| 1. | Secure computing paradigms impose new architectural challenges for general - purpose processors 安全计算范式向通用处理器提出了新的体系结构上的挑战。 |
| 2. | At the high - performance end , network processors are typically based on a custom core , as opposed to a general - purpose processor 在高性能端,网络处理器一般是基于一个与通用处理不同的定制内核。 |
| 3. | General - purpose processor is not competent for it . on the other hand , hardware implementation is difficult to develop and lacks of scalability 通用处理器很难胜任,基于硬件实现的asic方式开发难度大,缺乏灵活性。 |
| 4. | General - purpose processors in personal computers execute a broad set of software commands that can cope with any task from graphics to complex calculations 个人电脑里的多用途处理器可以执行广泛的软体指令,处理从图形到复杂计算的所有工作。 |
| 5. | It is provided with higher performance and higher operation veracity over general - purpose processor . 2 . according to application model , hardware is selected firstly , and then particular hardware circuit is designed 二、根据建立的实时图像处理器的应用模型,选取了相应的硬件,完成了系统的硬件电路和pcb的设计。 |
| 6. | At present , the research productions of reconfigurable computing are basically composed of fpga and general - purpose processor . and the complicated computations will be disposed within fpga 目前大多数可重构计算技术的研究成果基本由现场可编程门阵列器件fpga和通用处理器构成,由可编程器件提供对复杂运算的加速计算能力。 |
| 7. | Reconfigurable computing has become a subject of a great deal of research . its key feature is the ability to have high performance of special - purpose processors , while retaining much of the flexibility of general - purpose processors 结合了通用处理器和专用处理器二者的优点,在概念上既有asic一样高效硬件电路实现也有类似于通用处理器的灵活性。 |
| 8. | This thesis focuses on low power research on the high performance general - purpose processor design , which is based on godson - 2 processor core . many creative methods are raised in this paper . the following is the main contributions of this thesis : 1 本文针对当前高性能通用处理器设计,结合龙芯2号高性能通用cpu的研制,对高性能通用处理器核的低功耗技术进行研究,提出了一系列实用有效的低功耗技术和方法。 |
| 9. | Though the general - purpose processor was flexible in calculation , it was lack of efficiency , and asic was more efficient but less in flexibility . as a resolution the reconfigurable technology provide a very valuable developing direction 通用处理器以时间来换取处理问题的灵活性,专用处理器效率高但灵活性差,可重构计算技术( reconfigurablecomputing ? rc )为传统通用处理器和专用处理器提供了一个非常有价值的发展方向。 |
| 10. | This paper does a research into the measures of dsp ' s c - compiler design . after comparing the dsp with risc processor in the respects of structure and application , and referring to the classic theory of compile for the general - purpose processors , some feasible schemes for dsp ' s c - compiler design are given along with some optimization strategies suitable to the dsp ' s feature 本文对dsp芯片的c编译器设计进行了探讨性的研究,通过对dsp和通用处理器的在结构和应用等方面的对比给出一些可行的c编译设计的实现方法并借鉴传统的编译优化理论结合dsp结构和应用特性得出一些与dsp相适应的编译优化策略。 |