演化硬件研究的一个重点是硬件电路的表示,即电路的编码方式。
One of the research focuses of EHW is the representation of the hardware circuit, which is also so-called circuit-coding method.
提出了一种函数级演化硬件的实现方案,这是一种间接演化的方法。
This paper, based on the theories of genetic programming (GP) and evolvable hardware (EHW), provides an extrinsic function level evolution technique.
通过实验,说明演化硬件技术确实在电路自动设计方面有着极大的前景。
From this experiment, we can conclude that evolvable hardware technology is promising in circuit automatic design.
演化硬件能使武器装备系统像生物一样改变自身的结构以适应环境的变化。
Evolvable Hardware(EHW) is to make weapon equipment system be able to change its architecture as the organism to adapt the environment.
摘要:在讨论了电磁仿生和演化硬件内进化运行机制的基础上,针对复杂电磁环境下电子系统的可靠性问题进行研究。
Absrtact: Based on the electromagnetic bionics and the operating mechanism of intrinsic evolvable hardware, an evolutionary platform is realized by implementing virtual reconfigurable circuit.
鉴于该方法的普及,了解促使应用程序虚拟化更加灵活高效的软硬件的演化会很有趣。
Given the popularity of this approach, it will be interesting to see an evolution of both software and hardware to make application virtualization even more flexible and efficient.
你将了解到硬件是如何演化来支持调试机制。
论文首先对课题的研究依据、研究方法和研究内容、硬件演化技术和可演化的可编程芯片进行了介绍。
This thesis firstly discussed the research work in details in terms of researching basis, researching methods and contents, as well as evolvable technologies and programmable chips.
仿真实验结果证明了改进演化算法对于实现函数级数字组合逻辑电路的硬件演化是可行的,并且提高了演化算法的演化效率和收敛性能。
The results of simulation prove that the improved algorithms are feasible for evolving the digital combinational logic circuits and improve the evolvable efficiency and convergence performance.
仿真实验结果证明了改进演化算法对于实现函数级数字组合逻辑电路的硬件演化是可行的,并且提高了演化算法的演化效率和收敛性能。
The results of simulation prove that the improved algorithms are feasible for evolving the digital combinational logic circuits and improve the evolvable efficiency and convergence performance.
应用推荐