An evergreen scientific feature is the ability for scientific works to **be reproduced**. This feature allows researchers to understand, enhance, or even question works that have been developed by other scientists. In control theory the importance of modelling and simulation of systems is widely recognised. However, few studies have focused the effects of finite precision of computers on the simulation reproducibility of nonlinear dynamic systems. In this work, a case study of reproducibility is presented in the simulation of a chaotic Jerk circuit, using the software LTspice. In order to do so, we performed simulations of the circuit in the same version of the software on different computers, in order to collect the data and compare them with experimental results. The comparison was made with the NRMSE (Normalized Root Mean Square Error), in order to identify the computer with the highest prediction horizon. Tests performed in 4 different configurations showed the difficulties of simulation reproducibility in LTspice. The methodology developed was efficient in identifying the computer with better performance, which allows applying it to other cases in the literature.
[LTspice download here][1].
[1]: https://www.analog.com/en/design-center/design-tools-and-calculators/ltspice-simulator.html#