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Important questions
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Unit-11.Model train controller**2.Consumer electronics architecture3.Requirements of ES design **(challenges and performance) go through a glance Unit-21.ARM architecture***2.Features of the LPC 214X family3.UART-Block diagram of ARMO and ARM cortex M3 MCUUnit-31.Components & programming model**2.Development in ES**3.ES in Computing platform4.Optimization UNIt 41.RTOS- Estimating program run time test ass sceduling*2.Reliability, evaluation-Clock synchronisation
3. IPCUnit-51.Engine control unit ,Audio player***2.(preemptive)(Power optimization strategies****3.POSIX,WINDOWS CE**4.RARE : Video acceleratorDon't share as screenshot -Stuff sector
**Very important questions are bolded and may be asked based on this topic
PART-C
1.Compulsory Questions {a case study where the student will have to read and analyse the subject }mostly asked from unit 2, 5(OR) a situation given and you have to answer on your own
3. IPC
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**Very important questions are bolded and may be asked based on this topic
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*These questions are expected for the exams This may or may not be asked for exams All the best.... from admin Santhosh
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Complex systems and micro processors Embedded system design process-Design example Model train controller - Design methodologies Design flows Requirement analysis- Specifications - System analysts and architecture design Quality assurance techniques Designing with computing platforms - Consumer electronics architecture - Platform - Level performance analysis
UNIT II
ARM Processor and Peripherals
ARM architecture versions - ARM architecture Instruction set Stacks and subroutines Features of the LPC 214X family-Peripherals - The timer unit-Pulse width modulation unit HART-Block diagram of ARMO and ARM cortex M3 MCU.
UNIT III
Embedded Programming
Components for embedded programs-Models of programs-Assembly, linking and loading-
Compilation techniques Program level performance analysis Software performance optimization Program level energy and power analysis and optimization Analysis and optimization of program size-Program validation and testing
UNIT IV
Real Time Systems
Structure of a real time system-Estimating progran run times-Tast assignment and scheduling -Fault tolerance techniques- Reliability, evaluation-Clock synchronisation.
UNIT V
Processes and Operating Systems
Introduction-Multiple tasks and multiple processes- Multirate systems - Preemptive real time operating systems - Priority based scheduling - Interprocess communication mechanisms Evaluating operating system performance - Power optimization strategies for processes. Example real time operating systems - POSIX-Windows CE-Distributed embedded systemi MPSOCs and shared memory multiprocessors-Design example-Audio player, Engine contr unit-Video accelerator.
UNIT I
Complex systems and micro processors Embedded system design process-Design example Model train controller - Design methodologies Design flows Requirement analysis- Specifications - System analysts and architecture design Quality assurance techniques Designing with computing platforms - Consumer electronics architecture - Platform - Level performance analysis
UNIT II
ARM Processor and Peripherals
ARM architecture versions - ARM architecture Instruction set Stacks and subroutines Features of the LPC 214X family-Peripherals - The timer unit-Pulse width modulation unit HART-Block diagram of ARMO and ARM cortex M3 MCU.
UNIT III
Embedded Programming
Components for embedded programs-Models of programs-Assembly, linking and loading-
Compilation techniques Program level performance analysis Software performance optimization Program level energy and power analysis and optimization Analysis and optimization of program size-Program validation and testing
UNIT IV
Real Time Systems
Structure of a real time system-Estimating progran run times-Tast assignment and scheduling -Fault tolerance techniques- Reliability, evaluation-Clock synchronisation.
UNIT V
Processes and Operating Systems
Introduction-Multiple tasks and multiple processes- Multirate systems - Preemptive real time operating systems - Priority based scheduling - Interprocess communication mechanisms Evaluating operating system performance - Power optimization strategies for processes. Example real time operating systems - POSIX-Windows CE-Distributed embedded systemi MPSOCs and shared memory multiprocessors-Design example-Audio player, Engine contr unit-Video accelerator.