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Heterogeneity, High Performance Computing, Self-Organization and the Cloud.

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Superior document:	Palgrave Studies in Digital Business and Enabling Technologies Series
:	Lynn, Theo.
TeilnehmendeR:	Morrison, John P. Kenny, David.
Place / Publishing House:	Cham : : Springer International Publishing AG,, 2018. ©2018.
Year of Publication:	2018
Edition:	1st ed.
Language:	English
Series:	Palgrave Studies in Digital Business and Enabling Technologies Series
Online Access:	https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=5398736
Physical Description:	1 online resource (183 pages)
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ctrlnum	(MiAaPQ)5005398736 (Au-PeEL)EBL5398736 (OCoLC)1083018549
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spelling	Lynn, Theo. Heterogeneity, High Performance Computing, Self-Organization and the Cloud. 1st ed. Cham : Springer International Publishing AG, 2018. ©2018. 1 online resource (183 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Palgrave Studies in Digital Business and Enabling Technologies Series Intro -- Preface -- Acknowledgements -- Contents -- Notes on Contributors -- List of Abbreviations -- List of Figures -- List of Tables -- Chapter 1: Addressing the Complexity of HPC in the Cloud: Emergence, Self-Organisation, Self-Management, and the Separation of Concerns -- 1.1 Introduction -- 1.2 Cloud Computing -- 1.3 High Performance Computing -- 1.4 HPC and the Cloud -- 1.5 Heterogeneous Computing -- 1.6 Addressing Complexity in the Cloud through Self-* Design Principles -- 1.7 Application Scenarios -- 1.7.1 Oil and Gas Exploration -- 1.7.2 Ray Tracing -- 1.7.3 Genomics -- 1.8 Conclusion -- 1.9 Chapter 1 Related CloudLightning Readings -- References -- Chapter 2: Cloud Architectures and Management Approaches -- 2.1 Introduction -- 2.2 Cloud Architecture -- 2.2.1 Infrastructure Organisation -- 2.2.1.1 The Switch-Centric Model -- 2.2.1.2 The Server-Centric Model -- 2.2.2 The Cloud Management Layer -- 2.2.2.1 OpenStack -- 2.2.2.2 Google Kubernetes -- 2.2.3 The Service Delivery Layer -- 2.3 Transitioning to Heterogeneous Clouds -- 2.3.1 Resource Management -- 2.3.2 Resource Abstraction -- 2.4 The CloudLightning Approach -- 2.4.1 Infrastructure Organisation -- 2.4.2 Hardware Organisation -- 2.4.2.1 Resource Abstraction -- 2.4.3 The Cloud Management Layer -- 2.4.3.1 CL-Resource Discovery -- 2.4.3.2 The CL-Resource Selection -- 2.4.3.3 Resource Acquisition -- 2.4.3.4 Coalition Lifecycle Management -- 2.4.3.5 Self-Organisation Agent -- 2.4.3.6 Classification of vRack Managers -- 2.4.3.7 vRack Manager Activities -- 2.4.4 Service Delivery Model -- 2.4.5 Advanced Architecture Support -- 2.4.5.1 Auto-Scaling -- 2.4.5.2 High Availability -- 2.4.5.3 Data Locality -- 2.4.5.4 Dynamic VPN Creation for Blueprint Service Execution -- 2.5 Conclusion -- 2.6 Chapter 2 Related CloudLightning Readings -- References. Chapter 3: Self-Organising, Self-Managing Frameworks and Strategies -- 3.1 Introduction -- 3.2 Key Concepts -- 3.3 Augmenting the CloudLightning Architecture -- 3.4 Self-Organisation and Self-Management in CloudLightning Architecture -- 3.4.1 Directed Evolution -- 3.4.1.1 The Goal State -- 3.4.1.2 Cell State -- 3.4.1.3 pRouter State and pSwitch State -- 3.4.1.4 vRM State -- 3.4.1.5 Steering by the Cell -- 3.4.1.6 Steering by the pRouter -- 3.4.1.7 Steering by the pSwitch -- 3.4.2 Self-Management Mechanisms -- 3.4.2.1 