DSP代码调度过程中寄存器文件约束的满足

Proceedings. XII Symposium on Integrated Circuits and Systems Design (Cat. No.PR00387) Pub Date : 1999-09-29 DOI:10.1109/SBCCI.1999.802971

C. A. Pinto, B. Mesman, Koen van Eijk

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引用次数: 7

摘要

数字信号处理(DSP)中的算法施加了严格的时序约束，在考虑目标DSP处理器中可用寄存器文件的有限容量时，编译器必须遵守这些约束。传统的代码生成方法调度溢出代码以满足存储容量，这可能需要多次迭代，并且通常不能满足时间约束。本文提出了一种在调度过程中处理寄存器文件容量约束的新方法。该方法识别寄存器绑定的潜在瓶颈，并随后序列化值的生存期，直到可以保证在调度后满足所有容量约束。实验表明，该方法可以有效地获得高质量的DSP内核指令调度。

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Algorithms in digital signal processing (DSP) impose tight timing constraints that the compiler has to respect while considering the limited capacity of the available register files in a target DSP processor. Traditional code generation methods that schedule spill code to satisfy storage capacity may take many iterations and are usually not capable of satisfying the timing constraints. In this paper we present a new method to handle register file capacity constraints during scheduling. The method identifies potential bottlenecks for register binding and subsequently serializes the lifetimes of values until it can be guaranteed that all capacity constraints will be satisfied after scheduling. Experiments show that we efficiently obtain high quality instruction schedules for DSP kernels.

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Proceedings. XII Symposium on Integrated Circuits and Systems Design (Cat. No.PR00387)

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