云计算Cloud-Computing-外文翻译.doc

1、 毕业设计说明书 英文文献及中文翻译 计算机与控制工程 学生姓名： 学号： 计算机科学与技术 学 院： 专 业： 指导教师： 2017 年 6 月 英文文献 Cloud Computing 1. Cloud Computing at a Higher Level In

2、many ways, cloud computing is simply a metaphor for the Internet, the increasing movement of compute and data resources onto the Web. But there’s a difference: cloud computing represents a new tipping point for the value of network computing. It delivers higher efficiency, massive scalability, and f

3、aster, easier software development. It’s about new programming models, new IT infrastructure, and the enabling of new business models. For those developers and enterprises who want to embrace cloud computing, Sun is developing critical technologies to deliver enterprise scale and systemic qualities

4、 to this new paradigm: (1) Interoperability — while most current clouds offer closed platforms and vendor lock-in, developers clamor for interoperability. Sun’s open-source product strategy and Java™ principles are focused on providing interoperability for large-scale computing resources. Think of

5、the existing cloud “islands” merging into a new, interoperable “Intercloud” where applications can be moved to and operate across multiple platforms. (2) High-density horizontal computing — Sun is pioneering high-power-density compute-node architectures and extreme-scale Infiniband fabrics as part

6、of our top-tier HPC deployments. This high-density technology is being incorporated into our large-scale cloud designs. (3)Data in the cloud — More than just compute utilities, cloud computing is increasingly about petascale data. Sun’s Open Storage products offer hybrid data servers with unpreced

7、ented efficiency and performance for the emerging data-intensive computing applications that will become a key part of the cloud. These technology bets are focused on driving more efficient large-scale cloud deployments that can provide the infrastructure for next-generation business opportunities

8、 social networks, algorithmic trading, continuous risk analysis, and so on. 2. Why Cloud Computing? (1)Clouds: Much More Than Cheap Computing Cloud computing brings a new level of efficiency and economy to delivering IT resources on demand — and in the process it opens up new business models an

9、d market opportunities. While many people think of current cloud computing offerings as purely “pay by the drink” compute platforms, they’re really a convergence of two major interdependent IT trends: IT Efficiency — Minimize costs where companies are converting their IT costs from capital expense

10、s to operating expenses through technologies such as virtualization. Cloud computing begins as a way to improve infrastructure resource deployment and utilization, but fully exploiting this infrastructure eventually leads to a new application development model. Business Agility — Maximize return us

11、ing IT as a competitive weapon through rapid time to market, integrated application stacks, instant machine image deployment, and petascale parallel programming. Cloud computing is embraced as a critical way to revolutionize time to service. But inevitably these services must be built on equally inn

12、ovative rapid-deployment-infrastructure models. To be sure, these trends have existed in the IT industry for years. However, the recent emergence of massive network bandwidth and virtualization technologies has enabled this transformation to a new services-oriented infrastructure. Cloud computing

13、 enables IT organizations to increase hardware utilization rates dramatically, and to scale up to massive capacities in an instant — without constantly having to invest in new infrastructure, train new personnel, or license new software. It also creates new opportunities to build a better breed of n

14、etwork services, in less time, for less money. IT Efficiency on a Whole New Scale Cloud computing is all about efficiency. It provides a way to deploy and access everything from single systems to huge amounts of IT resources — on demand, in real time, at an affordable cost. It makes high-performan

15、ce compute and high-capacity storage available to anyone with a credit card. And since the best cloud strategies build on concepts and tools that developers already know, clouds also have the potential to redefine the relationship between information technology and the developers and business units

16、that depend on it. Reduce capital expenditures — Cloud computing makes it possible for companies to convert IT costs from capital expense to operating expense through technologies such as virtualization. Cut the cost of running a datacenter — Cloud computing improves infrastructure utilization rat

