Study of swing potential on deep submicron on-chip interconnect

摘要

The low energy limit of signal on deep submicron on-chip interconnect is deduced from Shannon's communication theorem considering the influence of noise. Based on this energy limit, the analytic model of minimum swing potential considering transmission line effects is constructed. Applying the analytic model to interconnect in deep submicron technology nodes from 0.18 to 0.05 μm, it is shown that the swing potential with present low-swing technique such as SDVST could be reduced further by 70-95% according to the analysis of this work. Correspondingly, by using the low-swing interconnect technique with the minimum swing potential obtained in this work, the decrement of interconnect dynamic power dissipation can be further decreased by about 10-20% of their original one by using SDVST technique, and that of interconnect propagation delay, by one third. Furthermore, the maximum interconnect length is evaluated with a minimum swing potential value in interconnect design. All the results are valuable for interconnect performance optimization, such as repeater insertion in deep submicron circuits. As an application, the design of low swing potential interconnect with interface circuit is introduced.