1. Bio, Nano, Info�The Keys to California's Future� CALED Conference Ken Dozier
Executive Director
WESRAC
4/24/2006
3. One Hundred Years Ago Life expectancy was Forty-Seven Years
8000 Cars
144 Miles of Paved Road
95% of the Births Occurred at Home
Pneumonia and Influenza Leading Killers
6% of Americans graduated from High School
Lee De Forest father of the radio was persecuted for mail fraud for his claim that he could transmit the human voice across the Atlantic
4. The Future
5. Accelerating Rate of Change Challenging traditional institutions, practices and beliefs
All too often, well intentioned efforts to solve pressing problems actually makes the situation worse
The challenge facing us is how to move to tools and processes that help us understand compexity (John D Sterman 2000)
Technology has made life more complex Chris Capossela Microsoft
6. Is Sterman Right? For every 100 Dollars We Spend on the Retired Workforce Digital Isolated
We Spend 10 Dollars on the Emerging Workforce Digital Natives
We Spend 1 Dollar on the Existing Workforce Digital Immigrants
7. Technologies Change Fast
8. People Dont
9. Myths In 10,000 years the worlds population has doubled ten times, this trend will contine (peaks 2050, will never happen again)
Like all animals the more food humans have the more babies they have (fewer)
Agriculture will always be an exportable resource (No Lester Thurow)
The US has fewer then 10% factory workers (5%)
The Loss of 316 Thousand Manufacturing Jobs in California from 2000-2003 is an anomaly to Californias fault (55 million World Wide, China lost 5 million)
There is a wholesale shift of production from developed countries to China (technology)
This shift signals a shift economic decline. (US factory output has increased 4% annually since 1991, faster than the GDP)
Manufacturing is down from 26% of GDP to 13%(measued in constant prices % unchanged since 1980
California is bad at retaining jobs (all MSAs loose at the same rate)
When companies leave a location they take the people. (jobs leave people stay)
10. Job Creation is the Key Entrepreneurship significant driver of regional
economic growth
Positive correlation between areas of high entrepreneurship/high economic growth
Regions with high entrepreneurship: significantly higher rates of employment, wages, productivity
Return on innovation investment greater for regions able to support high entrepreneurship
Innovation creates economic growth when entrepreneurship meets technology
11. Gates Microsoft Xerox
Jobs Apple Xerox
Clark SGI E&S, Stanford
Clark Netscape University of Illinois Innovation
12. New Pushes Out the Old
13. Information Technology Two Primary Components
Computation (This session)
Connectivity (Next session
14. Computing the Future Practice of Science has undergone another revolution
Kuhns paradigm shift, telescope, calculus, computer science
Computing no longer merely help scientists instead it produces an orderly, formal framework and exploratory apparatus for all science. Economist Mar 2006
15. High Performance Computing (HPC) Gigaflop One Billion Floating Point Operations per Second
Teraflop One Trillion Floating Point Operations per Second
Petaflop- One Thousand Trillion Floating Point Operations per Second
17. High Performance Grid Computing
18. Small Wonders Atoms are the fundamental building blocks of matter
So small they are difficult to describe and hard to imagine
At very small scale properties of a material, such as color, magnetism a the ability to conduct electricity change in unexpected ways
Can be manipulated with a probe called with a scanning tunnel microscope (STM)
20. Two Basic Methods Set out to deliberately exploit the strange properties of this small world
Nanofabrication
Nanoscale Engineering (STM)
Precise Sculpting or Building of Enhanced and New Materials
Man Made Tools of processes, products or structures
Self Assembly (Agriculture)
Atoms and Molecules Growing Structures
Nanotubes
21. New Materials * Before Nano we took the materials the earth provided (wood, stone, ore) and found creative applications
Now we can manage the composition and combination of atoms, to form new stronger lighter metals, more flexible ceramics, more conductive plastics
*The Next Big Thing is Really Small, Jack Uldrich and Deb Newberry (2003)
22. Exciting and New When the size gets very small then the ratio between surface area and volume rises
Nano sugar dissolves better in water and makes better icing
Nano silver takes on antimicrobial bandages for burns
Nano gold melts at several hundred degrees lower
Nano copper looses its ability to conduct electricity
