The Center for Computational Research

Dr. Russ Miller, Director

Professor of Computer Science & Engineering, UB

Senior Research Scientist, Hauptman-Woodward Inst.

History of CCR

Ad-Hoc Task Force on High-Performance Computing

Formed January 1998 by Provost’s Office

Faculty from Science, Engineering, Medicine, Arts

Staff from Central Computing and Local Support Services

Final Report Submitted April 1998

Significant need to provide support in

Computational Science

High-Performance Computing

Visualization

National priority (PITAC report)

Recommends formation of CCR

Provost establishes CCR in Summer 1998

PITAC Report
(President’s Information Technology Advisory Committee)

Federal IT R&D Investment is Inadequate

Federal IT R&D Should Focus on Long-Term

Research Priorities

Scalable Information Infrastructure

Software and Communications technology for scaling infor. infrastr.

Expand NGI testbeds to foster development and deployment of enabling technologies

High-End Computing

Innovative computing technologies and architectures

Software for improving high-end computing

Acquisition of high-end computing to support sci. and eng. research

Expand Fed. High End Computing and Computation (HECC) program

Software

Socio-Economic and Workforce Impact

"CCR Established:"

CCR Established: January, 1999

CCR Facility Occupied: May, 1999

Research Groups Supported: 75+ (25 depts)

Publications/Presentations: 100+

Proposals Submitted: 50+ ($150M)

Proposals Funded to Date: 20+ ($28M)

Equipment/Software Donated: 12 ($6M)

News Articles about CCR: 125+

Mission of CCR

Foster High-Tech Research & Economic Development

High-Performance Computing

High-End Visualization

Provide

Support Services

Collaborative Opportunities

Foster Partnerships

Computing & Visualization

Software & Consultation

Technology Transfer

Seminars, Workshops, Tutorials, and Courses

Management

Overview of CCR

Support/Expand HPC at SUNY-Buffalo

70 Research Groups/25 Departments

Economic Development in WNY

Local Companies

Education, Outreach, Training

HS, College, Companies

National Partnerships

SGI, IBM, Sun, Nortel, Alias|Wavefront, Myricom

Financial Leverage

$300K NSF ® $11M equip, $28M Grants, $6M Donations

CCR Computing (0.4Tflops)

SGI Origin2000

128 processors (250 MHz)

32 GB RAM

400 GB Fibre Channel Disk Storage

IBM RS/6000 SP

78 Processors

26 GB Ram, 640 GB Disk Storage

Sun Microsystems Cluster

48 Sun Ultra 5 Workstations (333MHz)

32 Sunblades (750MHz)

Myrinet + 100BT Ethernet

SGI Intel Linux Cluster

150 Pentium III Processors (1 GHz)

75 GB RAM, 2.5 TB Disk Storage

Myrinet2000 + 100BT Ethernet

CCR Visualization

Urban Planning

Manufacturing

Molecular Modeling

Multimedia Presentations

Historical Reenactments

Sample CCR-Supported Research

Semiconductor Manufacturing

New processes & chemicals to improve the manufacturing of computer chips.

Environmentally Friendly Solvents

Study supercritical CO₂ as a solvent to reduce the need for toxic solvents.

Protein Folding

Computer simulations determine the 3D structure of proteins.

Dental Implant Design

Simulation and modeling of a dental implant in a jawbone to reduce failure rate.

Volcanology

Study of volcanoes for risk assessment as well as modeling of lava flows and mudslides.

Groundwater Modeling

Predict contaminant flow in groundwater & possible migration into streams and lakes.

Fluid Dynamics

Modeling turbulent flows and combustion to improve design of chemical reactors, turbine engines, and airplanes.

