Abstract: In this work, we present an Asynchronous Static Timing Analysis (ASTA) EDA methodology for cyclic, Asynchronous Control Circuits.

We present a Graph-based Asynchronous Static Timing Analysis (ASTA) methodology for Asynchronous Control Circuits, which pessimistically computes Critical ...

We present a Graph-based Asynchronous Static Timing Analysis (ASTA) methodology for Asynchronous Control Circuits, which pessimistically computes Critical Cycle ...

This work presents an Asynchronous Static Timing Analysis (ASTA) EDA methodology for cyclic, Asynchronous Control Circuits, and illustrates significant ...

We present a Graph-based Asynchronous Static Timing Analysis (ASTA) methodology for Asynchronous Control Circuits, which pessimistically computes Critical ...

We present a Graph-based Asynchronous Static Timing Analysis (ASTA) methodology for Asynchronous Control Circuits, which pessimistically computes Critical ...

Commercial EDA tools offer well developed static timing analysis (STA) algorithms to validate timing constraints on clocked systems represented as a directed.

We give a different graph-based rigorous proof of the exact timing behavior of more general classes of such systems, and conclude their exact periodicity ...

In this paper, we demonstrate that conventional STA-based, functional, gate-level simulation of asynchronous circuits with cycles is only as accurate as the STA ...

In this paper, we demonstrate that conventional Static Timing Anaysis (STA) based, functional, gate-level simulation of asynchronous circuits with cycles is ...