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In 1973, SPICE was introduced to the world by Professor
Donald O. Pederson of the University of California at Berkeley,
and a new era of computer-aided design (CAD) tools was born.
As its name implies, SPICE is a "Simulation Program with
Integrated Circuit Emphasis." You give it a description of an
electrical circuit, made up of resistors, capacitors, inductors,
and power sources, and SPICE will predict the performance of that
circuit. Instead of bread-boarding new designs in the lab,
circuit designers found they could optimize their designs on
computers–in effect, using computers to build better computers.
Since its introduction, SPICE has been commercialized
and released in a dozen variants, such as H-SPICE, P-SPICE,
Learn more about circuit simulation from the resources on this site,
listed below. You might even acquire a taste for SPICE by
running examples online.
Wireless Integrated MicroSystems (WIMS): Coming Revolution in the Gathering of Information
0.0 out of 5 stars
01 Sep 2005 | Online Presentations | Contributor(s): Kensall D. Wise
Wireless integrated microsystems promise to become pervasive during the coming decade in applications ranging from health care and environmental monitoring to homeland security. Merging low-power...
Plasmonic Nanophotonics: Coupling Light to Nanostructure via Plasmons
4.5 out of 5 stars
03 Oct 2005 | Online Presentations | Contributor(s): Vladimir M. Shalaev
The photon is the ultimate unit of information because it packages data in a signal of zero mass and has unmatched speed. The power of light is driving the photonicrevolution, and information...
On the Reliability of Micro-Electronic Devices: An Introductory Lecture on Negative Bias Temperature Instability
5.0 out of 5 stars
28 Sep 2005 | Online Presentations | Contributor(s): Muhammad A. Alam
In 1930s Bell Labs scientists chose to focus on Siand Ge, rather than better known semiconductors like Ag2S and Cu2S, mostly because of their reliable performance. Their choice was rewarded with...
14 Aug 2005 | Tools | Contributor(s): Michael McLennan
General-purpose circuit simulation program for nonlinear dc, nonlinear transient, and linear ac analysis
Moore's Law Forever?
13 Jul 2005 | Online Presentations | Contributor(s): Mark Lundstrom
This talk covers the big technological changes in the 20th and 21st century that were correctly predicted by Gordon Moore in 1965. Moore's Law states that the number of transistors on a silicon...
Nanoelectronics: The New Frontier?
18 Apr 2005 | Online Presentations | Contributor(s): Mark Lundstrom
After forty years of advances in integrated circuit technology, microelectronics is undergoing a transformation to nanoelectronics. Modern day MOSFETs now have channel lengths of only 50 nm, and...
07 Jul 2004 | Online Presentations | Contributor(s): Mark Lundstrom
In non-specialist language, this talk introduces CMOS technology used for modern electronics. Beginning with an explanation of "CMOS," the speaker relates basic system considerations of transistor...
3.0 out of 5 stars
04 Aug 2004 | Online Presentations | Contributor(s): Mark Lundstrom
The transistor is the basic element of electronic systems. The integrated circuits inside today's personal computers, cell phones, PDA's, etc., contain hundreds of millions of transistors on a...
NanoMOS 2.5 Source Code Download
22 Feb 2005 | Downloads | Contributor(s): Zhibin Ren, Sebastien Goasguen
NanoMOS is a 2-D simulator for thin body (less than 5 nm), fully depleted, double-gated n-MOSFETs. A choice of five transport models is available (drift-diffusion, classical ballistic, energy...
Exponential Challenges, Exponential Rewards - The Future of Moore's Law
14 Dec 2004 | Online Presentations | Contributor(s): Shekhar Borkar
Three exponentials have been the foundation of today's electronics, which are often taken for granted—namely transistor density, performance, and energy. Moore's Law captures the impact of...
Nanoelectronics and the Future of Microelectronics
22 Aug 2002 | Online Presentations | Contributor(s): Mark Lundstrom
Progress in silicon technology continues to outpace the historic pace of Moore's Law, but the end of device scaling now seems to be only 10-15 years away. As a result, there is intense interest in...