Complex models in science and engineering need better techniques to execute simulations efficiently. As we need high performance computers with many processors and memory to execute complex simulations faster, we face a problem with the consumption of energy. Therefore, we need new ways to define efficiency in simulations, measured not only in terms of computation time, but in terms of the amount of energy required to execute them. The Discrete-Event System Specification (DEVS) formalism, a well-known technique for modeling and simulation, includes simulation algorithms that allow running DEVS models in parallel computers. Nevertheless, no studies exist on the execution of DEVS simulations on parallel computers efficiently in terms of energy use. In this work, we show an energy efficiency evaluation of the execution of DEVS simulations on a shared-memory multicore architecture. The results presented show that executing in parallel can improve energy efficiency in these architectures.