EECS2602

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course_outline [2014/12/21 22:15] hjcourse_outline [2014/12/21 22:28] hj
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 **Introduction**: examples of signals and systems in the continuous time (CT) domain, classification of CT signals and systems, elementary signals, signal operations, (chapters 1,2) **Introduction**: examples of signals and systems in the continuous time (CT) domain, classification of CT signals and systems, elementary signals, signal operations, (chapters 1,2)
  
-===== Week 3-4 =====+===== Weeks and 4 =====
 **Time-domain Analysis**: Linear constant-coefficient differential equations; impulse response; convolutional integral. (Chapter 3) **Time-domain Analysis**: Linear constant-coefficient differential equations; impulse response; convolutional integral. (Chapter 3)
  
-===== Week 5-6 =====+===== Weeks and 6 =====
 **Frequency Analysis**: Fourier series; CT Fourier transform; properties of Fourier transform; frequency response. (Chapters 4, 5) **Frequency Analysis**: Fourier series; CT Fourier transform; properties of Fourier transform; frequency response. (Chapters 4, 5)
  
-===== Week 5 ===== +===== Weeks 7 and 8 ===== 
-**CPU scheduling**: criteria, algorithm, implementation. (chapter 5)+**Laplace transform**: Laplace transform; properties; Solution of differential equations; LTIC systems analysis using Laplace transform. (chapter 6) 
 + 
 +===== Weeks 9 and 10 ===== 
 +**Continuous Time Filters**: Filter Classification; non-ideal filter characteristics; filter design; frequency transform. (chapter 7) 
 + 
 + 
 + 
 +===== Week 11 ===== 
 +**Linear Feedback Systems**: feedback concepts; sensitivity analysis; stability; control systems  
 + 
 +===== Week 12 ===== 
 +**Final Reviews**.
  
-===== Week 6 ===== 
-**Process Synchronization (I)**: critical-section problem & example, bakery algorithm, Peterson’s solution. (chapter 6.1-6.3) 
  
-===== Midterm ===== 
  
-===== Week 7 ===== 
-**Process Synchronization (II)**: hardware solution, semaphore, classic problems (B-B, R-W,_ D-P); high-level tools (monitor). (chapter 6.4-6.8) 
  
-===== Week 8 ===== 
-**Deadlock**. (chapter 7) 
  
-===== Week 9 ===== 
-**Memory Management (I)**: logical vs. physical memory, address binding, Contiguous memory allocation. (chapter 8.1-8.3) 
  
-===== Week 10 ===== 
-**Memory Management (II)**: paging, segmentation, examples. (chapter 8.4-8.8) 
  
-===== Week 11 ===== 
-**Virtual Memory**: demand paging, replacement, thrashing. (chapter 9) 
  
-===== Week 12 ===== 
-**Protection and Security** (chapters 14 and 15) 
course_outline.txt · Last modified: 2014/12/21 22:29 by hj