17、es and streamlines resource management. For example, clouds allow for self-service provisioning through APIs, bringing a higher level of automation to the datacenter and reducing management costs. Eliminate over provisioning — Cloud computing provides scaling on demand, which, when combined with ut

18、ility pricing, removes the need to overprovision to meet demand. With cloud computing, companies can scale up to massive capacities in an instant. For those who think cloud computing is just fluff, take a closer look at the cloud offerings that are already available. Major Internet providers A, Goo

19、gle, and others are leveraging their infrastructure investments and “sharing” their large-scale economics. Already the bandwidth used by Amazon Web Services (AWS) exceeds that associated with their core e-tailing services. Forward-looking enterprises of all types — from Web 2.0 startups to global en

20、terprises — are embracing cloud computing to reduce infrastructure costs. Faster, More Flexible Programming Cloud computing isn’t only about hardware — it’s also a programming revolution. Agile, easy-to-access, lightweight Web protocols — coupled with pervasive horizontally scaled architecture — c

21、an accelerate development cycles and time to market with new applications and services. New business functions are now just a script away. Accelerated cycles — The cloud computing model provides a faster, more efficient way to develop the new generation of applications and services. Faster developm

22、ent and testing cycles means businesses can accomplish in hours what used to take days, weeks, or months. Increase agility — Cloud computing accommodates change like no other model. For example, Animoto Productions, makers of a mashup tool that creates video from images and music, used cloud comput

23、ing to scale up from 50 servers to 3,500 in just three days. Cloud computing can also provide a wider selection of more lightweight and agile development tools, simplifying and speeding up the development process. The immediate impact will be unprecedented flexibility in service creation and accele

24、rated development cycles. But at the same time, development flexibility could become constrained by APIs if they’re not truly open. Cloud computing can usher in a new era of productivity for developers if they build on platforms that are designed to be federated rather than centralized. But there’s

25、a major shift underway in programming culture and the languages that will be used in clouds. Today, the integrated, optimized, open-source Apache, MySQL, PHP/Perl/Python (AMP) stack is the preferred platform for building and deploying new Web applications and services. Cloud computing will be the c

26、atalyst for the adoption of an even newer stack of more lightweight, agile tools such as lighttpd, an open-source Web server; Hadoop, the free Java software framework that supports data-intensive distributed applications; and MogileFS, a that enables horizontal scaling of storage across any number

27、of machines. (2)Compelling New Opportunities: The Cloud Ecosystem But cloud computing isn’t just about a proliferation of Xen image stacks on a restricted handful of infrastructure providers. It’s also about an emerging ecosystem of complementary services that provide computing resources such as o

28、n-ramps for cloud abstraction, professional services to help in deployment, specialized application components such as distributed databases, and virtual private datacenters for the entire range of IT providers and consumers. These services span the range of customer requirements, from individual d

29、evelopers and small startups to large enterprises. And they continue to expand the levels of virtualization, a key architectural component of the cloud that offers ever-higher abstractions of underlying services. (3) How Did Cloud Computing Start? At a basic level, cloud computing is simply a mean

30、s of delivering IT resources as services. Almost all IT resources can be delivered as a cloud service: applications, compute power, storage capacity, networking, programming tools, even communications services and collaboration tools. Cloud computing began as large-scale Internet service providers

31、such as Google, Amazon, and others built out their infrastructure. An architecture emerged: massively scaled, horizontally distributed system resources, abstracted as virtual IT services and managed as continuously configured, pooled resources. This architectural model was immortalized by George Gil

32、der in his October 2006 Wired magazine article titled “The Information Factories.” The server farms Gilder wrote about were architecturally similar to grid computing, but where grids are used for loosely coupled, technical computing applications, this new cloud model was being applied to Internet se

33、rvices. Both clouds and grids are built to scale horizontally very efficiently. Both are built to withstand failures of individual elements or nodes. Both are charged on a per-use basis. But while grids typically process batch jobs, with a defined start and end point, cloud services can be continuo

