Fabrication de Semi-conducteurs

Designing system components, optimizing manufacturing processes, and developing next-generation semiconductor devices calls for precision and accuracy. This is why industry leaders turn to multiphysics modeling and simulation to develop, test, and verify designs.

Browse content related to wafer production, fabrication, packaging, testing, and device design to see how the COMSOL Multiphysics^® software is used in the semiconductor manufacturing industry.

Production de Wafer Fabrication Packaging & Testing Dispositifs

Four-Point Bending Test of an IGBT Module

Article de Blog

Preconditioning of Surface-Mount Devices for Reliability Testing

Présentation Utilisateur

Overcoming Challenges in the Simulation of Vacuum Processing Hardware at Evatec AG

MKS Instruments Models Transformer-Coupled Toroidal Plasma

Tokyo Electron Ltd. Models Semiconductor Wet Processes

Article de Blog

Modeling the Pulsed Laser Heating of Semitransparent Materials

Microlithography Lens

Reflow Soldering in IC Packaging

Article de Blog

Analyzing Turbomolecular Pumps

Présentation Utilisateur

Wire Bonding: A Thorough Numerical Methodology at STMicroelectronics

Chemical Etching

Photoresist Spin Coating

Article de Blog

Modeling Wet Chemical Etching

The Epitaxial Growth of SiC by the PVT Method

Présentation Utilisateur

Thin Microchip Release From a Carrier Tape: Structural Mechanics and Vacuum Forces

Preconditioning (PRE) of Surface-Mount Devices (SMDs) for Testing

ASML Advances Computing Breakthroughs with Multiphysics Modeling

Stress Analysis of an IGBT Module Under the Highly Accelerated Stress Test (HAST) Condition

Besi Optimizes Memory Chip Manufacturing

EMIX Optimized the Production Process for Photovoltaic-Quality Silicon

Thermal Analysis of a Czochralski Crystal Growth Furnace

Model of an Argon/Chlorine Inductively Coupled Plasma Reactor with RF Bias

Article de Blog

Simulating UHV/CVD and Silicon Growth on a Wafer Substrate

Trench-Gate IGBT 3D

Présentation Utilisateur

Modeling Directed Self-Assembly of Block Copolymers for Lithographic Applications

Ultrahigh Vacuum, Chemical Vapor Deposition

3D Analysis of a Bipolar Transistor

Lam Research Corporation Models Complex Physics to Speed Up Chip Development

DC Characteristics of a MOS Transistor (MOSFET)

Viscoplastic Creep in Solder Joints

Tokyo Electron Ltd. Pushes the Limits of Chip Density

Présentation Utilisateur

Experimental Validation of Model of Electro-Chemical-Mechanical Planarization (ECMP) of Copper

Heating Circuit

Laser Heating of a Silicon Wafer

Molecular Flow in an Ion-Implant Vacuum System

GEC CCP Reactor, Argon Chemistry

3D ICP Reactor, Argon Chemistry

Éclairage sur le produit

It all starts with COMSOL Multiphysics^®, the platform product for creating physics-based models and simulation apps. From there, you can add as many specialized modules and interfacing products as needed — they all connect seamlessly via the platform for a consistent modeling workflow regardless of what you are modeling.

Here are some suggested products to add to COMSOL Multiphysics^® for modeling semiconductor manufacturing equipment, processes, and devices:

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