Interrupt Handling Schemes in Operating Systems

In this book, the interrupt handling models used by several operating systems are introduced and compared.

We begin with an analysis of the classical interrupt management model used by Unix, followed by the schemes used by modern networked environments.

We highlight the key challenges of each of these models and how these have been solved by modern operating systems and the research community. Then we analyze the architectures used for general purpose and embedded real-time operating systems.

This book describes how the interrupts are handled in several operating systems All operating systems are based on interrupts which are very important to understand how they help control the functional behavior of operating systems It is also relevant to mention that we are including not only general purpose operating systems but also real-time operating systems. In this type of operating systems, interrupts are more important because they help to control temporal predictability, scheduling and interferences from tasks and interrupts No such research study has been done before for comparing and analyzing the interrupt handling schemes in operating systems

Autorentext

Pedro Meja-Alvarez received the BS degree in computer systems engineering from ITESM, Queretaro, Mexico, in 1985 and the PhD degree in informatics from the Universidad Politecnica de Madrid, Spain, in 1995. He has been a Professor in the Department of Computer Science at CINVESTAV-IPN Mexico since 1997. In 1999, he held a research faculty position in the Department of Computer Science at the University of Pittsburgh and, in 2000, a visiting assistant professor position in the Department of Information Sciences and Telecommunications at the University of Pittsburgh. His main research interests are real-time systems scheduling, low-power computing, adaptive fault tolerance, and software engineering. He is member of the IEEE Computer Society.

Luis Eduardo Leyva receive the BS degree in Automatic Control Engineering from Instituto Superior Politécnico Julio Antonio Mella, Universidad de Oriente, Santiago de Cuba (1989). The Msc. in Computer Science, from Centro de Investigacionen Computacion, Instituto Politecnico Nacional, Mexico,(2000), and PhD in Electrical Engineering from CINVESTAV-IPN, Mexico (2007). He has been a Professor in the Department of Computer Science at Universidad Autonoma Metropolitana, Unidad Cuajimalpa, since 2008. His research interests are Real-Time and Embedded Systems, Distributed Systems and Software Engineering.

Arnoldo Díaz-Ramirez is a research professor in the department of Computer Systems at Tecnologico Nacional de Mexico/Instituto Tecnologico de Mexicali. He received the BS degree in computer sciences from Cetys University, Mexicali, Mexico, and the Masters degree in computer sciences from the same university. He received the PhD degree in computer sciences from Universitat Politecnica de Valencia, Spain, in 2006. His research interests include real-time systems, Internet of Things, wireless sensor networks, and ubiquiotous computing. He is member of the IEEE Computer Society.

Inhalt

1. Interrupt Mechanism.- 2. Interrupt Handling in Classic Operating Systems.- 3. Handling of Interrupts as Threads.- 4. Interrupt Handling in Android.- 5. Treatment of Interrupts in Embedded and Real Time Systems.- 6. Interrupt Handling Architectures.- References.-