Molecular Structure Determination

SnB Software by UB/HWI

Top Algorithms of the Century

Critical to rational drug design

Important link in structural biology

Vancomycin - antibiotic of last resort

UB’s Virtual Reality Lab; NYSCEDII

Design and Virtual Prototypes

Model Factories and Plants

Simulate Manufacturing

Study Human Factors

Visualize New Products

Industries: Auto, Aviation, Space, Components, Process, Pharmaceutical, Movie

Peace Bridge
(CCR / IBC Digital / UB VR Lab)

International Crossing (USA/Canada)

Existing Bridge: Old (75yrs) & Small (3 lanes)

Existing USA Plaza: Small & Poor Design

Proposed Options

Relocate USA Plaza

Build a 3 Lane Companion & Rehab Original

Build a 6 Lane Signature Span

CCR Provides Immersive 3D Viz

All Bridge & Plaza Options

Education, Outreach, and Training

High-School Summer Program

Graduate Certificate Program in Computational Science

Courses in High-Performance Computing

Regional Relationships

Brockport

Geneseo

Training

IBM SP, SGI O2K, MPI, Viz

ACA99 Workshop

Open Houses (Internal and External)

Computational Science

Focuses on Scientific Problems

Impact (Simulation & Modeling)

Bioinformatics qIndustrial Design

CFD qPhotonics

Pharm. Drug Design qEnvironmental Science

Graduate Certificate in Computational Science & Engineering

Requires 15 Credits (5 Courses)

Requires a Two-Semester Course in HPC

Combines Computational Methods with Disciplinary Work

Cooperative between CCR and

Mathematics

Chemical Engineering

Physics

Mechanical & Aerospace Engineering

Computer Science & Engineering

HPC I & II

High Performance Computing I: Parallel Architectures, MPI, OpenMP, BLAS, Linear Algebra Libraries.

High Performance Computing II: Applications – Monte Carlo, MD, Finite Elements, Finite Differences, FFTs.

First Year: 25 Students

CCR on the Road

Visual Outreach

CCR & Albany Collaboration

Cluster Computing Course

Computational Science Classes

Computational Science Research

Real-Time Simulation & Modeling

Infrastructure

Distributed Cluster Computing Environments

Collaboratories/Meeting Environments

Networking (?) – multiple OC12 lines

Contact Information

www.ccr.buffalo.edu

www.hwi.buffalo.edu/SnB

miller@{ccr,cse,hwi}.buffalo.edu


	Dr. Russ Miller, Director
	Professor of Computer Science & Engineering, UB
	Senior Research Scientist, Hauptman-Woodward Inst.


Ad-Hoc Task Force on High-Performance Computing
	Formed January 1998 by Provost’s Office
		Faculty from Science, Engineering, Medicine, Arts
		Staff from Central Computing and Local Support Services
	Final Report Submitted April 1998
		Significant need to provide support in
			Computational Science
			High-Performance Computing
			Visualization
		National priority (PITAC report)
		Recommends formation of CCR
Provost establishes CCR in Summer 1998


Federal IT R&D Investment is Inadequate
Federal IT R&D Should Focus on Long-Term
Research Priorities
	Scalable Information Infrastructure
		Software and Communications technology for scaling infor. infrastr.
		Expand NGI testbeds to foster development and deployment of enabling technologies
	High-End Computing
		Innovative computing technologies and architectures
		Software for improving high-end computing
		Acquisition of high-end computing to support sci. and eng. research
		Expand Fed. High End Computing and Computation (HECC) program
	Software
	Socio-Economic and Workforce Impact


		CCR Established: January, 1999
		CCR Facility Occupied: May, 1999
		Research Groups Supported: 75+ (25 depts)
		Publications/Presentations: 100+
		Proposals Submitted: 50+ ($150M)
		Proposals Funded to Date: 20+ ($28M)
		Equipment/Software Donated: 12 ($6M)
		News Articles about CCR: 125+


	Foster High-Tech Research & Economic Development
		High-Performance Computing
		High-End Visualization
	Provide
		Support Services
		Collaborative Opportunities
	Foster Partnerships
		Computing & Visualization
		Software & Consultation
	Technology Transfer
		Seminars, Workshops, Tutorials, and Courses


