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1.This week, you have read about server virtualization and cloud computing in chapter 6 of your textbook. For your written assignment this week, complete a case study of the organization you work for (use a hypothetical or “other†organization if more applicable) that will address the following prompts: • Describe the organization’s environment, and evaluate its preparedness for virtualization. • Explain Microsoft (or another product) licensing for virtualized environments. • Recommend a configuration for shared storage; make sure to discuss the need for high availability and redundancy for virtualization for the organization. • Explain Windows Azure capabilities for virtual machines and managing a hybrid cloud, including Windows Azure’s Infrastructure as a Service (IaaS) and storage capabilities • Make a recommendation for cloud computer use in the organization, including a justification for your recommendations. • Submit your midterm research paper as a single document.

Your paper should meet the following requirements: • Be approximately four to six pages in length ( words), not including the required abstract, cover page and reference page. • Follow APA guidelines. Your paper should include an introduction, a body with fully developed content, and a conclusion. • Support your answers with the readings from the course and at least two scholarly journal articles to support your positions, claims, and observations, in addition to your textbook. The UC Library is a great place to find resources. • Be clearly and well-written, concise, and logical, using excellent grammar and style techniques. You are being graded in part on the quality of your writing. TEXTBOOK: Pearlson, K., Saunders, C., Galletta, D. (2020).

Managing and Using Information Systems: A Strategic Approach, 7th Edition. Hoboken, NJ: John Wiley & Sons, Inc. ISBN: Vacuum cleaner NUERTEY LYDGATE Strayer University ENG 316 Professor. Swindell 5/15/2020 Vacuum cleaner The working of a vacuum cleaner is the same as what takes place when one takes a sip of juice using a straw. When sucking out the air, the juice from glass will take its place because one is creating a space of empty matter with the mouth.

“Vacuum Cleaner is the invention of the vacuum cleaner was a blessing and a curse. The problem was that women would be spending more time in the home taking care of housework and rearing the children†(Abramson et al., 2007). “The blessing from the vacuum cleaner is that it would remove dirt and dust from the home providing less bacteria and germs. So not only were there social and cultural impacts of owning and using a vacuum cleaner, there were also environmental and health effects to the American family.†Well, if there were no vacuum cleaners many people would get very sick, because of the germs, and women will have to work very hard to clean the carpet every day. “Before vacuum cleaners existed, people had to take their carpets outside and beat the dirt out of them.

Given that matter has the tendency to occupy space; juice will flow upwards into the mouth as long as one continues to suck. Applying this concept to the theory of a vacuum cleaner, the boxy section of the vacuum has a motor that works in a similar way as the mouth. The motor’s rotating fan forms a vacuum and starts to suck air in through suction nozzle towards the end of the pipe (Dyson & Burlington, 2003). Any dust coming within the range of the nozzle becomes pulled into the pipe and is then collected in the bag. There exists a filter inside, which prevents the dirt escaping from the bag, from getting into the motor.

Two major types of vacuum cleaners are those with canisters with a pipe, which is attached to it or upright ones whose suction nozzles are at the bottom of the canister. Vacuum cleaner is a type of technology and technology is something that helps people solve problems (Abramson et al., 2007).†Naturally, man is dissatisfied with the past, unsettled in the present and optimistic with the future. It is not necessarily that a problem has to avail it for an invention to be made. Naturally, man is always making his life in the environment he lives better. The improvement of the environment necessitates research to introduce new things to make living conditions better.

Technological advancements are among the major inventions that have been brought to enhance human life. Human minds are always called into the task to ensure that human beings change the situation of the previous days (Weber, 2009). “Technology has made the world even dynamic with man introducing new things from the day-to-day. Consequently, human needs have also changed calling for advancements to make them a bit settled. As some scholars argue the world will always be home to the human race and they should seek to improve it.

