Silicon Run I
Part of the Series: Silicon Run Series

Silicon Run Productions
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Silicon Run II
Part of the Series: Silicon Run Series
Silicon Run II explores manufacturing after the silicon wafers have been fabricated. This film reviews IC fabrication and continues by showing how IC wafers are tested, sorted, and packaged into individual microchips. These devices are then assembled onto the printed circuit boards used in personal computers. They are also seen…
Silicon Run Etch
Part of the Series: Silicon Run Series
This sixth video in the Silicon Run Series takes a close look at the etch process in semiconductor manufacturing, including chemical mechanical polish, or CMP. It shows how thin films of nonconductive, semiconductive, and conductive materials are sculpted into microchips. Following the fabrication process of a CMOS transistor, Silicon Run…
Silicon Run Lithography
Part of the Series: Silicon Run Series
Silicon Run Lithography examines the role of photolithography in imaging and printing the many intricate layers of integrated circuits. Focusing on critical and non-critical mask levels of a CMOS transistor, this video takes a close look at the manufacturing materials, tools, and processes that have made more precise and complex…
Silicon Run Lite
Part of the Series: Silicon Run Series
Silicon Run Lite combines key sequences and images from both Silicon Run I and Silicon Run II to show from the growth of silicon crystals through the assembly of a personal computer. Live industrial footage, microscopic filming, animation, graphics, and special effects give an up-close view of manufacturing. Silicon Run…
Silicon Run Implantation
Part of the Series: Silicon Run Series
Silicon Run Implantation takes a close look at the process of ion implantation. This video shows how ions are accelerated to high energies and directed into specific regions of the silicon substrate to change its molecular structure and alter its electrical properties. Silicon Run Implantation explores the various types of…
Silicon Run Deposition
Part of the Series: Silicon Run Series
Silicon Run Deposition uses 3D atomic animation and live manufacturing footage to provide a detailed close-up look at the process of thin film deposition in CMOS fabrication. It shows the chemical and physical reactions that create the dielectric and conductive layers of an integrated circuit. Silicon Run Deposition examines the…
Silicon Run Series
This series features semiconductor and computer manufacturing. Each video includes rarely seen live industrial footage and explores technical processes using vivid animations and graphics. The videos in this collection each have a PDF attached with details on downloading an interactive quiz. Each quiz includes footage from the videos and are…
MEMS: Making Micro Machines
MEMS: Making Micro Machines is an overview of the manufacture and design of microelectromechanical systems. This video shows the fabrication, testing and packaging, and design of some of our most common MEMS devices. It features the fabrication of Hewlett-Packard's thermal inkjet printhead and covers the testing and packaging of Texas…
Resistance Is Useful: Semiconductors
Episode 22 of The Nature of Matter
How does a tiny piece of impure silicon launch an electronics revolution? Follow the development of semiconductors from the invention of the transistor in the 1940s to ever-smaller circuits that are now measured in nanometers. Along the way, discover how today's complex microchips are made.
Nanotechnology: The World Beyond Micro
Nanotechnology: The World Beyond Micro explores the world of nano dimensions and a growing number of engineered nanomaterials. The video looks at how the property of materials changes due to the effects of a high surface to volume ratio and quantum mechanics. Viewers are taken to industrial sites to see…
Heat and Work
The first law of thermodynamics relates the internal energy of a system to the exchange of heat and mechanical work. Focus on isothermal (constant temperature) and adiabatic (no heat flow) processes, and see how they apply to diesel engines and the atmosphere.
Reversibility and the Laws of Physics
Isaac Newton's laws of physics are fully reversible; particles can move forward or backward in time without any inconsistency. But this is not our experience in the world, where the arrow of time is fundamentally connected to irreversible processes and the increase in entropy.