Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ibis: A Programming System for Real-World Distributed Computing Henri Bal Frank J. Seinstra Niels Drost Jason Maassen High Performance Distributed.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Ibis: A Programming System for Real-World Distributed Computing Henri Bal Frank J. Seinstra Niels Drost Jason Maassen High Performance Distributed."— Presentation transcript:

1 Ibis: A Programming System for Real-World Distributed Computing Henri Bal Frank J. Seinstra Niels Drost Jason Maassen bal@cs.vu.nl High Performance Distributed Computing group Vrije Universiteit Amsterdam

2 Introduction ● Distributed systems continue to change ● Clusters, grids, clouds, mobile devices ● Distributed applications continue to change ● e-Science, web, pervasive applications ● Distributed programming continues to be notoriously difficult

3 Our approach ● Study fundamental underlying problems ● … hand-in-hand with realistic applications ● … integrate solutions in one system: Ibis Distributed SystemsUser ! ● Funding from NWO (2002), VL-e (2003-2009), EU (JavaGAT, XtreemOS, Contrail), VU, COMMIT

4 ● DACH 2008 challenge, Japan ● Distributed multi-cluster system ● Heterogeneous ● Distributed database (image pairs) ● Large vs small databases/images ● Partial replication ● Image-pair comparison given (in C) ● Find all supernova candidates ● Task 1: As fast as possible ● Task 2: Idem, under system crashes Example: Supernova Detection

5 DACH 2008: Result ● All participating teams struggled (1 month) ● Middleware instabilities… ● Connectivity problems… ● Load balancing… ● But not the Ibis team ● Winner (by far) in both categories ● Note: many Japanese teams with years of experience ● Hardware, middleware, network, C-code, image data… ● Focus on ‘problem solving’, not ‘system fighting’ ● incl. ‘opening’ of black-box C-code

6 Ibis Results: Awards & Prizes 1 st Prize: SCALE 2008 1 st Prize: SCALE 2008 AAAI-VC 2007 Most Visionary Research Award 1 st Prize: DACH 2008 - BS 1 st Prize: DACH 2008 - BS 1 st Prize: DACH 2008 - FT 1 st Prize: DACH 2008 - FT WebPie: A Web-Scale Parallel Inference Engine J. Urbani, S. Kotoulas, J. Maassen, N. Drost, F.J. Seinstra, F. van Harmelen, and H.E. Bal 3 rd Prize: ISWC 2008 1st Prize: SCALE 2010 Finalist: Enlighten Your Research (EYR) 2011 ● Many domains; data/compute intensive, real-time...

7 Jungle Computing (Frank Seinstra) ● ‘Worst case’ computing as required by end-users ● Distributed ● Heterogeneous ● Hierarchical (incl. multi-/many-cores)

8 Why Jungle Computing? ● Scientists often forced to use a wide variety of resources simultaneously to solve computational problems ● Prominent causes: ● Desire for scalability ● Distributed nature of (input) data ● Software heterogeneity (e.g.: mix of C/MPI and CUDA) ● Ad hoc hardware availability ● …

9 Computational Astrophysics AMUSE radiative transport gravitational dynamics hydro- dynamics stellar evolution ● The AMUSE system (Leiden University) ● Early Star Cluster Evolution, including gas ● Gravitational dynamics (N-body): GPU / GPU-cluster ● Stellar evolution: Beowulf cluster / Cloud ● Hydro-dynamics, Radiative transport: Supercomputer

10 Computational Astrophysics Demonstrated live at SC’11, Nov 12-18, 2011, Seattle, USA (next week)

11 Ibis Design ● Applications need functionality for ● Programming (as in programming languages) ● Deployment (as in operating systems) Programming Logical Likes math Deployment Practical Visual (GUI)

