AgileApps Support Wiki Pre Release

Difference between revisions of "Cluster Deployment"

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The following diagram shows the kind of architecture that is typical for a production system pre-10.3 release and post 10.3 release. With the 10.3 release, AgileApps uses the common Tomcat that comes along with the IS installation and does not use the stand-alone Tomcat anymore. This allows AgileApps access to the flow services on the co-hosted IS.
The following diagram shows the kind of architecture that is typical for a production system pre-10.3 release and post 10.3 release. With the 10.3 release, AgileApps uses the common Tomcat that comes along with the IS installation and does not use the stand-alone Tomcat anymore. This allows AgileApps access to the flow services on the co-hosted IS.


::'''Architecture for pre-10.3 Release'''
::'''Architecture for pre-10.3 Release|Center'''
:[[File:PrototypeProductionInstallation.png]]
:[[File:PrototypeProductionInstallation.png]]



Revision as of 14:07, 12 December 2019

The following diagram shows the kind of architecture that is typical for a production system pre-10.3 release and post 10.3 release. With the 10.3 release, AgileApps uses the common Tomcat that comes along with the IS installation and does not use the stand-alone Tomcat anymore. This allows AgileApps access to the flow services on the co-hosted IS.

Architecture for pre-10.3 Release|Center
PrototypeProductionInstallation.png


Architecture for post-10.3 Release

AgileApps architecture.jpg

The key points depicted in the diagram are:

  • The platform is deployed across multiple servers.
  • A Load Balancer distributes traffic across the web servers.
  • Apache httpd is an optional front-end web server for the application server.
    Learn more: Installing and Configuring Apache for Use with the Platform
  • The Messaging server handles all social media interactions .
    It also handles on-screen notifications when people are looking at the same case.
  • Messages are exchanged between it and the application server to manage those interactions.
  • HornetQ maintains the store-and-forward message queue for those communications.
Learn more: Installing the Messaging Server
  • Memcached servers reduce response time by caching data in memory.
    Learn more: Configuring memcached
  • The suite of memcached servers are accessed by all application servers, backend as well as front end.
  • The critical backend processes shown here (import, export, and scheduling, which uses quartz) are all being run from a single platform instance. But additional servers can be employed, as load demands.
    Learn more: Managing Backend Services
  • Document storage (which includes pictures and image files) is managed separately from the database.
  • The database is running on its own server, for added performance.
    Learn more: Configuring MySQL to Run on a Separate Server
  • The primary database instance and the replication instance are each running on separate servers, both for reliability and for performance of read-intensive operations.
    Learn more:
Using Replication with Different Master and Slave Storage Engines
http://dev.mysql.com/doc/refman/5.5/en/replication-solutions-diffengines.html