ct Cross-coupled noise analysis has become a critical concern in today's VLSI designs. Typically, noise analysis makes an assumption that all aggressing nets can simultaneously switch in the same direction. This creates a worst-case noise pulse on the victim net that often leads to false noise violations. In this paper, we present a new approach that uses logic implications to identify the maximum set of aggressor nets that can inject noise simultaneously under the logic constraints of the circuit. We propose an approach to efficiently generate logic implications from a transistor-level description and propagate them in the circuit using ROBDD representations and a newly proposed laterial propagation method. We then show that the problem of finding the worst case logically feasible noise can be represented as a maximum weighted independent set problem and show how to efficiently solve it. Initially, we restrict our discussion to zero-delay implications, which are valid for glitch-...