cloud computing and visualization technologies
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for btech studentsTRANSCRIPT
TERM PAPER
on
Title: CLOUD COMPUTING AND VIRTUALIZATION
TECHNOLOGIES
Submitted to
AMITY SCHOOL OF ENGINEERING AND TECHNOLOGY
Guided By: Submitted By:
MR. Y.S, RATORE MANTEK SINGH BHATIA CSE DEPARTMENT A2305212305ASET ASET 3CS6
Amity University, Uttar Pradesh
A2305212305
TERM PAPER
on
Title: (............)
Submitted to
AMITY SCHOOL OF ENGINEERING AND TECHNOLOGY
Guided By: Submitted By: Name of Facualty Guide Name of the StudentDepartment Enrolment.No. ASET. Roll No.
Department & Section.
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Amity University, Uttar Pradeesh
ACKNOWLEDGEMENT
I would like to express my special thanks of gratitude to my GUIDE MR. Y.S. RATHORE as well as our PROGRAM LEADER MR. PRAVEEN KUMAR who gave me the golden opportunity to do this wonderful project on the topic CLOUD COMPUTING AND VIRTUALIZATION TECHNOLOGIES, which also helped me in doing a lot of Research and i came to know about so many new things.
I am really thankful to them.
Secondly i would also like to thank my parents and friends who helped me a lot in finishing this project within the limited time.
I am making this project not only for marks but to also increase my knowledge .
THANKS AGAIN TO ALL WHO HELPED ME.
MANTEK SINGH BHATIAA2305212305
ASET 3CS6
FACULTY CERTIFICATE
This is to certify that Mr. MANTEK SINGH BHATIA, student of
B.Tech. in CSE has carried out the work presented in the project of
the Term paper entitle "CLOUD COMPUTING AND
VIRTUALIZATION TECHNOLOGIES" as a part of First year
programme of Bachelor of Technology in COMPUTER SCIENCE
AND ENGINEERING from Amity School of Engineering and
Technology, Amity University, Noida, Uttar Pradesh under my
supervision.
MR. Y.S. RATHORECSE DEPARTMENT
ASET , NOIDA
PREFACE
Cloud computing is the latest of computing paradigms. It promises to change the way people use computing resources. Using Internet as the backbone, cloud computing asserts that it is possible to provide computing as a “utility” to end users “as and when needed” basis. Cloud computing has a potential to serve users of all kinds: individual users, institutions, industry at large. This report cover issues such nature and scope of cloud computing, its applications, business rationale etc.
Cloud computing is a business model that harnesses the web as the ultimate business platform. Cloud computing is impregnated with immense potential for array of practical applications. The model is expected make computing needs available via web on retail basis and is called cloud computing. Cloud computing intends to make the Internet the ultimate home of all computing resources- storage, computations, applications and allow end user to available them in quantities of her choice, location of their preferences, for duration of their liking. In other world web become the provision store for all your computing needs.
INDEX
INTRODUCTION
HISTORY
WORKING OF CLOUD COMPUTING
CLOUD ARCHITECTURE
COMPONENTS OF CLOUD COMPUTING
TYPES OF CLOUD COMPUTING
ROLES PLAYED IN CLOUD COMPUTING
APPLICATIONS OF CLOUD COMPUTING
CHARACTERISTICS OF CLOUD COMPUTING
ADVANTAGES AND DRAWBACKS OF CLOUD COMPUTING
CONCLUSION
BIBLOGRAPHY
INTRODUCTION
Why do I buy a computer when I use it for only few hours a week? Why do I buy a printer when I need printing occasionally? Is it possible to avail computing on “need basis” as it is possible in case of “electricity” or “water? In other words, can I avail computing resources such as storage, application, and infrastructure as a “utility”? The answer is yes. And the name of model which is expected make computing available on retail basis is called cloud computing.
Cloud computing intends to make the Internet the ultimate home of all computing resources- storage, computations, applications and allow end user (both individuals and business) to avail these resources in quantities of her choice, location of their preferences, for duration of their liking. In other world web become the provision store for all your computing needs. A business model built on this paradigm offers these resources as services either on pay per use basis or rental basis.
Cloud computing is a term used to describe both a platform and type of application. A cloud computing platform dynamically provisions, configures, reconfigures, and deprovisions servers as needed. Servers in the cloud can be physical machines or virtual machines. Advanced clouds typically include other computing resources such as storage area networks (SANs), network equipment, firewall and other security devices. Cloud computing infrastructure accelerates and fosters the adoption of innovations. Cloud computing can enable innovations. It alleviates the need of innovators to find resources to develop, test, and make their innovations available to the user community. Innovators are free to focus on the innovation rather than the logistics of finding and managing resources that enable the innovation.
