Application-specific circuits are used to migrate computer systems from workstations to handheld devices that need real-time performance within the budget for physical size and energy dissipation. However, these circuits are inflexible as any modification requires redesign and refabrication, which is both expensive and time-consuming considering the complexity of recent embedded platforms. Therefore, reconfigurable architectures that can be dynamically reconfigured and reused over several platforms have been suggested, and they have proven to provide high performance in a wide range of applications. This thesis focuses on two important topics when designing reconfigurable embedded systems: coarse-grained reconfigurable architectures and sys...
Embedded systems found their way into all areas of technology and everyday life, from transport syst...
Heterogeneous reconfigurable systems provide drastically higher performance and lower power consumpt...
Over the past few years, the realm of embedded systems has expanded to include a wide variety of pro...
Abstract – Coarse-grained reconfigurable architectures have become more attractive with the increasi...
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...
The growing complexity and diversity of embedded systems — combined with continuing demands for high...
Abstract—The growing complexity and diversity of embedded systems—combined with continuing demands f...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
The subject of this work is the design and the implementation of hardware components which can accel...
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...
Reconfigurable systems, exploiting a mixture of the traditional CPU-centric instruction-stream-based...
The capabilities of an ASIC (Application Specific Integrated Circuit) cannot be changed once it has ...
Embedded systems found their way into all areas of technology and everyday life, from transport syst...
Heterogeneous reconfigurable systems provide drastically higher performance and lower power consumpt...
Over the past few years, the realm of embedded systems has expanded to include a wide variety of pro...
Abstract – Coarse-grained reconfigurable architectures have become more attractive with the increasi...
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...
The growing complexity and diversity of embedded systems — combined with continuing demands for high...
Abstract—The growing complexity and diversity of embedded systems—combined with continuing demands f...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
The subject of this work is the design and the implementation of hardware components which can accel...
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...
Reconfigurable systems, exploiting a mixture of the traditional CPU-centric instruction-stream-based...
The capabilities of an ASIC (Application Specific Integrated Circuit) cannot be changed once it has ...
Embedded systems found their way into all areas of technology and everyday life, from transport syst...
Heterogeneous reconfigurable systems provide drastically higher performance and lower power consumpt...
Over the past few years, the realm of embedded systems has expanded to include a wide variety of pro...