It is not a secret anymore!
The Datawarehouse Hadoop cluster at Facebook has become the largest known Hadoop storage cluster in the world. Here are some of the details about this single HDFS cluster:
- 21 PB of storage in a single HDFS cluster
- 2000 machines
- 12 TB per machine (a few machines have 24 TB each)
- 1200 machines with 8 cores each + 800 machines with 16 cores each
- 32 GB of RAM per machine
- 15 map-reduce tasks per machine
That's a total of more than 21 PB of configured storage capacity! This is larger than the previously known Yahoo!'s cluster of 14 PB. Here are the cluster statistics from the HDFS cluster at Facebook:
Hadoop started at Yahoo! and full marks to Yahoo! for developing such critical infrastructure technology in the open. I started working with Hadoop when I joined Yahoo! in 2006. Hadoop was in its infancy at that time and I was fortunate to be part of the core set of Hadoop engineers at Yahoo!. Many thanks to Doug Cutting for creating Hadoop and Eric14 for convincing the executing management at Yahoo! to develop Hadoop as open source software.
Facebook engineers work closely with the Hadoop engineering team at Yahoo! to push Hadoop to greater scalability and performance. Facebook has many Hadoop clusters, the largest among them is the one that is used for Datawarehousing. Here are some statistics that describe a few characteristics of the Facebook's Datawarehousing Hadoop cluster:
- 12 TB of compressed data added per day
- 800 TB of compressed data scanned per day
- 25,000 map-reduce jobs per day
- 65 millions files in HDFS
- 30,000 simultaneous clients to the HDFS NameNode
A majority of this data arrives via scribe, as desribed in scribe-hdfs integration. This data is loaded in Hive. Hive provides a very elegant way to query the data stored in Hadoop. Almost 99.9% Hadoop jobs at Facebook are generated by a Hive front-end system. We provide lots more details about our scale of operations in our paper at SIGMOD titled Datawarehousing and Analytics Infrastructure at Facebook.
Here are two pictorial representations of the rate of growth of the Hadoop cluster:
Details about our Hadoop configuration
I have fielded many questions from developers and system administrators about the Hadoop configuration that is deployed in the Facebook Hadoop Datawarehouse. Some of these questions are from Linux kernel developers who would like to make Linux swapping work better with Hadoop workload; other questions are from JVM developers who may attempt to make Hadoop run faster for processes with large heap size; yet others are from GPU architects who would like to port a Hadoop workload to run on GPUs. To enable this type of outside research, here are the details about the Facebook's Hadoop warehouse configurations. I hope this open sharing of infrastructure details from Facebook jumpstarts the research community to design ways and means to optimize systems for Hadoop usage.