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Cloud Service Architecture for Green Computing Environment International Journal of Pure and Applied Mathematics Volume 119 No. 17 2018, 451-460 ISSN: 1314-3395 (on-line version) url: http://www.acadpubl.eu/hub/ Special Issue http://www.acadpubl.eu/hub/ Cloud Service Architecture for Green Computing Environment Dr.A.Clementking Associate Professor, PG and Research Department of Computer Science, Don Bosco College, Yelagiri [email protected] Abstract Green computing technology is attempt to create a sustainable pollution free Information Technology infrastructure for its users and secure the world for forthcoming generation. The technology myth are fall on cloud as a service for all solutions and domains. The cloud architecture Software as a service adopted and find the possible avenues to create the green computing environment. This paper addresses the conceptual view of green computing environment with possible impact on green through the usage of cloud SaaS Keywords: Green computing, Cloud computing, SaaS 1. Introduction technology are still questionable in the social economic sustainable environment The computation world is moving inline to the digital world. This paper towards new technology before maturing identifies the issue on the implicational the innovated technology to the rest of the impact of cloud architectural service and world. The business adaptation of its side effects on green computing. Before technology and its applications converted addressing the issues on the green, cloud as a service to their users based on the and its implementation factors the availability and demand of resources. The concepts discussed in an elaborative cloud, green computing and surface manner below. computing are the magic words from the technology innovators to the application 2. Green computing and business users. These magic words Green computing addresses issues on create an attraction to their users and management of the computing resources in improve the business strategy however; the an efficiently recyclable manner. Thus, real application and the benefits of reduce the effect of environmental 1 451 International Journal of Pure and Applied Mathematics Special Issue pollution due to the e-waste produced by substitute non-toxic materials in the the massive population. It would cover process of manufacturing the products. energy conversions that would crop up Some work habits of users can be amended during the transformation of resources to to diminish the consumption of energy and the sophisticated equipments that used at reduce the impact over the nature. They present. The resource management are: processes more completed in growing Disconnect the power of the devices Information technology infrastructure (CPU and peripheral devices) when without affecting the environments. The they are going remain dormant for companies attempt to manufacture eco- longer time[1]. friendly product that would be recyclable Computational tasks can be performed which used to construct IT proximately at certain phase and leave infrastructure[1] .This precaution product the device switched off at other physical resources not the digital contents time[1]. however the digital content should be Power raised and lowered for devices controlled to create green computing like laser printer according to the environments. The different vendor’s need[1]. initiatives and impacts towards green Make use of liquid crystal environments highlighted underneath displays(LCD) rather than The enormous amount of computing conventional cathode ray tube(CRT) resources produced by various companies displays[1]. all over the world in fact bangs the Make use of notebook or laptop environment directly. Many research computers rather than using a desktop scientists have been working over this computer [1]. issue in turn to diminish the negative force Make use of the features like power- on the environment. Eventually many management to turn off the hard-drives companies have started to focus on e-waste and the monitors when they inactive using different elucidations such as for long time [1]. recycling, reduced energy consumption and reduced hardware wastage. However, the inner idea of the research is to 2 452 International Journal of Pure and Applied Mathematics Special Issue Employ alternative energy source for The average lifetime of computers devices and dispose e-waste according has reduced to less than 2 years from 6 to the regulations [1]. years. These process based actions provide the Mobile phones have a very reduces emission free environments but at the end amount of lifespan. of the usage resources polluting the Sales of computers are increasing environments. The recycling process of the by 11% to 15% year by year. hardware addressed below Sales of mobile are growing double the rate of computers every year. 3. E-waste This sales promotion and upgrade process E-waste refers to those computing resource of hardware directly stating the wastage or that has worked to its maximum lifetime. disposal of hardware. The upgrade process This e-waste would be hazardous to the of Hardware and the replacement of nature when they are barely disposed[2]. devices occur due to one among the In addition, the stream of e-waste is following factors growing massively day-by-day. So necessary steps be taken to make it eco- Increase the storage area of the friendly and use them efficiently. devices To increase the process speed E-waste for now makes up 5% of the Transform the data transfer municipal waste. This is equal to the architecture amount of plastics, but it’s more hazardous. It believed that only developed Most of the users are interested to nations produce e-waste. But it’s estimated change/update the resources on the that Asia discards about 12 million tons of computational system for the mass storage e-waste every year. E-waste for now is the issues are identified one among the highly rapidly growing component of solid waste influential factor for the green computing because people upgrade their mobiles, environment. The digital content creating, computers, televisions and other devices distribution and storage plays vital role on more frequently [3]. the creation of green environment. The Digital content approach discussed in next session. 3 453 International Journal of Pure and Applied Mathematics Special Issue 4. Digital Content Management Most of us consider e-waste as those substances like a computer, a mobile phone and other hardware devices [4]. Our processing of data produces a massive amount of data every day. So like the unusable hardware that pollutes the environment. The unused, unwanted and out-dated data pollutes the digital environment. The digital content management can be profoundly done by The two major issues over handling digital doing the following activities: content are Data conversion and Data destruction. Reduce: unused or unwanted data should be reprimanded. Data conversion: To guarantee the . Reuse: use the existing storage inherited data over the generations some media and the data if it would be useful. archival digitizing services are necessary. Recycle: a code used in one These services would re-purpose and re- application can be used in another structure all the legacy data for future application in some other way. preservation. Recover: analyze the valuable Data destruction: Disposing a hard drive information for the sake of the sake of the into a trash is a great way to allow organization and recover it.(data mining) valuable data be stolen. Data destruction . Dispose: don’t hesitate to delete would be very useful to prevent the old the data which are unused for a long data be stolen. Data theft threats should be period.fig[4] noticed as the risk of data threat is very high. Formatting the drive, deleting or erasing is not enough. Data destruction policies incorporated to avoid the theft of data[5]. 4 454 International Journal of Pure and Applied Mathematics Special Issue The destruction of hardware produces the Conversely, there is an infringing between pollution on environment. The user could the quantity of digital data generated and adopt the measure and strong policy on the the availability of the hardware storage destruction of the hardware resources. The devices. If every byte of digital data that demand of replacement, upgrade and are generated should be stored then there modification occurs based on the volume would be a 35% shortfall in the availability of usage of data. The data volume and of the hardware storage devices. And the hardware usage discussed in the following IDC has predicted that the gap would grow part of paper [5]. more to nearly 60% of shortfall by the year 2020.Among the 35 ZB of expected digital 5. Digital content volume and data by 2020, about 75% of it would be the hardware usage copies of the original data. This embodies The generation of digital content volume is the opportunity of cost reduction through rapidly increasing every year. It is termed the advanced data services such as data as “Digital Universe” by the compression and data duplication. IDC(Industrial Design Centre). The digital Digital content creation and maintenance universe is growing as big as our physical affect infrastructure establishment that will universe. The number of files that are affect environment. The content stored in the digital universe is like the management will control the replacement number of stars in the physical universe. and upgrade process through cloud A recent study, which was conducted by technology .The cloud technology, IDC, stated that the global digital content services and architecture are elaborated. has approximately increased to 800,000 6. Cloud computing peta bytes (PB) between the years 2008 and 2009. It’s about 62% more in the Cloud Computing is the use of Internet- increase of digital data compared to the based technologies for the provision of previous year. In 2010 the digital content services. It can also be seen as a has increased to 1.2 million peta bytes (1.2 commercial evolution of the academic- zettabytes) and it is anticipated that it oriented Grid Computing, succeeding would reach 35 ZB by the year 2020.
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