Reconfigurable computing combines the benefits of both software and reconfigurable hardware implementations. The use of FPGA in reconfigurable computing is becoming increasingly prevalent due to its ever-increasing density and rapid turn around time. There is a growing need to maximize the utilization of FPGA resources with the help of a framework for runtime reconfigurable platforms in an attempt to reduce cost and power consumption. Another development branch leads to dynamically reconfigurable FPGAs, which allows certain areas within the FPGA to be reconfigured while the rest continues to run unaffected.MASTER OF ENGINEERING (SCE
Field programmable gate arrays (FPGAs) are commonly used in embedded systems. Although it is possibl...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
Over the past few years, the realm of embedded systems has expanded to include a wide variety of pro...
Today’s embedded systems depend on the availability of hybrid platforms, that contain heterogeneous ...
99 p.Innovative embedded applications like video and internet streaming in the multimedia domain hav...
With the dawn of reconfigurable computing, the FPGA has increasingly replaced microcontrollers as a ...
This paper describes platform for dynamic reconfiguration on an FPGA with embedded microcontroller. ...
Reconfigurable computing applications have traditionally had the exclusive use of the field programm...
The feasibility of run-time reconfiguration of FPGAs has been established by a large number of case ...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Field programmable gate arrays are a class of integrated circuit that enable logic functions and int...
Run-Time Reconfigured systems offer additional hardware resources to systems based on reconfigurable...
During the last few years, there is an increasing interest in mixing software and hardware to serve ...
In the past two decades, FPGA has been witnessed from its restricted use as glue logic towards real ...
Abstract This doctoral thesis addresses the design of embedded electronic systems based on run-ti...
Field programmable gate arrays (FPGAs) are commonly used in embedded systems. Although it is possibl...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
Over the past few years, the realm of embedded systems has expanded to include a wide variety of pro...
Today’s embedded systems depend on the availability of hybrid platforms, that contain heterogeneous ...
99 p.Innovative embedded applications like video and internet streaming in the multimedia domain hav...
With the dawn of reconfigurable computing, the FPGA has increasingly replaced microcontrollers as a ...
This paper describes platform for dynamic reconfiguration on an FPGA with embedded microcontroller. ...
Reconfigurable computing applications have traditionally had the exclusive use of the field programm...
The feasibility of run-time reconfiguration of FPGAs has been established by a large number of case ...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Field programmable gate arrays are a class of integrated circuit that enable logic functions and int...
Run-Time Reconfigured systems offer additional hardware resources to systems based on reconfigurable...
During the last few years, there is an increasing interest in mixing software and hardware to serve ...
In the past two decades, FPGA has been witnessed from its restricted use as glue logic towards real ...
Abstract This doctoral thesis addresses the design of embedded electronic systems based on run-ti...
Field programmable gate arrays (FPGAs) are commonly used in embedded systems. Although it is possibl...
The growing complexity and diversity of embedded systems-combined with continuing demands for higher...
Over the past few years, the realm of embedded systems has expanded to include a wide variety of pro...