In this paper, voltage scaling strategies for scheduling aperiodic tasks under average delay constraints are studied. Dynamic voltage scaling in single processor systems is formulated as a constrained stochastic optimization problem for which the optimal solution can be obtained using a combination of Lagrange relaxation and the value iteration method. For multiprocessor systems, we present a two-phase approach. In the first phase, the speed settings and static workload distribution of the processors are optimized to minimize the total power dissipation. Dynamic voltage scaling techniques are then applied to each individual processor in the second phase. Both homogeneous and heterogeneous systems have been investigated. Based on queueing th...
The high power consumption of modern processors becomes a major concern because it leads to decrease...
Clock (and voltage) scheduling is an important technique to reduce the energy consumption of process...
Dynamic voltage scheduling has been proven to be one of the most effective ways to reduce the power ...
Embedded computing systems in portable devices need to be energy efficient, yet they have to deliver...
Jobs on high-performance computing systems are deployed mostly with the sole goal of minimizing comp...
Traditionally, the primary performance goal of computer systems has focused on reducing the executio...
Abstract – We address task scheduling on mul-tiprocessor computers with dynamically variable voltage...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
Abstract—As the performance of modern multi-core proces-sors increases, the energy consumption in th...
Abstract. When peak performance is unnecessary, Dynamic Voltage Scaling (DVS) can be used to reduce ...
Abstract- This paper addresses the problem of minimizing energy consumption of a computer system per...
Abstract — In contemporary and future embedded as well as high-performance microprocessors, power co...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Dynamic voltage scaling and adaptive body biasing have been shown to reduce dynamic and leakage powe...
This paper deals with energy-aware real-time system scheduling using dynamic voltage scaling (DVS) f...
The high power consumption of modern processors becomes a major concern because it leads to decrease...
Clock (and voltage) scheduling is an important technique to reduce the energy consumption of process...
Dynamic voltage scheduling has been proven to be one of the most effective ways to reduce the power ...
Embedded computing systems in portable devices need to be energy efficient, yet they have to deliver...
Jobs on high-performance computing systems are deployed mostly with the sole goal of minimizing comp...
Traditionally, the primary performance goal of computer systems has focused on reducing the executio...
Abstract – We address task scheduling on mul-tiprocessor computers with dynamically variable voltage...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
Abstract—As the performance of modern multi-core proces-sors increases, the energy consumption in th...
Abstract. When peak performance is unnecessary, Dynamic Voltage Scaling (DVS) can be used to reduce ...
Abstract- This paper addresses the problem of minimizing energy consumption of a computer system per...
Abstract — In contemporary and future embedded as well as high-performance microprocessors, power co...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Dynamic voltage scaling and adaptive body biasing have been shown to reduce dynamic and leakage powe...
This paper deals with energy-aware real-time system scheduling using dynamic voltage scaling (DVS) f...
The high power consumption of modern processors becomes a major concern because it leads to decrease...
Clock (and voltage) scheduling is an important technique to reduce the energy consumption of process...
Dynamic voltage scheduling has been proven to be one of the most effective ways to reduce the power ...