The aim of the course is to provide students with a detailed understanding of embedded systems, covers fundamentals of microcontrollers, Interfacing, Memory, and I/O modules. Develop an understanding of the technologies behind Embedded Systems design issues, embedded hardware Building Blocks, embedded processors, memory addressing and interfacing. The course Covers Embedded Systems programming, embedded operating systems, design, development, implementation and testing
Bachelor Degree in Computer Engineering
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| content serial | Description |
|---|
| 1 | Introduction to Embedded systems, Microcontrollers, Embedded processors, and Comparison between Embedded systems and conventional computing systems |
| 2 | Microcontrollers architecture, Interfacing, Memory, and I/O modules |
| 3 | Embedded Systems Design issues and embedded hardware Building Blocks |
| 4 | Embedded Processors |
| 5 | Memory Addressing and Interfacing. |
| 6 | I/O Interfacing |
| 7 | 7th week exam. |
| 8 | Embedded Systems Programming |
| 9 | Continue with Embedded Systems Programming |
| 10 | Embedded Operating Systems |
| 11 | Continue with Embedded Operating Systems |
| 12 | 12th week exam |
| 13 | Middleware, application software and embedded systems development. |
| 14 | Implementation and Testing |
| 15 | Course Project Work |
| 16 | |
| 1 | Introduction to Embedded systems, Microcontrollers, Embedded processors, and Comparison between Embedded systems and conventional computing systems |
| 2 | Microcontrollers architecture, Interfacing, Memory, and I/O modules |
| 3 | Embedded Systems Design issues and embedded hardware Building Blocks |
| 4 | Embedded Processors |
| 5 | Memory Addressing and Interfacing. |
| 6 | I/O Interfacing |
| 7 | 7th week exam. |
| 8 | Embedded Systems Programming |
| 9 | Continue with Embedded Systems Programming |
| 10 | Embedded Operating Systems |
| 11 | Continue with Embedded Operating Systems |
| 12 | 12th week exam |
| 13 | Middleware, application software and embedded systems development. |
| 14 | Implementation and Testing |
| 15 | Course Project Work |
| 16 | |
| 1 | Introduction to Embedded systems, Microcontrollers, Embedded processors, and Comparison between Embedded systems and conventional computing systems |
| 2 | Microcontrollers architecture, Interfacing, Memory, and I/O modules |
| 3 | Embedded Systems Design issues and embedded hardware Building Blocks |
| 4 | Embedded Processors |
| 5 | Memory Addressing and Interfacing. |
| 6 | I/O Interfacing |
| 7 | 7th week exam. |
| 8 | Embedded Systems Programming |
| 9 | Continue with Embedded Systems Programming |
| 10 | Embedded Operating Systems |
| 11 | Continue with Embedded Operating Systems |
| 12 | 12th week exam |
| 13 | Middleware, application software and embedded systems development. |
| 14 | Implementation and Testing |
| 15 | Course Project Work |
| 16 | |
| 1 | Introduction to Embedded systems, Microcontrollers, Embedded processors, and Comparison between Embedded systems and conventional computing systems |
| 2 | Microcontrollers architecture, Interfacing, Memory, and I/O modules |
| 3 | Embedded Systems Design issues and embedded hardware Building Blocks |
| 4 | Embedded Processors |
| 5 | Memory Addressing and Interfacing. |
| 6 | I/O Interfacing |
| 7 | 7th week exam. |
| 8 | Embedded Systems Programming |
| 9 | Continue with Embedded Systems Programming |
| 10 | Embedded Operating Systems |
| 11 | Continue with Embedded Operating Systems |
| 12 | 12th week exam |
| 13 | Middleware, application software and embedded systems development. |
| 14 | Implementation and Testing |
| 15 | Course Project Work |
| 16 | |
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