The development of a reconfigurable manufacturing system (RMS) based on reconfigurable machine tools (RMTs) becomes an important issue, for its capability of reassembling machine configurations responds to product changes. Previous researches focused on configuration selection and number determination of machines for RMSs, producing a product with a single sequence of processes. However, an RMS, capable to produce a variety of products, not only reduces reassembly of machine configuration, but also quickly responds to the needs of product diversities and change s. Different products have different stages of production and operations so it is necessary to integrate these different stages and operations for determining the number and configuration of machines. Moreover, when a variety of products are produced together, machine sharing may occur, and the process flow is no longer a single sequence, but an asymmetric configuration of multiple sequences. Thus, planning of the RMS becomes more complex. In this research, a multiple-objective optimal configuration selection for the RMS, producing a variety of products, is proposed. The four objectives considered are cost, machine reconfigurability, operational capability and scalability. The configuration selection includes the number of stages, connection type between stages, operation in stages, the number and configuration of machines. Finally, non-dominated sorting genetic algorithm II (NSGA-II) and technique for order preference by similarity to ideal solution (TOPSIS) are applied to find optimal configuration selection of the RMS.