Multi-core and heterogeneous processors in modern embedded platforms have increased in complexity to provide both high-performance and energy-efficient execution of applications.As a result, the runtime management and control of these platforms has become a non-trivial process with many different approaches being reported in the literature. In addition, applications have become increasingly dynamic to exploit these processors runtime adjustable parameters that can be tuned to optimise and influence their behaviour. These two challenges motivate the need for a consistent approach to runtime management that is cross-platform and generic in the support of applications. This abstract presents the PRiME Framework, a cross-layer framework that en...
A main challenge in today's embedded system design is to find the perfect balance between performanc...
This paper presents an Application-specific Run-Time managEment (ARTE) framework to tackle the probl...
Available hardware platforms provide the applications with an extended set of physical resources, as...
Multi-core and heterogeneous processors in modern embedded platforms have increased in complexity to...
Heterogeneous multiprocessor systems have increased in complexity to provide both high performance a...
Heterogeneous multiprocessor systems have increased in complexity to provide both high performance a...
Increasing energy efficiency and reliability at runtime is a key challenge of heterogeneous many-cor...
Multiprocessor systems provide both highperformance and energy-efficient execution of applications o...
Performance requirements of emerging applications and tighter power consumption constraints of mobil...
Power- and energy-efficiency continues to be a primary concern in the design and management of compu...
Power- and energy-efficiency continues to be a primary concern in the design and management of compu...
Energy-efficiency is important at all scales of computing system, from microcontrollers through to H...
In recent years, we are witnessing the dawning of the Multi-Processor Systemon- Chip (MPSoC) era. In...
Multi-core processing platforms are one of the major steps forward in offering high-performance comp...
A main challenge in today's embedded system design is to find the perfect balance between performanc...
This paper presents an Application-specific Run-Time managEment (ARTE) framework to tackle the probl...
Available hardware platforms provide the applications with an extended set of physical resources, as...
Multi-core and heterogeneous processors in modern embedded platforms have increased in complexity to...
Heterogeneous multiprocessor systems have increased in complexity to provide both high performance a...
Heterogeneous multiprocessor systems have increased in complexity to provide both high performance a...
Increasing energy efficiency and reliability at runtime is a key challenge of heterogeneous many-cor...
Multiprocessor systems provide both highperformance and energy-efficient execution of applications o...
Performance requirements of emerging applications and tighter power consumption constraints of mobil...
Power- and energy-efficiency continues to be a primary concern in the design and management of compu...
Power- and energy-efficiency continues to be a primary concern in the design and management of compu...
Energy-efficiency is important at all scales of computing system, from microcontrollers through to H...
In recent years, we are witnessing the dawning of the Multi-Processor Systemon- Chip (MPSoC) era. In...
Multi-core processing platforms are one of the major steps forward in offering high-performance comp...
A main challenge in today's embedded system design is to find the perfect balance between performanc...
This paper presents an Application-specific Run-Time managEment (ARTE) framework to tackle the probl...
Available hardware platforms provide the applications with an extended set of physical resources, as...