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Premium member Presentation Transcript Super Computers ---Parallel Computers: Super Computers ---Parallel Computers Prof. Sin-Min Lee Department of Computer Science CS147 Lecture 20PowerPoint Presentation: By 1960, at the age of 34, Seymour had established his reputation for genius in designing high performance computers. He had completed the design of the Control Data 1604, the first computer to be fully transistorized and had begun the design of the first system that earned the title of supercomputer, the CDC 6600 which was also the first major system to employ three-dimensional packaging and an instruction set that was later to be referred to as RISC.PowerPoint Presentation: Even as a child, Seymour was a problem solver. His sister tells the story about when Seymour was a young boy, he rigged a Morse Code connection between his bedroom and his sister's so that they could communicate after lights out. His father became aware of the late night clicking and told Seymour to shut down the system because it was bothering the rest of the household. Seymour's solution was to convert the clickers to lights and to continue to communicate with his sister.PowerPoint Presentation: Robert Frost's, "The Road Not Taken" "I shall be telling this with a sigh Somewhere ages and ages hence: Two roads diverged in a wood, and I-- I took the one less traveled by, And that has made all the difference."PowerPoint Presentation: Seymour liked to work with fundamental and simple tools. Generally only a piece of paper and a pencil. But he admitted that some of his work required more sophisticated tools. Once when told that Apple Computer bought a CRAY to simulate their next Apple computer design, Seymour remarked, "Funny, I am using an Apple to simulate the CRAY-3." His selection of people for his projects also reflected fundamentals. Once asked why he often hires new graduates to help him with early R&D work, he replied, "Because they don't know that what I'm asking them to do is impossible, so they try."PowerPoint Presentation: Since the first supercomputer, the Cray-1, was installed at Los Alamos National Laboratory in 1976, computational speed has leaped 500,000 times. The Cray-1 was capable of 80 megaflops (80 million operations a second). The Blue Gene/L machine that will be completed next year will be five million times faster.PowerPoint Presentation: 40 trillion calculations per second (teraflop) 1: Earth Simulator Center, Japan 2: Intel Itanium2 Tiger4 1.4GHz, Quadrics 3: ASCI Q - AlphaServer SC45, 1.25 GHz 4: Blue Gene/L DD1 Prototype (0.5GHz PowerPC 440 w/Custom) 5: PowerEdge 1750, P4 Xeon 3.06 GHz, Myrinet 6: eServer pSeries 690 (1.9 GHz Power4+) 7: Riken Super Combined Cluster 8: Blue Gene/L DD2 Prototype (0.7 GHz PowerPC 440) 9: Integrity rx2600 Itanium2 1.5 GHz, Quadrics 10: Dawning 4000A, Opteron 2.2 GHz, Myrinet June-2004PowerPoint Presentation: November-2004PowerPoint Presentation: Its peak theoretical performance is expected to be 360 teraflops, and will fit into 64 full racks. It will also cut down on the amount of heat generated by the massive power, a big problem for supercomputers. The final machine will help scientists work out the safety, security and reliability requirements for the US's nuclear weapons stockpile, without the need for underground nuclear testing. IBM's senior vice president of technology and manufacturing, Nick Donofrio, believes that by 2006, Blue Gene will be capable of petaflop computing. This means it would be capable of doing 1,000 trillion operations a second.PowerPoint Presentation: NASA to build 10,000-processor Linux computer IDG News Service 7/28/04 The National Aeronautics and Space Administration (NASA) has given the green light to a project that will build the largest ever supercomputer based on Silicon Graphics Inc.'s (SGI) 512-processor Altix computers. Called Project Columbia, the 10,240-processor system will be used by researchers at the Advanced Supercomputing Facility at NASA's Ames Research Center in Moffett Field, California. . "PowerPoint Presentation: Scientists will use Columbia to design equipment, simulate future space missions and model weather patterns. A portion of the US$160 million system will also be made available to other government agencies and educational facilities, said Bill Thigpen, manager of Project Columbia. "We need to look at working with other agencies to provide them with access to this system because it is a unique system," he said. What makes Project Columbia unique is the size of the multiprocessor Linux systems, or nodes, that it clusters together. It is common for supercomputers to be built of thousands of two-processor nodes, but the Ames system uses SGI's NUMAlink switching technology and ProPack Linux operating system enhancements to connect 512-processor nodes, each of which will have more than 1,000G bytes of memoryPowerPoint Presentation: "We use a very large single-system image," said