Abstract. This contribution extends the Degradation Delay Model (DDM), previously developed for CMOS inverters, to simple logic gates. A gate-level approach is followed. At a first stage, all input collisions producing degradation are studied and classified. Then, an exhaustive model is proposed, which defines a set of parameters for each particular collision. This way, a full and accurate description of the degradation effect is obtained (compared to HSPICE) at the cost of storing a rather high number of parameters. To solve that, a simplified model is also proposed maintaining similar accuracy but with a reduced number of parameters and a simplified characterization process. Finally, the complexity of both models is compared.
Abstract. In previous papers we have presented a very accurate model that handles the generation and propagation of glitches, which makes an important headway in logic timing simulation. This model is called Delay Degradation Model (DDM). Characterizing DDM completely also implies the characterization of the normal propagation delay. In this paper, we propose a simple heuristic model that includes its dependence on the output load and the input transition time. We have tested this model and found a mean deviation lower than 4%. Also, we present a characterization process for this model that is fully integrated into AUTODDM without affecting the total simulation time needed to characterize a standard cell.
Abstract-Discrete microprocessor-based equipment is a typical synchronization system on the market which implements the most critical features of the synchronization protocols in hardware and the synchronization algorithms in software. In this paper, a new clock discipline algorithm for hardware implementation is presented, allowing for full hardware implementation of synchronization systems. Measurements on field-programmable gate array prototypes show a fast convergence time (below 10 s) and a high accuracy (1 碌s) for typical configuration parameters.
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