New OPBHWICAP Interface for Realtime Partial Reconfiguration of FPGA

2009 International Conference on Reconfigurable Computing and FPGAs Pub Date : 2009-12-01 DOI:10.1109/ReConFig.2009.69

J. Delorme, A. Nafkha, P. Leray, C. Moy

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引用次数: 35

Abstract

We propose in this paper, a timing analysis of dynamic partial reconfiguration (PR) applied to a NoC (Network on Chip) structure inside a FPGA. In the context of a SDR (Software Defined Radio) example, PR is used to dynamically reconfigure a baseband processing block of a 4G telecommunication chain running in real-time (data rates up to 100 Mbps). The results presented show the validity of our methodology for PR management regarding the timing performances obtained in a real implementation. PR timing is a key point to make SDR approach realistic. These results show that using PR, FPGAs combine the flexibility of SW (software) and the processing power of HW (hardware). This makes PR a tremendous enabling technology for SDR. These results are based on a new IP managing the ICAP component that allows a gain in time of a rate of 124 comparing to the provided OPBHWICAP. Moreover, we have integrated a methodology which can reduce significantly the bitstream size and consequently the reconfiguration duration. The results presented in this paper show that PR reconfiguration time can go downto a few tens of microseconds. This makes PR really attractive for SDR design or any other highly demanding real-time applications.

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FPGA实时部分重构的新OPBHWICAP接口

本文提出了一种应用于FPGA内的片上网络结构的动态部分重构(PR)时序分析方法。在软件定义无线电(SDR)示例中，PR用于动态重新配置实时运行的4G电信链(数据速率高达100mbps)的基带处理块。所提出的结果表明，我们的方法对于公关管理在实际实施中获得的定时性能是有效的。公关时机是实现SDR方法的关键。这些结果表明，采用PR的fpga结合了软件的灵活性和硬件的处理能力。这使得PR成为SDR的巨大支持技术。这些结果是基于管理ICAP组件的新IP，与提供的OPBHWICAP相比，该组件允许的时间增益率为124。此外，我们集成了一种方法，可以显着减少比特流大小，从而减少重新配置的持续时间。结果表明，重构时间可以降低到几十微秒。这使得PR对于SDR设计或任何其他高要求的实时应用程序非常有吸引力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 International Conference on Reconfigurable Computing and FPGAs

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