Haroula Pournara

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SUMMARY A complete system for the implementation of digital logic in a Field-Programmable Gate Array (FPGA) platform is introduced. The novel power-efficient FPGA architecture was designed and simulated in STM 0.18 µm CMOS technology. The detailed design and circuit characteristics of the Configurable Logic Block, the interconnection network, the switch box(More)
In this paper a complete system for the implementation of digital logic in a fine-grain reconfigurable platform is introduced. The system is composed of two parts: the fine-grain reconfigurable hardware platform (FPGA) on which the logic is implemented and the set of CAD tools for mapping logic to the FPGA platform. It is the first such complete academic(More)
A complete system for the implementation of digital logic in a fine-grain reconfigurable platform is introduced. The system is composed of two parts: The fine-grain reconfigurable hardware platform (FPGA) on which the logic is implemented and the set of CAD tools for mapping logic to the FPGA platform. The novel energy-efficient FPGA architecture was(More)
The design of a novel embedded FPGA reconfigurable hardware architecture is introduced. The architecture features a number of circuit-level low-power techniques, since power consumption is considered a primary concern. Additionally, a complete set of tools facilitating implementation of applications on the proposed FPGA was presented, starting from an RTL(More)
Pass transistor logic is a promising alternative to conventional CMOS logic for low-power high-performance applications due to the decreased node capacitance and reduced transistor count it offers. However, the lack of supporting design automation tools has hindered the widespread application of pass transistors. In this paper, a simple and robust modeling(More)
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