Mechanism to Send Metrics from a vRM to pSwitch -- 3.4.2.2 Mechanism to Send Metrics from a pSwitch to pRouter -- 3.4.2.3 Mechanism to Send Metrics from pRouter to Cell -- 3.4.2.4 Mechanism to Send Weights from Cell to pRouters -- 3.4.2.5 Mechanism to Send Weights from pRouters to pSwitches -- 3.4.2.6 Mechanism to Send Weights from pSwitch to vRMs -- 3.4.2.7 A Mechanism in the Cell to Modify Local Behaviour in an Effort to Respond to Impetus Provided by the Directed Evolution and Metrics Coming from Attached pRouters -- 3.4.2.8 A Mechanism in a pRouter to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by the Cell and Metrics Coming from Attached pSwitches -- 3.4.2.9 A Mechanism in a pSwitch to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pRouter and Metrics Coming from Attached vRMs -- 3.4.2.10 A Mechanism in a vRM to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pSwitch and Metrics Coming from its vRack -- 3.4.2.11 Sample Events that Trigger the Transmission of Metrics at each Level in the Hierarchy -- 3.4.2.12 Sample Events that Trigger the Transmission of Weights at Each Level in the Hierarchy -- 3.4.3 Self-Organisation Mechanisms -- 3.5 CloudLightning SOSM Strategies -- 3.5.1 Self-Management Strategies. 3.5.1.1 An Example Self-Management Scenario -- 3.5.2 Self-Organisation Strategies -- 3.5.2.1 An Example Self-Organisation Scenario -- 3.6 Conclusion -- 3.7 Chapter 3 Related CloudLightning Readings -- Chapter 4: Application Blueprints and Service Description -- 4.1 Introduction -- 4.2 Representative Application Lifecycle and Resource Management Frameworks -- 4.3 CloudLightning Stakeholders and Associated Concerns -- 4.4 The CloudLightning Approach Based on Separation of Concerns -- 4.4.1 CloudLightning Requirements -- 4.4.2 Separation of Concerns -- 4.4.2.1 Application Lifecycle Management -- 4.4.2.2 Resource Lifecycle Management -- 4.5 The CloudLightning Gateway Architecture -- 4.5.1 Gateway Service Architecture -- 4.5.2 Service Decomposition -- 4.5.3 Interaction with the SOSM System -- 4.5.3.1 Resource Discovery -- 4.5.3.2 Resource Release -- 4.6 The CloudLightning Blueprint Extensions -- 4.6.1 CloudLightning Brooklyn Extensions -- 4.6.2 CloudLightning Abstract Blueprint -- 4.6.3 CloudLightning Blueprint -- 4.7 Example of Application Creation and Deployment -- 4.8 Conclusion -- 4.9 Chapter 4 Related CloudLightning Readings -- References -- Chapter 5: Simulating Heterogeneous Clouds at Scale -- 5.1 Introduction -- 5.2 Cloud Simulation Frameworks -- 5.3 CloudLightning Simulator -- 5.3.1 Architecture and Basic Characteristics of the Parallel CloudLightning Simulation Framework -- 5.3.2 SOSM Engine -- 5.3.2.1 Power Consumption Modelling -- CPU Power Models -- Combined CPU-Accelerator Power Models -- 5.3.2.2 Memory, Storage, and Network Modelling -- 5.3.2.3 Application Models -- 5.3.2.4 Execution Models -- 5.4 Experimental Results -- 5.5 Conclusion -- 5.6 Chapter 5 Related CloudLightning Readings -- References -- Chapter 6: Concluding Remarks -- References -- Index. Description based on publisher supplied metadata and other sources. Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. Electronic books. Morrison, John P. Kenny, David. Print version: Lynn, Theo Heterogeneity, High Performance Computing, Self-Organization and the Cloud Cham : Springer International Publishing AG,c2018 9783319760377 ProQuest (Firm) https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=5398736 Click to View
language	English
format	eBook
author	Lynn, Theo.