Jeff Greenwald, senior director of server product marketing with SGI. "The other guys come with a very thin node cluster, and try to screw them all together." The Altix nodes will use Intel Corp.'s Itanium 2 microprocessors, and the entire 20-node system is expected to be fully assembled by year's end, he said. SGI has used this large-node technology to build a number of smaller Altix systems with between 3,000 and 6,000 processors, but Project Columbia will be the largest to date, Greenwald saidPowerPoint Presentation: The Earth Simulator has held on to the top spot since June 2002. It is dedicated to climate modelling and simulating seismic activityPowerPoint Presentation: SINGAPORE (CNN) -- A group of researchers from Singapore has created a computer chip that has the power of 100 standard computers. The group of five, all working at Ngee Ann Polytechnic, will commercialize their development by January and sell it to the pharmaceutical industry, where they say the invention will save time and money. Lead researcher Darran Nathan, 24, explains that unlike standard computer chips, which function using software, his is based on a computer's hardware.PowerPoint Presentation: "An ordinary computer chip will interpret instructions from the software and execute a command," he says. "Our chip is a reconfigurable chip, which means it downloads an actual file to the chip and rewires it according to subsequent processing done in the hardware." Nathan says the process is highly technical but, put simply, is a computer chip that works at a speed of 100 standard computers combined. He says the super chip was originally created with the telecommunications industry in mind, but soon after work on the project began two years ago, they realized the benefits would be much more useful to life sciences.PowerPoint Presentation: "It is 100 times quicker than your standard computer. Most people do not need such a powerful computer, but in the area of designing and developing drugs, it is hugely important," says Nathan. "It basically means getting essential drugs on the street quicker, at a cheaper cost." Nathan says the device will cost between US$30,000 and US$61,000, and its key point of difference between other supercomputers is its small size. The team, which calls itself Project Proteus, after the shape-shifting Greek god, are aged between 24 and 27. Last week they showcased their chip at the Global Entrepolis convention in Singapore where Mr Nathan says they received a lot of positive feedback.PowerPoint Presentation: A Supercomputer at $5.2 million Virginia Tech 1,100 node Macs. G5 supercomputerPowerPoint Presentation: The Virginia Polytechnic Institute and State University has built a supercomputer comprised of a cluster of 1,100 dual-processor Macintosh G5 computers. Based on preliminary benchmarks, Big Mac is capable of 8.1 teraflops per second. The Mac supercomputer still is being fine tuned, and the full extent of its computing power will not be known until November. But the 8.1 teraflops figure would make the Big Mac the world's fourth fastest supercomputerPowerPoint Presentation: Big Mac's cost relative to similar machines is as noteworthy as its performance. The Apple supercomputer was constructed for just over US$5 million, and the cluster was assembled in about four weeks. In contrast, the world's leading supercomputers cost well over $100 million to build and require several years to construct. The Earth Simulator, which clocked in at 38.5 teraflops in 2002, reportedly cost up to $250 million.PowerPoint Presentation: Srinidhi Varadarajan, Ph.D. Dr. Srinidhi Varadarajan is an Assistant Professor of Computer Science at Virginia Tech. He was honored with the NSF Career Award in 2002 for "Weaving a Code Tapestry: A Compiler Directed Framework for Scalable Network Emulation." He has focused his research on building a distributed network emulation system that can scale to emulate hundreds of thousands of virtual nodes. October 28 Time: 7:30pm - 9:00pm Location: Santa Clara BallroomParallel Computers: Parallel Computers Two common types Cluster Multi-ProcessorCluster Computers: Cluster ComputersPowerPoint Presentation: Clusters on the Rise Using clusters of small machines to build a supercomputer is not a new concept. Another of the world's top machines, housed at the Lawrence Livermore National Laboratory, was constructed from 2,304 Xeon processors. The machine was build by Utah-based Linux Networx. Clustering technology has meant that traditional big-iron leaders like Cray (Nasdaq: CRAY) and IBM have new competition from makers of smaller machines. Dell (Nasdaq: DELL) , among other companies, has sold high-powered computing clusters to research institutions.Cluster Computers: Cluster Computers Each computer in a cluster is a complete computer by itself CPU Memory Disk etc Computers communicate with each other via some interconnection busCluster Computers: Cluster Computers Typically used where one computer does