超大型積體電路(VLSI)晶片設計的複雜度由過去數十萬個電晶體研發到近代千萬個電晶體,數位系統的技術與觀念也雖之日新月異,但是邏輯設計的原理和技巧卻沒有突破性的改善,唯有將根本的原理和精神融會貫通,才能產生最大的能量來面對最新科技所帶來的挑戰與衝擊。The complexity of ultra-large overall circuit (VLSI) chip design has been developed from tens of thousands of transistors in the past to tens of thousands of transistors in modern times. Although the technology and concepts of digital systems are changing day by day, the principles and techniques of logical design have not been improved in breakthroughs. Only by integrating the fundamental principles and spirit can the greatest energy be generated to face the challenges and impacts brought to the latest technology.
數位邏輯設計(Digital Electronics 8/e) 原著 KLEITZ 編譯 黃炳森 黃金本 高立圖書 ISBN 978986412788-7
Digital Logic Design (Digital Electronics 8/e) Original KLEITZ Edited by Huang Bingsen Huang Jinben Gao Li Book ISBN 978986412788-7
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 出席率30%小考10%期中期末考各30%出席率30%小考10%期中期末考各30% Attendance rate 30% for the 10% for the 30% for the mid-term and final exams |
5 | 出席率30%小考10%期中期末考各30% |
