抽象的な

Design of 3232 Barrel Shifter Using Various Adiabatic Techniques for Low Power Applications

Nemili Suresh Reddy, P. Mahesh Kannan

Now a day’s technology enhancement is at a blistering pace. Merely VLSI has a meteoric rise due to the adoption of new techniques. Static CMOS had a limitation of deploying constant power supply. Less power dissipation is an essential attribute for any optimized design. Varying the power supply is the very thing for preventing the power dissipation. An adiabatic logic is a new technique to reduce power dissipation. Barrel shifter is an important block in any computational hardware architecture. This paper gives a detailed account of 32 bit barrel shifter design using 3 techniques namely Differential Cascode Voltage Switch Logic( DCVSL), Differential Cascode voltage Switch Pass transistor Adiabatic Logic(DCVPAL), Complementary Pass transistor Adiabatic Logic(CPAL) and Positive Feedback Adiabatic Logic( PFAL). The analysis is carried out in Tanner spice and H-Spice using 180nm technology

免責事項: この要約は人工知能ツールを使用して翻訳されており、まだレビューまたは確認されていません