not have enough capacity to do the expected work Large Servers Cheaper than building one GIANT computerPowerPoint Presentation: Although not new, supercomputing clustering technology still is impressive. It works by farming out chunks of data to individual machines, adding that clustering works better for some types of computing problems than others. For example, a cluster would not be ideal to compete against IBM's Deep Blue supercomputer in a chess match; in this case, all the data must be available to one processor at the same moment -- the machine operates much in the same way as the human brain handles tasks. However, a cluster would be ideal for the processing of seismic data for oil exploration, because that computing job can be divided into many smaller tasks.Cluster Computers: Cluster Computers Need to break up work among the computers in the cluster Example: Microsoft.com Search Engine 6 computers running SQL Server Each has a copy of the MS Knowledge Base Search requests come to one computer Sends request to one of the 6 Attempts to keep all 6 busyPowerPoint Presentation: The Virginia Tech Mac supercomputer should be fully functional and in use by January 2004. It will be used for research into nanoscale electronics, quantum chemistry, computational chemistry, aerodynamics, molecular statics, computational acoustics and the molecular modeling of proteins.Multiprocessors: Multiprocessors I/O Port Device Device Controller CPU Bus Memory CPU CPUMultiprocessors: Multiprocessors Systems designed to have 2 to 8 CPUs The CPUs all share the other parts of the computer Memory Disk System Bus etc CPUs communicate via Memory and the System BusMultiProcessors: MultiProcessors Each CPU shares memory, disks, etc Cheaper than clusters Not as good performance as clusters Often used for Small Servers High-end WorkstationsMultiProcessors: MultiProcessors OS automatically shares work among available CPUs On a workstation … One CPU can be running an engineering design program Another CPU can be doing complex graphics formattingSpecialized Processors: Specialized Processors Vector Processors Massively Parallel ComputersVector Processors: Vector Processors For (I=0;I<n;I++) { array1[I] = array2[I] + array3[I] } This is an array (vector) operationVector Processors: Vector Processors Special instructions to operate on vectors (arrays) Vector instruction specifies Starting addresses of all 3 arrays Loop count Saves For Loop overhead Can more efficiently access memory Also Known as SIMD Computers S ingle I nstruction M ultiple D ataVector Processors: Vector Processors Until the 1990s, the world ’ s fastest supercomputers were implemented as vector processors Now, Vector Processors are typically special peripheral devices that can be installed on a “ regular ” computerMassively Parallel Computers: Massively Parallel Computers IBM ASCI Purple Cluster of 196 computers Each computer has 64 CPUs 256 Gigabytes of RAM 10,000 GB of DiskMassively Parallel Computer: Massively Parallel Computer How will ASCI Purple be used? Simulation of molecular dynamics Research into repairing damaged DNA Analysis of seismic waves Earthquake research Simulation of star evolution Simulation of Weapons of Mass DestructionPowerPoint Presentation: According to the article, the supercomputer, powered by 2,200 IBM G5 processors, has been initially rated at computing 7.41 trillion operations per second. The final number could be much higher, according to school officials, but if not, it would rank as the #4 fastest supercomputing cluster in the world. Japan's US$250M Earth Simulator, which is currently the world's fastest computer Lawrence Livermore's US$10-15M cluster system, which is made up of 2,304 Intel Xeon processors. IBM recently installed "Pacific Blue" at the Lawrence Livermore Laboratories for $94 millionPowerPoint Presentation: " We are demonstrating that you can build a very high performance machine for a fifth to a tenth of the cost of what supercomputers now cost," said Hassan Aref, the dean of the School of Engineering at Virginia Tech in Blacksburg 1998 a group called distributed.net linked thousands of computers of all kinds around the world via the Internet, and cracked a 56-bit DES-II code in 40 days. It had previously been thought that such heavyweight ciphers would take hundreds of years to crack even on fast computers. One version of the Distributed.net program ran as a screen saver that kicked in, and began cracking code, whenever the machine was idle for more than a few minutes. Distributed.net bills itself as the "Fastest Computer on Earth", even though their hardware bill is effectively zero.PowerPoint Presentation: The idea is straightforward. You set up an arbitrary number of PCs, network them, typically using fast Ethernet, and then send them problems that can be divided up among the machines' processors. One machine acts as a server that syncs up all the rest, called clients. Beowulf specs software like the Message Passing