: 2.0.5-alpha Reporter: Sandy Ryza Assignee: Sandy Ryza
As this idea sparked a fair amount of discussion on YARN-2, I'd like to go deeper into the reasoning. Currently the virtual core abstraction hides two orthogonal goals. The first is that a cluster might have heterogeneous hardware and that the processing power of different makes of cores can vary wildly. The second is that a different (combinations of) workloads can require different levels of granularity. E.g. one admin might want every task on their cluster to use at least a core, while another might want applications to be able to request quarters of cores. The former would configure a single vcore per core. The latter would configure four vcores per core. I don't think that the abstraction is a good way of handling the second goal. Having a virtual cores refer to different magnitudes of processing power on different clusters will make the difficult problem of deciding how many cores to request for a job even more confusing. Can we not handle this with dynamic oversubscription? Dynamic oversubscription, i.e. adjusting the number of cores offered by a machine based on measured CPU-consumption, should work as a complement to fine-granularity scheduling. Dynamic oversubscription is never going to be perfect, as the amount of CPU a process consumes can vary widely over its lifetime. A task that first loads a bunch of data over the network and then performs complex computations on it will suffer if additional CPU-heavy tasks are scheduled on the same node because its initial CPU-utilization was low. To guard against this, we will need to be conservative with how we dynamically oversubscribe. If a user wants to explicitly hint to the scheduler that their task will not use much CPU, the scheduler should be able to take this into account. On YARN-2, there are concerns that including floating point arithmetic in the scheduler will slow it down. I question this assumption, and it is perhaps worth debating, but I think we can sidestep the issue by multiplying CPU-quantities inside the scheduler by a decently sized number like 1000 and keep doing the computations on integers. The relevant APIs are marked as evolving, so there's no need for the change to delay 2.1.0-beta. -- This message is automatically generated by JIRA. If you think it was sent incorrectly, please contact your JIRA administrators For more information on JIRA, see: http://www.atlassian.com/software/jira