A modified variation-tolerant keeper architecture for evaluation contention & leakage current minimization for wide fan-in domino structures

The effects of process variation exacerbates as we keep on aggressively scaling the device dimensions. Register files composed using domino logic structures are a crucial block in the critical path of the microprocessors and the adverse effects of process variations on these could lead to functional failure in a worst case scenario. Erroneous behaviour of circuits can give rise to high and varying power consumption and can prove to be expensive. To deal firmly with the adverse effects of process variations with the goal of reduced leakage current, feedback keeper architecture has been proposed in this paper. This keeper architecture adapts itself to the changing conditions and the circuit´s performance metrics do not vary much even at the extreme process corners (SS to FF). Though the proposed keeper architecture incurs an area overhead of 16%, it provides high tolerance and reduces power consumption by nearly 42% at FF corner and by 32% at SS corner with respect to other existing designs. The reduction in the leakage current and evaluation contention are about 95% & 84% when compared to standard domino gate with footless scheme. All the simulations have been performed at 45nm & 32nm technologies on a host of domino logic circuits ranging from a 64:1 multiplexer to 32-bit comparator circuitry at using BSIM 4v4.7 model in SILVACO EDA tool at an operating frequency of 1.2 GHz.