Exploiting FPGAs for technology-aware system-level evaluation of multi-core architectures

Abstract: The hardware-software co-development of modern complex MPSoC computing platforms exposes to the designer a huge complexity, resulting from the combination of vastly different architectural possibilities with strict demands posed by the target applications. To handle this complexity, highly accurate but rapid prototyping/evaluation environments need to be developed, that would possibly be able to provide an effective measurement of the system under design as soon as possible, allowing to comply with current tim… Show more

“…This work is usually performed manually and it requires a high expertise by the designer. For example, in [3], the authors propose a framework to automatically generate FPGA-based architectures, but focusing on the prototyping of different interconnection topologies and building cost models. However, the initial application has to be enriched with the driver code to manage the execution of the different cores.…”

On the automatic integration of hardware accelerators into FPGA-based embedded systems

“…This work is usually performed manually and it requires a high expertise by the designer. For example, in [3], the authors propose a framework to automatically generate FPGA-based architectures, but focusing on the prototyping of different interconnection topologies and building cost models. However, the initial application has to be enriched with the driver code to manage the execution of the different cores.…”

On the automatic integration of hardware accelerators into FPGA-based embedded systems

“…As part of its embedded development environment, Xilinx itself provides a fairly large number of soft-cores that can be easily instantiated inside the hardware platform EDK (Embedded Development Kit). Among these elements, the most commonly used are softcore 32-bit RISC processors (MicroBlaze), configurable on-chip memories and memory controllers, Xilinx proprietary buses and bridges (PLB, OPB, FSL), and I/O controllers (UartLite, USB, Ethernet) [7]. Many aspects of multicore architectures can be tested and explored easily based on them.…”

An Embedded Multicore Platform Exploration in Video Application Utilizing FPGA