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In this paper, a novel 3D CMOS nanohybrid technology, 3D CMOL, is introduced to establish FPGA chips. By combining two leading technologies, hybrid CMOS/nanoelectronic circuit (CMOL) and 3D integration, 3D CMOL can provide a feasible and more efficient fabrication/assembly process than the existing 2D CMOL. Furthermore, 3D CMOL FPGA implements circuits in three dimensions so that it can increase the...
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...
In this paper, novel reconfigurable architectures are introduced to utilize high-density resistive memory (RRAM) to build FPGA components. Different from the existing CMOS-nano hybrid circuits that use crossbars, the proposed rFPGA structures consist of mainly 1T1R structures (1 CMOS transistor is integrated with a two-terminal resistive nanojunction) that can be fabricated using a CMOS-compatible...
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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