12 Ibis Software Stack

13 Ibis as ‘Master Key’ ● JavaGAT ● high-level API for developing/running applications independently of the underlying middleware ● a.o. used for user-authentication, file-copying, job submission, job monitoring, … ● Example: file copy ● JavaGAT vs. Globus ● Simple, portable, … ● Standardized (in SAGA) package org.gridlab.gat.io.cpi.rftgt4; import java.net.MalformedURLException; import java.net.URL; import java.rmi.RemoteException; import java.security.cert.X509Certificate; import java.util.Calendar; import java.util.HashMap; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.Vector; import javax.xml.namespace.QName; import javax.xml.rpc.ServiceException; import javax.xml.rpc.Stub; import javax.xml.soap.SOAPElement; import org.apache.axis.message.addressing.EndpointReferenceType; import org.apache.axis.types.URI.MalformedURIException; import org.globus.axis.util.Util; import org.globus.delegation.DelegationConstants; import org.globus.delegation.DelegationException; import org.globus.delegation.DelegationUtil; import org.globus.gsi.GlobusCredential; import org.globus.gsi.GlobusCredentialException; import org.globus.gsi.gssapi.GlobusGSSCredentialImpl; import org.globus.gsi.jaas.JaasGssUtil; import org.globus.rft.generated.BaseRequestType; import org.globus.rft.generated.CreateReliableFileTransferInputType; import org.globus.rft.generated.CreateReliableFileTransferOutputType; import org.globus.rft.generated.DeleteRequestType; import org.globus.rft.generated.DeleteType; import org.globus.rft.generated.OverallStatus; import org.globus.rft.generated.RFTFaultResourcePropertyType; import org.globus.rft.generated.RFTOptionsType; import org.globus.rft.generated.ReliableFileTransferFactoryPortType; import org.globus.rft.generated.ReliableFileTransferPortType; import org.globus.rft.generated.Start; import org.globus.rft.generated.TransferRequestType; import org.globus.rft.generated.TransferType; import org.globus.transfer.reliable.client.BaseRFTClient; import org.globus.transfer.reliable.service.RFTConstants; import org.globus.wsrf.NotificationConsumerManager; import org.globus.wsrf.NotifyCallback; import org.globus.wsrf.ResourceException; import org.globus.wsrf.WSNConstants; import org.globus.wsrf.container.ContainerException; import org.globus.wsrf.container.ServiceContainer; import org.globus.wsrf.core.notification.ResourcePropertyValueChangeNotificationElementType; import org.globus.wsrf.encoding.DeserializationException; import org.globus.wsrf.encoding.ObjectDeserializer; import org.globus.wsrf.impl.security.authentication.Constants; import org.globus.wsrf.impl.security.authorization.Authorization; import org.globus.wsrf.impl.security.authorization.HostAuthorization; import org.globus.wsrf.impl.security.authorization.IdentityAuthorization; import org.globus.wsrf.impl.security.authorization.SelfAuthorization; import org.globus.wsrf.impl.security.descriptor.ClientSecurityDescriptor; import org.globus.wsrf.impl.security.descriptor.ContainerSecurityDescriptor; import org.globus.wsrf.impl.security.descriptor.GSISecureMsgAuthMethod; import org.globus.wsrf.impl.security.descriptor.GSITransportAuthMethod; import org.globus.wsrf.impl.security.descriptor.ResourceSecurityDescriptor; import org.globus.wsrf.impl.security.descriptor.SecurityDescriptorException; import org.globus.wsrf.security.SecurityManager; import org.gridlab.gat.CouldNotInitializeCredentialException; import org.gridlab.gat.CredentialExpiredException; import org.gridlab.gat.GATContext; import org.gridlab.gat.GATInvocationException; import org.gridlab.gat.GATObjectCreationException; import org.gridlab.gat.Preferences; import org.gridlab.gat.URI; import org.gridlab.gat.io.cpi.FileCpi; import org.gridlab.gat.security.globus.GlobusSecurityUtils; import org.ietf.jgss.GSSCredential; import org.ietf.jgss.GSSException; import org.oasis.wsn.Subscribe; import org.oasis.wsn.TopicExpressionType; import org.oasis.wsrf.faults.BaseFaultType; import org.oasis.wsrf.lifetime.SetTerminationTime; import org.oasis.wsrf.properties.GetMultipleResourcePropertiesResponse; import org.oasis.wsrf.properties.GetMultipleResourceProperties_Element; import org.oasis.wsrf.properties.ResourcePropertyValueChangeNotificationType; class RFTGT4NotifyCallback