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https://notebookbft.wordpress.com/
Virtualization is the creation of a virtual -- rather than actual -- version of something, such as an operating system (OS), a server, a storage device or network resources. Virtualization uses software that simulates hardware functionality to create a virtual system.
This Chapter will teach you what is virtualization and the concept of virtualization, Virtual machine its benefit and real time use, understanding Hypervisors (virtual machine monitor)
What is Infrastructure as a Service?, Comparison of Service Models, Why do we need IaaS?, Essential Characteristics of IaaS, Where IaaS May Not be the Best Option?, Cloud Deployment Models
https://notebookbft.wordpress.com/
Virtualization is the creation of a virtual -- rather than actual -- version of something, such as an operating system (OS), a server, a storage device or network resources. Virtualization uses software that simulates hardware functionality to create a virtual system.
This Chapter will teach you what is virtualization and the concept of virtualization, Virtual machine its benefit and real time use, understanding Hypervisors (virtual machine monitor)
Definition of virtualization, Reason for using virtualization, Adopting virtualization, Types of virtualization, Server virtualization, Storage virtualization, Network virtualization, Virtualization clustering, Grid, Cloud& Virtualization,
One can Study the key concept of Virtualization, its types, why Virtualization and what are the use cases and Benefits of Virtualization and example of Virtualization.
Definition of virtualization, Reason for using virtualization, Adopting virtualization, Types of virtualization, Server virtualization, Storage virtualization, Network virtualization, Virtualization clustering, Grid, Cloud& Virtualization,
One can Study the key concept of Virtualization, its types, why Virtualization and what are the use cases and Benefits of Virtualization and example of Virtualization.
Software Engineering, Software Consulting, Tech Lead.
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Spring Transaction, Spring MVC,
Log4j, REST/SOAP WEB-SERVICES.
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Join us to discover how Wix has mastered the art of balancing simplicity and extensibility, and learn how the re-adoption of the modest CRUD has turbocharged their development velocity, resilience, and scalability in a high-growth environment.
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1. Introduction to
Cloud Computing
Lecture 5
Server Virtualization
*Some slides are adopted from “Distributed and Cloud Computing from
Parallel Processing to the Internet of Things” by K. Hwang, G. C. Fox and J. J. Dongarra
3. Properties and Characteristics
• As a cloud provider, all of the fundamental
properties and characteristics stated in previous
lectures should be concerned and implemented.
4. Scalability & Elasticity
• What do scalability and elasticity mean in IaaS ?
– Clients should be able to dynamically increase or
decrease the amount of infrastructure resources in need.
– Large amount of resources provisioning and deployment
should be done in a short period of time, such as several
hours or days.
– System behavior should remain identical in small scale
or large one.
5. Scalability & Elasticity
• How to approach scalability and elasticity in IaaS ?
– For computation resources :
• Dynamically create/terminate VMs for clients on demand.
• Integrate hypervisors among all physical machines to
collaboratively control and manage all virtual machines.
– For storage resources :
• Dynamically allocate or de-allocate virtual storage space for
clients.
• Integrate all physical storage resources in the entire IaaS system
• Offer initial storage resources by thin provisioning technique.
– For communication resources :
• Dynamically connect or disconnect the linking state of virtual
networks for clients on demand.
• Dynamically divide the network request flow to different physical
routers to maintain access bandwidth.
6. Availability & Reliability
• What do availability and reliability mean in IaaS ?
– Clients should be able to access computation resources
without considering the possibility of hardware failure.
– Data stored in IaaS cloud should be able to be retrieved
when needed without considering any natural disaster
damage.
– Communication capability and capacity should be
maintained without considering any physical equipment
shortage.
7. Availability & Reliability
• How to approach availability and reliability in IaaS ?
– For computation resources :
• Monitor each physical and virtual machine for any possible failure.
• Regularly backup virtual machine system state for disaster
recovery.
• Migrate virtual machine among physical machines for potential
failure prevention.
– For storage resources :
• Maintain data pieces replication among different physical storage
devices.
• Regularly backup virtual storage data to geographical remote
locations for disaster prevention.
– For communication resources :
• Built redundant connection system to improve robustness.
8. Manageability & Interoperability
• What do manageability and interoperability mean
in IaaS ?
– Clients should be able to fully control the virtualized
infrastructure resources which allocated to them.
– Virtualized resources can be allocated by means of
system control automation process with pre-configured
policy.
– States of all virtualized resource should be fully under
monitoring.
– Usage of infrastructure resources will be recorded and
then billing system will convert these information to user
payment.
