As the world's largest social network, Facebook accumulates more data in a single day than many good size companies generate in a year.
Facebook stores much of the data on its massive Hadoop cluster, which has grown exponentially in recent years.
Today the cluster holds a staggering 30 petabytes of data or, as Facebook puts it, about 3,000 times more information than is stored by the Library of Congress. The Facebook data store has grown by more than a third in the past year, the company notes.
To accommodate the surging data volumes, the company earlier this year launched an effort to move the ever-growing Hadoop cluster to a new and bigger Facebook data center in Prineville, Ore. The biggest data migration effort ever at Facebook was completed last month, the company said.
Paul Yang, an engineer with Facebook's data infrastructure team, outlined details of the project this week on the company's blog site. Yang said the migration to the new Facebook data center was necessary because the company had run out of available power and space leaving it unable to add nodes to the Hadoop cluster.
Yang was not immediately available to speak with Computerworld about the effort.
Facebook's experience with Hadoop is likely to be of interest to a growing number of companies that are tapping the Apache open source software to capture and analyze huge volumes of structured and unstructured data.
Much of the Hadoop's appeal lies in its ability to break up very large data sets into smaller data blocks that are then distributed across a cluster of commodity hardware systems for faster processing.
A Ventana Research report released this week showed that a growing number of enterprises have started using Hadoop to collect and analyze huge volumes of unstructured and machine-generated information, such as log and event data, search engine results, and text and multimedia content from social media sites.
Facebook said it uses Hadoop technology to capture and store billions of pieces of content generated by its members daily. The data is analyzed using the open source Apache Hive data warehousing tool set.
Other data-heavy companies using Hadoop in a similar manner include eBay, Amazon and Yahoo. Yahoo is a major contributor of Hadoop code.
Facebook's Hadoop cluster was said by bloggers in May 2010 to be the largest in the world.
At the time, the cluster consisted of 2000 machines, 800 16-core systems and 1,200 8-core machines. Each of the systems in the cluster stored between 12 and 24 terabytes of data.
Facebook had a pair of potential methods for moving the cluster to a new data center, Yang said in his post.
The company could physically move each node to the new location, a task that could have been completed in a few days "with enough hands at the job," he said. The company decided against that route because it would have resulted in an unacceptably long downtime, he said.
Instead, Facebook decided to build a new, larger Hadoop cluster and simply replicate data from the old cluster on it. The chosen approach was the more complex option because the source data that Facebook was seeking to replicate was on a live system with files being created and deleted continuously, Yang said in his blog.
Thus Facebook engineers built a new replication system that could handle the unprecedented cluster size and data load. "Because replication minimizes downtime, it was the approach that we decided to use for this massive migration," he said.
According to Yang, the data replication project was accomplished in two steps.
First, most of the data and directories from the original Hadoop cluster were copied in bulk to the new one using an open source tool called DistCp.
Then all changes to the files and data that happened after the bulk copying was done were replicated to the new cluster using Facebook's newly developed file replication system. The file changes were captured by a Hive plug-in that was also developed in-house by Facebook developers.
At switchover time, Facebook temporarily shutdown Hadoop's ability to create new files and let its replication system finish replicating all data on to the new cluster. It then changed its DNS settings so they pointed to the new server.
According to Yang, the fast internally-built data replication tool was a key contributor to the success of the migration project.
In addition to its use for data migration, the replication tool is used to provide new disaster-recovery functionality to the Hadoop cluster, he said.
"We showed that it was possible to efficiently keep an active multi-petabyte cluster properly replicated, with only a small amount of lag," he said. "With replication deployed, operations could be switched over to the replica cluster with relatively little work in case of a disaster."
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