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Hardware and Software Support for Virtualization [electronic resource] / by Edouard Bugnion, Jason Nieh, Dan Tsafrir.

By: Bugnion, Edouard [author.].
Contributor(s): Nieh, Jason [author.] | Tsafrir, Dan [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Synthesis Lectures on Computer Architecture: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2017Edition: 1st ed. 2017.Description: XX, 188 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783031017537.Subject(s): Electronic circuits | Microprocessors | Computer architecture | Electronic Circuits and Systems | Processor ArchitecturesAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 621.3815 Online resources: Click here to access online
Contents:
Preface -- Acknowledgments -- Definitions -- The Popek/Goldberg Theorem -- Virtualization without Architectural Support -- x86-64: CPU Virtualization with VT-x -- x86-64: MMU Virtualization with Extended Page Tables -- x86-64: I/O Virtualization -- Virtualization Support in ARM Processors -- Comparing ARM and x86 Virtualization Performance -- Bibliography -- Authors' Biographies -- Index .
In: Springer Nature eBookSummary: This book focuses on the core question of the necessary architectural support provided by hardware to efficiently run virtual machines, and of the corresponding design of the hypervisors that run them. Virtualization is still possible when the instruction set architecture lacks such support, but the hypervisor remains more complex and must rely on additional techniques. Despite the focus on architectural support in current architectures, some historical perspective is necessary to appropriately frame the problem. The first half of the book provides the historical perspective of the theoretical framework developed four decades ago by Popek and Goldberg. It also describes earlier systems that enabled virtualization despite the lack of architectural support in hardware. As is often the case, theory defines a necessary-but not sufficient-set of features, and modern architectures are the result of the combination of the theoretical framework with insights derived frompractical systems. The second half of the book describes state-of-the-art support for virtualization in both x86-64 and ARM processors. This book includes an in-depth description of the CPU, memory, and I/O virtualization of these two processor architectures, as well as case studies on the Linux/KVM, VMware, and Xen hypervisors. It concludes with a performance comparison of virtualization on current-generation x86- and ARM-based systems across multiple hypervisors.
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Preface -- Acknowledgments -- Definitions -- The Popek/Goldberg Theorem -- Virtualization without Architectural Support -- x86-64: CPU Virtualization with VT-x -- x86-64: MMU Virtualization with Extended Page Tables -- x86-64: I/O Virtualization -- Virtualization Support in ARM Processors -- Comparing ARM and x86 Virtualization Performance -- Bibliography -- Authors' Biographies -- Index .

This book focuses on the core question of the necessary architectural support provided by hardware to efficiently run virtual machines, and of the corresponding design of the hypervisors that run them. Virtualization is still possible when the instruction set architecture lacks such support, but the hypervisor remains more complex and must rely on additional techniques. Despite the focus on architectural support in current architectures, some historical perspective is necessary to appropriately frame the problem. The first half of the book provides the historical perspective of the theoretical framework developed four decades ago by Popek and Goldberg. It also describes earlier systems that enabled virtualization despite the lack of architectural support in hardware. As is often the case, theory defines a necessary-but not sufficient-set of features, and modern architectures are the result of the combination of the theoretical framework with insights derived frompractical systems. The second half of the book describes state-of-the-art support for virtualization in both x86-64 and ARM processors. This book includes an in-depth description of the CPU, memory, and I/O virtualization of these two processor architectures, as well as case studies on the Linux/KVM, VMware, and Xen hypervisors. It concludes with a performance comparison of virtualization on current-generation x86- and ARM-based systems across multiple hypervisors.

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