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Grid Computing – A Step Into t he Future

Grid Computing – A Step Into t he Future. IBM, Wachovia, and PayPal: Grid Computing Makes it Easier and Cheaper. Vipul Mehta PGP 14/314 Vishad Dubey PGP 14/315 Vishal Gagrai PGP 14/316 Yogesh Kumar PGP 14/317 Sudipta Mandal PGP 14/318 Vikas Temani PGP 14/319.

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Grid Computing – A Step Into t he Future

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  1. Grid Computing –A Step Into the Future IBM, Wachovia, and PayPal: Grid Computing Makes it Easier and Cheaper Vipul Mehta PGP 14/314 Vishad Dubey PGP 14/315 Vishal Gagrai PGP 14/316 Yogesh Kumar PGP 14/317 Sudipta Mandal PGP 14/318 Vikas Temani PGP 14/319

  2. What is Grid Computing? “Grid Computing is a computing infrastructure that provides dependable, consistent, pervasive and inexpensive access to computational capabilities.” - Sun Microsystems • Enables the virtualization of distributed computing and data resources • Simultaneously applies the resources of many computers in a network to tackle a single problem that requires a great number of computer processing cycles or access to large amounts of data • Harnesses unused processing cycles of all computers in a network for solving problems too intensive for any stand–alone machine • The size of a grid may vary from small (network of computer workstations within a corporation) to large (public collaborations across many companies and networks) • Should not be confused with other forms of computing such as Autonomic, client-server model, cloud computing etc.

  3. Characteristics • Relies on complete computers connected to a network by a conventional network interface such as Ethernet • Can solve larger, more complex problems  in a shorter time • Easier to collaborate with other organizations • Makes better use of existing hardware and idle resources • Grid environments are much more modular and don't have single points of failure “Grid computing is all about sharing, aggregating, hosting, offering service across the world for the benefit of mankind.” www.adarshpatil.com/newsite/grid.htm

  4. IBM • IBM is building a database of digital images which will enable faster and accurate diagnosis and treatment of cancer patients • Researchers at the Cancer Institute of New Jersey have digitized CAT scans, MR s using a high performance system and computational time on the World Community Grid (WCG) • NIH has provided $2.5 million grant to help different cancer institutes pool all their digital images into one central database so that the doctors can compare different images to diagnose cancer better • The database will help in customizing treatment for cancer patients • IBM has also teamed up with Mayo Clinic to use Cell Chip in a medical imaging system which will make imaging systems a lot faster

  5. Wachovia • Has switched from dedicated servers to 10,000 CPU resource pool spread across cities of US and London • Grid computing allows Wachovia to avoid dedicated hardware costs and make better use of underutilized hardware • “Dedicated server will cost three times the cost and people to support processes in absence of grid computing” – Tony Bishop, senior VP • Wachovia has eight applications running on its grid that are used in internal transactions • “Transaction applications can grow and contract as needed” – Jamie Bernardin (CTO, DataSynapse) • System provided resources on demand and the performance has improved fivefold on transactions

  6. PayPal • Linux grid: Power behind the payment system at PayPal • Processed $1571 worth transactions per second in 17 different currencies in 2006 • Total of $37.6 Bnin transactions • Payment system operated on about 4000 servers running Red Hat Linux • Cheaper and easier to grow the grid as compared to mainframe • Unnecessary features of Linux removed and propriety extensions added as per requirement • PayPal’s engineers develop solutions faster as they’re working on the target environment

  7. Applications IT Engineering and Design • High performance computing power: Infosolve Technologies, Virtual Compute Corp., Callidus Software Finance • Increasing transaction speeds for traders: BNP Paribas • Computing large amounts of data for regulatory compliance: HSBC • Quantitative analysis: Merrill Lynch, III Offshore Advisors, Genworth Media and Information • Visual effects/Animation: Digital Dimension, Rising Sun Pictures • Educational resources: School Specialty Engineering and Design • Ship building: Flensburger (Germany) • Automobile: Audi, Fiuka Pharma and Healthcare • Genomics: Institute for Genomic Research • Modeling drug variability: Cognigen

  8. VolunteerBased Network • Advantages: • Lowers the cost of computing infrastructure • Makes efficient use of unused computing time and critical funds • Supports research and projects that benefit humanity – Genome Comparison, AfricanClimate@Home • The results of the research are made public to the global research community • Disadvantages: • Dependent on volunteers’ participation • Reliability and security may be an issue • Volunteered computers may experience abnormalities and decrease in system performance

  9. Benefitsto SMEs • Easy and cheap to implement • Provides great returns by reducing costs • Can be scaled up very fast • Helps in getting information to the clients faster • Environment friendly

  10. QUESTIONS

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