The millimeter wave small world network on a chip is an emerging paradigm to design low power and high-bandwidth massive multicore chips. By reducing the hop count between largely separated communicating cores, wireless shortcuts in mSWNoC have been shown to carry a significant amount of the overall traffic within the network. The amount of traffic detoured in this way is substantial and the low power wireless links enable energy savings [1]. The overall energy dissipation and thermal profile of the mSWNoC can be improved even further if the characteristics of the wireline links and associated switches are optimized according to the traffic patterns. Dynamic voltage and frequency scaling (DVFS) is a popularmethodology to optimize the power usage/heat dissipation of electronic systems without significantly compromising overall system performance.We have already demonstrated that DVFS enables improvement of power and thermal profiles of mSWNoC-enabled multicore chips.