spellingShingle	Lynn, Theo. Heterogeneity, High Performance Computing, Self-Organization and the Cloud. Palgrave Studies in Digital Business and Enabling Technologies Series Intro -- Preface -- Acknowledgements -- Contents -- Notes on Contributors -- List of Abbreviations -- List of Figures -- List of Tables -- Chapter 1: Addressing the Complexity of HPC in the Cloud: Emergence, Self-Organisation, Self-Management, and the Separation of Concerns -- 1.1 Introduction -- 1.2 Cloud Computing -- 1.3 High Performance Computing -- 1.4 HPC and the Cloud -- 1.5 Heterogeneous Computing -- 1.6 Addressing Complexity in the Cloud through Self-* Design Principles -- 1.7 Application Scenarios -- 1.7.1 Oil and Gas Exploration -- 1.7.2 Ray Tracing -- 1.7.3 Genomics -- 1.8 Conclusion -- 1.9 Chapter 1 Related CloudLightning Readings -- References -- Chapter 2: Cloud Architectures and Management Approaches -- 2.1 Introduction -- 2.2 Cloud Architecture -- 2.2.1 Infrastructure Organisation -- 2.2.1.1 The Switch-Centric Model -- 2.2.1.2 The Server-Centric Model -- 2.2.2 The Cloud Management Layer -- 2.2.2.1 OpenStack -- 2.2.2.2 Google Kubernetes -- 2.2.3 The Service Delivery Layer -- 2.3 Transitioning to Heterogeneous Clouds -- 2.3.1 Resource Management -- 2.3.2 Resource Abstraction -- 2.4 The CloudLightning Approach -- 2.4.1 Infrastructure Organisation -- 2.4.2 Hardware Organisation -- 2.4.2.1 Resource Abstraction -- 2.4.3 The Cloud Management Layer -- 2.4.3.1 CL-Resource Discovery -- 2.4.3.2 The CL-Resource Selection -- 2.4.3.3 Resource Acquisition -- 2.4.3.4 Coalition Lifecycle Management -- 2.4.3.5 Self-Organisation Agent -- 2.4.3.6 Classification of vRack Managers -- 2.4.3.7 vRack Manager Activities -- 2.4.4 Service Delivery Model -- 2.4.5 Advanced Architecture Support -- 2.4.5.1 Auto-Scaling -- 2.4.5.2 High Availability -- 2.4.5.3 Data Locality -- 2.4.5.4 Dynamic VPN Creation for Blueprint Service Execution -- 2.5 Conclusion -- 2.6 Chapter 2 Related CloudLightning Readings -- References. Chapter 3: Self-Organising, Self-Managing Frameworks and Strategies -- 3.1 Introduction -- 3.2 Key Concepts -- 3.3 Augmenting the CloudLightning Architecture -- 3.4 Self-Organisation and Self-Management in CloudLightning Architecture -- 3.4.1 Directed Evolution -- 3.4.1.1 The Goal State -- 3.4.1.2 Cell State -- 3.4.1.3 pRouter State and pSwitch State -- 3.4.1.4 vRM State -- 3.4.1.5 Steering by the Cell -- 3.4.1.6 Steering by the pRouter -- 3.4.1.7 Steering by the pSwitch -- 3.4.2 Self-Management Mechanisms -- 3.4.2.1 Mechanism to Send Metrics from a vRM to pSwitch -- 3.4.2.2 Mechanism to Send Metrics from a pSwitch to pRouter -- 3.4.2.3 Mechanism to Send Metrics from pRouter to Cell -- 3.4.2.4 Mechanism to Send Weights from Cell to pRouters -- 3.4.2.5 Mechanism to Send Weights from pRouters to pSwitches -- 3.4.2.6 Mechanism to Send Weights from pSwitch to vRMs -- 3.4.2.7 A Mechanism in the Cell to Modify Local Behaviour in an Effort to Respond to Impetus Provided by the Directed Evolution and Metrics Coming from Attached pRouters -- 3.4.2.8 A Mechanism in a pRouter to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by the Cell and Metrics Coming from Attached pSwitches -- 3.4.2.9 A Mechanism in a pSwitch to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pRouter and Metrics Coming from Attached vRMs -- 3.4.2.10 A Mechanism in a vRM to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pSwitch and Metrics Coming from its vRack -- 3.4.2.11 Sample Events that Trigger the Transmission of Metrics at each Level in the Hierarchy -- 3.4.2.12 Sample Events that Trigger the Transmission of Weights at Each Level in the Hierarchy -- 3.4.3 Self-Organisation Mechanisms -- 3.5 CloudLightning SOSM Strategies -- 3.5.1 Self-Management Strategies. 