Add precisions
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@ -2,30 +2,37 @@ I have conducted a quick study of different methods to load-balance data over di
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### Requirements
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### Requirements
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- good balancing: two nodes that have the same announced capacity should receive close to the same number of items
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- *good balancing*: two nodes that have the same announced capacity should receive close to the same number of items
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- multi-datacenter: the replicas of a partition should be distributed over as many datacenters as possible
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- minimal disruption: when adding or removing a node, as few partitions as possible should have to move around
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- *multi-datacenter*: the replicas of a partition should be distributed over as many datacenters as possible
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- *minimal disruption*: when adding or removing a node, as few partitions as possible should have to move around
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- *order-agnostic*: the same set of nodes (associated with a datacenter name
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and a capacity) should always return the same distribution of partition
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replicas, independently of the order in which nodes were added/removed (this
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is to keep the implementation simple)
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### Methods
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### Methods
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#### Naive multi-DC ring walking strategy
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#### Naive multi-DC ring walking strategy
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This strategy can be used with any ring-linke algorithm to make it aware of the *multi-datacenter* requirement:
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This strategy can be used with any ring-like algorithm to make it aware of the *multi-datacenter* requirement:
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- the ring is a list of positions, each associated with a single node in the cluster
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- the ring is a list of positions, each associated with a single node in the cluster
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- look up position of item on ring
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- look up position of item on ring
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- select the node for that position
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- select the node for that position
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- go clockwise, skipping nodes that:
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- go clockwise, skipping nodes that:
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- we halve already selected
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- we halve already selected
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- are in a datacenter of a node we have selected, except if we already have nodes from all available datacenters
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- are in a datacenter of a node we have selected, except if we already have nodes from all possible datacenters
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In this way the selected nodes will always be distributed over
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In this way the selected nodes will always be distributed over
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`min(n_datacenters, n_replicas)` different datacenters, which is the best we
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`min(n_datacenters, n_replicas)` different datacenters, which is the best we
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can do.
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can do.
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This method was implemented in the first iteration of Garage, with the basic
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This method was implemented in the first version of Garage, with the basic
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ring construction that consists in associating `n_token` random positions to
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ring construction from Dynamo DB that consists in associating `n_token` random positions to
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each node.
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each node (I know it's not optimal, the Dynamo paper already studies this).
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#### Better rings
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#### Better rings
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@ -43,7 +50,7 @@ To solve this, we want to apply a second method for partitionning our dataset:
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I have studied two ways to do the attribution, in a way that is deterministic:
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I have studied two ways to do the attribution, in a way that is deterministic:
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- Custom: take `argmin_node(hash(node, partition_number))`
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- Min-hash: for each partition, select node that minimizes `hash(node, partition_number)`
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- MagLev: see [here](https://blog.acolyer.org/2016/03/21/maglev-a-fast-and-reliable-software-network-load-balancer/)
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- MagLev: see [here](https://blog.acolyer.org/2016/03/21/maglev-a-fast-and-reliable-software-network-load-balancer/)
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MagLev provided significantly better balancing, as it guarantees that the exact
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MagLev provided significantly better balancing, as it guarantees that the exact
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