As a computing paradigm that combines temporal and spatial computations, dynamic reconfigurable computing provides superiorities of flexibility, energy efficiency and area efficiency, attracting interest from both academia and industry. However,… Click to show full abstract
As a computing paradigm that combines temporal and spatial computations, dynamic reconfigurable computing provides superiorities of flexibility, energy efficiency and area efficiency, attracting interest from both academia and industry. However, dynamic reconfigurable computing is not yet mature because of several unsolved problems. This work introduces the concept, architecture, and compilation techniques of dynamic reconfigurable computing. It also discusses the existing major challenges and points out its potential applications.
               
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