• 技术刊物 Simulation Standard

Simulation Standard

Silvaco面向半导体工艺和器件仿真工程师推出的技术刊物

Two-Dimensional ATLAS Device Simulation of Pentacene Organic Thin-film Transistors

Recent years has seen rapid acceleration in the research and development of organic thin film transistors (OTFTs) as key components for active matrix displays, radio frequency identification tags, and many other small scale integrated circuits. There are many advantages to OTFTs, such as the flexibility of the plastic fabrication substrate and the potential cost savings to manufacturers that adopt a solution process and/or ink-jet printing process.

Exact2: Interconnect Parasitic Capacitance Simulator

Exact2 from Silvaco is a sophisticated, physically-based simulation tool for calculating semiconductor interconnect capacitance values. Its purpose is to build a capacitance coefficient database that is usable by any layout parasitic capacitance (LPE) tool.

Laser Simulation Encompassing Molar Fraction Variation via DevEdit

This article addresses the creation of semiconductor laser double heterostructures, and the subsequent simulation of laser output with DevEdit from Silvaco. A laser consists of a gain medium sandwiched between two mirrors forming the laser cavity. This is necessary for effective laser operation because the round trip gain of the device, including the material and mirror losses, is unity. In addition, there is an integer number of half-wavelengths of light inside the optical length of the laser cavity.

The Importance of Mesh Definition in Strained-Si Heterostructure Simulation

Computer simulation is used extensively to verify physical phenomena in semiconductor devices. Meshing plays an essential role in obtaining good simulation results. If care is not properly taken, serious errors may occur in the results. The objective of this article is to identify errors in the simulation of the strained-Si heterostructure MOSFET device using ATLAS, Silvaco’s two-dimensional numerical simulator.

Optical Lithography Models in ATHENA

ATHENA’s Optolith module is designed to simulate the 3 basic lithography technologies; contact printing, proximity and projection lithography. The imaging calculations within Optolith are flexible enough to handle all three situations. Optolith is based upon a solution of the Helmholtz equation for media with complex refractive indices and the Beam Propogation Method [1]. This allows Optolith to take account of both diffraction effects and any non-linear local optical properties of the resist material.

A CAD Framework for Co-Design and Analysis of CMOS-SET Hybrid Integrated Circuits

This paper introduces a CAD framework for co-simulation of hybrid circuits containing CMOS and SET (Single Electron Transistor) devices. An improved analytical model for SET is also formulated and shown to be applicable in both digital and analog domains.