VR-ZYCAP: A Versatile Resourse-Level ICAP Controller for ZYNQ SOC

Abstract: Hybrid architectures integrating a processor with an SRAM-based FPGA fabric—for example, Xilinx ZynQ SoC—are increasingly being used as a single-chip solution in several market segments to replace multi-chip designs. These devices not only provide advantages in terms of logic density, cost and integration, but also provide run-time in-field reconfiguration capabilities. However, the current reconfiguration capabilities provided by vendor tools are limited to the module level. Therefore, incremental run-time co… Show more

“…Another aspect that limits the speed of the approaches is the limited speed of the configuration port. An alternative in this direction could be exploring the capabilities provided by the reconfiguration controllers proposed in [28,29]. Thus, depending on several aspects, such as the size of the design, the location of resources, the processing power of the processor and the application executed, distinct timing results can be obtained.…”

A New Methodology to Manage FPGA Distributed Memory Content via Bitstream for Xilinx ZYNQ Devices

“…Another aspect that limits the speed of the approaches is the limited speed of the configuration port. An alternative in this direction could be exploring the capabilities provided by the reconfiguration controllers proposed in [28,29]. Thus, depending on several aspects, such as the size of the design, the location of resources, the processing power of the processor and the application executed, distinct timing results can be obtained.…”

A New Methodology to Manage FPGA Distributed Memory Content via Bitstream for Xilinx ZYNQ Devices

QoS Aware Design-Time/Run-Time Manager for FPGA-Based Embedded Systems

Enabling Secure and Efficient Sharing of Accelerators in Expeditionary Systems