Interconnect topology for cell matrices based on low-power nanoscale devices

Novel devices based on carbon nanotube field effect transistors demonstrate lower power consumption over conventional CMOS technologies. In this paper, we focus on so-called matrix-based nanocomputer architectures that combine low power and routing overheads of cell matrices with flexibility of FPGA...

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Hauptverfasser:	Yakymets, N., Jabeur, K., O'Connor, I., Le Beux, S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	cell matrix CNTFETs Computer architecture Field programmable gate arrays Integrated circuit interconnections interconnect topology Logic gates Microprocessors Nanocomputer architecture Topology
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creator	Yakymets, N. Jabeur, K. O'Connor, I. Le Beux, S.
description	Novel devices based on carbon nanotube field effect transistors demonstrate lower power consumption over conventional CMOS technologies. In this paper, we focus on so-called matrix-based nanocomputer architectures that combine low power and routing overheads of cell matrices with flexibility of FPGAs. We introduce a new interconnect topology for cell matrices that provides the flexible logic depth and the ability to reconfigure cells and read their output values during data pipelining, with the following improvements: (+8%) mapping success rate, (~+50%) width of output data compared to the top results achieved by other topologies. Both improvements lead to the better matrix routability and, as a result, to the less area and power overheads of the whole matrix-based nanocomputer architecture. We present a thorough comparison to various prior interconnect topologies and demonstrate the trade-off between mapping success rate, time delay and wire length.
doi_str_mv	10.1109/FTFC.2011.5948929
format	Conference Proceeding
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subjects	cell matrix CNTFETs Computer architecture Field programmable gate arrays Integrated circuit interconnections interconnect topology Logic gates Microprocessors Nanocomputer architecture Topology
title	Interconnect topology for cell matrices based on low-power nanoscale devices
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