Cloud computing helps leverage innovation as early as possible to deliver business value to a company and its customers. Cloud computing infrastructure allows enterprises to achieve more efficient use of their IT hardware and software investments. Cloud computing can increase profitability by improving resource utilization. Pooling resources into large clouds drives down costs and increases utilization by delivering resources only for as long as those resources are needed. Cloud computing allows individuals, teams, and organizations to streamline procurement processes and eliminate the need to duplicate certain computer administrative skills related to setup, configuration, and support.
Why cloud computing?
Cloud computing infrastructure accelerates and fosters the adoption of innovations. Cloud computing can enable innovations. It alleviates the need of innovators to find resources to develop, test, and make their innovations available to the user community. Innovators are free to focus on the innovation rather than the logistics of finding and managing resources that enable the innovation. Cloud computing helps leverage innovation as early as possible to deliver business value to a company and its customers.
Cloud computing is Internet("cloud") based on development and use of computer technology("computing").It is a style of computing in which dynamically scalable and often virtualized resources are provided as a service over the internet. Users need not have knowledge of, expertise in, or control over the technology infrastructure "in the cloud" that supports them. The concept incorporates Infrastructure as a Service(IaaS), Platform as a Service (PaaS) and Software as a Service (SaaS) as well as Web 2.0 and other recent (ca. 2007-2009) technology trends which have the common theme of reliance on the Internet for satisfying the computing needs of the users. Examples of SaaS vendors include Salesforce.comand Google Apps which provide common business applications online that are accessed from a web browser, while the software and data are stored on the servers. A cloud is a pool of virtualized computer resources.
A cloud can:
Host a variety of different workloads, including batch-style back-end jobs and interactive, user-facing applications.
Allow workloads to be deployed and scaled-out quickly through the rapid provisioning of virtual machines or physical machines.
Support redundant, self recovering, highly scalable programming models that allow workloads to recover from many avoidable software/hardware failures.
Monitor resource use in real time to enable rebalancing of allocations when needed.
HISTORY
The underlying concept dates back to1960whenJohn McCarthy opined that "computation may someday be organized as a public utility"; indeed it shares characteristics with service bureaus which date back to the 1960s. The term cloud had already come into commercial use in the early 1990s to refer to large ATM networks. By the turn of the 21st century, the term "cloud computing" had started to appear, although most of the focus at this time was on Software as a Service (SaaS).
In 1999,Salesforce.comwas established by Marc Benioff, Parker Harris, and his fellows. They applied many technologies of consumer web sites like Google and Yahoo! to business applications.
IBM extended these concepts in 2001,as detailed in the Autonomic Computing Manifesto-which described advanced automation techniques such as self-monitoring, self-healing, self-configuring, and self-optimizing in the management of complex IT systems with heterogeneous storage, servers, applications, networks, security mechanisms, and other system elements that can be virtualized across an enterprise.
Amazon.com played a key role in the development of cloud computing by modernizing their data centres after the dot-com bubble and, having found that the new cloud architecture resulted in significant internal efficiency improvements, providing access to their systems by way of Amazon Web Services in 2002 on a utility computing basis.
2007 saw increased activity, with Google, IBM and a number of universities embarking on a large scale cloud computing research project, around the time the term started gaining popularity in the mainstream press.
WORKING OF CLOUD COMPUTING
In cloud computing you only need to load one application. This application would allow workers to log into a Web-based service which hosts all the programs the user would need for his or her job. Remote machines owned by another company would run everything from e-mail to word processing to complex data analysis programs. It’s called cloud computing, and it could change the entire computer industry.
In a cloud computing system, there's a significant workload shift. Local computers no longer have to do all the heavy lifting when it comes to running applications. The network of computers that make up the cloud handles them instead. Hardware and software demands on the user's side decrease. The only thing the user's computer needs to be able to run is the cloud computing systems interface software, which can be as simple as a Web browser, and the cloud’s network takes care of the rest.
CLOUD ARCHITECTURE
Cloud architecture, the systems architecture of the software systems involved in the delivery of cloud computing, comprises hardware and software designed by a cloud architect who typically works for a cloud integrator. It typically involves multiple cloud components communicating with each other over application programming interfaces, usually web services.
Cloud architecture extends to the client, where web browsers and/or software applications access cloud applications.
Cloud storage architecture is loosely coupled, where metadata operations are centralized enabling the data nodes to scale into the hundreds, each independently delivering data to applications or users.
