| 1. | Interprocedural register allocation 64 - bit operating systems only
过程间的寄存器分配(仅限64位操作系统) |
| 2. | Automatic register allocation
自动寄存器分配 |
| 3. | Provides local and global optimizations , automatic - register allocation , and loop optimization
提供局部优化和全局优化、自动寄存器分配和循环优化。 |
| 4. | Optimizing with profile data results in better register allocation . basic block optimization
寄存器分配用配置文件数据进行优化,可以实现更好的寄存器分配。 |
| 5. | At length , the thesis expounds the register stack and register stack engine in itanium and analyses the existed improvements to stack register allocation strategy in detail
本文最后概述了itanium中的栈寄存器和rse机制,并详细分析和比较现存的栈寄存器分配优化方案。 |
| 6. | It is important to balancing the benefit and the cost of register allocation . this thesis presents a translation - guided algorithm of register allocation in dynamic binary translation
4 .作者参与设计并实现了两个二进制翻译系统,并把上述优化都分别运用到了这两个系统中。 |
| 7. | In the second part , this paper does deeply research on how to use the memory system effectively . firstly , this paper proposes a modified register allocation via graph coloring to alleviate port conflicts
然后,面对分体寄存器文件可能产生端口冲突的新问题,提出了改进的基于图着色的寄存器分配法。 |
| 8. | Adding the exception mechanics to the system doesn ’ t decrease the performance of the common programs . 3 . register allocation is a key field relating to the efficiency of a binary translator
3 .寄存器的使用效率是决定程序性能的关键因素之一,本文提出了适用于动态二进制翻译的翻译制导寄存器分配方法。 |
| 9. | In the dissertation , we discuss the issues on loop unrolling , register allocation , and cost model , etc . some of the achievements are applied to the implementation of an open source compiler
本文结合epic体系结构特性,对软件流水技术中的循环展开、寄存器分配、开销模型和决策框架等领域进行了研究,并将其中一些成果应于一个开放源码的编译器,取得了比较好的效果。 |
| 10. | Firstly , the thesis summarizes the compilation optimizations in modern compiler and the direction of low - power compilation , then analyses the modern compiler such as impact and trimaran , especially their register allocation strategies
本文首先概述了现代编译器中的编译优化技术以及低功耗编译的方向,具体分析了面向指令级优化的编译器impact和trimaran ,分析了其中的组成模块,并深入了解其中的寄存器分配机制。 |
