Simulation of EPROM device programming using the hydrodynamic model

## Abstract A simple upwind discretization of the highly coupled non‐linear differential equations which define the hydrodynamic model for semiconductors is given in full detail. The hydrodynamic model is able to describe inertia effects which play an increasing role in different fields of opto‐ an

## Abstract We investigate the application of preconditioned generalized minimal residual (GMRES) algorithm to the equations of hydrodynamic model of semiconductor devices. An introduction to such a model is presented. We use finite‐element method __P__~1~‐__isoP__~2~ element to discretize the equa

## Abstract A consistent hydrodynamical model for electron transport in silicon semiconductors, free of any fitting parameter, has been formulated in Anile and Romano (__Continuum Mechanics Thermodynamics__ 1999; **11**:307–325) and Romano (__Continuum Mechanics Thermodynamics__ 1999; **12**:31–51)

The use of the electrical circuit simulation program SPICE2 for performing digital computer simulations of linear and non-linear pharmacokinetic-pharmacodynamic models is described. SPICE2 utilizes the principles of network thermodynamics (thermodynamics of electrical circuits). These principles dic