Reconfigurable computing offers the embedded systems designers the flexibility of application specific optimizations on a generic platform. In this paper, we are concerned with a fine-grain, tightly coupled, dynamically reconfigurable architecture we call Adaptive EPIC. A generic EPIC architecture is augmented with a dynamically reconfigurable structure. In this paper, we describe an experimental setup to evaluate the performance of such a processor. Our results show that such architecture can offer significant performance improvements for low frequency, and hence low power, core processors
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
The growing complexity and diversity of embedded systems—combined with continuing demands for higher...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
Abstract: Extending a generic architecture with a dynamically re-configurable structure offers to em...
In current-day embedded systems design, one is faced with cut-throat competition to deliver new func...
In a scenario where the complexity and diversity of embedded systems is rising and causing extra pre...
The growing complexity and diversity of embedded systems combined with continuing demands for higher...
The growing complexity and diversity of embedded systems — combined with continuing demands for high...
This paper describes a customisable architecture and the associated tools for a prototype EPIC (Expl...
General purpose processors provide a well performance with adequate power consumption for a huge ban...
Sophisticated embedded systems are becoming wide spread today in aerospace, automotive, avionic, and...
Given the widespread use of real-time multitasking systems, there are tremendous optimization opport...
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
International SoC Design Conference : October 15-16 : KoreaIn this paper, we develop a heterogeneous...
Application-specific circuits are used to migrate computer systems from workstations to handheld dev...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
The growing complexity and diversity of embedded systems—combined with continuing demands for higher...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
Abstract: Extending a generic architecture with a dynamically re-configurable structure offers to em...
In current-day embedded systems design, one is faced with cut-throat competition to deliver new func...
In a scenario where the complexity and diversity of embedded systems is rising and causing extra pre...
The growing complexity and diversity of embedded systems combined with continuing demands for higher...
The growing complexity and diversity of embedded systems — combined with continuing demands for high...
This paper describes a customisable architecture and the associated tools for a prototype EPIC (Expl...
General purpose processors provide a well performance with adequate power consumption for a huge ban...
Sophisticated embedded systems are becoming wide spread today in aerospace, automotive, avionic, and...
Given the widespread use of real-time multitasking systems, there are tremendous optimization opport...
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
International SoC Design Conference : October 15-16 : KoreaIn this paper, we develop a heterogeneous...
Application-specific circuits are used to migrate computer systems from workstations to handheld dev...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
The growing complexity and diversity of embedded systems—combined with continuing demands for higher...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...