一种利用寄存器存在图的寄存器分配技术

Proceedings of the 1997 International Conference on Parallel Processing (Cat. No.97TB100162) Pub Date : 1997-08-11 DOI:10.1109/ICPP.1997.622673

A. Koseki, Y. Fukazawa, H. Komatsu

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引用次数: 0

摘要

为了利用处理器体系结构的特性，优化编译对于生成代码序列非常重要。寄存器分配是最重要的优化技术之一。在考虑指令级并行性的寄存器分配中，当将相同的寄存器分配给不同的变量时产生的反依赖性，以及当寄存器数量不足时产生的溢出代码应该以这样一种方式处理，即程序中的并行性不会丢失。在我们的方法中，我们使用一种新的数据结构——寄存器存在图来实现寄存器的分配，这种结构很好地表达了程序的并行性。

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A register allocation technique using register existence graph

Optimizing compilation is very important for generating code sequences in order to utilize the characteristics of processor architectures. One of the most essential optimization techniques is register allocation. In register allocation that takes account of instruction-level parallelism, anti-dependences generated when the same register is allocated to different variables, and spill code generated when the number of registers is insufficient should be handled in such a way that the parallelism in a program is not lost. In our method, we realized register allocation using a new data structure called the register existence graph, in which the parallelism in program is well expressed.

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Proceedings of the 1997 International Conference on Parallel Processing (Cat. No.97TB100162)

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