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Posted to issues@hbase.apache.org by "Eshcar Hillel (JIRA)" <ji...@apache.org> on 2018/07/02 13:27:00 UTC
[jira] [Updated] (HBASE-20542) Better heap utilization for IMC with
MSLABs
[ https://issues.apache.org/jira/browse/HBASE-20542?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel ]
Eshcar Hillel updated HBASE-20542:
----------------------------------
Resolution: Fixed
Status: Resolved (was: Patch Available)
> Better heap utilization for IMC with MSLABs
> -------------------------------------------
>
> Key: HBASE-20542
> URL: https://issues.apache.org/jira/browse/HBASE-20542
> Project: HBase
> Issue Type: Sub-task
> Reporter: Eshcar Hillel
> Assignee: Eshcar Hillel
> Priority: Major
> Attachments: HBASE-20542.branch-2.001.patch, HBASE-20542.branch-2.003.patch, HBASE-20542.branch-2.004.patch, HBASE-20542.branch-2.005.patch, HBASE-20542.master.003.patch, run.sh, workloada, workloadc, workloadx, workloady
>
>
> Following HBASE-20188 we realized in-memory compaction combined with MSLABs may suffer from heap under-utilization due to internal fragmentation. This jira presents a solution to circumvent this problem. The main idea is to have each update operation check if it will cause overflow in the active segment *before* it is writing the new value (instead of checking the size after the write is completed), and if it is then the active segment is atomically swapped with a new empty segment, and is pushed (full-yet-not-overflowed) to the compaction pipeline. Later on the IMC deamon will run its compaction operation (flatten index/merge indices/data compaction) in the background. Some subtle concurrency issues should be handled with care. We next elaborate on them.
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