SUTD-CGU Dual Masters Programme

Research Facilities

Under the NEED programme, students will have access to cutting-edge research facilities in SUTD such as the Electronic Design Laboratory (EDL), an electronic design and innovation hub which supports research and design activities in the broad areas of electronic circuits and systems.

The EDL houses a high-performance wire bonding machine, a wedge bonder, a probe station, an oscilloscope, a spectrum analyzer and several workstations with EDA software as well as test and measuring equipment.


Research Projects

Under the NEED programme, students are required to take on one of the following research projects (multiple project participation is not permitted) which will be jointly supervised by SUTD and CGU faculty. Students are advised to indicate their project preference when applying for the NEED programme.

SUTD Faculty

CGU Faculty

Research Project

Arief Budiman
asbudiman@sutd.edu.sg

Cher Ming Tan
cmtan@mail.cgu.edu.tw

Mechanics and Reliability of Soft Materials - Enabling Next Generation Flexible and Stretchable Electronics

Arief Budiman
asbudiman@sutd.edu.sg

Jiunn Woei Liaw
markliaw@mail.cgu.edu.tw

Advanced Materials for Enabling Robust and Reliable Internet of Things (LOT) and Smart Digital Nation

Cai Kui
cai_kui@sutd.edu.sg
 

Chung-Yi, Li
chungyili@mail.cgu.edu.tw
 

Efficient Low-Density Parity-Check (LDPC) Coding Techniques for Flash Memories

Advanced Error Correction Coding Techniques for High-Speed high-Density Non-Volatile Memories

Desmond Loke
desmond_loke@sutd.edu.sg

Jer-Chyi Wang
jcwang@mail.cgu.edu.tw

Nanoscale AI Design In Non-Volatile Memory

Atomistic Design In Non-Volatile Memory

Desmond Loke
desmond_loke@sutd.edu.sg

Chia-Ming Yang
cmyang@mail.cgu.edu.tw

Large-Scale, Nano-Design In Non-Volatile Memory

Herman Chen
herman_chen@sutd.edu.sg

Kou-Chen Liu
jacobliu@mail.cgu.edu.tw

Microsphere Assisted Optical Scope for Failure Analysis

Super-Resolution Imaging Processing by Machine Learning

Artificial Compound Eyes

Michinao Hashimoto
hashimoto@sutd.edu.sg
Tyler Min-Hsien Wu
mhwu@mail.cgu.edu.tw
Digital Fabrication for Bio-Electronic Devices
Michinao Hashimoto
hashimoto@sutd.edu.sg
Tyler Min-Hsein Wu
mhwu@mail.cgu.edu.tw
Development of Low-Cost Microfludic Devices for Point-of-Care Diagnostics
Michinao Hashimoto
hashimoto@sutd.edu.sg
Tyler Min-Hein Wu
mhwu@mail.cgu.edu.tw
Rapid Prototyping of 3D printed microfludic devices as analytical tools
Joel Yang
joel_yang@sutd.edu.sg

Kou-Chen Liu
jacobliu@mail.cgu.edu.tw

FDTD/FEM simulation of FINFETs for investigation of Plasmonic effects

Fabrication and study of optical resonances on FINFET structures by optical spectroscopy

Joel Yang
joel_yang@sutd.edu.sg

Chia-Ming Yang
cmyang@mail.cgu.edu.tw
 

Effect of localized electric fields on light incident or emitted from FINFETS for electrical fault isolation

Nagarajan Raghavan
nagarajan@sutd.edu.sg

Cher Ming Tan
cmtan@mail.cgu.edu.tw

Finite element modeling for temperature – moisture – electrical - mechanical (TMEM) stress effects on LEDs

