Terms
Overview
There are several terms which are used to describe the ability of multiple servers to work together to handle additional load or to survive the failure of a particular server:
- Failback
Failback is an extension to failover that allows a server to reclaim its responsibilities once it restarts. For example, "When the server came back up, the processes that it was running previously were failed back to it."
- Failover
Failover refers to the ability of a server to assume the responsibilities of a failed server. For example, "When the server died, its processes failed over to the backup server."
- Federated Server Model
A federated server model allows multiple servers to cooperate in a distributed manner as if they were a single server, while delegating responsibilities to certain specific servers within the federation. For example, in a federated database, servers from different database vendors can appear to an application to be a single server.
- Load Balancer
A load balancer is a hardware device or software program that delegates network requests to a number of servers, such as in a server farm or server cluster. Load balancers typically can detect server failure and optionally retry operations that were being processed by that server at the time of its failure. Load balancers typically attempt to keep the servers to which they delegate equally busy, hence the use of the term "balancer". Load balancer devices often have a high-availability option that uses a second load balancer, allowing one of the load balancer devices to die without affecting availability.
- Server Cluster
A server cluster is composed of multiple servers that are each aware of the other servers in the cluster, can directly communicate with each other, share responsibilities (load-balance), and are able to assume the responsibilities failed servers. Generally speaking, clustering usually implies a concept of shared resources or shared state.
- Server Farm
A server farm utilizes multiple servers to handle increased load and provide increased availability. It is common for a load-balancer to be used to assign work to the various servers in the server farm, and server farms often share back-end resources, such as database servers, but each server is typically unaware of other servers in the farm, and usually the load-balancer is responsible for failover.
- JCache
JCache (also known as JSR-107), is a caching API specification that is currently in progress. While the final version of this API has not been released yet, Tangosol and other companies with caching products have been tracking the current status of the API. The API has been largely solidified at this point. Few significant changes are expected going forward.
It is worth noting that the terms federated server model, server clustering and server farming are often used loosely and interchangeably.
Tangosol Coherence supports both homogenous server clusters and the federated server model. Any application or server process that is running the Coherence software is called a cluster node. All cluster nodes on the same network will automatically cluster together . Cluster nodes use a peer-to-peer protocol, which means that any cluster node can talk directly to any other cluster node.
Coherence is logically sub-divided into clusters, services and caches. A Coherence cluster is a group of cluster nodes that share a group address, which allows the cluster nodes to communicate. Generally, a cluster node will only join one cluster, but it is possible for a cluster node to join (be a member of) several different clusters, by using a different group address for each cluster.
Within a cluster, there exists any number of named services. A cluster node can participate in (join) any number of these services; when a cluster node joins a service, it automatically has all of the information from that service available to it; for example, if the service is a replicated cache service, then joining the service includes replicating the data of all the caches in the service. These services are all peer-to-peer, which means that a cluster node typically plays both the client and the server role through the service; furthermore, all of these services will failover in the event of cluster node failure without any data loss.
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