This paper presents a system-level technique for embedded processor-based systems targeting both dynamic power and leakage power reduction using datapath width optimization. By means of tuning the design parameter, datapath width tailored to a given application requirements, the processors and memories are optimized resulting in significant power reduction, not only for dynamic power but also for leakage power. In our experiments for several real embedded applications, power reduction without performance penalty is reported range from about 14.5% to 59.2% of dynamic power, and 21.5% to 66.2% of leakage power
Abstract. Voltage scaling reduces leakage power for cache lines unlikely to be referenced soon. Part...
A field-programmable gate array (FPGA) is an integrated circuit (IC) which can be configured to impl...
The topic of reducing power dissipation in embedded systems has received considerable attention in t...
This paper addresses bitwidth optimization focusing on leakage power reduction for system-level low-...
Leakage power dissipation constitutes an increasing frac-tion of the total power in modern semicondu...
Abstract. We introduce low-overhead power optimization techniques to reduce leakage power in embedde...
Leakage power is a growing concern in modern technology nodes. In some current and emerging applicat...
Leakage power is an important concern in modern electronic designs. To efficiently employ power gati...
Power minimization is a critical challenge for modern embedded system design. Recently, due to the r...
This paper presents a novel system-level technique that minimizes the energy consumption of embedded...
Power efficient design of real-time embedded systems based on programmable processors becomes more i...
This paper presents a novel system-level approach that minimizes the energy consumption of embedded ...
Traditionally, active power has been the primary source of power dissipation in CMOS designs. Althou...
Summary form only given. Dynamic power management (DPM) entails employing strategies that yield acce...
Green computing techniques aim to reduce the power foot print of modern embedded devices with partic...
Abstract. Voltage scaling reduces leakage power for cache lines unlikely to be referenced soon. Part...
A field-programmable gate array (FPGA) is an integrated circuit (IC) which can be configured to impl...
The topic of reducing power dissipation in embedded systems has received considerable attention in t...
This paper addresses bitwidth optimization focusing on leakage power reduction for system-level low-...
Leakage power dissipation constitutes an increasing frac-tion of the total power in modern semicondu...
Abstract. We introduce low-overhead power optimization techniques to reduce leakage power in embedde...
Leakage power is a growing concern in modern technology nodes. In some current and emerging applicat...
Leakage power is an important concern in modern electronic designs. To efficiently employ power gati...
Power minimization is a critical challenge for modern embedded system design. Recently, due to the r...
This paper presents a novel system-level technique that minimizes the energy consumption of embedded...
Power efficient design of real-time embedded systems based on programmable processors becomes more i...
This paper presents a novel system-level approach that minimizes the energy consumption of embedded ...
Traditionally, active power has been the primary source of power dissipation in CMOS designs. Althou...
Summary form only given. Dynamic power management (DPM) entails employing strategies that yield acce...
Green computing techniques aim to reduce the power foot print of modern embedded devices with partic...
Abstract. Voltage scaling reduces leakage power for cache lines unlikely to be referenced soon. Part...
A field-programmable gate array (FPGA) is an integrated circuit (IC) which can be configured to impl...
The topic of reducing power dissipation in embedded systems has received considerable attention in t...