Affiliation:
1. University of Strathclyde, Glasgow, UK
Abstract
This paper presents a top-down designer-driven design flow for creating hardware that exploits partial run-time reconfiguration. Computer-aided design (CAD) tools are presented, which complement conventional FPGA design environments to enable the specification, simulation (both functional and timing), synthesis, automatic placement and routing, partial configuration generation and control of partially reconfigurable designs. Collectively these tools constitute the dynamic circuit switching CAD framework. A partially reconfigurable Viterbi decoder design is presented to demonstrate the design flow and illustrate possible power consumption reductions and performance improvements through the exploitation of partial reconfiguration.
Publisher
Association for Computing Machinery (ACM)
Subject
Hardware and Architecture,Software
Cited by
12 articles.
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1. Simulation-based functional verification of dynamically reconfigurable systems;ACM Transactions on Embedded Computing Systems;2014-12-05
2. Conclusions;Functional Verification of Dynamically Reconfigurable FPGA-based Systems;2014-07-22
3. Case Studies;Functional Verification of Dynamically Reconfigurable FPGA-based Systems;2014-07-22
4. Getting Started with Verification;Functional Verification of Dynamically Reconfigurable FPGA-based Systems;2014-07-22
5. Modeling Reconfiguration;Functional Verification of Dynamically Reconfigurable FPGA-based Systems;2014-07-22