[[abstract]]New embedded systems offer rich power management features in the form of multiple operational and non-operational power modes. While they offer mechanisms for better energy efficiency, they also complicate power management decisions in the presence of real-time constraints. Traditional dynamic power management techniques based on localized break-even-time analysis with simple on/off power controls often yield suboptimal if not incorrect results globally. To address these problems, this paper presents two core algorithms for reducing idle energy consumption at the component level and system level. The first algorithm discovers the optimal sequence for mode transition over multiple power modes under timing constraints. It assists ...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
non-peer-reviewedReducing power consumption is an important design objective in energy-constrained e...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
New embedded systems offer rich power management features in the form of multiple operational and no...
[[abstract]]This article presents techniques for reducing idle energy by mode-sequence optimization ...
[[abstract]]To save energy, many power management policies rely on issuing mode-change commands to t...
Abstract: Generally, there are periodic interrupt services in the real-time embedded systems even wh...
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
Minimizing energy consumption is a key issue in designing real-time applications on wireless embedde...
Abstract—Reducing power consumption is an important design objective in energy-constrained embedded ...
Energy consumption is one of the major issues for modern embedded systems. Early, power saving appro...
Emerging trends in applications with the requirement of considerable computational performance and d...
Energy consumption has become a vital design constraint in embedded systems. The demand for efficien...
International audienceRecent technological advances have greatly improved the performance and featur...
With the improvement of the computer science and electronic tecnologies, nowadays, it’s possibile to...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
non-peer-reviewedReducing power consumption is an important design objective in energy-constrained e...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
New embedded systems offer rich power management features in the form of multiple operational and no...
[[abstract]]This article presents techniques for reducing idle energy by mode-sequence optimization ...
[[abstract]]To save energy, many power management policies rely on issuing mode-change commands to t...
Abstract: Generally, there are periodic interrupt services in the real-time embedded systems even wh...
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
Minimizing energy consumption is a key issue in designing real-time applications on wireless embedde...
Abstract—Reducing power consumption is an important design objective in energy-constrained embedded ...
Energy consumption is one of the major issues for modern embedded systems. Early, power saving appro...
Emerging trends in applications with the requirement of considerable computational performance and d...
Energy consumption has become a vital design constraint in embedded systems. The demand for efficien...
International audienceRecent technological advances have greatly improved the performance and featur...
With the improvement of the computer science and electronic tecnologies, nowadays, it’s possibile to...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
non-peer-reviewedReducing power consumption is an important design objective in energy-constrained e...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...