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SPICE, Verilog, Spectre netlists; plug-ins: Ngspice: n/a 2024 Windows, macOS, Linux Backend simulator for Altium Designer, Eagle, KiCad, Qucs-S [15] SPICE [16] UC Berkeley: 1993 Source-only End-of-life, no longer updated; historically important, because many analog simulators are based on this project Xyce [17] Sandia National Laboratories: 2023
Following approaches for adding user-defined models are supported: Behavioral voltage and current sources (B devices) XSPICE code models written in C; Verilog-A models that can be compiled with OpenVAF compiler; SPICE OPUS supports parameterized netlists, parameterized subcircuits, and topology changes without simulator restart (netclass).
SPICE [5] is the origin of most modern electronic circuit simulators, its successors are widely used in the electronics community. Xspice [6] is an extension to Spice3 that provides additional C language code models to support analog behavioral modeling and co-simulation of digital components through a fast event-driven algorithm.
No one approach alone is sufficient. Another type of simulation used mainly for power electronics represent piecewise linear [6] algorithms. These algorithms use an analog (linear) simulation until a power electronic switch changes its state. At this time a new analog model is calculated to be used for the next simulation period.
New models are submitted to the Coalition, where their technical merits are discussed, and then potential standard models are voted on. [4] Some of the models supported by the Compact Modeling Coalition include: BSIM3, [5] a MOSFET model from UC Berkeley (see BSIM). BSIM4, [6] a more modern MOSFET model, also from UC Berkeley. PSP, [7] [8 ...
LTspice is a SPICE-based analog electronic circuit simulator computer software, produced by semiconductor manufacturer Analog Devices (originally by Linear Technology). [2] It is the most widely distributed and used SPICE software in the industry. [6]
Semiconductor device modeling creates models for the behavior of semiconductor devices based on fundamental physics, such as the doping profiles of the devices. It may also include the creation of compact models (such as the well known SPICE transistor models), which try to capture the electrical behavior of such devices but do not generally ...
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