为灵活的多asip涡轮解码器架构提供高效的片上配置基础设施

2013 8th International Workshop on Reconfigurable and Communication-Centric Systems-on-Chip (ReCoSoC) Pub Date : 2013-07-10 DOI:10.1109/ReCoSoC.2013.6581518

Vianney Lapôtre, M. Hübner, G. Gogniat, Purushotham Murugappa, A. Baghdadi, J. Diguet

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引用次数: 0

摘要

多处理器平台的动态重构是片上系统设计者面临的一个重要挑战。为了管理多处理器平台必须面对的越来越多的应用程序和执行条件，必须解决这个问题。本文提出了一种新的UDec多asip turbo解码器结构的配置基础结构。我们的方法将互连体系结构分成两个子集，一个专用于数据，另一个专用于配置。事实上，这两种类型的通信没有相同的要求。我们的新型配置基础设施提出了一种区域高效和低延迟的解决方案，并通过两步方法进行了验证。首先建立了一个SystemC/VHDL混合仿真模型来进行早期性能评估，然后建立了一个硬件FPGA原型。结果表明，在5.352 μs内可动态配置64个加工单元。

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An efficient on-chip configuration infrastructure for a flexible multi-ASIP turbo decoder architecture

Dynamic reconfiguration of multiprocessor platforms is an important challenge for System-on-Chip designers. Addressing this issue is mandatory in order to manage the increasing number of applications and execution conditions that multiprocessor platforms have to face. In this paper, a novel configuration infrastructure for the UDec multi-ASIP turbo decoder architecture is presented. Our approach leads to split the interconnection architecture in two subsets, one dedicated for data and another dedicated for configuration. Indeed both types of communication do not have the same requirements. Our novel configuration infrastructure, which proposes an area efficient and low latency solution, has been validated through a two-step approach. First a SystemC/VHDL mixed simulation model has been developed to perform an early performance evaluation, second a hardware FPGA prototype has been built. Results show that up to 64 processing elements can be dynamically configured in 5.352 μs.

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2013 8th International Workshop on Reconfigurable and Communication-Centric Systems-on-Chip (ReCoSoC)

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