| 1. | A dynamic reconfigurable daq system based on cpci bus
的动态可重构数据采集系统 |
| 2. | A dynamic reconfigurable system based on cpci bus
总线的动态可重构系统 |
| 3. | Dynamic reconfigurable architecture based on fpga
的动态可重构体系结构 |
| 4. | Fpid - based dynamic reconfigurable min
的动态可重构的多级互联网络 |
| 5. | In - vehicle network platform based on dynamic reconfigurable technique
基于动态可重构技术的车载网络平台 |
| 6. | Chapter 4 explores the impact of the task allocation and schedule strategy on the performance of multi - processor system . compares several model methods such as petri net and queue model , then proposes a new model method named distributed finite state machine ( dfsm ) . based on this method , and with the assistant of vhdl design and simulation environment , the model of dynamic reconfigurable multi - dsp system is constructed and the simulation of fft algorithm is run under verilog xl
浙江大学博士学位论文第四章论述了基于模型分析方法的性能研究对并行处理系统设计应用的重要性,结合vvp平台动态可重构并行系统的结构特点以及sharc处理器的特性,对petri网及查询队列等系统建模方法进行比较,提出了分布式有限状态机( dfsm , distributedfinitestatemachine )的建模方法,井对在动态可重构多sharc系统运行的并行任务进行了的建模仿真。 |
| 7. | Finally discusses several class different multi - dsp extended architecture based on vvp platform . chapter 3 analyzes the significance of dynamic reconfiguration of multi - dsp parallel processing system , introduce run - time reconfiguration technique of fpga . with comparison of the common used dynamic communication network in parallel processor system , proposes the new dynamic reconfigurable multi - dsp system architecture based on run - time reconfigurable fpga
第三章分析了多dsp并行系统体系结构动态可重构的意义,介绍了fpga动态配置技术,比较了现有的一些多处理器动态互连的设计实现方法,在此基础上,提出了利用局部动态重构fpga技术设计实现实时动态可重构多sharc功能系统的新方法。 |
