Custom IC/ Analog/ RF Design
Custom IC/ Analog/ RF Design Learning Map
Cadence Training Services learning maps provide a comprehensive visual overview of the learning opportunities for Cadence customers. They provide recommended course flows as well as tool experience and knowledge levels to guide students through a complete learning plan. Learning Maps cover all Cadence Technologies and reference courses available worldwide.
Circuit Design and Simulation
- Analog Modeling and Simulation with SPICE
- Design Checks and Asserts
- High-Performance Spectre Simulation
- Mixed Signal Simulations Using Spectre AMS Designer
- Simulation and Analysis Using OCEAN
- Spectre Accelerated Parallel Simulator
- Spectre Simulator Fundamentals S1: Spectre Basics
- Spectre Simulator Fundamentals S2: Large-Signal Analyses
- Spectre Simulator Fundamentals S3: Small-Signal Analyses
- Spectre Simulator Fundamentals S4: Measurement Description Language
- Spectre eXtensive Partitioning Simulator for Mixed-Signal Designs
- Variation Analysis Using the Virtuoso Variation Option
- Virtuoso ADE Explorer and Assembler S1: ADE Explorer and Single Test Corner Analysis
- Virtuoso ADE Explorer and Assembler S2: ADE Assembler and Multi Test Corner Analysis
- Virtuoso ADE Explorer and Assembler S3: Sweeping Variables and Simulating Corners
- Virtuoso ADE Explorer and Assembler S4: Monte Carlo Analysis, Real-Time Tuning and Run Plans
- Virtuoso ADE Verifier S1: Setup, Run and View Verification Results
- Virtuoso ADE Verifier S2: Reference Flow and Analog Coverage Using the Setup Library Assistant
- Virtuoso Analog Design Environment
- Virtuoso Analog Simulation: T1 The Virtuoso Analog Design XL Environment
- Virtuoso Analog Simulation: T2 Creating Sweeps and Running Corner Analysis
- Virtuoso Analog Simulation: T3 Monte Carlo Simulations Using ADEXL
- Virtuoso Analog Simulation: T4 Sensitivity Analysis and Circuit Optimization Using ADE(G)XL
- Virtuoso Schematic Editor
- Virtuoso Spectre Pro S1: DC Algorithm
- Virtuoso System Design Platform
- Virtuoso Visualization and Analysis
Circuit Simulation
- Command-Line Based Mixed-Signal Simulations with the Xcelium Use Model
- Mixed Signal Simulations Using Spectre AMS Designer
- Real Modeling with SystemVerilog
- Simulation and Analysis Using OCEAN
- Spectre Accelerated Parallel Simulator
- Spectre Simulator Fundamentals S3: Small-Signal Analyses
- Spectre Simulator Fundamentals S4: Measurement Description Language
- Virtuoso Spectre Pro S2: AC, XF, STB, and Noise Analyses
- Virtuoso Spectre Pro S3: Transient Algorithm
- Virtuoso Spectre Pro S4: Measuring Accurate Fourier Transforms
- Virtuoso Spectre Pro S5: Transient Noise
- Virtuoso UltraSim Full-chip Simulator
Physical Design
- Enhancing Layout Productivity with Virtuoso Layout Pro Training Webinar
- Pegasus Verification System
- Physical Verification System
- Quantus Transistor-Level T2: Parasitic Extraction
- SKILL Language Programming Introduction
- Virtuoso Abstract Generator
- Virtuoso Connectivity-Driven Layout Transition
- Virtuoso Floorplanner
- Virtuoso Layout Design Basics
- Virtuoso Layout Pro: T1 Environment and Basic Commands (L)
- Virtuoso Layout Pro: T2 Create and Edit Commands (L)
- Virtuoso Layout Pro: T3 Basic Commands (XL)
- Virtuoso Layout Pro: T4 Advanced Commands (XL)
- Virtuoso Layout Pro: T5 Interactive Routing (XL)
- Virtuoso Layout Pro: T6 Constraint-Driven Flow and Power Routing
- Virtuoso Layout Pro: T7 Module Generator and Floorplanner (XL/GXL)
- Virtuoso Layout Pro: T8 Debugging Layout Issues
- Virtuoso Layout Pro: T9 Virtuoso Design Planner
- Virtuoso Layout for Advanced Nodes and Methodology Platform
- Virtuoso Simulation Driven Routing (SDR)
- Virtuoso Space-Based Router
- Virtuoso Space-Based Router Express