Abstract—In high-performance computing systems, efficient energy management is a key feature for keeping energy bills low and avoiding thermal dissipation problems, as well as for controlling the application performance. This paper considers the problem of partitioning and scheduling a set of real-time tasks on a realistic hardware platform consisting of a number of homogeneous processors. Several well-known heuristics are compared to identify the approach that better reduces the overall energy consumption of the entire system. Despite the actual state of art, the approach which minimizes the number of active cores is the most energy efficient. I
Power consumption is a major design concern in current embedded systems. To deal with consumption, m...
In recent years multiprocessor architectures have become mainstream, and multi-core processors are f...
We present a number of novel algorithms, based on mathematical optimization formulations, in order t...
Abstract—In high-performance computing systems, efficient energy management is a key feature for kee...
Abstract—As application complexity increases, modern embedded systems have adopted heterogeneous pro...
The designs of heterogeneous multi-core multiprocessor real-time systems are evolving for higher ene...
Abstract—The designs of heterogeneous multi-core multipro-cessor real-time systems are evolving for ...
Multicore processors promise higher throughput at lower power consumption than single core processor...
Multicore processors deliver a higher throughput at lower power consumption than unicore processors....
Modern multi-core embedded processors allow to implement increasingly complex processing application...
Modern multicore processors for the embedded market are often heterogeneous in nature. One feature ...
Energy-efficient task allocation and scheduling schemes with deterministic fault-tolerance capabilit...
The energy management for embedded real-time systems is crucial due to their restricted power suppli...
This paper presents an energy-aware method to schedule multiple real-time tasks in multiprocessor sy...
This article presents a survey of energy-aware scheduling algorithms proposed for real-time systems....
Power consumption is a major design concern in current embedded systems. To deal with consumption, m...
In recent years multiprocessor architectures have become mainstream, and multi-core processors are f...
We present a number of novel algorithms, based on mathematical optimization formulations, in order t...
Abstract—In high-performance computing systems, efficient energy management is a key feature for kee...
Abstract—As application complexity increases, modern embedded systems have adopted heterogeneous pro...
The designs of heterogeneous multi-core multiprocessor real-time systems are evolving for higher ene...
Abstract—The designs of heterogeneous multi-core multipro-cessor real-time systems are evolving for ...
Multicore processors promise higher throughput at lower power consumption than single core processor...
Multicore processors deliver a higher throughput at lower power consumption than unicore processors....
Modern multi-core embedded processors allow to implement increasingly complex processing application...
Modern multicore processors for the embedded market are often heterogeneous in nature. One feature ...
Energy-efficient task allocation and scheduling schemes with deterministic fault-tolerance capabilit...
The energy management for embedded real-time systems is crucial due to their restricted power suppli...
This paper presents an energy-aware method to schedule multiple real-time tasks in multiprocessor sy...
This article presents a survey of energy-aware scheduling algorithms proposed for real-time systems....
Power consumption is a major design concern in current embedded systems. To deal with consumption, m...
In recent years multiprocessor architectures have become mainstream, and multi-core processors are f...
We present a number of novel algorithms, based on mathematical optimization formulations, in order t...