具有自定义内存组织的SIMD体系结构的代码生成

M. A. Arslan, F. Gruian, K. Kuchcinski, Andreas Karlsson
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引用次数: 4

摘要

今天的多媒体和DSP应用程序对性能和功耗提出了要求,只有具有SIMD功能的定制处理器架构才能满足这些要求。然而,这种架构的特定特性,包括向量操作和高带宽复杂的内存组织,使得它们非常复杂和耗时。在本文中,我们提出了一种自动代码生成方法,通过基于约束编程公式执行指令调度和内存分配,大大减少了编程此类体系结构的工作量。此外,生成的代码的质量接近于由具有体系结构知识的有经验的程序员手工编写的代码。我们通过编译和运行一些典型的DSP内核,并将结果与手工优化的代码进行比较,证明了我们的方法在现有的自定义异构DSP架构上的可行性。
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Code generation for a SIMD architecture with custom memory organisation
Today's multimedia and DSP applications impose requirements on performance and power consumption that only custom processor architectures with SIMD capabilities can satisfy. However, the specific features of such architectures, including vector operations and high-bandwidth complex memory organization, make them notoriously complicated and time consuming to program. In this paper we present an automated code generation approach that dramatically reduces the effort of programming such architectures, by carrying out instruction scheduling and memory allocation based on a constraint programming formulation. Furthermore, the quality of the generated code is close to that of hand-written code by an experienced programmer with knowledge of the architecture. We demonstrate the viability of our approach on an existing custom heterogeneous DSP architecture, by compiling and running a number of typical DSP kernels, and comparing the results to hand-optimized code.
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