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HBase region server memory sizing

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HBase region server memory sizing
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Sizing a machine for HBase is somewhat of a black art.

Unlike a pure storage machine that would just be optimized for disk size and throughput, an HBase RegionServer is also a compute node.

Every byte of disk space needs to be matched with a fraction of a byte in the RegionServer’s Java heap.

You can estimate the ratio of raw disk space to required Java heap as follows:



RegionSize / MemstoreSize *





ReplicationFactor * HeapFractionForMemstores




Or in terms of HBase/HDFS configuration param
eters:


regions.hbase.hregion.max.filesize /

hbase.hregion.memstore.flush.size *

dfs.replication *


hbase.regionserver.global.memstore.lowerLimit

Say you have the following parameters (these are the defaults in 0.94):

  • 10GB regions
  • 128MB memstores
  • HDFS replication factor of 3
  • 40% of the heap use for the memstores

Then: 10GB/128MB*3*0.4 = 96.

Now think about this. With the default setting this means that if you wanted to serve 10T worth of disks space per region server you would need a 107GB Java heap!

Or if you give a region server a 10G heap you can only utilize about 1T of disk space per region server machine.

Most people are surprised by this. I know I was.

Let’s double check:

In order to serve 10T worth of raw disk space – 3.3T of effective space after 3-way replication – with 10GB regions, you’d need ~338 regions. @128MB that’s about 43GB. But only 40% is by default used for the memstores so what you actually need is 43GB/0.4 ~ 107GB. Yep it’s right.

Maybe we can get away with a bit less by assuming that not all memstores are 100% full at all times. That is offset by the fact that all region will be exactly the same size or 100% filled.

Now. What can you do?

There are several options:

  1. Increase the region size. 20GB is about the maximum. Although some people claim they have 200GB regions.
    (hbase.hregion.max.filesize)
  2. Decrease the memstore size. Depending on your write load you can go smaller, 64MB or even less. (

    hbase.hregion.memstore.flush.size

    )

    .

    You can allow a memstore to grow beyond this size temporarily.

    (hbase.hregion.memstore.block.multiplier
    )

  3. Increase the HDFS replication factor. That does not really help per se, but if you have more disk space than you can utilize, increasing the replication factor would at least put your disks to good use.
  4. Fiddle with the heap fractions used for the memstores. If you load is write-heave maybe up that 50% of the heap (
    hbase.regionserver.global.memstore.upperLimit, hbase.regionserver.global.memstore.lowerLimit
    )

These parameters (except the replication factor, which is an HDFS setting) are described in hbase-defaults.xml that ships with HBase.

Personally I would place the maximum disk space per machine that can be served exclusively with HBase around 6T, unless you have a very read-heavy workload.

In that case the Java heap should be 32GB (20G regions, 128M memstores, the rest defaults). With MSLAB in 0.94 that works.

Of course your needs may vary. You may have mostly readonly load, in which case you can shrink the memstores. Or the disk space might be shared with other applications.

Maybe you need smaller regions or larger memstores. In that case he maximum disk space you can serve per machine would be less.

Future JVMs might support bigger heap effectively (JDK7’s G1 comes to mind).

In any case. The formula above provides a reasonable starting point.

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