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When is it a good idea to use something like CRDT instead of paxos?

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5 Answers 5

up vote 25 down vote accepted

If you can use something like CRDT, do so. You should get much better performance. It also enables interesting use cases such as working offline and then merging later. However it is not always possible to design things such that a CRDT will work for you. In that case, paxos can solve the hard problems for you.

But even if you've decided to use paxos, generally you should limit how much work is being done directly through the paxos algorithm. Instead for performance reasons you want to reserve paxos for necessary operations such as master election, and then let a replicated master setup handle most decisions. (In a high throughput environment the master is likely to do something like delegate responsibility for specific shards to specific children, which replicate off each other. Do not let the master become a bottleneck...)

That said, it is much easier to claim that you'll wave the magic wand of paxos than it is to actually do it in practice. In that light you may find to be an interesting description of the difficulties that a real-world paxos implementation is likely to encounter.

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For anyone today who reads this, if you're thinking of implementing paxos then you probably should instead use Zookeeper. And if you're trying to deal with distributed consistency, you should read then think long and hard about not trying to reinvent the wheel. – btilly Sep 28 at 23:31

I think this guy know what he is talking about:



Conclusion about distributed systems

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Awesome video. Thank you for the link! – asmaier Jan 10 '14 at 12:44
Very good link thanks! – Eric des Courtis Jan 29 '14 at 17:01

There is a flaw with the CRDT Treedoc example. Each node requires a disambiguator for the case when two systems insert at the same time with the same key.

After this happens it is not longer possible for systems to insert between the entries that have identical keys but different disambiguators, as that requires the system to insert another identical key but controlling the disambiguator ordering. The disambiguators are not dense so this is not always possible. If the disambiguators were yet another tree, you solve one problem but then need another conflict resolution mechanism a depth further down ... etc.

This unmentioned problem, plus the fact you need to do a two phase commit to tidy up the meta-data makes me think CRDTs are still a work in progress.

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What do you think about the Riak implementation of CRDTs? – Eric des Courtis May 13 '14 at 18:15
The different flavour of sets seems to not have the same problem as the treedoc, they are on firmer ground. I was a bit too general in my negativity, but the treedoc was my first exposure to CRDTs. Note that the different sets all have drawbacks and qwerks though, none are actually a set in a mathmatical sense, that's why there are so many different types. So CRDT are not a total solution, you have to work out which qwerks are ok for your application, but there was never going to be a total solution given CAP. – Tom Larkworthy May 13 '14 at 18:46

There are multiple metrics we have:

  • throughput (CRDT and Paxos are the same because all requests are replicated on all replicas in the end no matter CRDT or Paxos);
  • latency (CRDT is better than Paxos because it writes to smaller number of replicas);
  • reliability (CRDT is weaker than Paxos because it writes to smaller number of replicas (smaller than majority) which may result state lost);
  • consistency (CRDT is weaker than Paxos because it allows concurrent writes without synchronization point (basically no overlapping replicas), while Paxos writes always requires an overlapping replica to do the serialization).

My suggestion is that we should use Paxos when the replicas are not far from each other (e.g., within a data center), and use CRDT when network partitioning is a normal (e.g., disconnected mobile).

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Whenever it is appropriate. However, PaxOS is not that bad as its throughput is typically the same as with CRDT, not to mention that the reliability is much higher (CRDT may result state lost), and, its latency is not that bad neither as it only requires a majority of the replicas replies instead of all.

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Could you please back up the statement "PaxOS is not that bad as its throughput is typically the same as with CRDT" and "CRDT may result state lost" when compared to Paxos. – Eric des Courtis Mar 5 '14 at 16:08
All write requests need to be propagated to all replicas in the end, which means that the total processing amount is the same, no matter PaxOS or CRDT. CRDT results state lost when a replica works offline and it loses its state before state merge happen. – imzhenyu May 9 '14 at 6:26
While it is true that all write requests need to be propagated to all replicas. I don't think PaxOS actually results in any performance gains in comparison with CRDTs. You gain performance from the fact that you can write to many nodes simultaneously. Not to mention that with PaxOS you typically need to do replication anyway. Also PaxOS also has this property that it forces you do have a bottleneck (master node). – Eric des Courtis May 13 '14 at 18:09
I agree CRDT has better latency performance with some cost. See my new answer above (too long to post as a comment). – imzhenyu Jun 19 '14 at 9:35

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