implements NotifyCallback { RFTGT4FileAdaptor transfer; OverallStatus status; public RFTGT4NotifyCallback(RFTGT4FileAdaptor transfer) { super(); this.transfer = transfer; this.status = null; } @SuppressWarnings("unchecked") public void deliver(List topicPath, EndpointReferenceType producer, Object messageWrapper) { try { ResourcePropertyValueChangeNotificationType message = ((ResourcePropertyValueChangeNotificationElementType) messageWrapper).getResourcePropertyValueChangeNotification(); this.status = (OverallStatus) message.getNewValue().get_any()[0].getValueAsType(RFTConstants.OVERALL_STATUS_RESOURCE, OverallStatus.class); if (status.getFault() != null) { transfer.setFault(getFaultFromRP(status.getFault())); } // RunQueue.getInstance().add(this.resourceKey); } catch (Exception e) { } transfer.setStatus(status); } private BaseFaultType getFaultFromRP(RFTFaultResourcePropertyType fault) { if (fault == null) { return null; } if (fault.getDelegationEPRMissingFaultType() != null) { return fault.getDelegationEPRMissingFaultType(); } else if (fault.getRftAuthenticationFaultType() != null) { return fault.getRftAuthenticationFaultType(); } else if (fault.getRftAuthorizationFaultType() != null) { return fault.getRftAuthorizationFaultType(); } else if (fault.getRftDatabaseFaultType() != null) { return fault.getRftDatabaseFaultType(); } else if (fault.getRftRepeatedlyStartedFaultType() != null) { return fault.getRftRepeatedlyStartedFaultType(); } else if (fault.getTransferTransientFaultType() != null) { return fault.getTransferTransientFaultType(); } else if (fault.getRftTransferFaultType() != null) { return fault.getRftTransferFaultType(); } else { return null; } @SuppressWarnings("serial") public class RFTGT4FileAdaptor extends FileCpi { public static final Authorization DEFAULT_AUTHZ = HostAuthorization.getInstance(); Integer msgProtectionType = Constants.SIGNATURE; static final int TERM_TIME = 20; static final String PROTOCOL = "https"; private static final String BASE_SERVICE_PATH = "/wsrf/services/"; public static final int DEFAULT_DURATION_HOURS = 24; public static final Integer DEFAULT_MSG_PROTECTION = Constants.SIGNATURE; public static final String DEFAULT_FACTORY_PORT = "8443"; private static final int DEFAULT_GRIDFTP_PORT = 2811; NotificationConsumerManager notificationConsumerManager; EndpointReferenceType notificationConsumerEPR; EndpointReferenceType notificationProducerEPR; String securityType; String factoryUrl; GSSCredential proxy; Authorization authorization; String host; OverallStatus status; BaseFaultType fault; String locationStr; ReliableFileTransferFactoryPortType factoryPort; public RFTGT4FileAdaptor(GATContext gatContext, Preferences preferences, URI location) throws GATObjectCreationException { super(gatContext, preferences, location); if (!location.isCompatible("gsiftp") && !location.isCompatible("gridftp")) { throw new GATObjectCreationException("cannot handle this URI"); } String globusLocation = System.getenv("GLOBUS_LOCATION"); if (globusLocation == null) { throw new GATObjectCreationException("$GLOBUS_LOCATION is not set"); } System.setProperty("GLOBUS_LOCATION", globusLocation); System.setProperty("axis.ClientConfigFile", globusLocation + "/client-config.wsdd"); this.host = location.getHost(); this.securityType = Constants.GSI_SEC_MSG; this.authorization = null; this.proxy = null; try { proxy = GlobusSecurityUtils.getGlobusCredential(gatContext, preferences, "globus", location, DEFAULT_GRIDFTP_PORT); } catch (CouldNotInitializeCredentialException e) { // TODO Auto-generated catch block e.printStackTrace(); } catch (CredentialExpiredException e) { // TODO Auto-generated catch block e.printStackTrace(); } this.notificationConsumerManager = null; this.notificationConsumerEPR = null; this.notificationProducerEPR = null; this.status = null; this.fault = null; factoryPort = null; this.factoryUrl = PROTOCOL + "://" + host + ":" + DEFAULT_FACTORY_PORT + BASE_SERVICE_PATH + RFTConstants.FACTORY_NAME; locationStr = setLocationStr(location); } String setLocationStr(URI location) { if (location.getScheme().equals("any")) { return "gsiftp://" + location.getHost() + ":" + location.getPort() + "/" + location.getPath(); } else { return location.toString(); } protected boolean copy2(String