COMPONENTS OF CLOUD
1. APPLICATION
A cloud application leverages the Cloud in software architecture, often eliminating the need to install and run the application on the customer's own computer, thus alleviating the burden of software maintenance, ongoing operation, and support.
2. CLOUD CLIENTS
A cloud client consists of computer hardware and/or computer software which relies on the cloud for application delivery, or which is specifically designed for delivery of cloud services and which, in either case, is essentially useless without it. For example: Mobile, Thin client, Thick client / Web browser.
3. CLOUD INFRASTRUCTURE
Cloud infrastructure, such as Infrastructure as a service, is the delivery of computer infrastructure, typically a platform virtualization environment, as a service. For example: grid computing, Management, Compute, Platform.
4. CLOUD PLATFORMS
A cloud platform, such as Paas, the delivery of a computing platform, and/or solution saas, facilitates deployment of applications without the cost and complexity of buying and managing the underlying hardware and software layers.
5. CLOUD SERVICES
A cloud service includes "products, services and solutions that are delivered and consumed in real-time over the Internet” . For example Web Services ("software system[s] designed to support interoperable machine-to-machine interaction over a network") which may be accessed by other cloud computing components, software, e.g., Software plus services, or end users directly.
6. CLOUD STORAGE
Cloud storage involves the delivery of data storage as a service, including database-like services, often billed on a utility computing basis, e.g., per gigabyte per month. For example Database, Network attached storage, Web service.
TYPES OF CLOUD
1. PUBLIC CLOUD
Public cloud or external cloud describes cloud computing in the traditional mainstream sense, where by resources are dynamically provisioned on a fine-grained, self-service basis over the Internet, via web applications/web services, from an off-site third-party provider who shares resources and bills on a fine-grained utility computing basis.
2. HYBRID CLOUD
A hybrid cloud environment consisting of multiple internal and/or external providers "will be typical foremost enterprises".
3. PRIVATE CLOUD
Private cloud and internal cloud are neologisms that some vendors have recently used to describe offerings that emulate cloud computing on private networks. These (typically virtualization automation) products claim to "deliver some benefits of cloud computing without the pitfalls", capitalizing on data security, corporate governance, and reliability concerns.
They have been criticized on the basis that users "still have to buy, build, and manage them" and as such do not benefit from lower up-front capital costs and less hands-on management , essentially “ [lacking] the economic model that makes cloud computing such an intriguing concept”. While an analyst predicted in 2008 that private cloud networks would be the future of corporate IT, there is some contention as to whether they are a reality even within the same firm.
ROLES PLAYED IN CLOUD COMPUTING
1. CLOUD COMPUTING PROVIDERS
A cloud computing provider or cloud computing service provider owns and operates live cloud computing systems to deliver service to third parties. Usually this requires significant resources and expertise in building and managing next-generation data centers. Some organizations realize a subset of the benefits of cloud computing by becoming "internal" cloud providers and servicing themselves, although they do not benefit from the same economies of scale and still have to engineer for peak loads. The barrier to entry is also significantly higher with capital expenditure required and billing and management creates some overhead.
Nonetheless, significant operational efficiency and agility advantages can be realized, even by small organizations , and server consolidation and virtualization rollouts are already wellunderway.Amazon.com was the first such provider, modernizing its data centers which, like most computer networks, were using as little as 10% of its capacity at any one time just to leave room for occasional spikes. This allowed small, fast-moving groups to add new features faster and easier, and they went on to open it up to outsiders as Amazon Web Services in 2002 on a utility computing basis.
Players in the cloud computing service provision game include the likes of Amazon, Google, Hewlett Packard, IBM, Intel, Microsoft, Sales force, SAP and Yahoo!
2. USER
A user is a consumer of cloud computing. The privacy of users in cloud computing has become of increasing concern. The rights of users are also an issue, which is being addressed via a community effort to create a bill of rights.
3. VENDOR
A vendor sells products and services that facilitate the delivery, adoption and use of cloud computing. For example: Computer hardware, Storage, infrastructure, Computer software, Operating systems, Platform virtualization.
APPLICATIONS OF CLOUD COMPUTING
1. EASY ACCESS TO DATA
Clients would be able to access their applications and data from anywhere at any time. They could access the cloud computing system using any computer linked to the internet.
2. REDUCTION OF COSTS
It could bring hardware costs down. Cloud computing systems would reduce the need for advanced hardware on the client side. You wouldn't need to buy the fastest computer with the most memory, because the cloud system would take care of those needs for you. Instead, you could buy an inexpensive computer terminal, enough processing power to run the middleware necessary to connect to the cloud system.