3.5.1.1 An Example Self-Management Scenario -- 3.5.2 Self-Organisation Strategies -- 3.5.2.1 An Example Self-Organisation Scenario -- 3.6 Conclusion -- 3.7 Chapter 3 Related CloudLightning Readings -- Chapter 4: Application Blueprints and Service Description -- 4.1 Introduction -- 4.2 Representative Application Lifecycle and Resource Management Frameworks -- 4.3 CloudLightning Stakeholders and Associated Concerns -- 4.4 The CloudLightning Approach Based on Separation of Concerns -- 4.4.1 CloudLightning Requirements -- 4.4.2 Separation of Concerns -- 4.4.2.1 Application Lifecycle Management -- 4.4.2.2 Resource Lifecycle Management -- 4.5 The CloudLightning Gateway Architecture -- 4.5.1 Gateway Service Architecture -- 4.5.2 Service Decomposition -- 4.5.3 Interaction with the SOSM System -- 4.5.3.1 Resource Discovery -- 4.5.3.2 Resource Release -- 4.6 The CloudLightning Blueprint Extensions -- 4.6.1 CloudLightning Brooklyn Extensions -- 4.6.2 CloudLightning Abstract Blueprint -- 4.6.3 CloudLightning Blueprint -- 4.7 Example of Application Creation and Deployment -- 4.8 Conclusion -- 4.9 Chapter 4 Related CloudLightning Readings -- References -- Chapter 5: Simulating Heterogeneous Clouds at Scale -- 5.1 Introduction -- 5.2 Cloud Simulation Frameworks -- 5.3 CloudLightning Simulator -- 5.3.1 Architecture and Basic Characteristics of the Parallel CloudLightning Simulation Framework -- 5.3.2 SOSM Engine -- 5.3.2.1 Power Consumption Modelling -- CPU Power Models -- Combined CPU-Accelerator Power Models -- 5.3.2.2 Memory, Storage, and Network Modelling -- 5.3.2.3 Application Models -- 5.3.2.4 Execution Models -- 5.4 Experimental Results -- 5.5 Conclusion -- 5.6 Chapter 5 Related CloudLightning Readings -- References -- Chapter 6: Concluding Remarks -- References -- Index.
author_facet	Lynn, Theo. Morrison, John P. Kenny, David.
author_variant	t l tl
author2	Morrison, John P. Kenny, David.
author2_variant	j p m jp jpm d k dk
author2_role	TeilnehmendeR TeilnehmendeR
author_sort	Lynn, Theo.
title	Heterogeneity, High Performance Computing, Self-Organization and the Cloud.
title_full	Heterogeneity, High Performance Computing, Self-Organization and the Cloud.
title_fullStr	Heterogeneity, High Performance Computing, Self-Organization and the Cloud.
title_full_unstemmed	Heterogeneity, High Performance Computing, Self-Organization and the Cloud.
title_auth	Heterogeneity, High Performance Computing, Self-Organization and the Cloud.
title_new	Heterogeneity, High Performance Computing, Self-Organization and the Cloud.
title_sort	heterogeneity, high performance computing, self-organization and the cloud.
series	Palgrave Studies in Digital Business and Enabling Technologies Series
series2	Palgrave Studies in Digital Business and Enabling Technologies Series
publisher	Springer International Publishing AG,
publishDate	2018
physical	1 online resource (183 pages)
edition	1st ed.
contents	Intro -- Preface -- Acknowledgements -- Contents -- Notes on Contributors -- List of Abbreviations -- List of Figures -- List of Tables -- Chapter 1: Addressing the Complexity of HPC in the Cloud: Emergence, Self-Organisation, Self-Management, and the Separation of Concerns -- 1.1 Introduction -- 1.2 Cloud Computing -- 1.3 High Performance Computing -- 1.4 HPC and the Cloud -- 1.5 Heterogeneous Computing -- 1.6 Addressing Complexity in the Cloud through Self-* Design Principles -- 1.7 Application Scenarios -- 1.7.1 Oil and Gas Exploration -- 1.7.2 Ray Tracing -- 1.7.3 Genomics -- 1.8 Conclusion -- 1.9 Chapter 1 Related CloudLightning Readings -- References -- Chapter 2: Cloud Architectures and Management Approaches -- 2.1 Introduction -- 2.2 Cloud Architecture -- 2.2.1 Infrastructure Organisation -- 2.2.1.1 The Switch-Centric Model -- 2.2.1.2 The Server-Centric Model -- 2.2.2 The Cloud Management Layer -- 2.2.2.1 OpenStack -- 2.2.2.2 Google Kubernetes -- 2.2.3 The Service Delivery Layer -- 2.3 Transitioning to Heterogeneous Clouds -- 2.3.1 Resource Management -- 2.3.2 Resource Abstraction -- 2.4 The CloudLightning Approach -- 2.4.1 Infrastructure Organisation -- 2.4.2 Hardware Organisation -- 2.4.2.1 Resource Abstraction -- 2.4.3 The Cloud Management Layer -- 2.4.3.1 CL-Resource Discovery -- 2.4.3.2 The CL-Resource Selection -- 2.4.3.3 Resource