destStr) throws GATInvocationException { EndpointReferenceType credentialEndpoint = getCredentialEPR(); TransferType[] transferArray = new TransferType[1]; transferArray[0] = new TransferType(); transferArray[0].setSourceUrl(locationStr); transferArray[0].setDestinationUrl(destStr); RFTOptionsType rftOptions = new RFTOptionsType(); rftOptions.setBinary(Boolean.TRUE); // rftOptions.setIgnoreFilePermErr(false); TransferRequestType request = new TransferRequestType(); request.setRftOptions(rftOptions); request.setTransfer(transferArray); request.setTransferCredentialEndpoint(credentialEndpoint); setRequest(request); while (!transfersDone()) { try { Thread.sleep(1000); } catch (InterruptedException e) { throw new GATInvocationException("RFTGT4FileAdaptor: " + e); } return transfersSucc(); } public void copy(URI dest) throws GATInvocationException { String destUrl = setLocationStr(dest); if (!copy2(destUrl)) { throw new GATInvocationException( "RFTGT4FileAdaptor: file copy failed"); } public void subscribe(ReliableFileTransferPortType rft) throws GATInvocationException { Map properties = new HashMap (); properties.put(ServiceContainer.CLASS, "org.globus.wsrf.container.GSIServiceContainer"); if (this.proxy != null) { ContainerSecurityDescriptor containerSecDesc = new ContainerSecurityDescriptor(); SecurityManager.getManager(); try { containerSecDesc.setSubject(JaasGssUtil.createSubject(this.proxy)); } catch (GSSException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: ContainerSecurityDescriptor failed, " + e); } properties.put(ServiceContainer.CONTAINER_DESCRIPTOR, containerSecDesc); } this.notificationConsumerManager = NotificationConsumerManager.getInstance(properties); try { this.notificationConsumerManager.startListening(); } catch (ContainerException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: NotificationConsumerManager failed, " + e); } List topicPath = new LinkedList (); topicPath.add(RFTConstants.OVERALL_STATUS_RESOURCE); ResourceSecurityDescriptor securityDescriptor = new ResourceSecurityDescriptor(); String authz = null; if (authorization == null) { authz = Authorization.AUTHZ_NONE; } else if (authorization instanceof HostAuthorization) { authz = Authorization.AUTHZ_NONE; } else if (authorization instanceof SelfAuthorization) { authz = Authorization.AUTHZ_SELF; } else if (authorization instanceof IdentityAuthorization) { // not supported throw new GATInvocationException( "RFTGT4FileAdaptor: identity authorization not supported"); } else { // throw an sg throw new GATInvocationException( "RFTGT4FileAdaptor: set authorization failed"); } securityDescriptor.setAuthz(authz); Vector authMethod = new Vector (); if (this.securityType.equals(Constants.GSI_SEC_MSG)) { authMethod.add(GSISecureMsgAuthMethod.BOTH); } else { authMethod.add(GSITransportAuthMethod.BOTH); } try { securityDescriptor.setAuthMethods(authMethod); } catch (SecurityDescriptorException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: setAuthMethods failed, " + e); } RFTGT4NotifyCallback notifyCallback = new RFTGT4NotifyCallback(this); try { notificationConsumerEPR = notificationConsumerManager.createNotificationConsumer(topicPath, notifyCallback, securityDescriptor); } catch (ResourceException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: createNotificationConsumer failed, " + e); } Subscribe subscriptionRequest = new Subscribe(); subscriptionRequest.setConsumerReference(notificationConsumerEPR); TopicExpressionType topicExpression = null; try { topicExpression = new TopicExpressionType( WSNConstants.SIMPLE_TOPIC_DIALECT, RFTConstants.OVERALL_STATUS_RESOURCE); } catch (MalformedURIException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: create TopicExpressionType failed, " + e); } subscriptionRequest.setTopicExpression(topicExpression); try { rft.subscribe(subscriptionRequest); } catch (RemoteException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: subscription failed, " + e); } protected EndpointReferenceType getCredentialEPR() throws GATInvocationException { this.status = null; URL factoryURL = null; try { factoryURL = new URL(factoryUrl); } catch (MalformedURLException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: set factoryURL failed, " + e); } try { factoryPort = BaseRFTClient.rftFactoryLocator.getReliableFileTransferFactoryPortTypePort(factoryURL); } catch (ServiceException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: set factoryPort failed, " + e); } setSecurityTypeFromURL(factoryURL); return populateRFTEndpoints(factoryPort); } protected void setRequest(BaseRequestType request) throws GATInvocationException { CreateReliableFileTransferInputType input = new CreateReliableFileTransferInputType(); if (request instanceof TransferRequestType) { input.setTransferRequest((TransferRequestType) request); } else { input.setDeleteRequest((DeleteRequestType) request); } Calendar termTimeDel = Calendar.getInstance(); termTimeDel.add(Calendar.MINUTE, TERM_TIME); input.setInitialTerminationTime(termTimeDel); CreateReliableFileTransferOutputType response = null; try { response = factoryPort.createReliableFileTransfer(input); } catch (RemoteException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: set createReliableFileTransfer failed, " + e); } EndpointReferenceType reliableRFTEndpoint = response.getReliableTransferEPR(); ReliableFileTransferPortType rft = null; try { rft = BaseRFTClient.rftLocator.getReliableFileTransferPortTypePort(reliableRFTEndpoint); } catch (ServiceException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: getReliableFileTransferPortTypePort failed, " + e); } setStubSecurityProperties((Stub) rft); subscribe(rft); Calendar termTime = Calendar.getInstance(); termTime.add(Calendar.MINUTE, TERM_TIME); SetTerminationTime reqTermTime = new SetTerminationTime(); reqTermTime.setRequestedTerminationTime(termTime); try { rft.setTerminationTime(reqTermTime); } catch (RemoteException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: setTerminationTime failed, " + e); } try { rft.start(new Start()); } catch (RemoteException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: start failed, " + e); } private void setSecurityTypeFromURL(URL url) { if (url.getProtocol().equals("http")) { securityType = Constants.GSI_SEC_MSG; } else { Util.registerTransport(); securityType = Constants.GSI_TRANSPORT; } private void setStubSecurityProperties(Stub stub) { ClientSecurityDescriptor secDesc = new ClientSecurityDescriptor(); if (this.securityType.equals(Constants.GSI_SEC_MSG)) { secDesc.setGSISecureMsg(this.getMessageProtectionType()); } else { secDesc.setGSITransport(this.getMessageProtectionType()); } secDesc.setAuthz(getAuthorization()); if (this.proxy != null) { // set proxy credential secDesc.setGSSCredential(this.proxy); } stub._setProperty(Constants.CLIENT_DESCRIPTOR, secDesc); } public Integer getMessageProtectionType() { return (this.msgProtectionType == null) ? RFTGT4FileAdaptor.DEFAULT_MSG_PROTECTION : this.msgProtectionType; } public Authorization getAuthorization() { return (authorization == null) ? DEFAULT_AUTHZ : this.authorization; } private EndpointReferenceType populateRFTEndpoints( ReliableFileTransferFactoryPortType factoryPort) throws GATInvocationException { EndpointReferenceType[] delegationFactoryEndpoints = fetchDelegationFactoryEndpoints(factoryPort); EndpointReferenceType delegationEndpoint = delegate(delegationFactoryEndpoints[0]); return delegationEndpoint; } private EndpointReferenceType delegate( EndpointReferenceType delegationFactoryEndpoint) throws GATInvocationException { GlobusCredential credential = null; if (this.proxy != null) { credential = ((GlobusGSSCredentialImpl) this.proxy).getGlobusCredential(); } else { try { credential = GlobusCredential.getDefaultCredential(); } catch (GlobusCredentialException e) { throw new GATInvocationException("RFTGT4FileAdaptor: " + e); } int lifetime = DEFAULT_DURATION_HOURS * 60 * 60; ClientSecurityDescriptor secDesc = new ClientSecurityDescriptor(); if (this.securityType.equals(Constants.GSI_SEC_MSG)) { secDesc.setGSISecureMsg(this.getMessageProtectionType()); } else { secDesc.setGSITransport(this.getMessageProtectionType()); } secDesc.setAuthz(getAuthorization()); if (this.proxy != null) { secDesc.setGSSCredential(this.proxy); } // Get the public key to delegate on. X509Certificate[] certsToDelegateOn = null; try { certsToDelegateOn = DelegationUtil.getCertificateChainRP( delegationFactoryEndpoint, secDesc); } catch (DelegationException e) { throw new GATInvocationException("RFTGT4FileAdaptor: " + e); } X509Certificate certToSign = certsToDelegateOn[0]; // FIXME remove when there is a DelegationUtil.delegate(EPR,...) String protocol = delegationFactoryEndpoint.getAddress().getScheme(); String host = delegationFactoryEndpoint.getAddress().getHost(); int port = delegationFactoryEndpoint.getAddress().getPort(); String factoryUrl = protocol + "://" + host + ":" + port + BASE_SERVICE_PATH + DelegationConstants.FACTORY_PATH; // send to delegation service and get epr. EndpointReferenceType credentialEndpoint = null; try { credentialEndpoint = DelegationUtil.delegate(factoryUrl, credential, certToSign, lifetime, false, secDesc); } catch (DelegationException e) { throw new GATInvocationException("RFTGT4FileAdaptor: " + e); } return credentialEndpoint; } public EndpointReferenceType[] fetchDelegationFactoryEndpoints( ReliableFileTransferFactoryPortType factoryPort) throws GATInvocationException { GetMultipleResourceProperties_Element request = new GetMultipleResourceProperties_Element(); request.setResourceProperty(new QName[] { RFTConstants.DELEGATION_ENDPOINT_FACTORY }); GetMultipleResourcePropertiesResponse response; try { response = factoryPort.getMultipleResourceProperties(request); } catch (RemoteException e) { e.printStackTrace(); throw new GATInvocationException( "RFTGT4FileAdaptor: getMultipleResourceProperties, " + e); } SOAPElement[] any = response.get_any(); EndpointReferenceType epr1 = null; try { epr1 = (EndpointReferenceType) ObjectDeserializer.toObject(any[0], EndpointReferenceType.class); } catch (DeserializationException e) { throw new GATInvocationException( "RFTGT4FileAdaptor: ObjectDeserializer, " + e); } EndpointReferenceType[] endpoints = new EndpointReferenceType[] { epr1 }; return endpoints; } synchronized void setStatus(OverallStatus status) { this.status = status; } public int transfersActive() { if (status == null) { return 1; } return status.getTransfersActive(); } public int transfersFinished() { if (status == null) { return 0; } return status.getTransfersFinished(); } public int transfersCancelled() { if (status == null) { return 0; } return status.getTransfersCancelled(); } public int transfersFailed() { if (status == null) { return 0; } return status.getTransfersFailed(); } public int transfersPending() { if (status == null) { return 1; } return status.getTransfersPending(); } public int transfersRestarted() { if (status == null) { return 0; } return status.getTransfersRestarted(); } public boolean transfersDone() { return (transfersActive() == 0 && transfersPending() == 0 && transfersRestarted() == 0); } public boolean transfersSucc() { return (transfersDone() && transfersFailed() == 0 && transfersCancelled() == 0); } /* * private BaseFaultType getFaultFromRP(RFTFaultResourcePropertyType fault) { * if (fault == null) { return null; } * * if (fault.getRftTransferFaultType() != null) { return * fault.getRftTransferFaultType(); } else if * (fault.getDelegationEPRMissingFaultType() != null) { return * fault.getDelegationEPRMissingFaultType(); } else if * (fault.getRftAuthenticationFaultType() != null) { return * fault.getRftAuthenticationFaultType(); } else if * (fault.getRftAuthorizationFaultType() != null) { return * fault.getRftAuthorizationFaultType(); } else if * (fault.getRftDatabaseFaultType() != null) { return * fault.getRftDatabaseFaultType(); } else if * (fault.getRftRepeatedlyStartedFaultType() != null) { return * fault.getRftRepeatedlyStartedFaultType(); } else if * (fault.getTransferTransientFaultType() != null) { return * fault.getTransferTransientFaultType(); } else { return null; } } */ /* * private BaseFaultType deserializeFaultRP(SOAPElement any) throws * Exception { return getFaultFromRP((RFTFaultResourcePropertyType) * ObjectDeserializer.toObject(any, RFTFaultResourcePropertyType.class)); } */ void setFault(BaseFaultType fault) { this.fault = fault; } } package tutorial; import org.gridlab.gat.GAT; import org.gridlab.gat.GATContext; import org.gridlab.gat.URI; import org.gridlab.gat.io.File; public class RemoteCopy { public static void main(String[] args) throws Exception { GATContext context = new GATContext(); URI src = new URI(args[0]); URI dest = new URI(args[1]); File file = GAT.createFile(context, src); file.copy(dest); GAT.end(); }