Interface written under the Linux operating system, that allows the machines to communicate while working on the problem. And since Linux, brainchild of computer science student Linus Torvalds, is free, it keeps the cost downPowerPoint Presentation: Modeling the trajectories of tens of millions of charged particles, each interacting with the others through electro-magnetic forces, requires heavy-duty number crunching. To harness supercomputing power at a desktop price, UCLA’s Dr. Viktor K. Decyk and his colleagues have created their own super-fast, parallel processing “supercomputer” using a cluster of Power Macintosh computers.PowerPoint Presentation: Apple's G4 Cubes used for cell mutation detection and genotyping analysis SYDNEY - 22 January 2001PowerPoint Presentation: World's fastest" Macintosh cluster Tuesday, May 15, 2001 @ 8:45am Researchers at the Grupo de Lasers e Plasmas (GoLP) in Portugal have created what they bill as the world's fastest Macintosh-based cluster . Consisting of 16 dual-processor Power Mac G4/450s, the cluster delivers more than 50 GigaFlops of peak power and took just one day to set up.PowerPoint Presentation: Apple Computer purchased a big Cray supercomputer in the mid-1980s. In fact, Steve Jobs was Cray's first and only walk-in customer. He arrived unannounced (so the story goes) at Cray headquarters in Mendota Heights, Minnesota and asked to speak to someone about buying a Cray. They nearly threw him out. It's only slightly less eccentric than someone walking into NASA Johnson Space Center and inquiring how to purchase a shuttle orbiter. Later, Cray president John Rollwagen phoned Seymour and told him that Apple had just purchased a Cray that would be used in designing the next Macintosh. Seymour thought for a bit, and replied that that seemed reasonable, since he was using a Macintosh to design the next Cray!PowerPoint Presentation: The machines can help scientists understand one of the greatest challenges of the 21st Century: protein folding. "Health is one of the most important problems, not just mapping the human genome, but also protein structures. "We are a great believer in simulation. It gives you another tool," he said. Once the structures of proteins are understood fully, then drugs can be tailor-made to fight diseases more effectively. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Super Computers ---Parallel Computers manojinjeti Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: Embed: Flash iPad Copy Does not support media & animations WordPress Embed Customize Embed URL: Copy Thumbnail: Copy The presentation is successfully added In Your Favorites. Views: 247 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 14, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Super Computers ---Parallel Computers: Super Computers ---Parallel Computers Prof. Sin-Min Lee Department of Computer Science CS147 Lecture 20PowerPoint Presentation: By 1960, at the age of 34, Seymour had established his reputation for genius in designing high performance computers. He had completed the design of the Control Data 1604, the first computer to be fully transistorized and had begun the design of the first system that earned the title of supercomputer, the CDC 6600 which was also the first major system to employ three-dimensional packaging and an instruction set that was later to be referred to as RISC.PowerPoint Presentation: Even as a child, Seymour was a problem solver. His sister tells the story about when Seymour was a young boy, he rigged a Morse Code connection between his bedroom and his sister's so that they could communicate after lights out. His father became aware of the late night clicking and told Seymour to shut down the system because it was bothering the rest of the household. Seymour's solution was to convert the clickers to lights and to continue to communicate with his sister.PowerPoint Presentation: Robert Frost's, "The Road Not Taken" "I shall be telling this with a sigh Somewhere ages and ages hence: Two roads diverged in a wood, and I-- I took the one less traveled by, And that has made all the difference."PowerPoint Presentation: Seymour liked to work with fundamental and simple tools. Generally only a piece of paper and a pencil. But he admitted that some of his work required more sophisticated tools. Once when told that Apple Computer bought a CRAY to simulate their next Apple computer design, Seymour remarked, "Funny, I am using an Apple to simulate the CRAY-3." His selection of people for his projects also reflected fundamentals. Once asked why he often hires new graduates to help him with early R&D work, he replied, "Because they don't know that what I'm asking them to do is impossible, so they try."PowerPoint Presentation: Since the first supercomputer, the Cray-1, was installed at Los Alamos National Laboratory in 1976, computational speed has leaped 500,000 times. The Cray-1 was capable of 80 megaflops (80 million operations a second). The Blue