METHODS
TCAD Simulation
Through the TCAD Simulation program, we simulate process steps such as injection, diffusion and dopant activation, etching, deposition, oxidation, and epitaxy growth in various semiconductor materials. Process conditions such as ambient chemical composition, temperature, and pressure during individual manufacturing steps are common inputs. The final output is a 2D or 3D device structure that can be used for device simulation.
*Sentaurus Process Simulator : a general purpose multidimensional (2D/3D) process simulator
It includes an integrated 3D shape modeling engine and includes an advanced physical model.
*Sentaurus Structural Editor : An easy-to-use GUI for configuration work, scripting languages, and geometric modeling.
*Sentaurus Device Simulator : a general-purpose multidimensional (2D/3D) device simulator that contains a full 3D mesh engine and can be used in simulations of silicon and compound semiconductors; and a wide range of advanced physical models are included.
*Sentaurus Visual : Provides an enhanced GUI by visualizing TCAD data, includes powerful scripting capabilities, and provides a Tcl script active command line window. Provides special buttons for creating band diagrams, overlays, and plots.
SPICE
Synopsys' HSPICE provides a solution for designing and validating all applications. HSPICE can be simulated variously in the Ready-state, transparent frequency domain with the optimizing analog circuit simulator.
HSPICE is a proven solution across various (Analog, RF, Mixed) designs and processes, with the following characteristics.
- Golden Accuracy -– Best Silicon Correlation
- Most widely Adopted – Reference Simulator at 9/10 top Foundries
- Boroadest Application – IC, Package, Borad, Backplane
- Continuos Innovation –Signal Integrity, Multi-Core, Foundry Modeling
MATLAB
Model-based system engineering (MBSE) applies the model to enable the model to support the entire system lifecycle. Simulink connects development processes from requirements and system architecture to detailed component design, implementation, and testing.
- Collecting and Decomposing Requirements
- Define and refine specifications for components, configurations and architectures
- Building a single source for architecture and component-level interfaces
- Perform analysis and offset studies using MATLAB
- Validating requirements and system architecture using simulation-based testing
PSIM
PSIM is an Electronic circuit simulation software package, designed specifically for use in power electronics and motor drive simulations but can be used to simulate any electronic circuit. PSIM provides a schematic capture interface and a waveform viewer Simview. PSIM has several modules that extend its functionality into specific areas of circuit simulation and design including:
