Order ID | 53563633773 |
Type | Essay |
Writer Level | Masters |
Style | APA |
Sources/References | 4 |
Perfect Number of Pages to Order | 5-10 Pages |
Cloud Financial Proposal Ranking Analysis
Step 2: Analyze and Rank the Proposals for Cost Favorability
You reviewed several proposals and discussed the responses with your peers in the previous step. Now it is time to consider the financial or cost proposal elements of the RFP responses and rank them in terms of favorability.
While the cost associated with a proposal should not be the primary decision-making criterion, it is important to analyze the financials in order to understand the feasibility for the vendor to actually provide the requested services, whether the proposed costs are within your budget, and to ensure that all relevant costs are included.
Use the financial proposal ranking template to rank these financial proposals in order from most favorable to least favorable.
Analyze the Financials
When evaluating RFP responses for selection, the financial or cost proposal should not be used as the primary decision-making criterion, but at a minimum you should conduct an analysis of the financial proposal to assess the following:
Feasibility for the vendor to actually provide the requested services
At the cost provided by the vendor, can the company actually provide the services that you requested? For example, if the vendor bids $1 million and you know that when you use the AWS TCO calculator, it will actually cost $2 million just to provide the AWS portion of the RFP, that should be a sign of a problem.
Is the cost for the services within your organization’s budget?
Are there any costs missing from the proposal that were required by the RFP?
For example, if the bid contains only the AWS costs and does not include the migration professional services costs, then you should disqualify the proposal.
In evaluating the financial proposal, it may help to use criteria such as the following:
Define a total number of possible points for the financial proposal
Give the lowest bidder the total number of possible points for the financial proposal
Prorate the points for all other bidders based on how the cost compares to the lowest bidder
For example, if the lowest bidder is $1 million and the total number of possible points is 100, the lowest bidder would get 100 points, and a bidder with 50% higher cost would only get 50 points (100 times 50%).
Analysis of Costs and Benefits of Cloud Computing
by Albana Madhi (Kacollja), Gjergji Shqau, and Aldi LekajAbstract: This article incorporates a theoretical and practical approach to cost-benefit analysis to help company managers to decide whether to adopt cloud computing. Cost-benefit analysis is divided into six distinct sections to determine what costs and benefits are economically significant for the case study analyzed.Based on the allocation sections, TEI (total economic impact) is applied. This methodology was chosen because it gives a general view of the impact and benefits in information technology to cloud computing adoption not only through the analysis of costs and benefits but also giving appropriate weight to existing information technology resources.The article deals with analysis, forecasts, and implementation of cloud computing, showing financial benefits acquired from “green IT” as a consequence from this technology. Through a detailed analysis of the cloud computing phenomenon and its connection with green IT, this article conducts a cost-benefit analysis as a case study using an Internet and communications services company. The aim is to show the potential benefits of the transition to cloud computing, benefits expressed in increased efficiency of the use of technological resources, or even increased environmental benefits.1. Approach and Methodology
Specifically, we followed these steps:
Interviewed marketing staff, sales and product managers, human resources managers.
Interviewed 13 PRIMO Communications engineers working in various areas of the organization.
Built an organization model based on features extracted from the interviews.
Built a financial model using the TEI method. The financial model was populated with data about the costs and benefits that emerged after interviews.
Following the methodology ,we analyzed four essential elements:
cost
benefits to the entire organization
strategic opportunities for flexibility
risk
Since large undertakings have a sophisticated investment analysis, particularly with regard to IT, TEI methodology provides a picture of the whole economic impact.2. Purpose of This Article
The project examines what will happen from the cost-benefit point of view in the case of transition services for PRIMO Communications from on-site compared with use of Amazon cloud services (AWS, Amazon Web Services) for the data center.3. Important Information
We have built a general picture for the total economic impact (TIE) of this change from an on-site data center to Amazon cloud service. Our hypothesis is that benefits of the shift to cloud computing data center will reduce the total operational cost. Many of the benefits of this transition are not easily translated into numerical values.However, there are three main areas where operational costs will undergo reduction:
cost savings of hardware devices
savings from energy consumption based on the loan of equipment to AWS
savings in staff costs
Engineering staff productivity will increase due to higher efficiency of systems and time management. The value and quality of products and services offered will generate increased consumer satisfaction.Although the results of cost-benefit analysis were positive, environmental benefits are difficult to define and to determine if they play a decisive role in the choice of cloud computing. This relates to the fact that many of the biggest providers of cloud computing build huge data centers and use energy in order to increase their effectiveness. They do not take into account that they are destroying renewable energy. Secondly, the current legislation in force, including the developed countries of the most experienced in this field, do not give priority to environmental protection.4. Project Description
A cost-benefit analysis in cloud computing transition was done for the company PRIMO Communications. The project analyzes the positive sides but also the risks if the company uses the services offered by Amazon.PRIMO Communications offers a package of services in Internet, telephone, and television. Since the number of users of these services is always growing, there is a constant need for capacity to offer quality and consistency.5. Action Plan
The action plan for the transition to the cloud is organized as follows.