Gene/L machine that will be completed next year will be five million times faster.PowerPoint Presentation: 40 trillion calculations per second (teraflop) 1: Earth Simulator Center, Japan 2: Intel Itanium2 Tiger4 1.4GHz, Quadrics 3: ASCI Q - AlphaServer SC45, 1.25 GHz 4: Blue Gene/L DD1 Prototype (0.5GHz PowerPC 440 w/Custom) 5: PowerEdge 1750, P4 Xeon 3.06 GHz, Myrinet 6: eServer pSeries 690 (1.9 GHz Power4+) 7: Riken Super Combined Cluster 8: Blue Gene/L DD2 Prototype (0.7 GHz PowerPC 440) 9: Integrity rx2600 Itanium2 1.5 GHz, Quadrics 10: Dawning 4000A, Opteron 2.2 GHz, Myrinet June-2004PowerPoint Presentation: November-2004PowerPoint Presentation: Its peak theoretical performance is expected to be 360 teraflops, and will fit into 64 full racks. It will also cut down on the amount of heat generated by the massive power, a big problem for supercomputers. The final machine will help scientists work out the safety, security and reliability requirements for the US's nuclear weapons stockpile, without the need for underground nuclear testing. IBM's senior vice president of technology and manufacturing, Nick Donofrio, believes that by 2006, Blue Gene will be capable of petaflop computing. This means it would be capable of doing 1,000 trillion operations a second.PowerPoint Presentation: NASA to build 10,000-processor Linux computer IDG News Service 7/28/04 The National Aeronautics and Space Administration (NASA) has given the green light to a project that will build the largest ever supercomputer based on Silicon Graphics Inc.'s (SGI) 512-processor Altix computers. Called Project Columbia, the 10,240-processor system will be used by researchers at the Advanced Supercomputing Facility at NASA's Ames Research Center in Moffett Field, California. . "PowerPoint Presentation: Scientists will use Columbia to design equipment, simulate future space missions and model weather patterns. A portion of the US$160 million system will also be made available to other government agencies and educational facilities, said Bill Thigpen, manager of Project Columbia. "We need to look at working with other agencies to provide them with access to this system because it is a unique system," he said. What makes Project Columbia unique is the size of the multiprocessor Linux systems, or nodes, that it clusters together. It is common for supercomputers to be built of thousands of two-processor nodes, but the Ames system uses SGI's NUMAlink switching technology and ProPack Linux operating system enhancements to connect 512-processor nodes, each of which will have more than 1,000G bytes of memoryPowerPoint Presentation: "We use a very large single-system image," said Jeff Greenwald, senior director of server product marketing with SGI. "The other guys come with a very thin node cluster, and try to screw them all together." The Altix nodes will use Intel Corp.'s Itanium 2 microprocessors, and the entire 20-node system is expected to be fully assembled by year's end, he said. SGI has used this large-node technology to build a number of smaller Altix systems with between 3,000 and 6,000 processors, but Project Columbia will be the largest to date, Greenwald saidPowerPoint Presentation: The Earth Simulator has held on to the top spot since June 2002. It is dedicated to climate modelling and simulating seismic activityPowerPoint Presentation: SINGAPORE (CNN) -- A group of researchers from Singapore has created a computer chip that has the power of 100 standard computers. The group of five, all working at Ngee Ann Polytechnic, will commercialize their development by January and sell it to the pharmaceutical industry, where they say the invention will save time and money. Lead researcher Darran Nathan, 24, explains that unlike standard computer chips, which function using software, his is based on a computer's hardware.PowerPoint Presentation: "An ordinary computer chip will interpret instructions from the software and execute a command," he says. "Our chip is a reconfigurable chip, which means it downloads an actual file to the chip and rewires it according to subsequent processing done in the hardware." Nathan says the process is highly technical but, put simply, is a computer chip that works at a speed of 100 standard computers combined. He says the super chip was originally created with the telecommunications industry in mind, but soon after work on the project began two years ago, they realized the benefits would be much more useful to life sciences.PowerPoint Presentation: "It is 100 times quicker than your standard computer. Most people do not need such a powerful computer, but in the area of designing and developing drugs, it is hugely important," says Nathan. "It basically means getting essential drugs on the street quicker, at a cheaper cost." Nathan says the device will cost between US$30,000 and US$61,000, and its key point of difference between other supercomputers is its small size. The team, which calls itself Project Proteus, after