Corente, NetFuel Inc. and Singlestep Technologies are scheduled to introduce products this month with the Common Base Event format, previously submitted by IBM to the OASIS standards body, which is envisioned as the basis for standardized exchange of problem determination data. The companies also integrated the Autonomic Management Engine (AME) into upcoming products. The AME monitors events, analyzes them, then plans and executes corrective action on a computing resource. When integrated with the other autonomic technologies, the AME is the facilitator of a self-managing system.

Addamark Technologies and Network Physics will debut products later this year with IBM autonomic capabilities.

A few weeks ago, IBM and Cisco jointly announced the Cisco Business Ready Data Center Optimized with IBM for the on-demand operating environment. Autonomic computing technology was implemented for the log conversion of Cisco's IGESM in the BladeCenter, which will provide customers the unique capability to pinpoint and resolve potential networking related problems using autonomic problem determination technologies.

IBM Research continues to make great strides to further the vision of Autonomic Computing, a world in which computing systems manage themselves to a far greater extent than they do today. It is a world where interacting sets of individual computing elements regulate and adapt their own behavior in order to respond to a wide range of changing conditions with only high-level direction from humans.

IBM Research is focusing its efforts on developing technologies and architectures that support multi-component self-managing systems. Large-scale systems, composed of interacting assemblies of these components and others that manage and serve them, will be self-configuring, self-optimizing, self-healing, and self-protecting. Key research initiatives include:

Unity
The Unity project explores component behaviors, relationships and technologies that will support self-management of complex computing systems. Whether a component is a database, storage system or server, each element is responsible for its own internal autonomic behavior, including managing the resources that it controls, and managing its own internal operations. Each element is also responsible for forming and managing the relationships that it enters into with other autonomic elements in order to accomplish its goals. The Unity project has created a working prototype of an autonomic data center that configures, optimizes and heals itself.

Change Management with Planning and Scheduling: CHAMPS
Change management is a process by which IT systems are modified to accommodate considerations such as software fixes, hardware upgrades and performance enhancements. Today, administrators perform these tasks with little automation for planning and scheduling changes, either off-line or in real time. The CHAMPS system, a prototype under development at IBM Research, is able to plan and schedule change management actions automatically and in real time by exploiting knowledge of service dependencies in distributed systems. In essence, CHAMPS is able to figure out what configuration changes need to be done, plan how these changes should be rolled out, and make them happen.

Planning for Orchestrated Remediation of Security Incidents: Elix0r
While there is considerable focus in the IT industry on increasing the accuracy and automation of security incident detection, the response and recovery procedures for these incidents tend to be manual and somewhat ad-hoc. The Elix0r project aims to build a policy-enabled system for effecting security incident response and recovery procedures to achieve graceful degradation and reinstatement of services. Security incidents range from non-compliance with a security policy to vulnerability and infection by worms and viruses.

Event Mining
Self-healing systems should acquire the knowledge needed and adapt and grow such knowledge over time. One key type of knowledge is 'problem signatures' that indicate the underlying cause of a malfunction or slow-down. The Event Mining (EM) project aims to mine historical data to construct signatures for problem diagnosis and resolution. The EM system will improve the quality and speed of signature construction by mining current data sets, the historical data generated by a distributed computer system (log files and event logs, for example), and finding correlations between events and run-time behavior.