Analyses will be supported on Amazon Web Services (AWS).
Source for the transition to the cloud will be built on VPC (Virtual Private Cloud Amazon).
IT staff will create a template Amazon Machine Image (AMI) for operating systems currently in use (middleware, libraries, relevant configuration data).
Annual cost of hardware maintenance (hardware annual maintenance cost) = annual cost of maintenance of the servers (annual maintenance cost of servers) + annual maintenance cost of the network equipment (annual maintenance cost of network hardware), where:
Annual cost of maintenance of servers = total number of servers * cost per server * A6
Annual cost of maintenance of network equipment = total cost per server * server * A5 * A6
Servers Operating Costs and Energy Costs for Cooling the ServersData center servers not only consume energy, but also transform energy into heat that must be removed from to avoid overheating equipment. A study carried out by the Green Grid estimated that most data center PUE ratio (power usage effectiveness) have a value between 1.3 and 3.0. In this calculation, we assumed a PUE of 2.5 (A3) as a conservative value. The reality may be even worse than this value because few measures are taken for increasing efficiency. The following equation was used to calculate the full power of estimating the energy demand of server multiplying it with PUE. Total energy use is multiplied by the average cost of electricity per kW/hour to assess the total annual cost of power. The annual costs for operation of servers and their cooling is calculated with the following formula:
Annual cost of power and cooling (annual cost of power and cooling) = total number of servers * standard energy consumption per server * A10 * annual hours of work per server * A3 * (A9/1000)
The table below gives an estimate of the annual costs associated with maintenance and operation of the PRIMO Communications data center.Annual Cost of Operating and Maintaining the Data Center in Primo CommunicationsData Center Servers CostRefItemCost Per UnitNumber of UnitsBasic CostYear 1Year 2Year 3C1Small servers41,0003123,00041,00041,00041,000C2Medium servers145,0005725,000241,667241,667241667C3Big servers295,00061,770,000590,000590,000590,000C4Huge servers597,00042,388,000796,000796,000796,000Data Center Equipment CostsRefItemCost Per UnitNumber of UnitsBasic CostYear 1Year 2Year 3C5Network equipment1,001,200333,733333,733333,733Hardware Maintenance Cost of the Data CenterRefItemCost Per UnitNumber of UnitsBasic CostYear 1Year 2Year 3C6Hardware maintenance33,73333,73333,733C7Total hardware cost6,007,2002,035,7732,035,7732,035,773Switching On and Cooling Costs of the Data CenterRefItemCost Per UnitNumber of UnitsBasic CostYear 1Year 2Year 3C8Cooling (kW)12 lek/kW512,0002,048,0002,048,0002,048,000C9Total cost of the data center4,083,773 lek4,083,773 lek4,083,773 lek13. Summary of Basic Business Costs
Adding annual staff cost to data center costs within PRIMO Communications:Actual CostsRefItemYear 1Year 2Year 3D1Staff total costs (B7)416,000436,800458,640D2Data center total costs (C9)4,083,7734,083,7734,083,773D3Basic total costs4,499,773 lek4,520,573 lek4,542,413 lek14. Project Implementation Costs
14.1 Phase Costs of Planning and Design
Less time will be needed for project planning, understanding of AWS technology, necessary design changes and in particular the design of modifications to be performed in a virtual portal application. This portal is an application that was designed and built within PRIMO Communications to facilitate the provisioning of virtual machines. This application needs to be modified in order to enable the creation and deployment of instances and volumes (EBS) in the AWS cloud. There is a need to develop additional functionality to support the rights of access control and automatic shutdown of computer resources that are not used. No external professional services will be required to assist in the design and implementation of the project. Engineers working in PRIMO Communications are virtualization experts, so the manager in charge of this project should not have trouble finding appropriate resources to properly design the project. However, the project will require time from other departments from networking and software engineers to give a more accurate solution. It is anticipated that efforts to become familiar with AWS technology and design of the solution will require about 20 days. The average full salary workers likely to be involved in the planning and designing of the project is around 46400 daily.Costs of Planning and Design Phase, Without Risk AdjustmentRefUnitCalculationBeginnerE1Work day20E2Cost of daily charge((B1+B2+B3)/3)/A746,400E3Planning and design costsE1*E2928,00014.2 Costs of Implementing the Project
The implementation phase of the project will be determined in about five months, which includes the transfer of servers. The initial stages and those that will follow it will require sufficient time for engineers to make the transition (migrate) the development of their existing environment to environment application using AWS—two days per server for a total of 36 days.Cost of the Project Implementation, Without Risk AdjustmentRefUnitCalculationBeginnerF1Work day30F2Cost of daily charge((B1+B2+B3)/3)/A746,400F3Planning and design costsF1*F21,392,00014.3 Cloud Infrastructure Costs
