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引用次数: 12
摘要
基于api的实现构成了SoC设计的关键趋势,实现了性能和灵活性之间的最佳权衡。本文详细介绍了一个基于api实现的高吞吐量灵活涡轮解码器的案例研究。介绍了turbo译码的应用,提出了一种基于SIMD架构的专用指令集处理器、专用可扩展指令集和6级流水线控制。所提出的ASIP是用LISA语言开发的,并使用CoWare中的Processor Designer框架自动生成。本文阐述了ASIP的自动生成RTL代码如何适应PPGA可重构逻辑和内存资源的快速原型设计。对于Xilinx Virtex-II Pro PPGA,单个ASIP原型占用PPGA资源的68%,在解码双二进制turbo码的5次迭代时实现6.3 Mbit/s的吞吐量。
From Application to ASIP-based FPGA Prototype: a Case Study on Turbo Decoding
ASIP-based implementations constitute a key trend in SoC design enabling optimal tradeoffs between performance and flexibility. This paper details a case study of an ASIP-based implementation of a high throughput flexible turbo decoder. It introduces turbo decoding application and proposes an Application-Specific Instruction-set Processor with SIMD architecture, a specialized and extensible instruction-set, and 6-stages pipeline control. The proposed ASIP is developed in LISA language and generated automatically using the Processor Designer framework from CoWare. The paper illustrates how the automatic generated RTL code of the ASIP can be adapted for a rapid prototyping on PPGA reconfigurable logic and memory resources. Tor a Xilinx Virtex-II Pro PPGA, a single ASIP prototype occupies 68% of PPGA resources and achieves a 6.3 Mbit/s throughput when decoding a double binary turbo code with 5 iterations.
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