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Michael Ridley, Director HPC Program, NYSTAR
Text
Leveraging NYS Resources to Maintain Your Competitiveness.
What is NYSTAR?
• Fund (~$50 Million/year) • Centers for Advanced Technology (CATs)
• Strategically Target Academic Research Centers (STARs)
• Advanced Research Centers (ARCs)
• Technology Law Center
• HPC Consortium (HPC2)
• Regional Technology Development Centers(RTDC)
• Venture Fund (SBTIF)
• Other University Based Programs
How do regional technology clusters form?
Public
Academic Private
Most Successful Partnerships
NYSTAR Technology Clusters
NYSTAR’s 15 CATs
• Center for Advanced Ceramic Technology Alfred University, Alfred
Integrated Electronics Engineering Center Binghamton University, Binghamton
CAT in Photonics Applications City University of New York, New York City
Center for Advanced Materials Processing Clarkson University, Potsdam
Center for Advanced Information Management Columbia University, New York City
Center for Life Science Enterprise Cornell University, Ithaca
CAT in Telecommunications Polytechnic University, Brooklyn
Center for Automation Technologies and Systems Rensselaer Polytechnic Institute, Troy
Future Energy Systems Rensselaer Polytechnic Institute, Troy
Sensor CAT Stony Brook University, Stony Brook
CAT in Medical Biotechnology Stony Brook University, Stony Brook
CASE Center Syracuse University, Syracuse
Center for Advanced Technology in Nanomaterials and Nanoelectronics University at Albany, Albany
Center for Advanced Technology in Biomedical and Bioengineering University at Buffalo, Buffalo
CAT for Electronic Imaging Systems University of Rochester, Rochester
How is the (PPA) Model Working?
• Return on Investment (ROI)• Patents
• Grants Received (non-state)
• Companies Created
• New Jobs
• Many More
• Some Examples of our ROI
• Alfred - $36.40 to $1
• Binghamton - $21.92 to $1
• Clarkson - $29.96 to $1
• Overall • CAT $41.54 to $1
Success Stories
• NanoDynamics, located in Buffalo, has worked with Clarkson University’s Center for Advanced Technology Materials Processing to develop nanosized copper powder technologies. – RESULT - The company has raised over $16 million in private equity funding.
• Endomedix is an early stage medical device company started in July 2005 at the Long Island High Technology Incubator with the help of the Stony Brook Center for Biotechnology. – RESULT - Securing an initial private investment of $325,000. They have negotiated a
milestone based licensing agreement with a publicly traded life sciences company worth a total of $1,600,000, with an upfront cash payment of $500,000.
• WetStone Technologies of Cortland develops digital security technologies including time-stamping, forensic infrastructures, and intrusion detection technologies. CASE has worked with WetStone facilitating the design and commercialization of WetStone's products. – RESULT - WetStone credits its collaboration with CASE for creating over 44 new jobs
and in excess of $10 million in increased revenues, cost savings, and equity funding.
The Next 20 Years
• The problems to be solved will be huge, multifaceted, multi dimensional requiring numerous collaborations and partnerships.
• In order to manage and understand complexity, computer modeling and simulation will be key.
• HPC has only recently reached the level of speed necessary to achieve real world modeling at the nano scale.
What is SBES?
Simulation-Based Engineering Science (SBES) is defined as the disciplinethat provides the scientific and mathematical basis for the simulation ofengineered systems. Such systems range from microelectronic devices toautomobiles, aircraft, and even the infrastructures of oil fields and cities.
In a word, SBES fuses the knowledge and techniques of the traditionalengineering fields—electrical, mechanical, civil, chemical, aerospace, nuclear, biomedical,and materials science—with the knowledge and techniques of fields like computer science, mathematics, and the physical and social sciences.
As a result, engineers are better able to predict and optimize systems affecting almost all aspects of our lives and work, including our environment, our security and safety, and the products we use and export. (Source, NSF, May 2006)
Computers
21 Century Skills
Science Domain
Math
SBES Skills (Simulation Based Engineering Science)
SBES
BIO
NANO INFO
SBES (Simulation Based Engineering Science)The Root
HPC Allocation Program
• Allocate super computing resources– Business
– Academia
– Government
• Steps to receiving time– Online application http://www.nystar.state.ny.us/hpc/Application_For_Use.html
– Sign user agreements from assigned Centers
• Restrictions– Must be a NYS entity (academic or business)
– Other considerations
• Costs may be levied on closed research.
• Some software does not work in these environments.
• Massive allocations may require cost sharing
• Proprietary research is handled on a case by case basis by the centers directly.
Goals of HPC Assistance Program
• Provide assistance in the use of HPC assets in New York
• Build off of NYSTAR and NY’s substantial research investments
• Advance the science (academia)• Apply the science (business)• Create a knowledge repository (build the culture)
– Code
– Know how
– Applications
• Create a viable self sustaining community• Make New York industries more competitive in the
global economy through the application of HPC.
HPC2
HPC Allocation Program
NYSTAR CATsDevelop / Identify
Apply
Use
NYSTARHigh
PerformanceComputing
Program
HPC Program
UserInterface, Bio
Related Sciences
Physical Sciences,
Engineering, and others
Energy, Bio Related Sciences
NYSERNET U. Buffalo RPIStony Brook
BNL
New York State HPC2
World Class Networking –
Research network assets
– Internet2 Toolset
Knowledge
and Applications
Knowledgeand Applications
Knowledgeand Applications
HPCHUB
BIO
NANO INFO
HPC Knowledge Repository
Illustrative Examples of HPC in New York (Business Use)
• Upstate Biotechnology Company– Using supercomputers at CCNI to do analysis on billions of what was seen as unrelated
pieces of data to aid in drug discovery.
• Fortune 50 Company– Using HPC at Stony Brook/ BNL to do research on energy transmission and distribution
systems to make them more reliable and efficient.
• Upstate Manufacturer– Trying to develop better materials and designs to aid in reducing the power consumed by
their product, this will allow them to leap over their competition.
• Upstate Startup– Using CCNI computing facilities to do design work and proof of concept on what they
believe will be a breakthrough in generator design.
• Big Pharma– Using facilities at Stony Brook / BNL CCNI and Buffalo to advance their drug discovery and
speed up time to market.
• IBM– Using supercomputers at CCNI to solve the complex challenges in new innovative chip
design.
The Experiment A Statewide Research Cyber-Infrastructure
NYSTAR has funded nearly $500 Million in research instrumentation since 2000.
This exercise will begin the process of providing shared resources throughout NYS. All taxpayer funded assets available to everyone.
What we do here with this collaboration, portals and conferences will set the stage for these type of practices in other domains and set precedent on how we share instrumentation statewide.
We must do this, its much too expensive to build duplicative services throughout the state.