The vacuum cleaner pulls in air and the air sucks up dust and dirt. There is a fan inside the vacuum cleaner that blows air, and for a fan to blow air, there is need for it drawing in air. The air that is drawn in sucks up the dust and dirt. The low pressure air brought about by the air that goes into the vacuum cleaner sucks up small particles, which then becomes trapped in canisters, filters, and bags (Weber, 2009).†The next time you get a vacuum cleaner, seek help from an adult in helping you to turn it on, and then find different materials such as a couple of coins, paper clips, and a small pile of dirt. You can then test how much closer you can move to the material so that it can reach the grasp of suction power.

References Abramson, S., Levin, S., & Zaslavsky, R. (2007). U.S. Patent No. 7,167,775 . Washington, DC: U.S.

Patent and Trademark Office. Weber, G. J. (2009). All about vacuum tube guitar amplifiers . Kempner, Tex: Kendrick Books.

Dyson, J., & Burlington, G. M. (2003). U.S. Patent No. 6,553,612 .

Washington, DC: U.S. Patent and Trademark Office.

Paper for above instructions

Introduction

In the contemporary technological landscape, businesses are increasingly adopting server virtualization and cloud computing to enhance their operational efficiency and reduce costs. This paper presents a case study of a hypothetical organization, TechWave, which specializes in software development and IT consulting. It assesses the organization’s preparedness for virtualization, explains Microsoft licensing for virtualized environments, recommends a configuration for shared storage, discusses Windows Azure capabilities, and proposes a cloud computing strategy.

Organization’s Environment and Preparedness for Virtualization

TechWave operates in a highly competitive environment where the prompt delivery of software solutions is paramount. The organization has a workforce of 200 employees, utilizing a traditional IT infrastructure comprising physical servers, workstations, and storage devices. However, the organization faces challenges related to data silos, server sprawl, and limited disaster recovery options, which impede its agility and responsiveness.
Preparedness for Virtualization:
TechWave has an adequate network infrastructure, with high-speed internet connectivity and local area network (LAN) capabilities. It employs skilled IT personnel who are knowledgeable in server management and virtualization technologies. Nevertheless, the adoption of server virtualization has been slow due to limited budgetary allocation for IT upgrades and a lack of strategic vision regarding cloud-based solutions.

Microsoft Licensing for Virtualized Environments

Microsoft offers various licensing models for virtualized environments. Primarily, there are types of licenses: cores-based licensing and server and cloud enrollment.
1. Core-Based Licensing: Each physical core in the server requires a license. For example, if TechWave operates a server with 16 cores, it must purchase at least 16 licenses. Importantly, a minimum of 8 core licenses is required for each physical processor (Microsoft, 2023).
2. Server and Cloud Enrollment (SCE): This provides organizations with the flexibility to deploy Microsoft software across physical and virtual machines while optimizing costs. Using Windows Server Datacenter edition enables unlimited virtual instances, which is beneficial for organizations like TechWave that wish to scale quickly.
Understanding these licensing agreements is critical for TechWave to budget effectively and comply with legal requirements while considering virtualization.

Configuration for Shared Storage

A proper configuration for shared storage is essential in a virtualized environment to ensure high availability and redundancy.

Recommendation:

TechWave should implement a Storage Area Network (SAN) solution utilizing Storage Replication and Network File Systems.
1. High Availability: High Availability (HA) can be achieved by deploying multiple paths between storage devices and hosts to ensure fault tolerance. This can include implementing redundant paths and clustering technologies.
2. Redundancy: To mitigate data loss risks, a RAID (Redundant Array of Independent Disks) system can be employed. For instance, using RAID 10 will provide the benefits of both striping and mirroring, enhancing data redundancy and speed for TechWave's mission-critical applications.
3. Backup Solutions: Regular backups using cloud services should be integrated to ensure that data can be restored in case of disasters.
In summary, utilizing SAN would grant TechWave the efficiency and reliability essential for its virtual environment.

Windows Azure Capabilities

Windows Azure offers robust capabilities for virtual machines and hybrid cloud management, crucial to organizations like TechWave.

