WebSphere eXtreme Scale Product Overview > Scalability
Partitioning
Use partitioning to store large amounts of data in the Java™ Virtual Machine (JVM).
To partition data, use an application-specified scheme to divide the data. With eXtreme Scale, partitioning increases both scalability and availability.
Use partitions
A grid can have many partitions, or thousands of partitions if required. A grid can scale up to the product of the number of partitions times the number of shards per partition. For example, if you have 16 partitions and each partition has one primary and one replica, or two shards, then you can potentially scale to 32 Java virtual machines. In this case, one shard is defined for each JVM. You must choose a reasonable number of partitions based on the expected number of Java virtual machines that you are likely to use. Each shard increases processor and memory usage for the system. The system is designed to scale out to handle this overhead in line with how many server Java virtual machines are available.
Applications should not use thousands of partitions if the application runs on a grid of four container Java virtual machines. The application should be configured to have a reasonable number of shards for each container JVM. For example, an unreasonable configuration is 2000 partitions with two shards that are running on four container Java virtual machines. This configuration results in 4000 shards that are placed on four container Java virtual machines or 1000 shards per container JVM.
A better configuration would be under 10 shards for each expected container JVM. This configuration still gives the possibility of allowing for elastic scaling that is ten times the initial configuration while keeping a reasonable number of shards per container JVM.
Consider this scaling example: you currently have six computers with two container Java virtual machines per computer. You expect to grow to 20 computers over the next three years. With 20 computers, you have 40 container Java virtual machines, and choose 60 to be pessimistic. You want 4 shards per container JVM. You have 60 potential containers, or a total of 240 shards. If you have a primary and replica per partition, then you want 120 partitions. This example gives you 240 divided by 12 container Java virtual machines, or 20 shards per container JVM for the initial deployment with the potential to scale out to 20 computers later.
Entities and partitioning
Entity manager entities have an optimization that helps clients that are working with entities on a server. The entity schema on the server for the map set can specify a single root entity. The client must access all entities through the root entity. The entity manager can then find related entities from that root in the same partition without requiring the related maps to have a common key. The root entity establishes affinity with a single partition. This partition is used for all entity fetches within the transaction after affinity is established. This affinity can save memory because the related maps do not require a common key. The root entity must be specified with a modified entity annotation as shown in the following example:@Entity(schemaRoot=true)Use the entity to find the root of the object graph. All child entities are assumed to be in the same partition as the root. The child entities in this graph are only accessible from a client from the root entity. Root entities are always required in partitioned environments when using an eXtreme Scale client to communicate to the server. Only one root entity type can be defined per client. Root entities are not required when using Extreme Transaction Processing (XTP) style ObjectGrids, since all communication to the partition is accomplished through direct, local access and not through the client and server mechanism.
- Placement and partitions
You have two placement strategies available for WebSphere eXtreme Scale: fixed partition and per container. The choice of placement strategy affects how the deployment configuration places partitions over the remote grid.- PartitionableKey interface
When an eXtreme Scale configuration uses the fixed partition placement strategy, it depends on hashing the key to a partition to insert, get, update, or remove the value. The hashCode method is called on the key and it must be well defined if a custom key is created. However another option is to use the PartitionableKey interface. With the PartitionableKey interface, you can use an object other than the key to hash to a partition.- Single-partition and cross-grid partition transactions
The major distinction between WebSphere eXtreme Scale and traditional data storage solutions like relational databases or in-memory databases is the use of partitioning, which allows the cache to scale linearly. The important types of transactions to consider are single-partition and every-partition (cross-grid) transactions.
Parent topic
Scalability