An Automated Approach to Management of a Collection of Autonomic Systems

Modern enterprise IT systems are increasingly becoming compositions of many subsystems each of which is an autonomic system. These individual autonomic systems act independently to maintain their locally defined SLAs but can take actions which are inconsistent with and potentially detrimental to the global system objective. Currently, human administrators intervene to resolve these conflicts but are challenged by complexity in the prediction of current and future states of the constituent systems and their managers, multiple conflicting quality dimensions which may change over time, combinatorially large configuration space across the set of constituent systems, and the time critical nature of the decisions to be made to prevent further degradation. To address these challenges, this paper proposes an approach that enables the creation of a higher level autonomic system, referred to as a meta-manager, that does not subsume the control functions nor does it directly orchestrate the actions of the sub-autonomic managers. Instead, we encapsulate and abstract the behavior of each subsystem as a parameterized adaptation policy which can be adjusted by the meta-manager to tune the adaptive behavior of the subsystem adaptation. We can effectively instantiate this idea by considering each of the subsystems as a player in a stochastic multi-player game against it's local environment, and synthesize an adaptation.