	Support/Expand HPC at SUNY-Buffalo
		70 Research Groups/25 Departments
	Economic Development in WNY
		Local Companies
	Education, Outreach, Training
		HS, College, Companies
	National Partnerships
		SGI, IBM, Sun, Nortel, Alias\|Wavefront, Myricom
	Financial Leverage
		$300K NSF ® $11M equip, $28M Grants, $6M Donations


	SGI Origin2000
		128 processors (250 MHz)
		32 GB RAM
		400 GB Fibre Channel Disk Storage
	IBM RS/6000 SP
		78 Processors
		26 GB Ram, 640 GB Disk Storage
	Sun Microsystems Cluster
		48 Sun Ultra 5 Workstations (333MHz)
		32 Sunblades (750MHz)
		Myrinet + 100BT Ethernet
	SGI Intel Linux Cluster
		150 Pentium III Processors (1 GHz)
		75 GB RAM, 2.5 TB Disk Storage
		Myrinet2000 + 100BT Ethernet


	Urban Planning
	Manufacturing
	Molecular Modeling
	Multimedia Presentations
	Historical Reenactments


	Semiconductor Manufacturing
		New processes & chemicals to improve the manufacturing of computer chips.
	Environmentally Friendly Solvents
		Study supercritical CO₂ as a solvent to reduce the need for toxic solvents.
	Protein Folding
		Computer simulations determine the 3D structure of proteins.
	Dental Implant Design
		Simulation and modeling of a dental implant in a jawbone to reduce failure rate.
	Volcanology
		Study of volcanoes for risk assessment as well as modeling of lava flows and mudslides.
	Groundwater Modeling
		Predict contaminant flow in groundwater & possible migration into streams and lakes.
	Fluid Dynamics
		Modeling turbulent flows and combustion to improve design of chemical reactors, turbine engines, and airplanes.


	SnB Software by UB/HWI
		Top Algorithms of the Century
	Critical to rational drug design
	Important link in structural biology
	Vancomycin - antibiotic of last resort


	Design and Virtual Prototypes
	Model Factories and Plants
	Simulate Manufacturing
	Study Human Factors
	Visualize New Products
	Industries: Auto, Aviation, Space, Components, Process, Pharmaceutical, Movie


	International Crossing (USA/Canada)
	Existing Bridge: Old (75yrs) & Small (3 lanes)
	Existing USA Plaza: Small & Poor Design
	Proposed Options
		Relocate USA Plaza
		Build a 3 Lane Companion & Rehab Original
		Build a 6 Lane Signature Span
	CCR Provides Immersive 3D Viz
		All Bridge & Plaza Options


	High-School Summer Program
	Graduate Certificate Program in Computational Science
	Courses in High-Performance Computing
	Regional Relationships
		Brockport
		Geneseo
	Training
		IBM SP, SGI O2K, MPI, Viz
	ACA99 Workshop
	Open Houses (Internal and External)


	Focuses on Scientific Problems




	Impact (Simulation & Modeling)
		Bioinformatics qIndustrial Design
		CFD qPhotonics
		Pharm. Drug Design qEnvironmental Science


	Requires 15 Credits (5 Courses)
	Requires a Two-Semester Course in HPC
	Combines Computational Methods with Disciplinary Work
	Cooperative between CCR and
		Mathematics
		Chemical Engineering
		Physics
		Mechanical & Aerospace Engineering
		Computer Science & Engineering


	High Performance Computing I: Parallel Architectures, MPI, OpenMP, BLAS, Linear Algebra Libraries.

	High Performance Computing II: Applications – Monte Carlo, MD, Finite Elements, Finite Differences, FFTs.

	First Year: 25 Students


	Cluster Computing Course
	Computational Science Classes
	Computational Science Research
	Real-Time Simulation & Modeling
	Infrastructure
		Distributed Cluster Computing Environments
		Collaboratories/Meeting Environments
		Networking (?) – multiple OC12 lines


	www.ccr.buffalo.edu
	www.hwi.buffalo.edu/SnB
	miller@{ccr,cse,hwi}.buffalo.edu