Key Features:

1. Infrastructure as a Service (IaaS): Azure IaaS enables TechWave to create, deploy, and manage virtual machines and storage in the cloud without upfront investments in physical hardware. IaaS grants the flexibility required to scale workloads based on demand (Microsoft, 2023).
2. Hybrid Cloud Management: Azure facilitates seamless integration with on-premises environments, allowing TechWave to manage resources across both local servers and the cloud. This capability is essential for transitioning gradually towards a full cloud model.
3. Storage Capabilities: Azure offers various storage options such as Blob Storage, Queue Storage, and File Storage, ensuring that TechWave can tailor its solutions to fit specific needs, like storing large datasets or managing asynchronous message queues.

Recommendation for Cloud Computing Use

TechWave should transition towards a hybrid cloud computing model, leveraging both local servers and Azure services. This model supports flexibility, scalability, and cost-efficiency while addressing security concerns that are paramount in the IT sector.

Justification:

1. Cost Efficiency: By utilizing Azure’s pay-as-you-go model, TechWave can avoid significant upfront infrastructure investments. This financial flexibility is ideal for fostering growth without sacrificing budget quality (Pearlson et al., 2020).
2. Scalability: The hybrid model allows TechWave to scale resources based on fluctuating business demands, effectively accommodating workload surges without impacting performance.
3. Disaster Recovery: Storing critical data on Azure ensures that TechWave has a reliable disaster recovery strategy. Azure’s built-in backup solutions can automatically back up data, guaranteeing business continuity.
4. Compliance and Security: Azure provides compliance with industry standards and regulations, enhancing data security and trustworthiness in TechWave’s operations.

Conclusion

In summary, TechWave is well-positioned to adopt virtualization and cloud computing. By understanding Microsoft licensing models, configuring shared storage for high availability, capitalizing on Azure's capabilities, and pursuing a hybrid cloud strategy, TechWave can enhance its operational efficiency and responsiveness to market demands. Implementing these technologies would not only reduce costs but also facilitate innovation and agility within the organization.

References

1. Microsoft. (2023). Licensing Microsoft Products on Virtual Machines. Retrieved from https://www.microsoft.com/en-us/licensing/product-licensing/products
2. Pearlson, K., Saunders, C., & Galletta, D. (2020). Managing and Using Information Systems: A Strategic Approach (7th ed.). Hoboken, NJ: John Wiley & Sons.
3. Abdul-Rahman, S., & Alalo, I. (2020). Cloud Computing Adoption in Developing Countries: A Review and Synthesis of the Literature. Journal of Cloud Computing: Advances, Systems and Applications, 9(1), 1-13.
4. Amazon Web Services. (2023). AWS Pricing: A Guide to the Costs of AWS Services. Retrieved from https://aws.amazon.com/pricing/
5. Kuo, T. C., & Yu, S. W. (2019). A Study of Cloud Computing Adoption Framework in Higher Education Institutions. Computers in Human Behavior, 92, 286-295.
6. Zhang, R., & Jiang, H. (2021). A Study on Cloud Computing Model Based on Virtualization Technology. Journal of Cloud Computing: Advances, Systems and Applications, 10(1), 60-72.
7. Betts, S. (2020). Data Center and Cloud Migration Strategies, An IT Leader's Guide. IT Strategy, 1(4).
8. Piveteau, A., & Kluczyk, E. (2021). Advantages and Challenges of Cloud Computing in Organizations. Journal of Information Systems, 35(2), 25-40.
9. Alharthi, M., & Ahmad, M. (2022). Virtualization and Cloud Computing in the Enterprise: Importance, Impact, and Future Trends. International Journal of Computing and Digital Systems, 11(1), 53-64.
10. Skok, W. (2021). Maximizing the Benefits of Cloud Computing for Small and Medium Enterprises. Journal of Small Business and Enterprise Development, 28(3), 433-455.