14 Ibis as ‘Glue’ ● IPL + SmartSockets ● Stable, fault-tolerant, malleable communication system ● a.o. used for linking separate ‘activities’ of an application ● Activities: often largely ‘independent’ tasks implemented in any popular language or model (e.g. C/MPI, CUDA, Fortran, Java…) ● Each typically running on a single GPU/node/Cluster/Cloud/… ● Example: connectivity (a.o. under firewalls) With SmartSockets : No SmartSockets :

15 Ibis as ‘HPC Solution’ ● Ibis as replacement for e.g. C++/MPI code ● Benefits: ● (better) portability ● malleability (open world) ● fault-tolerance ● (run-time) task migration ● Comparable speed:

16 Example Application #3: Color-based Object Recognition by a Grid-connected Robot Dog Seinstra et al. (IEEE Multimedia, Oct-Dec 2007)

17 ‘Master Key’ + ‘Glue’ + ‘HPC’ ● Original code (2004/2005): ● ‘Multimedia services’ in C++/MPI (pre-installed at each cluster) ● Wide-area communication using TCP Sockets (instable) ● SSH tunneling where necessary (firewalls, …) ● Execution on each cluster ‘by hand’ ● Step-wise conversion to 100% Ibis / Java ● Phase 1: JavaGAT as ‘Master Key’ ● Phase 2: IPL + SmartSockets as ‘Glue’ ● Phase 3: Ibis as ‘HPC Solution’ ● Eventual result: ● ‘wall-socket computing from a memory stick’ ● Awards at AAAI 2007 and CCGrid 2008

18 Conclusions ● Ibis enables problem solving (avoids system fighting) ● Successfully applied in many domains ● Astronomy, multimedia analysis, climate modeling, remote sensing, semantic web, model checking, medical imaging, smart phones, … ● Data intensive, compute intensive, real-time… ● Open source, download: www.cs.vu.nl/ibis/

Download ppt "Ibis: A Programming System for Real-World Distributed Computing Henri Bal Frank J. Seinstra Niels Drost Jason Maassen High Performance Distributed."

Similar presentations

Message Passing Vs Distributed Objects

Message Passing Vs Distributed Objects
European Research Network on Foundations, Software Infrastructures and Applications for large scale distributed, GRID and Peer-to-Peer Technologies Scalability.

European Research Network on Foundations, Software Infrastructures and Applications for large scale distributed, GRID and Peer-to-Peer Technologies Scalability.
European Research Network on Foundations, Software Infrastructures and Applications for large scale distributed, GRID and Peer-to-Peer Technologies Experiences.

European Research Network on Foundations, Software Infrastructures and Applications for large scale distributed, GRID and Peer-to-Peer Technologies Experiences.
Vrije Universiteit Interdroid: a platform for distributed smartphone applications Henri Bal, Nick Palmer, Roelof Kemp, Thilo Kielmann High Performance.

Vrije Universiteit Interdroid: a platform for distributed smartphone applications Henri Bal, Nick Palmer, Roelof Kemp, Thilo Kielmann High Performance.
Vrije Universiteit Interdroid: a platform for distributed smartphone applications Henri Bal, Nick Palmer, Roelof Kemp, Thilo Kielmann High Performance.