Acquisition -- 2.4.3.4 Coalition Lifecycle Management -- 2.4.3.5 Self-Organisation Agent -- 2.4.3.6 Classification of vRack Managers -- 2.4.3.7 vRack Manager Activities -- 2.4.4 Service Delivery Model -- 2.4.5 Advanced Architecture Support -- 2.4.5.1 Auto-Scaling -- 2.4.5.2 High Availability -- 2.4.5.3 Data Locality -- 2.4.5.4 Dynamic VPN Creation for Blueprint Service Execution -- 2.5 Conclusion -- 2.6 Chapter 2 Related CloudLightning Readings -- References. Chapter 3: Self-Organising, Self-Managing Frameworks and Strategies -- 3.1 Introduction -- 3.2 Key Concepts -- 3.3 Augmenting the CloudLightning Architecture -- 3.4 Self-Organisation and Self-Management in CloudLightning Architecture -- 3.4.1 Directed Evolution -- 3.4.1.1 The Goal State -- 3.4.1.2 Cell State -- 3.4.1.3 pRouter State and pSwitch State -- 3.4.1.4 vRM State -- 3.4.1.5 Steering by the Cell -- 3.4.1.6 Steering by the pRouter -- 3.4.1.7 Steering by the pSwitch -- 3.4.2 Self-Management Mechanisms -- 3.4.2.1 Mechanism to Send Metrics from a vRM to pSwitch -- 3.4.2.2 Mechanism to Send Metrics from a pSwitch to pRouter -- 3.4.2.3 Mechanism to Send Metrics from pRouter to Cell -- 3.4.2.4 Mechanism to Send Weights from Cell to pRouters -- 3.4.2.5 Mechanism to Send Weights from pRouters to pSwitches -- 3.4.2.6 Mechanism to Send Weights from pSwitch to vRMs -- 3.4.2.7 A Mechanism in the Cell to Modify Local Behaviour in an Effort to Respond to Impetus Provided by the Directed Evolution and Metrics Coming from Attached pRouters -- 3.4.2.8 A Mechanism in a pRouter to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by the Cell and Metrics Coming from Attached pSwitches -- 3.4.2.9 A Mechanism in a pSwitch to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pRouter and Metrics Coming from Attached vRMs -- 3.4.2.10 A Mechanism in a vRM to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pSwitch and Metrics Coming from its vRack -- 3.4.2.11 Sample Events that Trigger the Transmission of Metrics at each Level in the Hierarchy -- 3.4.2.12 Sample Events that Trigger the Transmission of Weights at Each Level in the Hierarchy -- 3.4.3 Self-Organisation Mechanisms -- 3.5 CloudLightning SOSM Strategies -- 3.5.1 Self-Management Strategies. 3.5.1.1 An Example Self-Management Scenario -- 3.5.2 Self-Organisation Strategies -- 3.5.2.1 An Example Self-Organisation Scenario -- 3.6 Conclusion -- 3.7 Chapter 3 Related CloudLightning Readings -- Chapter 4: Application Blueprints and Service Description -- 4.1 Introduction -- 4.2 Representative Application Lifecycle and Resource Management Frameworks -- 4.3 CloudLightning Stakeholders and Associated Concerns -- 4.4 The CloudLightning Approach Based on Separation of Concerns -- 4.4.1 CloudLightning Requirements -- 4.4.2 Separation of Concerns -- 4.4.2.1 Application Lifecycle Management -- 4.4.2.2 Resource Lifecycle Management -- 4.5 The CloudLightning Gateway Architecture -- 4.5.1 Gateway Service Architecture -- 4.5.2 Service Decomposition -- 4.5.3 Interaction with the SOSM System -- 4.5.3.1 Resource Discovery -- 4.5.3.2 Resource Release -- 4.6 The CloudLightning Blueprint Extensions -- 4.6.1 CloudLightning Brooklyn Extensions -- 4.6.2 CloudLightning Abstract Blueprint -- 4.6.3 CloudLightning Blueprint -- 4.7 Example of Application Creation and Deployment -- 4.8 Conclusion -- 4.9 Chapter 4 Related CloudLightning Readings -- References -- Chapter 5: Simulating Heterogeneous Clouds at Scale -- 5.1 Introduction -- 5.2 Cloud Simulation Frameworks -- 5.3 CloudLightning Simulator -- 5.3.1 Architecture and Basic Characteristics of the Parallel CloudLightning Simulation Framework -- 5.3.2 SOSM Engine -- 5.3.2.1 Power Consumption Modelling -- CPU Power Models -- Combined CPU-Accelerator Power Models -- 5.3.2.2 Memory, Storage, and Network Modelling -- 5.3.2.3 Application Models -- 5.3.2.4 Execution Models -- 5.4 Experimental Results -- 5.5 Conclusion -- 5.6 Chapter 5 Related CloudLightning Readings -- References -- Chapter 6: Concluding Remarks -- References -- Index.
