University of New South Wales / Engineering / Electrical
Lecture : Digital Circuit Design - Lecture 1
By Ken Boyd | Digital Circuit Design
Lecture 1 of 32
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Course Description
Digital systems are an integral part of many areas of engineering and technology such as personal computers, digital signal processing, telecommunications, speech analysis and recognition, and control systems. The objectives of this course are to provide students with the necessary fundamental skills to design and analyze digital circuits in the real world. At the completion of the course, students should be in a position to be able to design and build reliable and cost-effective digital systems.</p> <p>This course is a second-year subject in the school of Electrical Engineering and Telecommunications at the University of New South Wales, Sydney, Australia. It is a core subject for students following a BE (Electrical) or (Telecommunications) program.The course aims to provide students with fundamental knowledge of digital systems with respect to several different levels of abstraction – from a low-level dealing with electrical circuits through to a high-level dealing with software tools and hardware description languages.
Courses Index
1 : Advanced Topics in Circuit Design   (Elad Alon / Berkeley)
2 : Introduction to Digital Integrated Circuits   (Jan RABAEY / Berkeley)
3 : Advanced Analog Integrated Circuits   (Elad Alon / Berkeley)
4 : Introduction to Microelectronic Circuits   (Bernhard BOSER / Berkeley)
5 : The Fourier Transform and its Applications   (Brad Osgood / Stanford)
6 : Introduction to Linear Dynamical Systems   (Stephen Boyd / Stanford)
7 : Convex Optimization I   (Stephen Boyd / Stanford)
8 : Convex Optimization II   (Stephen Boyd / Stanford)
9 : Circuits and Electronics   (Anant Agarwal / MIT)
10 : Computer System Engineering   (Samuel Madden / MIT)
11 : Introduction to Algorithms   (Erik Demaine / MIT)
12 : Principles of Digital Communications I   (Lizhong Zheng / MIT)
13 : Principles of Digital Communication II   (David Forney / MIT)
14 : Understanding Lasers and Fiberoptics   (Shaoul Ezekiel / MIT)
15 : Electromagnetics and Applications   (Multiple Instructors / MIT)
16 : Information and Entropy   (Paul Penfield / MIT)
17 : Fundamentals of Laser   (Sabieh Anwar / LUMS)
18 : Synchrotron Radiation for Materials Science   (David Attwood / Berkeley)
19 : Linear Integrated Circuits   (Clark Nguyen / Berkeley)
20 : Speech and Audio Processing   (Multiple Multiple / University of New South Wales)