采用动态可重构技术,可实现提高系统性能,减少应用所需芯片资源和功耗的目的。
Adopting dynamic reconfigurable technology can not only improve system performance but also reduce the need for core resources and power.
随着分布构件技术的普及,部署过程与动态重构成为软件生命周期的重要组成部分,对软件性能有重大的影响。
In the distributed component technology, deployment and dynamic reconfiguration are the phases of software lifecycle, which play an important role in performance.
CPLD的EEPROM编程技术不适合动态可重构的应用。
The EEPROM programmable technology in CPLDs can't be used in dynamic reconfigurable system.
所讨论的动态系统的容错技术包括故障检测、故障定位和系统重构技术。
Fault tolerant technology for dynamic systems includes fault detection, fault isolation (FDI), and system reconfiguration.
移动通信网络中,可重构终端可以通过软件下载使终端动态地改变自身的配置以适应不同的无线接入技术。
Reconfigurable terminals in the mobile communication networks can dynamically changes their configuration by software download to adapt to different wireless access technologies.
分布式透明性和系统动态智能故障恢复的技术可以解决理论上的两个难题:系统瓶颈和系统重构,提供高可用性,实现永不停顿的系统。
The techniques of network transparency and active intelligent fault recovery can resolve two theory difficulties: system bottle-neck and system recovery and then realize none-stop system.
分布式透明性和系统动态智能故障恢复的技术可以解决理论上的两个难题:系统瓶颈和系统重构,提供高可用性,实现永不停顿的系统。
The techniques of network transparency and active intelligent fault recovery can resolve two theory difficulties: system bottle-neck and system recovery and then realize none-stop system.
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