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Tuesday, March 12, 2019

What is Parallel Concurrent Processing?

What is Parallel Concurrent Processing?


Parallel concurrent processing allows you to distribute concurrent managers across multiple nodes in a cluster, massively parallel, or networked environment. Instead of operating concurrent processing on a single node while other nodes are idle, you can spread concurrent processing across all available nodes, fully utilizing hardware resources.

Benefits of Parallel Concurrent Processing ?

Parallel concurrent processing provides Oracle E-Business Suite users with the following benefits:

* High performance - the ability to run concurrent processes on multiple nodes to improve concurrent processing throughput.

* Fault Tolerance - the ability to continue running concurrent processes on available nodes even when one or more nodes fails.

* Adaptability - the ability to integrate with platform-specific batch queue and load-balancing systems to maximize concurrent processing performance on a particular platform.

* Single Point of Control - the ability to administer concurrent managers running on multiple nodes from any node in a cluster, massively parallel, or networked environment.

Parallel Concurrent Processing Environments ?

Parallel concurrent processing runs in multi-node environments, such as cluster, massively parallel, and networked environments. In these environments, each node consists of one or more processors (CPUs) and their associated memory. Each node has its own memory that is not shared with other nodes And each node operates independently of other nodes, except when sharing a resource such as a disk.

Important Roles in PCP:

Role of ICM in PCP ?

1.Internal Manager (ICM) monitors, activates and deactivates all managers.
2.ICM migrates managers during node and/or instance failures and needs to be active for failover/failback to work.
3.ICM uses the Service Manager (FNDSM) to spawn and terminate all concurrent manager processes, and to manage GSM services like Workflow mailer, Output Post Processor, etc.
4.ICM will contact the APPS TNS Listener on each local and remote concurrent processing node to start the Service Manager on that node.
5.ICM will not attempt to start a Service Manager if it is unable to TNS ping the APPS TNS Listener
6.One Service Manager is defined for each application node registered in FND_NODES.
7.Each service/manager may have a primary and a secondary node. Initially, a concurrent manager is started on its primary node. In case of node failure, all concurrent managers on that node migrate to their respective secondary nodes.

Role of Service Manager in PCP ?

1.Service manager (FNDSM process) is used to manage services/managers on each concurrent node. It is a requirement in all concurrent processing environments and is therefore an integral part of PCP. PCP cannot be implemented without Service manager.
2.The Service Manager is spawned from the APPS TNS Listener.
3.The APPS TNS Listener must be started on every application node in the system, and started by the user that starts ICM (e.g. applmgr)
4.TNS Listener spawns Service Manager to run as agent of ICM for the local node
5.The Service Manager is started by ICM on demand when needed. If no management actions are needed on a node, Service Manager will not be started by ICM until necessary. When ICM exits its Service Managers exit as well.
6.The Service Manager environment is set by gsmstart.sh and APPSORA.env as defined in listener.ora

Role of Internal Monitors in PCP ?

1.The only function of Internal Monitor (FNDIMON process) is to check if ICM is running and restart failed ICM on local node.
2.Internal Monitors are seeded on every registered node by default by autoconfig.
3.Activate Internal Monitor on each concurrent node where the ICM can start in case of a failure. Bydefault, Internal Monitor is deactivated.
4.If the ICM goes down, the Internal Monitor will attempt to start a new ICM on the local node.
5.If multiple ICMs are started, only the first will stay active. The others will gracefully exit.


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