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-- List of Abbreviations -- List of Figures -- List of Tables -- Chapter 1: Addressing the Complexity of HPC in the Cloud: Emergence, Self-Organisation, Self-Management, and the Separation of Concerns -- 1.1 Introduction -- 1.2 Cloud Computing -- 1.3 High Performance Computing -- 1.4 HPC and the Cloud -- 1.5 Heterogeneous Computing -- 1.6 Addressing Complexity in the Cloud through Self-* Design Principles -- 1.7 Application Scenarios -- 1.7.1 Oil and Gas Exploration -- 1.7.2 Ray Tracing -- 1.7.3 Genomics -- 1.8 Conclusion -- 1.9 Chapter 1 Related CloudLightning Readings -- References -- Chapter 2: Cloud Architectures and Management Approaches -- 2.1 Introduction -- 2.2 Cloud Architecture -- 2.2.1 Infrastructure Organisation -- 2.2.1.1 The Switch-Centric Model -- 2.2.1.2 The Server-Centric Model -- 2.2.2 The Cloud Management Layer -- 2.2.2.1 OpenStack -- 2.2.2.2 Google Kubernetes -- 2.2.3 The Service Delivery Layer -- 2.3 Transitioning to Heterogeneous Clouds -- 2.3.1 Resource Management -- 2.3.2 Resource Abstraction -- 2.4 The CloudLightning Approach -- 2.4.1 Infrastructure Organisation -- 2.4.2 Hardware Organisation -- 2.4.2.1 Resource Abstraction -- 2.4.3 The Cloud Management Layer -- 2.4.3.1 CL-Resource Discovery -- 2.4.3.2 The CL-Resource Selection -- 2.4.3.3 Resource Acquisition -- 2.4.3.4 Coalition Lifecycle Management -- 2.4.3.5 Self-Organisation Agent -- 2.4.3.6 Classification of vRack Managers -- 2.4.3.7 vRack Manager Activities -- 2.4.4 Service Delivery Model -- 2.4.5 Advanced Architecture Support -- 2.4.5.1 Auto-Scaling -- 2.4.5.2 High Availability -- 2.4.5.3 Data Locality -- 2.4.5.4 Dynamic VPN Creation for Blueprint Service Execution -- 2.5 Conclusion -- 2.6 Chapter 2 Related CloudLightning Readings -- References.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Chapter 3: Self-Organising, Self-Managing Frameworks and Strategies -- 3.1 Introduction -- 3.2 Key Concepts -- 3.3 Augmenting the CloudLightning Architecture -- 3.4 Self-Organisation and Self-Management in CloudLightning Architecture -- 3.4.1 Directed Evolution -- 3.4.1.1 The Goal State -- 3.4.1.2 Cell State -- 3.4.1.3 pRouter State and pSwitch State -- 3.4.1.4 vRM State -- 3.4.1.5 Steering by the Cell -- 3.4.1.6 Steering by the pRouter -- 3.4.1.7 Steering by the pSwitch -- 3.4.2 Self-Management Mechanisms -- 3.4.2.1 Mechanism to Send Metrics from a vRM to pSwitch -- 3.4.2.2 Mechanism to Send Metrics from a pSwitch to pRouter -- 3.4.2.3 Mechanism to Send Metrics from pRouter to Cell -- 3.4.2.4 Mechanism to Send Weights from Cell to pRouters -- 3.4.2.5 Mechanism to Send Weights from pRouters to pSwitches -- 3.4.2.6 Mechanism to Send Weights from pSwitch to vRMs -- 3.4.2.7 A Mechanism in the Cell to Modify Local Behaviour in an Effort to Respond to Impetus Provided by the Directed Evolution and Metrics Coming from Attached pRouters -- 3.4.2.8 A Mechanism in a pRouter to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by the Cell and Metrics Coming from Attached pSwitches -- 3.4.2.9 A Mechanism in a pSwitch to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pRouter and Metrics Coming from Attached vRMs -- 3.4.2.10 A Mechanism in a vRM to Modify Local Behaviour in an Effort to Respond to Impetus Transmitted by its pSwitch and Metrics Coming from its vRack -- 3.4.2.11 Sample Events that Trigger the Transmission of Metrics at each Level in the Hierarchy -- 3.4.2.12 Sample Events that Trigger the Transmission of Weights at Each Level in the Hierarchy -- 3.4.3 Self-Organisation Mechanisms -- 3.5 CloudLightning SOSM Strategies -- 3.5.1 Self-Management Strategies.