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This introduction to Cassandra Replication and Consistency (slides 14-15) boldly asserts:

R+W>N guarantees overlap of read and write quorums.

Please imagine this inequality has huge fangs, dripping with the blood of innocent, enterprise developers so you can best appreciate the terror it inspires.

I understand having the sum of the read and write Consistency Levels (R+W) greater than Replication Factor (N) is a good idea... but what's the big deal?

What are the implications, and how does R+W>N compare to the alternatives?

  • R+W < N
  • R+W = N
  • R+W >> N
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up vote 12 down vote accepted

The basic problem we are trying to solve is this:

Can a situation occur in which a read doesn't return the most up-to-date value?

Obviously, this is best avoided if possible!

If R+W <= N, then this situation can occur.

A write could send a new value to one group of nodes, while a subsequent read could read from a completely separate group of nodes, and thus miss the new value written.

If R+W > N, then this situation is guaranteed not to occur.

There are N nodes that might hold the value. A write contacts at least W nodes - place a "write" sticker on each of these. A subsequent read contacts at least R nodes - place a "read" sticker on each of these. There are R+W stickers but only N nodes, so at least one node must have both stickers. That is, at least one node participates in both the read and the write, so is able to return the latest write to the read operation.

R+W >> N is impossible.

The maximum number of nodes that you can read from, or write to, is N (the replication factor, by definition). So the most we can have is R = N and W = N, i.e. R+W = 2N. This corresponds to reading and writing at ConsistencyLevel ALL. That is, you just write to all the nodes and read from all the nodes, nothing fancy happens.

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Good explanation - just wanted to add that that Read Repair can update the nodes, in the background, so that the next read will be up-to-date. – DNA Oct 23 '11 at 14:04

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