Editorial; A. RosinskiDAGGER, A. Vachoux. Part 1: VHDL Use for Analog Modeling. Discrete Approach to PWL Analog Modeling in VHDL Environment; J. Dabrowski, A. Pulka. Oversampling SigmaDelta Analog-to-Digital Converter Modeling Based on VHDL; R. Baraniecki, et al. VHDL Modeling of Optoelectronic Interconnect Networks; S. Koh. Part 2: Experiences with an AHDL. Hierarchical Analog Behavioral Modeling of Artificial Neural Networks; M. Ahmed, et al. Fault Modeling and Simulation Using VHDL-AMS; A.J. Perkins, et al. Creative Methods of Leveraging VHDL-AMS-like Analog-HDL Environments. Case Study: Simulation of Circuit Reliability; S. GadelRab, J. Barby. Part 3: Analog VHDL Issues and Solutions. Analog Behavior Modeling and Processing Using Ana VHDL; L. Ye, H. Carter. Analog and Mixed-Signal Extensions to VHDL; A. Vachoux.
Analog VHDL brings together in one place important contributions and up-to-date research results in this fast moving area.
Analog VHDL serves as an excellent reference, providing insight into some of the most challenging research issues in the field.
Springer Book Archives