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All are Product Version 13.1.1 April 2014
Virtuoso® Spectre® Circuit Simulator and Accelerated Parallel Simulator User Guide
Introduction to Virtuoso Spectre Circuit Simulator
Spectre Netlists
Parameter Specification and Modeling Features
Analyses
Control Statements
Specifying Output Options
Running a Simulation
Post-Layout Simulation
Time-Saving Techniques
Managing Files
Identifying Problems and Troubleshooting
Example Circuits
Virtuoso® Simulator Measurement Description Language User Guide and Reference
Virtuoso® Spectre® Circuit Simulator RF Analysis Library Reference
Virtuoso® RelXpert Reliability Simulator User Guide
Virtuoso Simulator Components and Device Models Reference
Circuit Components (Sources, s-domain, z-domain, Noise, Analog/Logic, Switch, etc.)
Passive Components
Tons of transistor & diode models (e.g. BSIM6, PSP, mosvar, EKV
Virtuoso® Spectre® Circuit Simulator Reference
Analyis Statements (ac, cosim (MATLAB), dc, envlp, hb, bhac, noise, pnoise, pz, xf, etc.)
Other Simulation Topics (bsource, expressions, functions, if, keywords, digital stimulus, Verilog-A)
Circuit Checks
Virtuoso® Spectre® Circuit Simulator and Accelerated Parallel Simulator RF Analysis User Guide
Fundamentals of RF Simulation (Shooting Newton & Harmonic Balance)
Setting up a SpectreRF Simulation
Frequency Domain Analyses: Harmonic Balance
Single Input Large and Small-signal Analyses
Multiple Input Large and Small-signal Analyses
Envelope Analysis (ENVLP)
Large Signal S-parameter Simulation (LSSP)
AnalogLib Components Used in RF Simulation
Cosimulation with MATLAB and Simulink
Design Workshops
Top-down RF Design Methodology
Virtuoso® Spectre® Circuit Simulator RF Analysis Theory
How the sims work
SpectreRF MATLAB Toolbox
The SpectreRF Analyses
Simulating Oscillators
Cadence® Verilog®-A Language Reference
Cadence® Verilog®-A What's New