Sunday, August 10, 2014

Optimizing Hadoop - Part1 (Hardware, Linux Tunings)

In these series of posts I'll share some of my experience with configuring Hadoop clusters for optimized performance and provide you with general guidance for efficiently optimizing your existing Hadoop cluster. 
I will start from the low level configurations/optimizations & tunings then we will cover OS level tunings, possible JVM tunings and finally the Hadoop platform level tunings.

Hardware Level configurations, tunings and checks:

Before we begin, it is extremely important to make sure our cluster nodes are aligned with their HW specs. Do all DataNode/TaskTracker nodes have the same amount of memory? Do all the DIMM's operate on same speeds? What about number of disks and their speed? What about NIC's speed? Are there any dropped packets? It is important that the actual number of installed DIMM's correspond to the number of channels per CPU, otherwise performance will be sub-optimal.

A good idea is to run some custom scripts combing commands such as 'dmidecode' , 'lspci', 'ifconfig', 'ethtool', 'netstat -s', 'fdisk -l', 'cat /proc/cpuinfo' with tool such as clustershell and make sure our nodes are indeed aligned and healthy. Mitigating low level (HW) issues is mandatory before we begin benchmarking our HW. 

Couple of things I would suggest checking -
  • RAID StripeSize - Hadoop benefits most by running in JBOD mode, however certain controllers out there require each disk to be configured as separate RAID0 array , in that case you should tune the stripe size from 64K to 256K, this may have significant impact on the disk IO (I have observed ~25% performance boost while going up from 64K to 256K). Another thing is to enable write back mode if your controller has battery.
  • Memory - disable power saving mode to increase memory frequency (usually from 1333 to 1600 Mhz) and throughput.
  •  Limiting NIC interrupt rate significantly reduce context switching during the shuffle/sorting phase (where network load is highest) - a good idea will be to consult your vendor how to achieve this.
After we are sure our cluster nodes are aligned for our planning and do not suffer from any HW issue/anomaly, we can continue and conduct the appropriate HW performance tests:

Memory tests -   Stream is a great tool that will help you measure memory bandwith per node, nowdays  Xeon CPU's with 8 Channels per CPU and 1600MHz DIMMs can deliver 70-80GB/sec "Triad" results.

Network tests - Should be conducted from each node, to each node sequentially and as well as concurrently with tool such as 'iperf', you should expected about 90% of NIC BW, meaning 115MBps for 1 GBit or 1150MBps for 10Gbit network.

Disk tests - Tools such as IOzone will help to benchmarks our disks. Current 10K RPM SAS disks achieve optimally about ~170 MB/sec and 7.2K RPM SATA can reach ~140MB/sec for sequential reads/writes, random reads/writes will be roughly as half.

Have you found any sub-optimal performance on any of components above? Perhaps there is still a HW level issue that needs to be solved before diving into higher hierarchy optimizations.


Linux Tunings

Kernel parameters -

At minimum, we do not want our cluster to ever swap, we also want to decrease number of TCP re-transmit retries (we do not want to keep re-transmitting to faulty nodes) ,this setting is not recommended for multi-tenant (cloud environments) with higher latency + higher possible error rate.
It's also a good idea to enable memory over-committing ,since Hadoop processes tend to reserve more memory than they actually use, another important tuning is increasing somaxcon, which is a socket backlog - to be able to deal with connections bursts.

echo 'vm.swappiness  =  0'  >>  /etc/sysctl.conf
echo 'net.ipv4.tcp_retries2 = 2' >> /etc/sysctl.conf
echo 'vm.overcommit_memory = 1' >> /etc/sysctl.conf

echo 'net.core.somaxconn = 4096' >> /etc/sysctl.conf
sysctl -p


OS limits -

Linux defaults limits are too tight for Hadoop, make sure to tune limits for user running Hadoop services:

hadoop - memlock unlimited
hadoop - core unlimited
hadoop - nofile 65536
hadoop - nproc unlimited
hadoop - nice -10
hadoop - renice -10


File-system tunings -

Make sure your /etc/fstab mount options for Hadoop disks are with 'noatime' parameter, the gain is that no metadata has to be updated per filesystem reads/writes improving IO performance.

/dev/sdc  /data01  ext4  defaults,noatime  0 0
/dev/sdd  /data02  ext4  defaults,noatime  0 0
/dev/sde  /data03  ext4  defaults,noatime  0 0
/dev/sdf  /data04  ext4  defaults,noatime  0 0

Also, make sure to reclaim filesystem blocks that are by default set to be reserved to be used by privileged processes. By default 5% of total filesystem capacity is reserved. This is important especially on big disks (+2TB), since a lot of storage space can be reclaimed -

tune2fs -m 0 /dev/sdc

Disable Transparent Huge Pages (RHEL6+) -

RHEL 6.x includes a feature called "transparent hugepage compaction" which interacts poorly with Hadoop workloads. This can cause a serious performance regression compared to other operating system versions on the same hardware, the symptom is very high kernel space (sys) CPU usage.

echo never > /sys/kernel/mm/redhat_transparent_hugepage/enabled
echo  never  >  /sys/kernel/mm/redhat_transparent_hugepage/enabled

echo 'echo never > /sys/kernel/mm/redhat_transparent_hugepage/enabled' >> /etc/rc.local
echo 'echo  never  >  /sys/kernel/mm/redhat_transparent_hugepage/enabled' >> /etc/rc.local

Enable NSCD -

In environments synced to NIS/LDAP for central authentication, it's possible to enable NSCD daemon so user/group information will be retrieved from local cache and not from server.

2 comments:

Jhon David said...

There are lots of information about latest technology and how to get trained in them, like Big Data Training in Chennai have spread around the web, but this is a unique one according to me. The strategy you have updated here will make me to get trained in future technologies(Big Data Training). By the way you are running a great blog. Thanks for sharing this.

Hadoop Training in Chennai | Big Data Training in Chennai

Sai Santosh said...

While training for hadoop online training I came to know about this website. Great insight about the subject through videos, presentations along with nice content on this site completely related to hadoop and cloud. Thank you...