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Process variation (PV) is a conspicuous predicament for submicrometer VLSI circuits. In this paper, we illustrate “choke points” as a vital consequence of PV in the near-threshold computing domain. Choke points are PV affected sensitized logic gates with increased delay deviation. They dominate the choice of critical paths postfabrication. To mitigate the timing errors induced thereby, we propose...
Process variation is a conspicuous predicament for sub-micron VLSI circuits. In this paper, we illustrate “choke points” as a vital consequence of process variation in the Near Threshold Computing (NTC) domain. Choke points are process variation affected sensitized logic gates with increased delay deviation. They dominate the choice of critical paths postfabrication. To mitigate the timing errors...
Digital Microfluidic Biochips, a promising platform for Lab-on-chip systems are capable of automated biochemical analysis targeted for medical diagnostics and other biochemical applications. Due to its reconfigurability and scalability, a DMFB device is capable of integrating multiple bioassay protocols within the same array for simultaneous execution. We propose a DMFB design capable of executing...
In this work, we propose an architecture for optical detection based analyzer to be integrated with Digital Microfluidic Biochips (DMFB). A reference memory has been integrated with the device to define pre-characterized data for the multiple reference levels. The architecture has been developed towards the implementation of the fuzzy based control of the process flow for extending the analysis to...
Digital Microfluidic Biochips (DMFB), a promising platform for Lab-on-chip systems are capable of automated biochemical analysis targeted for medical diagnostics and other biochemical applications. The inherent nature of reconfigurability and scalability enables the device to integrate multiple bioassay protocols within the same array for simultaneous execution. Each execution of Bioassay involves...
Detection and analysis are major tasks for biochemical analysis required to be performed in digital microfluidic systems. With the development of heterogeneous photonic component integration technologies it has become possible to integrate miniaturized optical sensing technologies with the Microfluidic systems. This enables complex optical detection functions to be incorporated within the microfluidic...
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