This paper describes the low-power design of a MOS current-mode logarithmic adder. The adder utilizes the Brent-Kung tree structure. The design strategy adopted is very simple and effective. Moreover, it can be utilized also for other types of logarithmic adders. To validate it, several adders were designed in a TSMC CMOS 130nm technology. Results of simulations indicate that the proposed methodology offers a good starting point before fine-tuning the design by SPICE simulations. Finally, the tradeoff that can be realized between performance and power consumption is discussed
In this paper, we address the problem of the optimum design of two-level MOS Current Mode Logic (MCM...
With the growing demands of portable devices, it is necessary to pay attention to low-power digital ...
The 20th century is an era of rapid development of IC. The rapid development of information industry...
AbstractThis paper involves the design and comparative analysis of Han-Carlson and Kogge-Stone adder...
Abstract—MOS Current-Mode Logic (MCML) is usually used for high-speed applications. However, the lar...
In this work, MOS Current Mode Logic (MCML) is analyzed for application to low power, mixed signal e...
In the last years, MOS Current-Mode Logic (MCML) circuits are gaining a remarkable interest in sever...
In this paper, a design methodology for the minimization of various performance metrics of MOS Curre...
17-20Parallel prefix addition is a technique for speeding up binary addition. Classical parallel pre...
In this work, the designs of both non-iterative and iterative approximate logarithmic multipliers (L...
This paper introduces the implementation of multi-GHz power-aware asynchronous pipelined circuits in...
MOS Current-Mode Logic (MCML) is widely used for high-speed circuits. However, the MCML circuits hav...
Near threshold circuits (NTC) are an attractive and promising technology that provides significant p...
In this paper, we present three digital multiplier architectures capable of operating in the gigaher...
This paper describes the arithmetic blocks based on Montgomery Multiplier (MM), which reduces comple...
In this paper, we address the problem of the optimum design of two-level MOS Current Mode Logic (MCM...
With the growing demands of portable devices, it is necessary to pay attention to low-power digital ...
The 20th century is an era of rapid development of IC. The rapid development of information industry...
AbstractThis paper involves the design and comparative analysis of Han-Carlson and Kogge-Stone adder...
Abstract—MOS Current-Mode Logic (MCML) is usually used for high-speed applications. However, the lar...
In this work, MOS Current Mode Logic (MCML) is analyzed for application to low power, mixed signal e...
In the last years, MOS Current-Mode Logic (MCML) circuits are gaining a remarkable interest in sever...
In this paper, a design methodology for the minimization of various performance metrics of MOS Curre...
17-20Parallel prefix addition is a technique for speeding up binary addition. Classical parallel pre...
In this work, the designs of both non-iterative and iterative approximate logarithmic multipliers (L...
This paper introduces the implementation of multi-GHz power-aware asynchronous pipelined circuits in...
MOS Current-Mode Logic (MCML) is widely used for high-speed circuits. However, the MCML circuits hav...
Near threshold circuits (NTC) are an attractive and promising technology that provides significant p...
In this paper, we present three digital multiplier architectures capable of operating in the gigaher...
This paper describes the arithmetic blocks based on Montgomery Multiplier (MM), which reduces comple...
In this paper, we address the problem of the optimum design of two-level MOS Current Mode Logic (MCM...
With the growing demands of portable devices, it is necessary to pay attention to low-power digital ...
The 20th century is an era of rapid development of IC. The rapid development of information industry...