To achieve this objective, we explore various VLSI design styles, including CMOS, Transmission Gate Logic (TGL), Pass-transistor Dual-Value Logic (PDVL), and Gate Diffusion Input (GDI). …

All proposed decoders are designed in Gate diffusion input (GDI)—a new technique of low-power digital combinatorial circuit design thereby results in reducing power consumption, propagation …

The proposed design utilizes the Gate Diffusion Technique (GDI) to recreate the conventional decoder circuit. Cadence Virtuoso tool is used for design of the proposed circuit on 90nm …

Gate diffusion input (GDI) is a technique of low power digital for circuit design which allows reducing power consumption, delay, and area of the digital circuit.

The proposed design and performance analysis of decoder circuits. can be used to optimize both area and power consumption in various low-power applications such as mobile devices, IoT …

The decoder can be designed using techniques such as CMOS logic, PTL(Pass Transistor Logic), TGL(Transmission Gate Logic) to achieve the functionality of the block.

GDI technique helps in designing low-power digital combinatorial circuit by which we can eradicate demerits of CMOS, PTL techniques. This technique allows reducing power …

Here we propose a power efficient Carry ripple adder and array multiplier based on gate diffusion input circuit design style. The GDI cell is modified to obtain the strong 0 and using this …

GDI is a novel technique for developing low-power digital sequence circuit. This method allows for low-power consumption, transmission delay, and region of digital circuits whereas keeping a …

Abstract: The gate diffusion input (GDI) is a novel technique for low power digital circuits design. This technique reduces the power dissipation, propagation delay, area of digital circuits and it …