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In this paper, a novel CMOS-nano hybrid reconfigurable field-prgrammable gate array architecture (rFPGA) is introduced based on resistive memory (RRAM) devices. Different from the existing crossbar-based CMOS-nano architectures, rFPGA consists of mainly 1T1R RRAM structures that can be fabricated by using a CMOS-compatible process. These devices can efficiently establish FPGA block memories. More...
In this paper, the organic-inorganic hybrid circuit is demonstrated with the sandwiched structure of Au/poly(3,4-ethylene-dioxythiophene): polystyrenesulfonate/Au organic memory device and N-type MOSFET for nonvolatile memory application. The MOSFET is fabricated with 0.13-??m CMOS technology. One transistor and one resistor (1T-1R) structure is fabricated in this hybrid circuit, in which the transistor...
In this paper, a novel reconfigurable architecture, cFPGA (CMOS-Nanorelay FPGA) is developed by integrating carbon nanorelays and CMOS devices to function as FPGA components. cFPGA is a highly efficient architecture, providing 2?? density and standby power improvement along with 30% dynamic power reduction as compared to the CMOS FPGA circuits. This performance improvement is achieved by using 2T1N...
CMOS molecular (CMOL) circuits promise great opportunities for future hybrid nanoscale IC implementation. In this paper, a novel three dimension (3D) architecture of CMOL circuit is introduced. It eliminates the special pin requirement, enabling feasible fabrication. It also doubles the density of nanowires of the original CMOL circuit, while providing similar operation performance. This work significantly...
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