9. Manageability & Interoperability
• Manageability and interoperability in IaaS ?
– For computation resources :
• Provide basic virtual machine operations, such as creation,
termination, suspension, resumption and system snapshot.
• Monitor and record CPU and memory loading for each VM.
– For storage resources :
• Monitor and record storage space usage and read/write data
access from user for each virtual storage resource.
• Automatic allocate/de-allocate physical storage according to
space utilization.
– For communication resources :
• Monitor and record the network bandwidth consumption for each
virtual link.
• Automatically reroute the data path when computation and
storage are duplicated.
10. Performance & Optimization
• What do performance and optimization mean in
IaaS ?
– Physical resources should be highly utilized among
different clients.
– Physical resources should form a large resource pool
which provide high computing power through parallel
processing.
– Virtual infrastructure resources will be dynamically
configured to an optimized deployment among physical
resources.
11. Performance & Optimization
• How to approach performance and optimization in
IaaS ?
– For computation resources :
• Deploy virtual machine with load balancing consideration.
• Live migrate virtual machines among physical ones to balance
the system loading.
– For storage resources :
• Deploy virtual storage with hot spot access consideration.
• Live migrate virtual storage among physical ones with different
performance level.
– For communication resources :
• Consider network bandwidth loading when deploying virtual
machines and storage.
• Dynamically migrate virtual machines or storage to balance
network flow.
12. Accessibility & Portability
• What do accessibility and portability mean in IaaS
?
– Clients should be able to control, manage and access
infrastructure resources in an easy way, such as the
web-browser, without additional local software or
hardware installation.
– Provided infrastructure resources should be able to be
reallocated or duplicated easily.
13. Accessibility & Portability
• How to approach accessibility and portability in
IaaS ?
– For computation resources :
• Cloud provider integrates virtual machine
management and access through web-based portal.
• Comply the virtual machine standard for portability.
– For storage resources :
• Cloud provider integrates virtual storage management
and access through web-based portal.
– For communication resources :
• Cloud provider integrates virtual network
management and access through web-based portal.
15. Virtualization Overview
• What is virtualization ?
– Virtualization is the creation of a virtual (rather than physical)
version of something, such as an operating system, a server,
a storage device or network resources.
– It hides the physical characteristics of a resource from users,
instead showing another abstract resource.
• But, where does virtualization come from ?
– Virtualization is NOT a new idea of computer science.
– Virtualization concept comes from the component abstraction
of system design, and it has been adapted in many system
level.
– Now, let’s take a look of our original system architecture !!
16. Virtualization Overview
• System abstraction :
– Computer systems are built on
levels of abstraction.
– Higher level of abstraction hide
details at lower levels.
– Designer of each abstraction
level make use of the functions
supported from its lower level,
and provide another abstraction
to its higher one.
– Example
• files are an abstraction of a
disk
17. Virtualization Overview
• Machine level abstraction :
– For OS developers, a
machine is defined by ISA
(Instruction Set Architecture).
– This is the major division
between hardware and
software.
– Examples :
• X86
• ARM
• MIPS
18. Virtualization Overview
• OS level abstraction :
– For compiler or library
developers, a machine is
defined by ABI (Application
Binary Interface).
– This define the basic OS
interface which may be used
by libraries or user.
– Examples :
• User ISA
• OS system call
19. Virtualization Overview
• Library level abstraction :
– For application developers, a
machine is defined by API
(Application Programming
Interface).
– This abstraction provides the
well-rounded functionalities.
– Examples :
• User ISA
• Standard C library
• Graphical library
20. Virtual Machine
• What is Virtual Machine (VM)?
– VM is a software implementation of a machine (i.e. a computer) that
executes programs like a real machine.
• Terminology :
– Host (Target)
• The primary environment where
will be the target of virtualization.
– Guest (Source)
• The virtualized environment where
will be the source of virtualization.
21.
22. Virtualization at ISA level:
Emulating a given ISA by the ISA of the host machine. For example,
MIPS binary code can run on an x-86-based host machine with the help
of ISA emulation. Typical systems: Bochs, Crusoe, Quemu, BIRD,
Dynamo
• Advantage: It can run a large amount of legacy binary codes written
for various processors on any given new hardware host machines;
best application flexibility
• Shortcoming & limitation: One source instruction may require tens or
hundreds of native target instructions to perform its function, which is
relatively slow. V-ISA requires adding a processor-specific software
translation layer in the complier.
