Scheduling for Multi-core Real-time Embedded Systems to Achieve Low-energy Fault-tolerance, M.Sc. Thesis Sharif University of Technology ; Ejlali, Alireza (Supervisor)
Abstract
High reliability by fault tolerance mechanisms and low energy consumption are two essential requirements for the major category of hard real-time systems that are used in safety-critical applications. Therefore many of previous researches in the safety-critical applications have presented various solutions to achieve these properties. Time and hardware redundancy techniques have been used extensively to achieve fault tolerance in the design of the hard real-time¬¬ systems. To achieve a high level of reliability, the time redundancy techniques are dependent on slack time. Therefore in some cases using the hardware redundancyto achieve the fault tolerance is inevitable. But the redundancy...
Cataloging briefScheduling for Multi-core Real-time Embedded Systems to Achieve Low-energy Fault-tolerance, M.Sc. Thesis Sharif University of Technology ; Ejlali, Alireza (Supervisor)
Abstract
High reliability by fault tolerance mechanisms and low energy consumption are two essential requirements for the major category of hard real-time systems that are used in safety-critical applications. Therefore many of previous researches in the safety-critical applications have presented various solutions to achieve these properties. Time and hardware redundancy techniques have been used extensively to achieve fault tolerance in the design of the hard real-time¬¬ systems. To achieve a high level of reliability, the time redundancy techniques are dependent on slack time. Therefore in some cases using the hardware redundancyto achieve the fault tolerance is inevitable. But the redundancy...
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