| Description |
ix, 133 leaves ; 30 cm |
| Summary |
Describes the design and implementation of an operating system kernel specifically designed to support real-time applications. It emphasises portability and aims to support state-of-the-art concepts in real-time programming. Discusses architectural aspects of the ARTOS kernel, and introduces new concepts on the areas of interrupt processing, scheduling, mutual exclusion and inter-task communication. Also explains the programming environment of ARTOS kernal and its task model, defines the real-time task states and system data structures and discusses exception handling mechanisms which are used to detect missed deadlines and take corrective action |
| Notes |
Submitted to the School of Computing and Mathematics of the Faculty of Science and Technology, Deakin University |
|
Thesis (M.Sc.)--Deakin University, Victoria, 1996 |
| Bibliography |
Bibliography: leaves 130-133 |
| Subject |
Operating systems (Computers) -- Design.
|
| Genre/Form |
Academic theses.
|
| Author |
Deakin University. Faculty of Science and Technology.
|
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Deakin University. School of Computing and Mathematics
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