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I would like to deploy mongoDB on EC2 for my production. However, I could not find enough information online to help answer my architectural questions.

  1. In general, what should be the initial cluster w/N shards?
  2. What should be the deployment plan for adding additional shards?
  3. What should be the failover strategy (what happens when one or more nodes fail)?
  4. What should be the disaster recovery strategy? I am thinking about setting up some nodes in US East and other nodes in US West like this powerpoint file says.

Answers are very appreciated.

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closed as too broad by hexacyanide, EdChum, greg-449, Emissary, Ryan McDonough Jul 4 at 8:27

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

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4 Answers

up vote 17 down vote accepted
  1. Start with sharding enabled but limit the amount of shards to what you actually need. Starting with sharding enabled means having mongos daemons in place, select your shard keys for the relevant collections and make your queries targeted as opposed to global whenever possible. From that point on add shards as load increases. Possible exception is when you expect a lot of traffic influx at launch in which case you want to both add more shards and pre-split and pre-move your chunks to the appropriate shards since chunk balancing is a slow process.
  2. No such plan is necessary. Shards can be added and removed on fly. Note that removing shards involved retiring them. From that point it will take a (significant) amount of time before all chunks are moved to other shards so that the instance can be removed.
  3. Replica sets allow for this. If your durability requirements aren't super critical you can achieve some cost efficiency by hosting multiple arbiters on a single instance rather than doing full 3 member repsets. Also note that repsets will improve read performance for eventual consistency compatible queries using the "slaveOk" flag. Also, you can consider achieving similar levels of durability with less overhead by using disk level failover (e.g. RAID10). Obviously this doesn't catch full instance failures.
  4. Geographical datacenter splits are always a good idea but do note that replication performance will suffer significantly. Strategies for this are no different than any other database.

Further notes :

  • EC2 network layer is limited to 100k packets per second. For small, high throughput queries this will become a bottleneck quickly.
  • RAID your EBS volumes. Running on a single EBS volume will cause EXTREMELY irratic performance. This becomes more stable as more volumes are part of the RAID setup. Must have!
  • Use high memory instances. We've seen significant performance improvements here since there's only so much you can do about right balancing your indexes and keeping only relevant data in memory. Keep an eye on your faults/sec in mongostat. These are pagefaults and thus the amount of times mongo has to hit disk to swap out a page.
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myNoSQL, my most favourite NoSQL blog, recently posted an article called Running MongoDB in the Cloud listing several articles about deploying MongoDB in the Amazon cloud.

  • MongoDB on Amazon EC2 with EBS Volumes
  • MongoDB on EC2
  • MongoDB in the Amazon Cloud
  • Setting Up MongoDB Replica Sets on Amazon EC2
  • MongoDB and Amazon: Why EBS?
  • Amazon EBS vs SSD: Price, Performance, QoS
  • Multi-tenancy and Cloud Storage Performance
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Winston, Kristina Chodorow's "Scaling MongoDB" is what you want:

http://oreilly.com/catalog/0636920018308

As I understand it,

1) You want replica sets of 3 or more (some odd number) instances for each shard, plus perhaps some time-delayed instances in each shard to act as backup

2) Simply add them to the cluster - Mongo will slowly move shards onto the new nodes until the cluster has been re-balanced

3) Replica sets will generally handle failover nicely; however, you may want to add arbiter instances of Mongo to the servers running your application frontend - these arbiters will vote for remaining instances to become primaries, in the event that many nodes have gone down, and will help ensure that any Mongo instances accessible to your frontend servers will be able to take over primary roles

4) Adding time-delayed instances to each replica set is a good idea, especially if (as you say) they're distributed geographically, or if they're on several hosting providers (i.e., if your main servers are on Amazon, you might put backups on Rackspace). If the majority of a replica set goes down, the remaining nodes won't automatically elect a new primary, but you can do so manually in a disaster like that.

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1) I would start with a couple of shards unless you know you definitely need more.
2) The tricky part of adding more shards is the time it takes to rebalance. Depending on your data and the load it might take days for the entire shard to rebalance. So you want to schedule the shard addition during times of low load
3) Each shard should be atleast a 2+1 replica set with the replicas distributed across availability zones.
4) If you are interested in disaster recovery you should spread your replicas across regions instead of across availability zones. More info here -EC2 best practices. Also remember to configure the priority of your replica sets properly in case you distribute the replicas across geographies.

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