* This technology is usually included in the Hardware-Abstraction-Level-Virtualization
23. Virtualization at Hardware Abstraction level:
Virtualization is performed right on top of the hardware. It generates virtual
hardware environments for VMs, and manages the underlying hardware
through virtualization. Typical systems: VMware, Virtual PC, Denali, Xen
• Advantage: has higher performance and good application isolation
• Shortcoming & limitation: very expensive to implement (complexity)
24. Virtualization at Operating System level:
It is an abstraction layer between traditional OS and user placations.
This virtualization creates isolated containers on a single physical server
and the OS-instance to utilize the hardware and software in datacenters.
Typical systems: Jail / Virtual Environment / Ensim's VPS / FVM
• Advantage: have minimal starup/shutdown cost, low resource
requirement, and high scalability; synchronize VM and host state
changes.
• Shortcoming & limitation: all VMs at the operating system level must
have the same kind of guest OS; poor application flexibility and isolation.
26. Library Support level:
It creates execution environments for running alien
programs on a platform rather than creating VM to run the
entire operating system. It is done by API call interception
and remapping. Typical systems: Wine, WAB, LxRun ,
VisualMainWin
Advantage: It has very low implementation effort
Shortcoming & limitation: poor application flexibility and
isolation
28. Example: Visual MainWin (MainSoft)
• Mainsoft compiles the .NET source to Java
bytecode without changing it, this allows the
same .NET developers to maintain their application,
using Visual Studio, even when it runs on the Java
EE platform.
http://www.mainsoft.com/content/mainsoft-enterprise-edition-overview
29. Virtualization at User-Application level:
It virtualizes an application as a virtual machine. This layer
sits as an application program on top of an operating
system and exports an abstraction of a VM that can run
programs written and compiled to a particular abstract
machine definition. Typical systems:
JVM , NET CLI , Panot
• Advantage: has the best application isolation
• Shortcoming & limitation: low performance, low
application flexibility and high implementation complexity.
39. Emulation vs. Virtualization
• Emulation technique
– Simulate an independent environment where guest ISA and
host ISA are different.
– Example
• Emulate x86 architecture on ARM platform.
• Virtualization technique
– Simulate an independent environment where guest ISA and
host ISA are the same.
– Example
• Virtualize x86 architecture to multiple instances.
40. Process Virtual Machine
• Process virtual machine
– Usually execute guest applications with an ISA different from host
– Couple at ABI(Application Binary Interface) level via runtime
system
– Not persistent
41. System Virtual Machine
• System virtual machine
– Provide the entire operating system on same or different host
ISA
– Constructed at ISA level
– Persistent
42. Taxonomy
System Virtual Machine Process Virtual Machine
Emulation
Transmeta Crusoe
( Emulate x86 on VLIW cpu )
Multi-processing system
Virtualization
XEN, KVM, VMWare
( x86 virtualization software )
JVM, Microsoft CLI
( High level language virtualization )
43. Virtual Machine Monitor (Hypervisor)
• What’s Virtual Machine Monitor (VMM) ?
– VMM or Hypervisor is the software layer providing the
virtualization.
• System architecture : VM1 VM2 VM3
44. Virtualization Types
• Virtualization Types :
– Type 1 – Bare metal
• VMMs run directly on the host's hardware as a
hardware control and guest operating system
monitor.
– Type 2 – Hosted
• VMMs are software applications running within a
conventional operating system.
44
46. Virtualization Approaches
• Virtualization Approaches :
– Full-Virtualization
• VMM simulates enough hardware to allow an
unmodified guest OS.
– Para-Virtualization
• VMM does not necessarily simulate hardware, but
instead offers a special API that can only be used by
the modified guest OS.
46
60. Conclusions on CPU, Memory
and I/O Virtualization :
CPU virtualization demands hardware-assisted traps of
sensitive instructions by the VMM
Memory virtualization demands special hardware support
(shadow page tables by VMWare or extended page table by
Intel) to help translate virtual address into physical address
and machine memory in two stages.
I/O virtualization is the most difficult one to realize due to
the complexity if I/O service routines and the emulation
needed between the guest OS and host OS.
61. Multi-Core Virtualization:
VCPU vs. traditional CPU
Four VCPUs are exposed the software, only three cores are actually present.
VCPUs V0, V1, and V3 have been transparently migrated, while VCPU V2 has been
transparently suspended. (Courtesy of Wells, et al., “Dynamic Heterogeneity and the
Need for Multicore Virtualization”, ACM SIGOPS Operating Systems Review, ACM
Press, 2009 [68] )