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.5.1.1 An Example Self-Management Scenario -- 3.5.2 Self-Organisation Strategies -- 3.5.2.1 An Example Self-Organisation Scenario -- 3.6 Conclusion -- 3.7 Chapter 3 Related CloudLightning Readings -- Chapter 4: Application Blueprints and Service Description -- 4.1 Introduction -- 4.2 Representative Application Lifecycle and Resource Management Frameworks -- 4.3 CloudLightning Stakeholders and Associated Concerns -- 4.4 The CloudLightning Approach Based on Separation of Concerns -- 4.4.1 CloudLightning Requirements -- 4.4.2 Separation of Concerns -- 4.4.2.1 Application Lifecycle Management -- 4.4.2.2 Resource Lifecycle Management -- 4.5 The CloudLightning Gateway Architecture -- 4.5.1 Gateway Service Architecture -- 4.5.2 Service Decomposition -- 4.5.3 Interaction with the SOSM System -- 4.5.3.1 Resource Discovery -- 4.5.3.2 Resource Release -- 4.6 The CloudLightning Blueprint Extensions -- 4.6.1 CloudLightning Brooklyn Extensions -- 4.6.2 CloudLightning Abstract Blueprint -- 4.6.3 CloudLightning Blueprint -- 4.7 Example of Application Creation and Deployment -- 4.8 Conclusion -- 4.9 Chapter 4 Related CloudLightning Readings -- References -- Chapter 5: Simulating Heterogeneous Clouds at Scale -- 5.1 Introduction -- 5.2 Cloud Simulation Frameworks -- 5.3 CloudLightning Simulator -- 5.3.1 Architecture and Basic Characteristics of the Parallel CloudLightning Simulation Framework -- 5.3.2 SOSM Engine -- 5.3.2.1 Power Consumption Modelling -- CPU Power Models -- Combined CPU-Accelerator Power Models -- 5.3.2.2 Memory, Storage, and Network Modelling -- 5.3.2.3 Application Models -- 5.3.2.4 Execution Models -- 5.4 Experimental Results -- 5.5 Conclusion -- 5.6 Chapter 5 Related CloudLightning Readings -- References -- Chapter 6: Concluding Remarks -- References -- Index.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="590" ind1=" " ind2=" "><subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. </subfield></datafield><datafield tag="655" ind1=" " ind2="4"><subfield code="a">Electronic books.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Morrison, John P.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Kenny, David.</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Print version:</subfield><subfield code="a">Lynn, Theo</subfield><subfield code="t">Heterogeneity, High Performance Computing, Self-Organization and the Cloud</subfield><subfield code="d">Cham : Springer International Publishing AG,c2018</subfield><subfield code="z">9783319760377</subfield></datafield><datafield tag="797" ind1="2" ind2=" "><subfield code="a">ProQuest (Firm)</subfield></datafield><datafield tag="830" ind1=" " ind2="0"><subfield code="a">Palgrave Studies in Digital Business and Enabling Technologies Series</subfield></datafield><datafield tag="856" ind1="4" ind2="0"><subfield code="u">https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=5398736</subfield><subfield code="z">Click to View</subfield></datafield></record></collection>

Heterogeneity, High Performance Computing, Self-Organization and the Cloud.

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