3. CONVENIENCE
Corporations that rely on computers have to make sure they have the right software in place to achieve goals. Cloud computing systems give these organizations company-wide access to computer applications. Instead, the company could pay a metered fee to a cloud computing company.
4. EASY STORAGE
Servers and digital storage devices take up space. Some companies rent physical space to store servers and databases because they don't have it available on site. Cloud computing gives these companies the option of storing data on someone else's hardware, removing the need for physical space on the front end.
CLOUD COMPUTING SERVICES
1. AMAZON WEB SERVICES
The Amazon development model involves building Zen virtual machine images that are run in the cloud by EC2. That means you build your own Linux/Unix or Windows operating system image and upload it to be run in EC2. AWS has many pre-configured images that you can start with and customize to your needs. There are web service APIs (via WSDL) for the additional support services like S3, Simple DB, and SQS. Because you are building self-contained OS images, you are responsible for your own development and deployment tools. AWS is the most mature of the CC options. Applications that require the processing of huge amounts of data can make effective you of the AWS on-demand EC2 instances which are managed by Hadoop.
2. GOOGLE App ENGINE
GAE allows you to run Python/Django web applications in the cloud. Google provide a set of development tools for this purpose, i.e. You can develop your application within the GAE run-time environment on our local system and deploy it after it’s been debugged and working the way you want it.
Google provides entity-based SQL-like (GQL) back-end data storage on their scalable infrastructure (Big Table) that will support very large data sets. Integration with Google Accounts allows for simplified user authentication.
3. MICROSOFT WINDOWS AZURE
Azure is essentially a Windows OS running in the cloud. You are effectively uploading and running yourASP.NET (IIS7) or .NET (3.5) application. Microsoft provides tight integration of Azure development directly into Visual Studio 2008. For enterprise Microsoft developers the .NET Services and SQL Data Services (SDS) will make Azure a very attractive option. The Live Framework provides a resource model that includes access to the Microsoft Live Mesh services.
CHARACTERSTICS COST
Pricing is based on usage-based options and minimal or no IT skills are required for implementation.
DEVICE AND LOCATION INDEPENDENCE
It enable users to access systems using a web browser regardless of their location or what device they are using, e.g. PC, mobile
MULTI-TENANCY
This enables sharing of resources and costs among a large pool of users.
RELIABILITY
This is suitable for business continuity and disaster recovery.
SCALABILITY
Dynamic ("on-demand") provisioning of resources without users having to engineer for peak loads
SECURITY
It improves due to centralization of data, increased security-focused resources.
ADVANTAGES OF CLOUD COMPUTING
Ability to scale to meet changing user demands quickly Pay by use. Task oriented. Virtually no maintenance due to dynamic infrastructure software. Application and operating system independent. Easy to develop your own web-based applications that runs in the cloud. Location of infrastructure in areas with lower costs of real estate and electricity. Sharing of peak-load capacity among a large pool of users, improving overall
utilization. Separation of application code from physical resources. Not having to purchase assets for one time or infrequent computing tasks. Ability to use external assets to handle peak loads.
DRAWBACKS OF CLOUD COMPUTING
Often limited or no technical support available.Canned solutions such may not be full-featured or too task oriented.When there are technical issues, you may lose access to your data or application.No control.You must have an internet connection.If the company hosting the application goes out of business, you may lose access to your data or application permanently.
CONCLUSION
Cloud computing offers real alternatives to IT departments for improved flexibility and lower cost. Markets are developing for the delivery of software applications, platforms, and infrastructure as a service to IT departments over the “cloud”.
These services are readily accessible on a pay-per-use basis and offer great alternatives to businesses that need the flexibility to rent infrastructure on a temporary basis or to reduce capital costs. Architects in larger enterprises find that it may still be more cost effective to provide the desired services in-house in the form of “private clouds” to minimize cost and maximize compatibility with internal standards and regulations.
If so, there are several options for future-state systems and technical architectures that architects should consider finding the right trade-off between cost and flexibility. Using an architectural framework will help architects evaluate these trade-offs within the context of the business architecture and design a system that accomplishes the business goal.
BIBILOGRAPHY
http://en.wikipedia.org/wiki/Cloud_computing http://communication.howstuffworks.com/cloud-computing1.htm http://communication.howstuffworks.com/cloud-computing2.htm http://en.wikipedia.org/wiki/Cloud_computing_user http://communication.howstuffworks.com/cloud-computing.htm http://communication.howstuffworks.com/cloud-computing.htm/printable http://cloudcadet.com/what-is-cloud-computing/ http://askville.amazon.com/advantages-disadvantages-Web-based-Cloud-Computing-
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