the shape-shifting Greek god, are aged between 24 and 27. Last week they showcased their chip at the Global Entrepolis convention in Singapore where Mr Nathan says they received a lot of positive feedback.PowerPoint Presentation: A Supercomputer at $5.2 million Virginia Tech 1,100 node Macs. G5 supercomputerPowerPoint Presentation: The Virginia Polytechnic Institute and State University has built a supercomputer comprised of a cluster of 1,100 dual-processor Macintosh G5 computers. Based on preliminary benchmarks, Big Mac is capable of 8.1 teraflops per second. The Mac supercomputer still is being fine tuned, and the full extent of its computing power will not be known until November. But the 8.1 teraflops figure would make the Big Mac the world's fourth fastest supercomputerPowerPoint Presentation: Big Mac's cost relative to similar machines is as noteworthy as its performance. The Apple supercomputer was constructed for just over US$5 million, and the cluster was assembled in about four weeks. In contrast, the world's leading supercomputers cost well over $100 million to build and require several years to construct. The Earth Simulator, which clocked in at 38.5 teraflops in 2002, reportedly cost up to $250 million.PowerPoint Presentation: Srinidhi Varadarajan, Ph.D. Dr. Srinidhi Varadarajan is an Assistant Professor of Computer Science at Virginia Tech. He was honored with the NSF Career Award in 2002 for "Weaving a Code Tapestry: A Compiler Directed Framework for Scalable Network Emulation." He has focused his research on building a distributed network emulation system that can scale to emulate hundreds of thousands of virtual nodes. October 28 Time: 7:30pm - 9:00pm Location: Santa Clara BallroomParallel Computers: Parallel Computers Two common types Cluster Multi-ProcessorCluster Computers: Cluster ComputersPowerPoint Presentation: Clusters on the Rise Using clusters of small machines to build a supercomputer is not a new concept. Another of the world's top machines, housed at the Lawrence Livermore National Laboratory, was constructed from 2,304 Xeon processors. The machine was build by Utah-based Linux Networx. Clustering technology has meant that traditional big-iron leaders like Cray (Nasdaq: CRAY) and IBM have new competition from makers of smaller machines. Dell (Nasdaq: DELL) , among other companies, has sold high-powered computing clusters to research institutions.Cluster Computers: Cluster Computers Each computer in a cluster is a complete computer by itself CPU Memory Disk etc Computers communicate with each other via some interconnection busCluster Computers: Cluster Computers Typically used where one computer does not have enough capacity to do the expected work Large Servers Cheaper than building one GIANT computerPowerPoint Presentation: Although not new, supercomputing clustering technology still is impressive. It works by farming out chunks of data to individual machines, adding that clustering works better for some types of computing problems than others. For example, a cluster would not be ideal to compete against IBM's Deep Blue supercomputer in a chess match; in this case, all the data must be available to one processor at the same moment -- the machine operates much in the same way as the human brain handles tasks. However, a cluster would be ideal for the processing of seismic data for oil exploration, because that computing job can be divided into many smaller tasks.Cluster Computers: Cluster Computers Need to break up work among the computers in the cluster Example: Microsoft.com Search Engine 6 computers running SQL Server Each has a copy of the MS Knowledge Base Search requests come to one computer Sends request to one of the 6 Attempts to keep all 6 busyPowerPoint Presentation: The Virginia Tech Mac supercomputer should be fully functional and in use by January 2004. It will be used for research into nanoscale electronics, quantum chemistry, computational chemistry, aerodynamics, molecular statics, computational acoustics and the molecular modeling of proteins.Multiprocessors: Multiprocessors I/O Port Device Device Controller CPU Bus Memory CPU CPUMultiprocessors: Multiprocessors Systems designed to have 2 to 8 CPUs The CPUs all share the other parts of the computer Memory Disk System Bus etc CPUs communicate via Memory and the System BusMultiProcessors: MultiProcessors Each CPU shares memory, disks, etc Cheaper than clusters Not as good performance as clusters Often used for Small Servers High-end WorkstationsMultiProcessors: MultiProcessors OS automatically shares work among available CPUs On a workstation … One CPU can be running an engineering design program Another CPU can be doing complex graphics formattingSpecialized Processors: Specialized Processors Vector Processors Massively Parallel ComputersVector Processors: Vector Processors For (I=0;I<n;I++) { array1[I] = array2[I] + array3[I] } This is an array (vector) operationVector Processors: Vector Processors Special