Abstract. The coarse-grained reconfigurable architectures have advantages over the traditional FPGAs in terms of delay, area and configuration time. To execute entire applications, most of them combine an instruction set processor (ISP) and a reconfigurable matrix. However, not much attention is paid to the integration of these two parts, which results in high communication overhead and programming difficulty. To address this problem, we propose a novel architecture with tightly coupled very long instruction word (VLIW) processor and coarse-grained reconfigurable matrix. The advantages include simplified programming model, shared resource costs, and reduced communication overhead. To exploit this architecture, our previously developed compiler framework is adapted to the new architecture. The results show that the new architecture has good performance and is very compiler-friendly.
Portable wireless multimedia approaches traditionally achieve the specified performance and power consumption with a hardwired accelerator implementation. Due to the increase of algorithm complexity (Shannon's law), flexibility is needed to achieve shorter development cycles. A coarse-grained reconfigurable computing concept for these requirements is discussed, which supports both flexible control decisions and repetitive numerical operations. The concept includes an architecture template and a compiler and simulator environment. The architecture provides flexible time -multiplexing of code for highperformance data processing while keeping the configuration bandwidth and power requirements low. The purpose of this study is to use the coarse-grained architecture for H.264/AVC in order to determine at the physical level whether reconfigurable computing, highperformance and low-power can be obtained.
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