Now a days,MOS Current Mode Logic(MCML)has emerged as a better alternative to Complementary Metal Oxide Semiconductor(CMOS)logic in digital circuits.Recent works have only traditional logic gates that have issues with...Now a days,MOS Current Mode Logic(MCML)has emerged as a better alternative to Complementary Metal Oxide Semiconductor(CMOS)logic in digital circuits.Recent works have only traditional logic gates that have issues with information loss.Reversible logic is incorporated with MOS Current Mode Logic(MCML)in this proposed work to solve this problem,which is used for multiplier design,D Flip-Flop(DFF)and register.The minimization of power and area is the main aim of the work.In reversible logic,the count of outputs and inputs is retained as the same value for creating one-to-one mapping.A unique output vector set can be generated for each input vector set and information loss is also prevented.In reversible MCML based multiplier,reversible logic full adder is utilized to minimize the area and power.D flip-flops based on reversible MCML are often designed to store information that is then combined to form a reversible MCML based register.The proposed reversible MCML multiplier attains average power of 0.683 mW,Reversible MCML based DFF achieves 0.56μW and Reversible MCML based 8-bit register attains 04.04μW.The result shows that the proposed Reversible MCML based multiplier,Reversible MCML based D flip-flop and ReversibleMCML based register achieves better performance in terms of current,power dissipation,average power and area.展开更多
This paper proposes a low-power MOS current mode logic (MCML) circuit with sleep-transistor to reduce the leakage current. The sleep-transistor is used to high-threshold voltage transistor to minimize the leakage cu...This paper proposes a low-power MOS current mode logic (MCML) circuit with sleep-transistor to reduce the leakage current. The sleep-transistor is used to high-threshold voltage transistor to minimize the leakage current. The 16× 16 bit parallel multiplier is designed with the proposed technology. Comparing with the previous MCML circuit, the circuit achieves the reduction of the power consumption in sleep mode by 1/258. This circuit is designed with Samsung 0.35 um complementary metal oxide semiconductor (CMOS) process. The validity and effectiveness are verified through the HSPICE simulation.展开更多
文摘Now a days,MOS Current Mode Logic(MCML)has emerged as a better alternative to Complementary Metal Oxide Semiconductor(CMOS)logic in digital circuits.Recent works have only traditional logic gates that have issues with information loss.Reversible logic is incorporated with MOS Current Mode Logic(MCML)in this proposed work to solve this problem,which is used for multiplier design,D Flip-Flop(DFF)and register.The minimization of power and area is the main aim of the work.In reversible logic,the count of outputs and inputs is retained as the same value for creating one-to-one mapping.A unique output vector set can be generated for each input vector set and information loss is also prevented.In reversible MCML based multiplier,reversible logic full adder is utilized to minimize the area and power.D flip-flops based on reversible MCML are often designed to store information that is then combined to form a reversible MCML based register.The proposed reversible MCML multiplier attains average power of 0.683 mW,Reversible MCML based DFF achieves 0.56μW and Reversible MCML based 8-bit register attains 04.04μW.The result shows that the proposed Reversible MCML based multiplier,Reversible MCML based D flip-flop and ReversibleMCML based register achieves better performance in terms of current,power dissipation,average power and area.
文摘This paper proposes a low-power MOS current mode logic (MCML) circuit with sleep-transistor to reduce the leakage current. The sleep-transistor is used to high-threshold voltage transistor to minimize the leakage current. The 16× 16 bit parallel multiplier is designed with the proposed technology. Comparing with the previous MCML circuit, the circuit achieves the reduction of the power consumption in sleep mode by 1/258. This circuit is designed with Samsung 0.35 um complementary metal oxide semiconductor (CMOS) process. The validity and effectiveness are verified through the HSPICE simulation.
