一般动态二进制翻译器都包括翻译模块,执行模块。
Normally, a dynamic binary translator includes translation module and execution module.
间接过程调用的恢复问题是静态二进制翻译中的难点之一。
The recovery of indirect procedure call is a difficult problem in static binary translation.
本文提出一种基于动态二进制翻译优化的可扩展处理器结构VISA。
This paper presents VISA, a scalable processor architecture based on dynamic binary translation (BT) and optimization.
动态二进制翻译器在运行时将源体系结构机器码翻译为目标体系结构机器码。
Dynamic binary translator enables transparently running applications of source architecture on the top of target architecture without re-compilation.
数据段映射是二进制翻译过程中源可执行文件和目标可执行文件数据关系的纽带。
Data section mapping is a ligament of data relationship between source executable file and target executable file in binary translation.
在动态二进制翻译中,热路径的识别和生成是提高二进制翻译器效率的重要环节。
The recognition and creation of hot paths is one of the key factors in promoting the performance of a dynamic binary translator.
而动态库支持技术是可重定向动态二进制翻译系统能够支持实际应用程序的关键技术。
And the dynamic library support technique is the key way that makes dynamic binary translation system capable of running the practical program.
为什么总是认为在模拟静态二进制翻译是不可能实现吗?为什么动态二进制翻译一直被认为是更实用?。
Why is it always considered that static binary translation is impossible to implement in emulation? Why is dynamic binary translation always considered more practical?
介绍了在开发一个静态二进制翻译系统(I2A翻译系统)中的库函数识别技术,并提出了解决库函数识别问题的新的方法。
The library functions recognizing technique in I2A binary translator was introduced. Especially a new approach of library function recognizing problem was given.
针对目前航电系统硬件的升级换代而导致老的软件的不可用的问题,提出了一个用于航电系统软件升级的二进制翻译系统(BTASUP系统)。
To deal with the problem that old software cant be used because of the upgraded hardware in avionics system, BTASUP (Binary Translation for avionics system upgrade) is introduced.
论文介绍了32位处理器二进制翻译的数据段映射技术,指出了这种映射技术在IA 64二进制翻译中存在的缺陷,进而提出了改进方法,并解决了IA 64二进制翻译的数据段映射问题。
This paper first introduces the data section mapping technology in 32 bit processor binary translation, then points out its limitation on IA64 binary translation.
这些指令被翻译成二进制代码,这是计算机容易处理的一种形式。
The instructions are translated into binary code, a form that computers can easily handle.
图6 - 7显示当二进制数据通过反汇编器后,翻译出来的汇编语言的样子。
Figure 6-7 shows what assembly language looks like once binary has been through a disassembler.
这个数据非常字面意思翻译成二进制的1和0。
这个数据非常字面意思翻译成二进制的1和0。
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