On-going improvements in the scaling of FPGA device sizes and time-to-market pressures encourage the use of module-oriented design flows [3], while economic factors favour the reuse of smaller devices for high performance computational tasks. One of the core problems in proposing dynamic modular reconfiguration approaches is supporting the differing communications needs of the sequence of modules configured over time [2]. Proposals to date have not focussed on communications issues. Moreover, they have advocated the use of specific protocols [4], or they cannot be readily implemented [1], or they suffer from high overheads [5], or rely upon deprecated features such as tri-state lines [7]. In contrast, we propose a methodology for the rapid ...
Xilinx Virtex FPGAs offer the possibility of dynamic and partial run-time reconfiguration. This feat...
Field Programmable Gate Array (FPGA)-based control systems offer advantages over processor-based con...
The size and complexity of the latest generations of FPGAs has increased dramatically. This in turn ...
On-going improvements in the scaling of FPGA device sizes and time-to-market pressures motivate the ...
Communications infrastructure for modular reconfiguration of FPGAs needs to support the changing com...
Hagemeyer J, Kettelhoit B, Koester M, Porrmann M. Design of Homogeneous Communication Infrastructure...
Current approaches to supporting module-based FPGA reconfiguration focus on various aspects and sub-...
Modules that are swapped dynamically at run-time on an FPGA have varying communication needs over ti...
On-chip communication system has emerged as a prominently important subject in Very-Large- Scale-Int...
Abstract- Parallel architectures have become an increasingly popular method in which to achieve high...
This thesis shows that in FPGA-based dynamic reconfigurable architectures, the complexity and low po...
Kettelhoit B, Porrmann M. A Layer Model for Systematically Designing Dynamically Reconfigurable Syst...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and XPPs brings an addit...
Hagemeyer J, Kettelhoit B, Porrmann M. Dedicated Module Access in Dynamically Reconfigurable Systems...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...
Xilinx Virtex FPGAs offer the possibility of dynamic and partial run-time reconfiguration. This feat...
Field Programmable Gate Array (FPGA)-based control systems offer advantages over processor-based con...
The size and complexity of the latest generations of FPGAs has increased dramatically. This in turn ...
On-going improvements in the scaling of FPGA device sizes and time-to-market pressures motivate the ...
Communications infrastructure for modular reconfiguration of FPGAs needs to support the changing com...
Hagemeyer J, Kettelhoit B, Koester M, Porrmann M. Design of Homogeneous Communication Infrastructure...
Current approaches to supporting module-based FPGA reconfiguration focus on various aspects and sub-...
Modules that are swapped dynamically at run-time on an FPGA have varying communication needs over ti...
On-chip communication system has emerged as a prominently important subject in Very-Large- Scale-Int...
Abstract- Parallel architectures have become an increasingly popular method in which to achieve high...
This thesis shows that in FPGA-based dynamic reconfigurable architectures, the complexity and low po...
Kettelhoit B, Porrmann M. A Layer Model for Systematically Designing Dynamically Reconfigurable Syst...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and XPPs brings an addit...
Hagemeyer J, Kettelhoit B, Porrmann M. Dedicated Module Access in Dynamically Reconfigurable Systems...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...
Xilinx Virtex FPGAs offer the possibility of dynamic and partial run-time reconfiguration. This feat...
Field Programmable Gate Array (FPGA)-based control systems offer advantages over processor-based con...
The size and complexity of the latest generations of FPGAs has increased dramatically. This in turn ...