- N+1 — provides a single additional node that is brought online to take over the role of the node that has failed. In the case of heterogeneous software configuration on each primary node, the additional node must be universally capable of assuming any of the roles of the primary nodes it is responsible for. This normally refers to clusters which have multiple services running simultaneously; in the single service case, this degenerates to Active/Passive.
- N+M — in cases where a single cluster is managing many services, having only one dedicated failover node may not offer sufficient redundancy. In such cases, more than one (M) standby servers are included and available. The number of standby servers is a tradeoff between cost and reliability requirements.
- N-to-1 — allows the failover standby node to become the active one temporarily, until the original node can be restored or brought back online, at which point the services or instances must be failed-back to it in order to restore High Availability.
- N-to-N — A combination of Active/Active and N+M clusters, N to N clusters redistribute the services or instances from the failed node among the remaining active nodes, thus eliminating (as with Active/Active) the need for a 'standby' node, but introducing a need for extra capacity on all active nodes.
High Availability: Planning Redundancy
RohitShetty 1200008RCP Tags:  maximo veritas rohit shetty tpm bsm ibm smc ha tsamp tivoli samp hacmp tnpm tsa db2 tbsm 2,148 Visits
People are generally confused about the level of redundancy they need to provide while designing a HA solution. The cardinality of the primary to secondary components can be described in the following way and this decides the deployment topology of the various components: