一、課程說明(Course Description)
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<br>This course introduces the basic theory of digital logic design and the implementation of logic 
<br>circuit. In the beginning, binary number systems, simple boolean algebra, and switching functions 
<br>are presented. 
<br>The optimization method for combinational logic, which is the most important portion of the digital 
<br>logic design, will be presented in detail in this section. Then, basic storage registers such as D-flip-
<br>flop, J-K-flip flop etc will be introduced in the section of the synchronous sequential logic, which 
<br>will form a foundation for useful control technique - finite-state machine. After that combination 
<br>logic and sequential circuits are combined to support number control in the digital system. The 
<br>design for the registers and counters are taught in different types. Memory is the very traditional 
<br>digital element in the IC circuit, and the basic operations of read, write, and error protection will be 
<br>demonstrated. In the same section, the programmable devices such as PAL, PLA, PLD, CPLD, and 
<br>FPGA will be introduced. 
<br>Finally, the basic description of digital logic, Register Transfer Level, will be introduced, which will 
<br>form the basic concept to develop the digital system through the hardware description language.
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<br> 二、指定用書 (Text Books)
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<br>Mano & Ciletti, "Digital Design", 4th ed., Pearson Prentice-Hall, 2007.
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<br> 三、教學方式 (Teaching Method)
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<br>Lectures
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<br> 四、教學進度 (Syllabus)
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<br>1) Binary systems
<br>2) Boolean algebra and logic gates
<br>3) Gate-level minimization
<br>4) Combinational logic
<br>5) Synchronous sequential logic
<br>6) Registers & counters
<br>7) Memory & programmable logic
<br>8) Register transfer level
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<br> 五、成績考核 (Evaluation)
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<br>Homeworks 30%, Midterm Exams 30%, Final Exam 40%
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<br> 六、可連結之網頁位址
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<br>http://lms.nthu.edu.tw/course/
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