Metallic rubber (Blacksburg) flexes but conducts electricity
Solar Cell paint
Nano fabrics are stain and odor proof
23. Price per Megabyte
24. Nanotechnology Timeline
25. Expect to See Materials as strong as diamonds and lighter than aluminum
Composites that act as heat conductors, shields from radiation, provides wireless communication and converts heat into electricity
Nanosensors and energy sources to make materials self repairing (cars, bridges, buildings, clothes)
Solar collecting materials that can be painted on to collect, store and apply energy (room light cell phones, buildings, wearable computer)
26. High Impact Application Advanced Materials
High strength-to-weight composites for vehicle primary structures and habitats
Hydrogen resistant nanostructured materials for cryotanks
High thermal conductivity materials for heat sinks, heat pipes, and radiators
High temperature materials for propulsion systems and thermal protection systems
High electrical conductivity materials for wiring
Self-healing materials for repairing impact damage and wire insulation
Space-durable materials resistant to ultraviolet and particle radiation
Self-assembling materials for in-space fabrication
Power
High energy density batteries and fuel cells
High efficiency photovoltaic cells
Sensing
Bio-chemical sensors for monitoring environmental contaminants in crew habitats
Bio-chemical sensors for detecting the signatures of life on other planets
Chemical systems for identifying, processing, and utilizing planetary resources
Integral Health Management
Systems that incorporate integral sensors and processors for fault detection and diagnosis
High Performance Computing
Fault-tolerant reconfigurable processors, micro-controllers, and storage devices
Extreme Environment Electronics
Microelectronic devices that can operate reliably in extreme temperature and radiation environments
27. Climbing the Helical Staircase Knowledge is Power Sir Francis Bacon 17th Century
Industrial Revolution Physical Sciences
50 years ago the now famous double helix structure of DNA was published
Either strand of the helix could be used as a to duplicate the other
A single strand acts as a message tape telling a cell which proteins to make Economist 2003
28. Color Code Red is for Medical
Bald be gone
Human spare parts
Small Firms
Green is Agriculture
Genetically Modified Crops
Industrial is White
Biodegradable Plastics and Artificial Fibers
29. GNOME (Red) Biological Periodic Table
Personal drugs and processes
New forms of analysis
proactive treatment
Fountain of Youth
30. TransformingMedical Care� Bioinformatics and computational biology
will enable breakthroughs in basic biological research
and improvements in the prevention, treatment,
and cure of diseases.
31. HPC and Next Generation Biology Simulating 100 microseconds of protein folding could take 1025 machine instructions
This computation would take three years on a PetaFLOP system or
Keep a 3.2GHz microprocessor busy for the next million centuries.
32. PetaFLOPS computerscapable of performing a thousand
trillion mathematical operations per second, 25 times faster than
the largest supercomputers todaywill open new doors to
understanding the functions of biological molecules.
HPC and Next Generation Biology
33. Time to Change Innovate America
Innovate or Abdicate
(U.S. lead in technology, standard of living)
Innovation will be single most important factor in determining
Americas success through 21st Century
American business, government, workers and
universities face unprecedented acceleration of
global change, relentless pressure for short term
results, and fierce competition from
countries that seek innovation-driven future
For past 25 years, U.S. has optimized
organizations for efficiency/quality; next 25
years, must optimize for innovation
34. Innovate America A National�Agenda with Three Elements� Talent
Build a innovation education strategy for a diverse,
innovative and technically-trained workforce
Catalyze next generation of American innovators
Investment
Energize entrepreneurial economy
Reinforce risk-taking and long-term investment
Infrastructure
Create national consensus of innovation growth strategies
Create 21st Century intellectual property regime
Build 21st Century innovation infrastructures
35. WESRACS Job is to create jobs
36. Help Ken reach more Manufacturers fighting Import Competition
37. WIRED Project Interface with industry/economic development academia to support/develop education/training resources
Create sustainable innovation economic development model
Identify candidate companies for projects
