DESIGN AND SYNTHESIS OF HIGH SPEED LOW POWER MODULAR ADDERS BASED ON USING REVERSIBLE LOGIC
BALOJINAICK DESAVATHU, VENKATESWARA RAO. P
Reversible common sense, quantum fee, rubbish outputs.
Reversible logic has presented itself as a distinguished technology which performs an vital position in Quantum Computing. Quantum computing gadgets theoretically perform at ultra-excessive velocity and eat infinitesimally less energy. Research did in this mission goals to make use of the concept of reversible logic to break the conventional pace-electricity trade-off, thereby getting a step closer to comprehend Quantum computing gadgets. To authenticate this research, numerous combinational and sequential circuits are applied which include N-bit Ripple-convey Adder using Reversible gates. The energy and speed parameters for the circuits were indicated, and in comparison with their traditional non-reversible counterparts. The comparative statistical study proves that circuits employing Reversible good judgment as a result are quicker and energy green.