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Autonomic Computing. An Introduction Guenter Kickinger. Outline. Autonomic Computing in General – IBM’s perspective Technologies & Tools Autonomic Computing and the Grid What can AC do for us?. The Problem – Increasing Complexity of IT Systems.
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Autonomic Computing An Introduction Guenter Kickinger
Outline • Autonomic Computing in General – IBM’s perspective • Technologies & Tools • Autonomic Computing and the Grid • What can AC do for us?
The Problem – Increasing Complexity of IT Systems • Complex systems require more and more skilled IT professionals to install, configure, operate, tune and maintain. • Difficulty of managing today’s computing systems goes well beyond the administration of individual software environments. New levels of complexity: • Integration of several heterogeneous environments into corporate-wide computing systems • Extension beyond company boundaries into the Internet • Architects are less able to anticipate and design interactions among components • Systems will become too massive and complex for even most system integrators to install
An Example Progress in Telephony
Autonomic Computing – The Solution (???) • Autonomic computing helps address these complexity issues by using technology to manage technology. • Term “autonomic” is derived from human biology – autonomic nervous system. • adjusts to many situations automatically without external help. • ANS monitors your heartbeat, checks your blood sugar level and keeps your body temperature close to 37, without any conscious effort on your part. • The vision: computing systems that can manage themselves given high-level objectives from administrators. • Manage complexity • “Know” themselves • Continuously tune themselves • Adapt to unpredictable conditions • Prevent and recover from failures • Provide a secure environment
Components of Self-Management • self-configuring • components adapt dynamically to changes in the IT system, using policies provided by IT professionals. • e.g. deployment of new components, removal of existing components • self-healing • environments can detect problematic operations and then initiate corrective action • system identifies and isolates a failed component. Comp. is taken offline, repaired or replaced. • self-optimizing • to make the best use of available resources even though these resources and requirements are constantly changing. • self-protecting • to allow authorized people to access the right data at the right time • to detect hostile or intrusive behaviour • to take autonomous actions to make the system less vulnerable.
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Technologies & Tools (1) • IBM Emerging Technologies Toolkit (ETTK) • software development kit for designing, developing, and executing emerging autonomic, web service, and grid-related technologies. • evolved from the Web Services Toolkit (WSTK) • includes a fully-functioning SOAP engine and embedded application server • provides • basic software components to experiment with and create Web services and autonomic programs • architectural overview of autonomic technologies, Web services, sample programs, utility services and tools for developing and deploying autonomic programs and Web services. • Technologies: WSDL, SOAP, WS-ResourceFramework
Technologies & Tools (2) • IBM Autonomic Computing Toolkit 2.0 • The IBM autonomic computing toolkit is a collection of • technologies, • tools, • examples, • scenarios, and • documentation that is designed for users wanting to learn about, adapt, and develop autonomic behaviour in their products and systems.
Technologies & Tools (3) • IBM Autonomic Computing Toolkit 2.0 • Technologies • Autonomic Management Engine • Generic Log Adapter (to translate product log messages into a Common Base Event data format) • Log and Trace Analyzer • Integrated Solutions Console • Solution Install • Tools • Integrated Solutions Console Toolkit • Resource Model Builder • Adapter Rule Editor
AC and the Grid • Grid as an enabling technology • The Grid provides the open protocols needed for AC, like OGSA, WS-RF • Autonomic Grid Applications • context-aware self-managing applications in widely distributed, heterogeneous Grid environments • Extending the Grid middleware by autonomic capabilities
What Can AC Do For Us? Help to make the interactive data analysis stable, in a heterogeneous Grid environment
Making Interactive Data Analysis Robust – Improving PROOF • Applying autonomic computing concepts, but dynamically at runtime rather than for system administration purposes • self-configuration • dynamic slaves • PROOF slaves leave (e.g. resources are not longer available) • PROOF slaves join (e.g. new resources become free) • if user aborts execution, all processes should be aborted too (Ctrl-C feature)
Making Interactive Data Analysis Robust – Improving PROOF • self-healing • analyse why processes are dying • e.g. error in selector script (DIV by 0) • find the best strategy to recover from the error • restart the process on another CPU? • what about intermediate results? • self-optimization • Learn from previous analysis sessions how to improve performance • self-protection • Analysis of possible threats has to be done • Security issues (authentication, encryption,…) • Protected environments for selector scripts
Conclusion • autonomic computing is a concept of self-managing IT systems, analogous to the autonomic nervous system of the human (animal) body • the principles of the autonomic computing can be used to make the interactive data analysis framework more robust (i.e. PROOF) • To do so, the IBM focus of AC – the self-management of an IT system infrastructure to reduce IT costs – has to be shifted to the self-management of the distributed interactive data analysis process