<DIV style=″TEXT–ALIGN: justify″>Over the last few years emerging technologies, such as CNT, SET, QCA, spin and molecular electronics, have asserted a prominent role for future innovation in the electronics and computer industry at nanometer scale. Novel computational paradigms (such as quantum and reversible computing) and new manufacturing/fabrication processes (based on DNA–like self–assembly) are being introduced to the technical community. Nano–device, circuit and system implementations for diverse applications are currently being investigated to implement the next generation of electronics and digital computers. The NDCS Workshop, at its first year, will provide an open forum for presentations in all aspects of design, manufacturing, test and reliability of innovative nano–circuits and systems. </DIV><B>Keywords:</B> 1. Self–assembly and manufacturing of emerging technologies<BR>2. Metrology and real–time monitoring of processing for emerging technologies<BR>3. Electronic characterization of nano–scale structures<BR>4. Design of nano–circuits and systems (CNT, QCA, SET, spin electronics, opto–electronics, molecular & DNA devices, and hybrid nano– CMOS)<BR>5. Modeling and simulation of nano–scale devices<BR>6. System–level computational paradigms, such as algorithms for quantum and reversible computing<BR>7. Tools for simulation and Computer Aided Design<BR>8. Scaffolds and interconnects<BR>9. Sensors and bio–computational fluid chips<BR>10. DNA and molecular level processes<BR>11. Fault modeling<BR>12. Testing of nano–circuits and systems<BR>13. Fault tolerance<BR>14. Reliability and yield
Abbrevation
NDCS
City
Cambridge
Country
United States
Deadline Paper
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