Physics of Failure (PoF) in Super-Capacitors

Pey Kin Leong
peykinleong@sutd.edu.sg
Shubhakar K
shubhakar@sutd.edu.sg

Chao Sung Lai
cslai@mail.cgu.edu.tw

Investigation of Intrinsic Dielectric Breakdown Mechanism in Boron Nitride

Pey Kin Leong
peykinleong@sutd.edu.sg
Shubhakar K
shubhakar@sutd.edu.sg

R.D Chang
crd@mail.cgu.edu.tw

Stochastic simulation on degradation behavior in advanced devices

TEM characterization of degradation mechanism in advanced devices

Ricky Ang
ricky_ang@sutd.edu.sg

Chao Sung Lai
cslai@mail.cgu.edu.tw

Characterization of charge transport across an electrical contact of 2D materials (Experiment)

Ricky Ang
ricky_ang@sutd.edu.sg

Cher Ming Tan
cmtan@mail.cgu.edu.tw

Characterization of 2D materials under the radiation environment (Experiment)

Ricky Ang
ricky_ang@sutd.edu.sg

Jiunn-Woei Liaw
markliaw@mail.cgu.edu.tw

Time-dependent non-equilibrium model of Plasmonic hot carrier generation and extraction (theory and modelling)

Robert Edward Simpson
robert_simpson@sutd.edu.sg
Chao Sung Lai
cslai@mail.cgu.edu.tw
Solid State Neural Networks
 
Robert Edward Simpson
robert_simpson@sutd.edu.sg
 
Chao Sung Lai
cslai@mail.cgu.edu.tw
 
Biomolecule Sensing Surfaces

Teo Tee Hui
tthui@sutd.edu.sg

Cher Ming Tan
cmtan@mail.cgu.edu.tw

2D Nano-device Simulation for Biomedical Applications

Tony Quek
tonyquek@sutd.edu.sg

Shih-Lin Wu
slwu@mail.cgu.edu.tw

Deep Learning for Human Activity Recognition for Healthcare

Yang Hui Ying
yanghuiying@sutd.edu.sg

Hsin-Chun Lu
hsinchun@mail.cgu.edu.tw

On-chip supercapacitors for next generation electronics devices

3D printable lithium ion batteries with high rate performance

Yang Hui Ying
yanghuiying@sutd.edu.sg

Jessie
jessie@mail.cgu.edu.tw

Innovative water treatment system based on nanomaterials

Ye Ai
ye_ai@sutd.edu.sg

M.H Wu
mhwu@mail.cgu.edu.tw

Development of High-throughput Cell Deformability Cytometer

Mechanical Property based Acoustic Cell Sorter

Development of a Microbial Enrichment Technique for Molecular Detection of Bloodstream Fungal Infection

Yeo Kiat Seng
kiatseng_yeo@sutd.edu.sg

H.C Chow
hcchow@mail.cgu.edu.tw

Design of a low-power and high-performance current sense amplifier

Yeo Kiat Seng
kiatseng_yeo@sutd.edu.sg

S.L. Kuo
snoopy@mail.cgu.edu.tw

Design of a low-voltage low-power millimeter-wave low noise amplifier

Design of a high efficiency millimeter-wave power amplifier

Yeo Kiat Seng
kiatseng_yeo@sutd.edu.sg

Wey
icwey@mail.cgu.edu.tw
 

Design of a low-voltage low-power 60GHz phase-locked loop

Design of a wideband low-power 60GHz voltage-controlled oscillator

Yeo Kiat Seng
kiatseng_yeo@sutd.edu.sg

Cher Ming Tan
cmtan@mail.cgu.edu.tw

Reliability modeling of Ultra low power integrated circuit

Degradation of high frequencies integrated circuits

Zhao Rong
zhao_rong@sutd.edu.sg

Jer-Chyi Wang
jcwang@mail.cgu.edu.tw

Low Power Memristive Device-based Artificial Synapse and Neurons

Zhao Rong
zhao_rong@sutd.edu.sg

Chao Sung Lai
cslai@mail.cgu.edu.tw

Cross-bar All-Memristive Artificial Neural Network Array for Brain-inspired Computation

Demo platform setup and Demonstration of Neuromorphic chip