instructions to operate on vectors (arrays) Vector instruction specifies Starting addresses of all 3 arrays Loop count Saves For Loop overhead Can more efficiently access memory Also Known as SIMD Computers S ingle I nstruction M ultiple D ataVector Processors: Vector Processors Until the 1990s, the world ’ s fastest supercomputers were implemented as vector processors Now, Vector Processors are typically special peripheral devices that can be installed on a “ regular ” computerMassively Parallel Computers: Massively Parallel Computers IBM ASCI Purple Cluster of 196 computers Each computer has 64 CPUs 256 Gigabytes of RAM 10,000 GB of DiskMassively Parallel Computer: Massively Parallel Computer How will ASCI Purple be used? Simulation of molecular dynamics Research into repairing damaged DNA Analysis of seismic waves Earthquake research Simulation of star evolution Simulation of Weapons of Mass DestructionPowerPoint Presentation: According to the article, the supercomputer, powered by 2,200 IBM G5 processors, has been initially rated at computing 7.41 trillion operations per second. The final number could be much higher, according to school officials, but if not, it would rank as the #4 fastest supercomputing cluster in the world. Japan's US$250M Earth Simulator, which is currently the world's fastest computer Lawrence Livermore's US$10-15M cluster system, which is made up of 2,304 Intel Xeon processors. IBM recently installed "Pacific Blue" at the Lawrence Livermore Laboratories for $94 millionPowerPoint Presentation: " We are demonstrating that you can build a very high performance machine for a fifth to a tenth of the cost of what supercomputers now cost," said Hassan Aref, the dean of the School of Engineering at Virginia Tech in Blacksburg 1998 a group called distributed.net linked thousands of computers of all kinds around the world via the Internet, and cracked a 56-bit DES-II code in 40 days. It had previously been thought that such heavyweight ciphers would take hundreds of years to crack even on fast computers. One version of the Distributed.net program ran as a screen saver that kicked in, and began cracking code, whenever the machine was idle for more than a few minutes. Distributed.net bills itself as the "Fastest Computer on Earth", even though their hardware bill is effectively zero.PowerPoint Presentation: The idea is straightforward. You set up an arbitrary number of PCs, network them, typically using fast Ethernet, and then send them problems that can be divided up among the machines' processors. One machine acts as a server that syncs up all the rest, called clients. Beowulf specs software like the Message Passing Interface written under the Linux operating system, that allows the machines to communicate while working on the problem. And since Linux, brainchild of computer science student Linus Torvalds, is free, it keeps the cost downPowerPoint Presentation: Modeling the trajectories of tens of millions of charged particles, each interacting with the others through electro-magnetic forces, requires heavy-duty number crunching. To harness supercomputing power at a desktop price, UCLA’s Dr. Viktor K. Decyk and his colleagues have created their own super-fast, parallel processing “supercomputer” using a cluster of Power Macintosh computers.PowerPoint Presentation: Apple's G4 Cubes used for cell mutation detection and genotyping analysis SYDNEY - 22 January 2001PowerPoint Presentation: World's fastest" Macintosh cluster Tuesday, May 15, 2001 @ 8:45am Researchers at the Grupo de Lasers e Plasmas (GoLP) in Portugal have created what they bill as the world's fastest Macintosh-based cluster . Consisting of 16 dual-processor Power Mac G4/450s, the cluster delivers more than 50 GigaFlops of peak power and took just one day to set up.PowerPoint Presentation: Apple Computer purchased a big Cray supercomputer in the mid-1980s. In fact, Steve Jobs was Cray's first and only walk-in customer. He arrived unannounced (so the story goes) at Cray headquarters in Mendota Heights, Minnesota and asked to speak to someone about buying a Cray. They nearly threw him out. It's only slightly less eccentric than someone walking into NASA Johnson Space Center and inquiring how to purchase a shuttle orbiter. Later, Cray president John Rollwagen phoned Seymour and told him that Apple had just purchased a Cray that would be used in designing the next Macintosh. Seymour thought for a bit, and replied that that seemed reasonable, since he was using a Macintosh to design the next Cray!PowerPoint Presentation: The machines can help scientists understand one of the greatest challenges of the 21st Century: protein folding. "Health is one of the most important problems, not just mapping the human genome, but also protein structures. "We are a great believer in simulation. It gives you another tool," he said. Once the structures of proteins are understood fully, then drugs can be tailor-made to fight diseases more effectively.