使用预表征功能实现的DSP应用的系统级硬件综合

2013 International Conference on Hardware/Software Codesign and System Synthesis (CODES+ISSS) Pub Date : 2013-09-29 DOI:10.1109/CODES-ISSS.2013.6659003

Shuo Li, Nasim Farahini, A. Hemani, Kathrin Rosvall, I. Sander

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引用次数: 31

摘要

SYLVA是一个系统级综合框架，它将DSP子系统建模为同步数据流转换为ASIC, fpga或CGRAs中的硬件实现。SYLVA在预表征功能实现(ftmp)方面的综合。它从三个维度探讨了设计空间、ftmp的数量、ftmp的类型以及生产和消费ftmp之间的管道并行性。我们引入了ftmp的时序和接口模型，以实现全局互连和控制(GLIC)的重用和自动生成，从而将ftmp粘合在一起成为一个工作系统。通过将SYLVA应用于5个现实的DSP应用，对其进行了评估，并分析了设计空间探索的结果，与手动生成的GLIC相比，SYLVA生成GLIC的有效性，以及通过比较基于预表征的fimp和最终结果的设计空间探索过程中考虑的面积和能源成本，对设计空间探索的准确性进行了分析。

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System level synthesis of hardware for DSP applications using pre-characterized function implementations

SYLVA is a system level synthesis framework that transforms DSP sub-systems modeled as synchronous data flow into hardware implementations in ASIC, FPGAs or CGRAs. SYLVA synthesizes in terms of pre-characterized function implementations (FTMPs). It explores the design space in three dimensions, number of FTMPs, type of FTMPs and pipeline parallelism between the producing and consuming FTMPs. We introduce timing and interface model of FTMPs to enable reuse and automatic generation of Global Interconnect and Control (GLIC) to glue the FTMPs together into a working system. SYLVA has been evaluated by applying it to five realistic DSP applications and results analyzed for design space exploration, efficacy in generating GLIC by comparing to manually generated GLIC and accuracy of design space exploration by comparing the area and energy costs considered during the design space exploration based on pre-characterized FIMPs and the final results.

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来源期刊

2013 International Conference on Hardware/Software Codesign and System Synthesis (CODES+ISSS)

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