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Session: 51:Design Methods and Manufacturability Solutions for Emerging Technologies
Type: Regular Session
Track: New and Emerging Technologies
Day:  Thursday
Time: 4:30 PM - 6:00 PM
Room: 6E
Chair: Chris Dwyer - Duke Univ.
51.1 Integrated Droplet Routing in the Synthesis of Microfluidic Biochips, T. Xu, Krishnendu Chakrabarty - Duke Univ.
51.2s OPC-Free and Minimally Irregular IC Design Style, Wojciech Maly - CMU, Y. Lin, M. Marek-Sadowska - UC
51.3s Automated Design of Misaligned-Carbon-Nanotube-Immune Circuits, N. Patil, J. Deng, P. Wong
51.4s Quantum Circuit Placement: Optimizing Qubit-to-qubit Interactions through Mapping Quantum Circuits into a Physical Experiment, D. Maslov - Univ. of Waterloo, S. Falconer - Univ. of Victoria, Mosca - Institute for Quantum Computing,
51.5s Reliability Analysis for Flexible Electronics: Case Study of Integrated a-Si:H TFT Scan Driver, T. Huang - UC
Abstract: Advances in automated design methods and design-for-manufacturability techniques are needed to harness the potential offered by a wide variety of emerging technologies. This session presents solutions to challenges encountered for a mix of technologies ranging from microfluidics to carbon nanotubes, thin-film transistors, and quantum computing. The first paper describes how the routing of fluidic droplets can be incorporated in automated biochip synthesis. The next four short papers address regular layouts for manufacturability, misalignment problems in carbon nanotubes, and optimization for quantum computing placement.

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