34、us. What’s more, clouds expand the types of resources available — , databases, and Web services — and extend the applicability to Web and enterprise applications. At the same time, the concept of utility computing became a focus of IT design and operations. As Nick Carr observed in his book The Big

35、 Switch, computing services infrastructure was beginning to parallel the development of electricity as a utility. Wouldn’t it be great if you could purchase compute resources, on demand, only paying for what you need, when you need it? For end users, cloud computing means there are no hardware acqu

36、isition costs, no software licenses or upgrades to manage, no new employees or consultants to hire, no facilities to lease, no capital costs of any kind — and no hidden costs. Just a metered, per-use rate or a fixed subscription fee. Use only what you want, pay only for what you use. Cloud computin

37、g actually takes the utility model to the next level. It’s a new and evolved form of utility computing in which many different types of resources (hardware, software, storage, communications, and so on) can be combined and recombined on the fly into the specific capabilities or services customers re

38、quire. From CPU cycles for HPC projects to storage capacity for enterprise-grade backups to complete IDEs for software development, cloud computing can deliver virtually any IT capability, in real time. Under the circumstances it is easy to see that a broad range of organizations and individuals wou

39、ld like to purchase “computing” as a service, and those firms already building hyperscale distributed data centers would inevitably choose to begin offering this infrastructure as a service. (4)Harnessing Cloud Computing So how does an individual or a business take advantage of the cloud computing

40、 trend? It’s not just about loading machine images consisting of your entire software stack onto a public cloud like AWS — there are several different ways to exploit this infrastructure and explore the ecosystem of new business models. Use the Cloud The number and quality of public, commercially

41、available cloud-based service offerings is growing fast. Using the cloud is often the best option for startups, research projects, Web 2.0 developers, or niche players who want a simple, low-cost way to “load and go.” If you’re an Internet startup today, you will be mandated by your investors to kee

42、p you IT spend to a minimum. This is certainly what the cloud is for. Leverage the Cloud Typically, enterprises are using public clouds for specific functions or workloads. The cloud is an attractive alternative for: Development and testing — this is perhaps the easiest cloud use case for enterpr

43、ises (not just startup developers). Why wait to order servers when you don’t even know if the project will pass the proof of concept? Functional offloading — you can use the cloud for specific workloads. For example, SmugMug does its image thumbnailing as a batch job in the cloud. Augmentation — C

44、louds give you a new option for handling peak load or anticipated spikes in demand for services. This is a very attractive option for enterprises, but also potentially one of the most difficult use cases. Success is dependent on the statefulness of the application and the interdependence with other

45、datasets that may need to be replicated and load-balanced across the two sites. Experimenting — Why download demos of new software, and then install, license, and test it? In the future, software evaluation can be performed in the cloud, before licenses or support need to be purchased. Build the C

46、loud Many large enterprises understand the economic benefits of cloud computing but want to ensure strict enforcement of security policies. So they’re experimenting first with “private” clouds, with a longer-term option of migrating mature enterprise applications to a cloud that’s able to deliver t

47、he right service levels. Other companies may simply want to build private clouds to take advantage of the economics of resource pools and standardize their development and deployment processes. Be the Cloud This category includes both cloud computing service providers and cloud aggregators — comp

48、anies that offer multiple types of cloud services. As enterprises and service providers gain experience with the cloud architecture model and confidence in the security and access-control technologies that are available, many will decide to deploy externally facing cloud services. The phenomenal gr

49、owth rates of some of the public cloud offerings available today will no doubt accelerate the momentum. Amazon’s EC2 was introduced only two years ago and officially graduated from beta to general availability in October 2008. Cloud service providers can: Provide new routes to market for startups and Web 2.0 application developers Offer new value-added capabilities such as analytics Derive a competitive edge through enterprise-level SLAs Help enterprise customers develop their own clouds If you’re building large datacenters today, you should probably be thinking about whether yo