In order to have an accurate financial analysis, we determined the exact number of servers that will be transferred to AWS and the number of those who stay in the existing data center. Price for each hour varies by type of instance and by geographical location. Amazon offers several possibilities for the manner of payment, as follows:
Payment on demand using hourly rates/use
Payment of annual simultaneous or more years for an instance
Therefore, determining the number of instances you need and how long they are needed is the first step toward assessing the annual costs of AWS instances. For this purpose, we defined two categories of instances to be provisioned to meet the demands for resources during the year:
Baseline instances that are supposed to be used by engineers for a period of the year. They represent the minimum level of demand for computer resources. Buying these instances will be based on reservation model instances for a period of three years, which match the amortization period and the period of analysis.
Peak instances that are supposed to be used for a very short period of the year. They represent additional resources needed to meet the requirements in certain periods of the tests or by following the life cycle of different products. Buying such instances will be based on the prices of demand instances.
Annual use of instances per hour base load is calculated as:
Hours of use of ground instances (hours of baseline instance usage) = number of instances * basic * hours per year the average annual use of ground instances (average annual usage of baseline instance)
Hours of use uploaded instances (hours of peak instance usage) = number of instances * charged * hours per year the average annual use charge instances (average annual usage of peak instance)
The table below provides a summary of all costs for a cloud solution.Cloud Infrastructure Without Risk Adjustment
Baseline instance based on AWS hourly use/rateRefUnitsCost per UnitNumber of UnitsBasic CostYear 1Year 2Year 3J1Small server3.9 lek524211,92520,44820.448J2Medium server16.1 lek838778,764135,030135,030J3Big server30.1 lek34,944613,5231,051,8141,051,814J4Huge server50.2 lek17,472511,609877,094877,094Peak instances loaded in AWS planned for their useRefUnitsCost per UnitNumber of UnitsBasic CostYear 1Year 2Year 3J5Small server8.1 lek0J6Medium server30.5 lek350622710,67520,675J7Big server70.9 lek209786,734148,677148,677J8Huge server130.2 lek87466,376113,795113,795J9Volume EBS (GB)8.9453323,53240,34440,344J10EBS IOPS in millions8.9828643,01673,74573,745J11Total cost of cloud1,441,7062,471,6372,471,63714.4 Staff Costs
Since there will be fewer physical severs to maintain the existing data center and since each engineer will be able to provide authority previously configured automatically via the virtual application, thought loads of staff data center management will be reduced significantly, especially for both systems administrators. The table below provides a recalculation of their annual salary based on the assumption that system administrators will spend less time on operations and will have free time to focus on other activities.Recalculation of Annual SalaryRefMeasurement UnitBasic CostsNumberDecrease RateSalaryK1IT manager salary140,0001100%140,000K2System administrator salaries110,000280%176,000K3Developers salaries70,000410%28,000K4Total344,00014.5 Total Project Costs of Hybrid Cloud
The table below summarizes the overall project costs associated with the design, implementation, construction of infrastructure, and staff salaries by 5 percent annual growth. The present value (PV) is calculated as follows:PV = initial cost + cost of year 1 * .9091 + .8264 cost of year 2 * + * .7513 cost of year 3Summary of Total Costs of the ProjectRefUnitsStarting CostYear 1Year 2Year 3TotalActual CostL1Planning and project cost (E3)928,000928,000928,000L2Implementation costs (F3)1,392,0001,392,0001,392,000L3Staff costs (K4)344,000361,200379,2601,084,460896,164L4Cloud infrastructure costs (J11)1,441,7062,471,6372,471,6376,384,9805,210,157L5Total costs of the project2,320,0001,785,7062,832,8372,850,8979,789,4408,426,32115. Benefits and Opportunities for Savings
Most of the benefits that can be thought of in this project are not easily measurable in terms of return on investment (ROI). The hypothesis is that the benefits of cloud computing should obviously reduce the overall costs of operations performed in PRIMO Communications. The purpose of this section is to express these benefits in money so we can put a monetary value to their effects. Some calculations made in this section shall be conducted under uncertainty. Thus, we have two kinds of benefits:
quantitative benefits that go directly to the calculation of ROI
qualitative benefits that are not directly involved in calculating ROI
However, qualitative benefits are just as important as quantitative and should be considered in the final evaluation of the project. The following assumptions concerning the assessment of benefits are accomplished by following the categorization of benefits according to TEI.15.1 Benefit from Income
PRIMO Communications earns income from the sale of products and services. The objective of this project is to cut costs where possible while staying within the budget that is allocated. What is interesting in the category of benefits by income reductions are operational costs that can be achieved by the use of outside resources at PRIMO Communications. As shown in the table below, there are two areas in which reductions in major costs can be achieved:
reductions to electricity costs as a result of the passage of many servers in the Amazon cloud.