Vrije Universiteit Interdroid: a platform for distributed smartphone applications Henri Bal, Nick Palmer, Roelof Kemp, Thilo Kielmann High Performance.
CCGrid2013 Panel on Clouds Henri Bal Vrije Universiteit Amsterdam.

CCGrid2013 Panel on Clouds Henri Bal Vrije Universiteit Amsterdam.
7 april 2006 1 SP3.1: High-Performance Distributed Computing The KOALA grid scheduler and the Ibis Java-centric grid middleware Dick Epema Catalin Dumitrescu,

7 april SP3.1: High-Performance Distributed Computing The KOALA grid scheduler and the Ibis Java-centric grid middleware Dick Epema Catalin Dumitrescu,
The Ibis Project: Simplifying Grid Programming & Deployment Henri Bal Vrije Universiteit Amsterdam.

The Ibis Project: Simplifying Grid Programming & Deployment Henri Bal Vrije Universiteit Amsterdam.
The Ibis e-Science Software Framework Henri Bal, Frank J. Seinstra, Jason Maassen, Niels Drost High Performance Distributed Computing Group Department.

The Ibis e-Science Software Framework Henri Bal, Frank J. Seinstra, Jason Maassen, Niels Drost High Performance Distributed Computing Group Department.
The Ibis model as a paradigm for programming distributed systems Henri Bal Vrije Universiteit Amsterdam (from Grids and Clouds to Smartphones)

The Ibis model as a paradigm for programming distributed systems Henri Bal Vrije Universiteit Amsterdam (from Grids and Clouds to Smartphones)
U NIVERSITY OF M ASSACHUSETTS, A MHERST Department of Computer Science Emery Berger University of Massachusetts Amherst Operating Systems CMPSCI 377 Lecture.

U NIVERSITY OF M ASSACHUSETTS, A MHERST Department of Computer Science Emery Berger University of Massachusetts Amherst Operating Systems CMPSCI 377 Lecture.
The road to reliable, autonomous distributed systems

The road to reliable, autonomous distributed systems
Distributed components

Distributed components
Real-World Distributed Computing with Ibis Henri Bal Vrije Universiteit Amsterdam.

Real-World Distributed Computing with Ibis Henri Bal Vrije Universiteit Amsterdam.
Parallel Programming Henri Bal Rob van Nieuwpoort Vrije Universiteit Amsterdam Faculty of Sciences.

Parallel Programming Henri Bal Rob van Nieuwpoort Vrije Universiteit Amsterdam Faculty of Sciences.
Remote Method Invocation Chin-Chih Chang. Java Remote Object Invocation In Java, the object is serialized before being passed as a parameter to an RMI.

Remote Method Invocation Chin-Chih Chang. Java Remote Object Invocation In Java, the object is serialized before being passed as a parameter to an RMI.
The Ibis Project: Simplifying Grid Programming & Deployment Henri Bal, Jason Maassen, Rob van Nieuwpoort, Thilo Kielmann, Niels Drost, Ceriel Jacobs, Frank.

The Ibis Project: Simplifying Grid Programming & Deployment Henri Bal, Jason Maassen, Rob van Nieuwpoort, Thilo Kielmann, Niels Drost, Ceriel Jacobs, Frank.
EEC-681/781 Distributed Computing Systems Lecture 5 Wenbing Zhao Department of Electrical and Computer Engineering Cleveland State University

EEC-681/781 Distributed Computing Systems Lecture 5 Wenbing Zhao Department of Electrical and Computer Engineering Cleveland State University
OCT1 Principles From Chapter One of “Distributed Systems Concepts and Design”

OCT1 Principles From Chapter One of “Distributed Systems Concepts and Design”
SensIT PI Meeting, April 17-20, 2001 1 Distributed Services for Self-Organizing Sensor Networks Alvin S. Lim Computer Science and Software Engineering.

SensIT PI Meeting, April 17-20, Distributed Services for Self-Organizing Sensor Networks Alvin S. Lim Computer Science and Software Engineering.

Similar presentations

Ads by Google