Add to ORKGConventional power estimation techniques are prone to many sources of error. With increasing dominance of coupling capac-itances, capacitive coupling potentially contributes significantly to UDSM power consumption. We analyze potential sources of in-accuracy in power estimation, focusing on those due to coupling. Our results suggest that traditional power estimates can be off by as much as 50%.
With the advent of portable and high-density microelectronic devices, the power dissipation of integ...
In this chapter, we explain the two types of power consumption found in a complementary metal-oxide-...
In this paper we propose a novel technique based on Markov chains to accurately estimate power sensi...
In this paper, we discuss on accuracy of several kinds of power dissipation model for CMOS VLSI circ...
this paper, we discuss on accuracy of power dissipation models for CMOS VLSI circuits. Some research...
Due to the recent trend toward highly reliable portable computing and wireless communications system...
Power dissipation in CMOS circuits is heavily dependent on the signal properties of the primary inpu...
Analyzing power consumption is a major factor in CMOS electronic design procedure. Power estimation ...
Continuously increasing transistor densities as well as the rising demand for mobile computing perfo...
(Received 2/2/2012; accepted for publication 17/4/2013) Abstract. Power dissipation of very large sc...
Computer-aided design (CAD) tools are frequently employed to verify the design objectives before the...
As mobile and portable information systems are becoming more popular, there is a need for the develo...
Power estimation is important for system-level exploration and trade-off analysis of VLSI systems. A...
Computer-aided design ( CAD) tools are frequently employed to verify the design objectives before th...
Transistlw-level power simulators, which are more accurate than logic-level power estimators, have b...
With the advent of portable and high-density microelectronic devices, the power dissipation of integ...
In this chapter, we explain the two types of power consumption found in a complementary metal-oxide-...
In this paper we propose a novel technique based on Markov chains to accurately estimate power sensi...
In this paper, we discuss on accuracy of several kinds of power dissipation model for CMOS VLSI circ...
this paper, we discuss on accuracy of power dissipation models for CMOS VLSI circuits. Some research...
Due to the recent trend toward highly reliable portable computing and wireless communications system...
Power dissipation in CMOS circuits is heavily dependent on the signal properties of the primary inpu...
Analyzing power consumption is a major factor in CMOS electronic design procedure. Power estimation ...
Continuously increasing transistor densities as well as the rising demand for mobile computing perfo...
(Received 2/2/2012; accepted for publication 17/4/2013) Abstract. Power dissipation of very large sc...
Computer-aided design (CAD) tools are frequently employed to verify the design objectives before the...
As mobile and portable information systems are becoming more popular, there is a need for the develo...
Power estimation is important for system-level exploration and trade-off analysis of VLSI systems. A...
Computer-aided design ( CAD) tools are frequently employed to verify the design objectives before th...
Transistlw-level power simulators, which are more accurate than logic-level power estimators, have b...
With the advent of portable and high-density microelectronic devices, the power dissipation of integ...
In this chapter, we explain the two types of power consumption found in a complementary metal-oxide-...
In this paper we propose a novel technique based on Markov chains to accurately estimate power sensi...