reductions in staff salary costs as a result of the greater effectiveness of the solution.
Operational Benefits Without Risk AdjustmentsRefUnitsCalculationsYear 1Year 2Year 3TotalM1Benefits from electricity powerC8-02,048,0002,048,0002,048,0006,144,000M2Benefits from paying staff salaryD1-L372,00075,60079,380226,980M3Total operational benefits2,120,0002,123,6002,127,3806,370,980Key Financial Indicators: Financial Indicators with Risk AdjustmentStartYear 1Year 2Year 3IRRPaybackPOINPVCosts-2,320,000-1,785,706-2,832,837-2,950,897Benefits3,294,6673,298,2673,302,047Savings-2,320,0001,508,961465,430451,1503.5%34.6%503,508.05The internal rate of return (IRR) of an indicator is used in finance to compare odds from the investment. It is calculated as below:
Savings Year 1 / (1 + IRR) + Savings Year 2 1 / (1 + IRR) 2 + Savings Year 3 (1 + IRR) 3 = initial investment return on investment (ROI) for the three-year period is calculated:
ROI = ((initial investment gains-) / initial investment) * 100
Payback is the period that the company should take the return from the initial investment, i.e., to refund the amount of the initial investment. This indicator is expressed in years. Calculate returns based on savings rather than benefits.Savings Year 1 + Year 2 + Savings Year 3 > = initial investmentNPV is the best indicator for decision making if a project will be resolved or not. It is calculated:
NPV = Savings Year 1 / (1 + discount rate) Savings Year 2 + 1 / (1 + discount rate) 2 + Savings Year 3 / (1 + discount rate) 3
NPV = 1508961 / (1 +0.1) 1 + 465 430 / (1 +0.1) 2 + 451 150 (1 +0.1) 3-2320000 = 503,508.05Since NPV of the project has been positive and as NPV is the best method of assessing whether a project should be elected or not, the company should choose the project.16. Conclusions
The analysis of the costs and benefits of data center transition to AWS for PRIMO Communications shows positive financial results.
IT leaders pursue initiatives for energy saving in IT infrastructure and operation in any IT team.
Cloud computing providers are more inclined to increase the efficiency of energy use because all this translates into increased profit margins.
Industrialization and development of this new part of the information technology industry will affect the growth of the efficiency of energy use continuously.
Cloud computing will reduce the dependence of users of computational resources on IT staff
Cloud computing will reduce the time of development of new products.
Adopting cloud technology will help mitigate the costs and risks.
A change in legislation regarding the carbon scheme movement and tax relief to companies that adhere to the code of ethics of the EU will affect the results of the financial analysis in the financial and environmental perspective.
Another issue on which research should be directed is creating dependency on a majority of European firms to those centered in the United States as Google or Microsoft.
The potential benefits of Green IT mainly in energy saving should make IT managers look at ways to increase the efficiency of operations
part 2
Step 3: Analyze and Rank the Proposals for Technical Favorability
In the previous step, you analyzed and ranked the financial proposals. Now, you’ll analyze and rank the proposals by their technical specifications.The general criteria that you should use includes the following:
all technical requirements met
all functional requirements met
experience/competency requirements met
strength of technical solutions
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Cloud Financial Proposal Ranking Analysis