Testable Design and Testing of Micro-Electro-Fluidic Arrays
VTS '03 Proceedings of the 21st IEEE VLSI Test Symposium
Design, Testing, and Applications of Digital Microfluidics-Based Biochips
VLSID '05 Proceedings of the 18th International Conference on VLSI Design held jointly with 4th International Conference on Embedded Systems Design
Design of Fault-Tolerant and Dynamically-Reconfigurable Microfluidic Biochips
Proceedings of the conference on Design, Automation and Test in Europe - Volume 2
Fault Modelling and Co-Simulation in FlowFET-Based Biological Array Systems
DELTA '06 Proceedings of the Third IEEE International Workshop on Electronic Design, Test and Applications
Concurrent Testing of Droplet-Based Microfluidic Systems for Multiplexed Biomedical Assays
ITC '04 Proceedings of the International Test Conference on International Test Conference
System-on-Chip Test Architectures: Nanometer Design for Testability
System-on-Chip Test Architectures: Nanometer Design for Testability
Fault co-simulation for test evaluation of heterogeneous integrated biological systems
Microelectronics Journal
On-line testing of lab-on-chip using reconfigurable digital-microfluidic compactors
International Journal of Parallel Programming
Design automation and test solutions for digital microfluidic biochips
IEEE Transactions on Circuits and Systems Part I: Regular Papers
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Fault Diagnosis in Lab-on-Chip Using Digital Microfluidic Logic Gates
Journal of Electronic Testing: Theory and Applications
Test Strategies for Electrode Degradation in Bio-Fluidic Microsystems
Journal of Electronic Testing: Theory and Applications
Assessment of Microfluidic System Testability using Fault Simulation and Test Metrics
Journal of Electronic Testing: Theory and Applications
Journal of Electronic Testing: Theory and Applications
Optimal Testing of Digital Microfluidic Biochips
INFORMS Journal on Computing
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According to the 2005 International Technology Roadmap for Semiconductors, the integration of emerging nondigital CMOS technologies will require radically different test methods, posing a major challenge for designers and test engineers. One such technology is microelectronic fluidic (MEF) arrays, which have rapidly gained importance in many biological, pharmaceutical, and industrial applications. The advantages of these systems, such as operation speed, use of very small amounts of liquid, on-board droplet detection, signal conditioning, and vast digital signal processing, make them very promising. However, testable design of these devices in a mass-production environment is still in its infancy, hampering their low-cost introduction to the market. This article describes analog and digital MEF design and testing methods.