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An Overview of Static Power Dissipation

by Jayanth Srinivasan
"... Introduction Power consumption is an increasingly important issue in general purpose processors, particularly in the mobile computing segment. In present processors, most of the power dissipation is dynamic power dissipation, which arises due to signal transitions. Various techniques have been stud ..."
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Introduction Power consumption is an increasingly important issue in general purpose processors, particularly in the mobile computing segment. In present processors, most of the power dissipation is dynamic power dissipation, which arises due to signal transitions. Various techniques have been

REDUCTION in POWER DISSIPATION of CPU

by Poonam Yadav, Surekha Chauhan, Madan Shishodia
"... Abstract- Power dissipation of the CPU increases drastically with increasing clock frequency and increasing no of transistors. Reducing Power Dissipation of CPU is important for further pushing performance and to avoid increasing cooling cost. In this paper the comparative analysis of various compar ..."
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Abstract- Power dissipation of the CPU increases drastically with increasing clock frequency and increasing no of transistors. Reducing Power Dissipation of CPU is important for further pushing performance and to avoid increasing cooling cost. In this paper the comparative analysis of various

Estimation of Power Dissipation in CMOS

by Srinivas Devadas, Kurt Keutzer, Jacob White
"... circuits has made power dissipation an important design consideration. However, power dissipation in a logic cir- cuit is a function of the input vector or vector sequence applied. This makes accurate estimation of worst-case power dissipation extremely difficult, since the number of input sequences ..."
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circuits has made power dissipation an important design consideration. However, power dissipation in a logic cir- cuit is a function of the input vector or vector sequence applied. This makes accurate estimation of worst-case power dissipation extremely difficult, since the number of input

Power Dissipation of Embedded Resistors

by Jiangtao Wang, Mark K. Davis, Rocky Hilburn, Sid Clouser
"... Increasing component density and the requirement for high performance electronic devices are driving the development of electronic systems with passive devices, especially resistors, embedded in both printed circuit boards and chip carriers. A recent innovation, where a thin film NiCr alloy resistiv ..."
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resistors. To enable high performance devices, an embedded resistor must meet certain tolerances and power ratings. The design of embedded resistors and printed circuit boards has a strong influence on the resistor tolerance and power dissipation ability of embedded resistors. Our experimental and FEA

Interconnect-power Dissipation in a Microprocessor

by Nir Magen, Avinoam Kolodny - in Proceedings of the International Workshop on System-Level Interconnect Prediction , 2004
"... Interconnect power is dynamic power dissipation due to switching of interconnection capacitances. This paper describes the characterization of interconnect power in a state-of-the-art high-performance microprocessor designed for power efficiency. The analysis showed that interconnect power is over 5 ..."
Abstract - Cited by 76 (6 self) - Add to MetaCart
Interconnect power is dynamic power dissipation due to switching of interconnection capacitances. This paper describes the characterization of interconnect power in a state-of-the-art high-performance microprocessor designed for power efficiency. The analysis showed that interconnect power is over

Power Dissipation in Car Tyres

by Martin Fraggstedt , 2006
"... Abstract Traffic is a major source of green house gases. The transport field stands for 32 % of the energy consumption and 28 % of the total CO2 emissions, where road transports alone causes 84 % of these figures. The energy consumed by a car traveling at constant speed, is due to engine ineffiency ..."
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, the tread pattern is accounted for, and then the tyre is 'rolled' over it. The contact forces are inserted into the tyre model and the response is calculated. The dissipated power is then calculated through the injected power and the power dissipated within each element. Results are promising

Monitoring Power Dissipation for Fault Detection

by Bapiraju Vinnakota - 14th VTS , 1996
"... In this paper, we suggest that the dynamic power dissipation of a circuit can be used to detect faults in it. The change in dissipation caused by a fault can be maximized by applying specific test vectors. For example circuits, we show that the power dissipation can be used to detect faults which do ..."
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In this paper, we suggest that the dynamic power dissipation of a circuit can be used to detect faults in it. The change in dissipation caused by a fault can be maximized by applying specific test vectors. For example circuits, we show that the power dissipation can be used to detect faults which

Power Dissipation Reductions with Genetic Algorithms

by Eiichi Takahashi, Masahiro Murakawa, Yuji Kasai, Tetsuya Higuchi
"... Two cases of power dissipation reduction with postfabrication adjustment using genetic algorithms are introduced in this paper. The first is a 1GHz ALU implementation, where power consumption has been reduced by 54 % through clock-timing adjustment. The second case is the IF (Intermediate Frequency) ..."
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Two cases of power dissipation reduction with postfabrication adjustment using genetic algorithms are introduced in this paper. The first is a 1GHz ALU implementation, where power consumption has been reduced by 54 % through clock-timing adjustment. The second case is the IF (Intermediate Frequency

bounds on power dissipation for DSP algorithms

by Naresh R. Shanbhag - in Proc. Int. Symp. Low Power Design , 1996
"... Presented in this paper is a fundamental mathematical basis for determining the lower bounds on power dissipation in digital signal processing (DSP) algorithms. This basis is derived from information-theoretic arguments. In particular, a digital signal processing algorithm is viewed asaprocess of in ..."
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Presented in this paper is a fundamental mathematical basis for determining the lower bounds on power dissipation in digital signal processing (DSP) algorithms. This basis is derived from information-theoretic arguments. In particular, a digital signal processing algorithm is viewed asaprocess

Reduction of Power Dissipation in Logic Circuits

by Sreenivasa Rao Ijjada, B. Ramparamesh, Dr. V. Malleswara Rao
"... The most research on the power consumption of circuits has been concentrated on the switching power and the power dissipated by the leakage current has been relatively minor area. In today‟s IC design, one of the key challenges is the increase in power dissipation of the circuit which in turn shorte ..."
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The most research on the power consumption of circuits has been concentrated on the switching power and the power dissipated by the leakage current has been relatively minor area. In today‟s IC design, one of the key challenges is the increase in power dissipation of the circuit which in turn
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