This annual exploration of cutting-edge topics at the intersection of
Stanford research and industry practice is now being offered online. The presentations are offered by renowned Stanford faculty and leading industry experts. Participants may begin at any time and the lectures are available 24 hours a day, 7 days a week for 90 days.
Nanoscience and Nanotechnology
New Electronics for Extending Moore's Law
Semiconductor Devices and Manufacturing Technology
Semiconductor Integrated Circuit Design and Applications
Nanoscience
and Nanotechnology:
Topics include atomic
and molecular assembly, computational nanotechnology, nanotechnology
patterning techniques, nanoscale studies of proteins and nucleic acids,
nanotechnology in the pharmaceutical industry, nanophotonic materials and
devices, carbon nanotubes, nanoelectronics, as well as nano-magnetic
structures and devices.
New
Electronic Materials for Extending Moore’s Law:
The semiconductor industry is nearing several
fundamental limits to
continuing the dimensional scaling of MOS
devices. This program explores
innovative solutions to these challenges
by incorporating new materials.
The program will cover the selection
criteria, prototyping, compatibility,
reliability, and the trade-offs
associated with insertion of new materials
in MOS devices. Specific
topics include: high-performance MOS device
requirements, atomic layer
deposition, high-k dielectrics, metal gates,
ultrashallow junctions,
computational prototyping of electronic
materials,
nano-characterization techniques, lithography resolution
limits, and
materials for new non-volatile memories.
Semiconductor
Devices and Manufacturing Technology:
Silicon integrated circuit devices, process integration,
and manufacturing technologies including: 30 nm to 90 nm process
integration strategies, nanoelectronics devices, SOI devices and
technology, 3-dimensional integrated circuits, advanced microlithography
and etch technologies, and integrated circuit packaging.
Semiconductor Integrated Circuit Design and Applications:
This program covers a wide range of topics in modern integrated
circuit
design and related applications including: Electronic Design
Automation
(EDA), non-volatile memories, low-power design and power
management,
operational transconductance amplifiers, wireless systems,
wireless LAN
(WLAN) transceivers, VLSI digital design, digital signal
processors,
oversampling A/D and D/A conversion, and pipelined A/D
converters.
