This paper presents a novel approach for theoretical estimation of power consumption in digital binary adders. Closed-form expressions for power consumption of four different types of binary adders – the ripple-carry adder, the Manchester adder, a multiplexor-based carry-select adder and an efficient tree-based look-ahead adder – are derived in terms of word-length and pre-computed technologyspecific energy parameters. These expressions are verified to be accurate to within 1- 5 % by simulation using the HEAT tool. 1
The 1-bit full adder circuit is one of the most important components of any digital system applicati...
Full adders are important components in applications such as digital signal processors (DSP) archite...
Full adders are important components in applications such as digital signal processors (DSP) archite...
This paper presents a novel approach for theoretical estimation of power consumption in digital bina...
: This chapter will first address the following issues: why a voltage transition causes power dissip...
With the continuous development of integrated circuit manufacturing processes, the issue of power co...
Addition is representative of many arithmetic processing operations that must be carried out in port...
Demand and popularity of portable electronic devices are driving the designers to strive for higher ...
Utilization of power is a major aspect in the design of integrated circuits. Since, adders are mostl...
An Abstract of the Thesis Adders are the core components in this present multimedia world. Data path...
Graduation date: 1998Minimizing the dynamic power consumption of a circuit is becoming a more and mo...
Power consumption is a major factor in interpreted circuit. For digital circuits, power estimation i...
The authors first address the following issues: why a voltage transition causes power dissipation, w...
Abstract Adders are the integral part of any digital circuit operation. Optimization of adder’s supr...
Abstract: Directly or indirectly adders are the basic elements in almost all digital circuits, three...
The 1-bit full adder circuit is one of the most important components of any digital system applicati...
Full adders are important components in applications such as digital signal processors (DSP) archite...
Full adders are important components in applications such as digital signal processors (DSP) archite...
This paper presents a novel approach for theoretical estimation of power consumption in digital bina...
: This chapter will first address the following issues: why a voltage transition causes power dissip...
With the continuous development of integrated circuit manufacturing processes, the issue of power co...
Addition is representative of many arithmetic processing operations that must be carried out in port...
Demand and popularity of portable electronic devices are driving the designers to strive for higher ...
Utilization of power is a major aspect in the design of integrated circuits. Since, adders are mostl...
An Abstract of the Thesis Adders are the core components in this present multimedia world. Data path...
Graduation date: 1998Minimizing the dynamic power consumption of a circuit is becoming a more and mo...
Power consumption is a major factor in interpreted circuit. For digital circuits, power estimation i...
The authors first address the following issues: why a voltage transition causes power dissipation, w...
Abstract Adders are the integral part of any digital circuit operation. Optimization of adder’s supr...
Abstract: Directly or indirectly adders are the basic elements in almost all digital circuits, three...
The 1-bit full adder circuit is one of the most important components of any digital system applicati...
Full adders are important components in applications such as digital signal processors (DSP) archite...
Full adders are important components in applications such as digital signal processors (DSP) archite...