混沌的数值仿真主要包括MATLAB编程、SIMULINK模块构建、EWB仿真以及其他一些相关的软件仿真或数值计算等方法，从而获取混沌吸引子的相图、时域波形图、李氏指数、分叉图和功率谱等。混沌的硬件实验主要包括模拟/数字电路设计与硬件实验、现场可编程门阵列器件（FPGA）、数字信号处理器（DSP）等硬件实现方法来产生混沌信号。本节仅对各种数值仿真方法作简单介绍。-

































































Chaos numerical simulation including MATLAB programming, SIMULINK module build, EWB simulation and other related software simulation or numerical calculation methods, in order to gain chaotic attractor phase diagram, time-domain waveform, Lipschitz exponent, bifurcation diagrams and power spectrum. Chaos experiment hardware includes analog/digital circuit design and hardware experiments, field-programmable gate array device (FPGA), digital signal processor (DSP) hardware implementation to generate chaotic signals. This section is only a variety of numerical simulation methods for a brief introduction.