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12M1WEC232 Real-Time Embedded System Elective L TP: 3 0 0 Syllabus: 1. Introduction: Applications of real-time systems, basic model and characteristics of a real-time system, safety and reliability, types of real-time tasks. 2. Modeling Timing constraints: Timing constraints, events, classifications, modeling timing constraints. 3. Scheduling Real-Time Tasks: Task scheduling types, Types of Schedulers, clock driven, table-driven, Cyclic, EDF, RMA 4. Handling Resource sharing among real-time tasks: Resource sharing among real-time tasks, inversion, HLP,PCP 5. Scheduling Real-Time Tasks in Multiprocessor and Distributed systems: Multiprocessor task allocation, dynamic allocation of tasks, fault-tolerant scheduling of tasks, clocks in distributed real-time systems 6. Real-time operating systems: Features of real-time operating systems, time services 7. Real-Time Communication: Types of networks, QoS, traffic categorization, LAN architecture, soft and hard real-time communication, QoS framework, routing, resource reservation, rate control, QoS models. 8. Real-Time Databases: Review, design issues, consistency, concurrency control, commercial real-time databases. 9. Study of practical Real-time embedded systems Books: 1. C. Siva Ram Murthy and G. Manimaran, 'Resource Management in Real Time Systems and Networks', the MIT Press, 2001. 2. Rajib Mall, Real-Time Systems: Theory and Practice, Pearson Education, 2007. Fault Tolerant Communication Network M.Tech. (3rd Sem.) Unit-1: Basics of Reliability and Fault-Tolerance Fault tolerant strategies, Fault tolerant and reliability calculation, Dependable design techniques, Dependability concepts , Dependability measures communication Unit-2: Network design and operational aspects: Survivability of optical and multi-layer networks Recovery techniques for IP routing and Layer-2 switching Resilient wired access networks Reliability of wireless access and mesh networking Reliability and recovery of Software-Defined Networks (SDN) and Network (Function) Virtualization (NFV) Self-healing and autonomic networks Survivability Content Delivery Networks (CDN) and Information-Centric Networks (ICN) Unit-3: Resiliency of network services: Reliability requirements and metrics for individual users, businesses, and the society Restoration of services under various types of failures Service differentiation based on recovery methods Quality of Resilience Dependability of networked applications Application and service-specific survivability techniques Reliability and resilience of data centre networks Unit-4 : Selected topics in fault-tolerant communication network Communication networks as an element of critical infrastructures Standardization of network resilience and reliability Network resilience combined with economics and commercial issues Quality of experience and network survivability Risk and reliability in the Internet and enterprise networks