Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As per http://www.dbta.com/Articles/Columns/Notes-on-NoSQL/Cassandra-and-Hadoop---Strange-Bedfellows-or-a-Match-Made-in-Heaven-75890.aspx

Cassandra has pursued somewhat different solutions than has Hadoop. Cassandra excels at high-volume real-time transaction processing, while Hadoop excels at more batch-oriented analytical solutions.

What are the differences in the architecture/implementation of Cassandra and Hadoop which account for this sort of difference in usage. (in lay software professional terms)

share|improve this question
Cassandra has support for Hadoop - wiki.apache.org/cassandra/HadoopSupport –  mguymon Nov 13 '12 at 6:47

2 Answers 2

up vote 1 down vote accepted

The Vanilla hadoop consists of a Distributed File System (DFS) at the core and libraries to support Map Reduce model to write programs to do analysis. DFS is what enables Hadoop to be scalable. It takes care of chunking data into multiple nodes in a multi node cluster so that Map Reduce can work on individual chunks of data available nodes thus enabling parallelism.

The paper for Google File System which was the basis for Hadoop Distributed File System (HDFS) can be found here

The paper for Map Reduce model can be found here

For a detailed explanation on Map Reduce read this post

Cassandra is a highly scalable, eventually consistent, distributed, structured key-value store. It is not a conventional database but is more like Hashtable or HashMap which stores a key/value pair. Cassandra works on top of HDFS and makes use of it to scale. Both Cassandra and HBase are implementations of Google's BigTable. Paper for Google BigTable can be found here.

BigTable makes use of a String Sorted Table (SSTable) to store key/value pairs. SSTable is just a File in HDFS which stores key followed by value. Furthermore BigTable maintains a index which has key and offset in the File for that key which enables reading of value for that key using only a seek to the offset location. SSTable is effectively immutable which means after creating the File there is no modifications can be done to existing key/value pairs. New key/value pairs are appended to the file. Update and Delete of records are appended to the file, update with a newer key/value and deletion with a key and tombstone value. Duplicate keys are allowed in this file for SSTable. The index is also modified with whenever update or delete take place so that offset for that key points to the latest value or tombstone value.

Thus you can see Cassandra's internal allow fast read/write which is crucial for real time data handling. Whereas Vanilla Hadoop with Map Reduce can be used to process batch oriented passive data.

share|improve this answer
Cassandra is not related to HDFS in any way. Its architecture is closer to Amazon Dynamo. –  Wildfire Nov 13 '12 at 8:20
Thanks for the answer. It is useful indeed –  arahant Nov 13 '12 at 19:03
On more reading it seems that Hadoop is explicitly designed for the write once and read many times access. As per the doc Most block-structured file systems use a block size on the order of 4 or 8 KB. By contrast, the default block size in HDFS is 64MB, which means that HDFS is more useful for very big sequential reads rather than small random reads –  arahant Nov 13 '12 at 19:08

I wanted to add, because I think there might be a misleading statement here saying Cassandra might perform for good for reads. Cassandra is not very good at random reads either, it's good compared to other solutions out there in how can you read randomly over a huge amount of data, but at some point if the reads are truly random you can't avoid hitting the disk every single time which is expensive, and it may come down to something useless like a few thousand hits/second depending on your cluster, so planning on doing lots of random queries might not be the best, you'll run into a wall if you start thinking like that. I'd say everything in big data works better when you do sequential reads or find a way to sequentially store them (e.g. secondary indices). Most cases even when you do real time processing you still want to find a way to batch your queries. This is why you need to think beforehand what you store under a key and try to get the most information possible out of a read. It's also kind of funny that statement says transaction and Cassandra in the same sentence, cause that really doesn't happen. On the other hand hadoop is meant to be batch almost by definition, but hadoop is a distributed map reduce framework, not a db, in fact, I've seen and used lots of hadoop over cassandra, they're not antagonistic technologies. Handling your big data in real time is doable but requires good thinking and care about when and how you hit the database.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.