This course covers the fundamental issues of designing a digital system. We will begin by introducing number systems, Boolean algebra, and logic gates. After that, we will discuss the minimization techniques of Boolean functions using Karnaugh Map as well as algorithmic procedures. In the second half, we will focus on the design techniques for combinational, sequential, and memory circuits. Finally, we will introduce the more modern design concept using Register-Transfer-Level (RTL) descriptions. Upon the completion, the students will know how to realize a given digital system, e.g., the arithmetic logic unit (ALU) of a CPU, into a logic circuit.
本課程涵蓋數位系統設計的基礎知識。課程一開始將介紹數字系統、布林代數以及基本邏輯閘,接著利用卡諾圖與演算法程式來討論布林函數的化簡。之後講解組合邏輯、循序邏輯與記憶體電路的設計技術。最後,藉由介紹暫存器轉換層次(RTL)的描述語言來學習最新的設計方法。在整個課程的架構下,學生將學會如何設計一個數位電路,如CPU中的算術邏輯單元(ALU)等。This course covers the fundamental issues of designing a digital system. We will begin by introducing number systems, Boolean algebra, and logic gates. After that, we will discuss the minimization techniques of Boolean functions using Karnaugh Map as well as algorithmic procedures. In the second half, we will focus on the design techniques for combinational, sequential, and memory circuits. Finally, we will introduce the more modern design concept using Register-Transfer-Level (RTL) descriptions. Upon the completion, the students will know how to realize a given digital system, e.g., the arithmetic logic unit (ALU) of a CPU, into a logic circuit.
This course covers the fundamentals of digital system design. The course will begin with an introduction to digital systems, Boolean algebra, and basic logic gates, and then discuss the simplification of Boolean functions using Karnaugh maps and algorithmic programs. Then the design techniques of combinational logic, sequential logic and memory circuits are explained. Finally, learn the latest design methods by introducing the description language of the Register Translation Level (RTL). Within the framework of the entire course, students will learn how to design a digital circuit, such as the Arithmetic Logic Unit (ALU) in a CPU.
本課程旨在介紹基本數位邏輯設計,其中包含邏輯設計的理論、原理、元件、電路及其應用等。
This course aims to introduce basic digital logic design, including the theory, principles, components, circuits and applications of logic design.
M. Morris Mano and Michael D. Ciletti, DIGITAL DESIGN with an Introduction to the Verilog HDL, VHDL, and System Verilog, 6th edition, Pearson Prentice Hall
M. Morris and Michael D. CI, digital design with Introduction TOT and Verilog HDL, VHDL, and system Verilog, 6TH edition, Pearson Prentice hall
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 小考(quiz)、作業報告(Homeworks)小考(quiz)、作業報告(Homeworks) Quiz, Homeworks |
35 | |
| 期中考(Midterm Exams)期中考(Midterm Exams) Midterm Exams |
25 | |
| 期末考(Midterm Exams)期末考(Midterm Exams) Midterm Exams |
30 | |
| 出席率(attendence)出席率(attendence) attendance |
10 |
