Hongjiang Song
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GWC 424 TEMPE, AZ 85287
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Mail code: 5706Campus: Tempe
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Hongjiang Song has been serving as a faculty associate in the School of Electrical, Computer and Energy Engineering at Arizona State University. He joined ASU in 2002 and he has offered graduate-level courses in VLSI analog signal processing circuits and VLSI high-speed I/O circuits. Song is also a design engineer at Intel Corporation, where he has been working on various leading edge VLSI circuit design and developments since 1994. Song's key research areas and interests include high speed/low power VLSI circuits (RF IC, data converters, PLL/DLL, high speed I/O, DSP/ASP and power management circuits).
Song has published a number of technical papers in VLSI analog circuits. He holds 31 patents (plus a few pending ones). He has been serving as member of Technical Program Committee (TPC) and track chair for the IEEE SOC conference.
Song is the author of several VLSI circuit design textbooks and reference books, most recently "VLSI Aanalog Circuits - Algothrim, Architecture, Modeling and Implementations" (2016).
- Ph.D. Electrical Engineering, Arizona State University 1996
- M.T. Computer Technology, Arizona State University 1994
- M.S. Physics, Yunnan University 1986
VLSI analog circuits, VLSI signal processing circuits, data converters, power management circuits, VLSI high-speed I/O circuits, phase/delay locked loops, F circuits.
Hongjiang Song is the author of several VLSI circuit design textbooks and reference books:
- VLSI Analog Signal Processing Circuits - Algorithm, Architecture, Modeling, and Circuit Implementation. (2009)
- VLSI High-Speed I/O Circuits - Theoretical Basis, Architecture, Modeling and Circuit Implementation. (2010)
- The Arts of VLSI Circuit Design -Symmetry Approaches Toward Zero PVT Sensitivity. (2011)
- The Arts of VLSI Opamp Circuit Design - A Structural Approach Based on Symmetry (2014)
- VLSI Analog Signal Processing Circuits - Problems and Solution Keys (2013)
- VLSI High-Speed I/O Circuits - Problems, Projects, and Questions (2014)
- Principles of VLSI Design - Symmetry, Structures and Methods (2016)
- VLSI Aanalog Circuits - Algothrim, Architecture, Modeling and Implementations (2016)
Courses
2025 Spring
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2024 Fall
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2024 Spring
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2023 Fall
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2023 Spring
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2022 Fall
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2022 Spring
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2021 Fall
| Course Number | Course Title |
|---|---|
| EEE 590 | Reading and Conference |
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2021 Spring
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2020 Fall
| Course Number | Course Title |
|---|---|
| EEE 590 | Reading and Conference |
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |
2020 Spring
| Course Number | Course Title |
|---|---|
| EEE 598 | Special Topics |
| EEE 598 | Special Topics |