DATA CENTER COLOCATION BUILD VS. BUY

DATA CENTER COLOCATION BUILD VS. BUY Comparing the total cost of ownership of building your own data center vs. buying third-party colocation services

Executive Summary As businesses grow, the need for reliable and scalable data center space to colocate IT a business in the form of decreased productivity, customer churn and lost revenues. Successful businesses often outgrow their own in-house computer and telecom room quickly. They also require suitable environments to support software development, testing, QA and production applications. Furthermore, as businesses target enterprise customers, the need for industry compliance and security increases. It is important to perform a comprehensive analysis of the costs, risks, and opportunities of building an in-house data center versus buying colocation services before expanding your data center. Build vs. Buy Colocation Uptime Institute s 2015 Data Center Survey showed that colocation service providers are expanding more rapidly than enterprise data centers. The reason behind this is that many enterprise data center workloads are migrating out of private, single-tenant data centers. More and more enterprise IT leaders are finding it easier to outsource their workloads to colocation and cloud providers. BUILD VS. BUY DATA CENTER SPENDING buying third-party colocation servicesincreases (2014 2015) 74% 47% Enterprise 58% receiving large spending increases Colocation Providers The survey further pointed out that the colocation providers showed continued rapid growth as shown in the percentage of new data center builds by colocation providers versus enterprises.

NEW DATA CENTER CONSTRUCTION Have you built a dacenter in the last 12 months? Will your organization build a new data center in the next 12 months? Colocation Providers 59% Colocation Providers 45% Enterprises 31% Enterprises 18% Building an in-house data center is expensive. In addition to tenant improvements to raw space, a company must consider the cost of bringing in more utility power and new carriers into their own data center. Also, installing new uninterruptible power systems (UPS), DC battery plants, diesel generators and HVAC systems to cool the servers, storage and networking equipment can be prohibitively expensive. These capital expense (CapEx) costs can add up quickly. Finally, hiring experienced data center personnel adds to the expense and takes resources away from a company s core business. In today s highly competitive and technology-driven environment, businesses are increasingly looking to either build or outsource their physical data center environments. in-house, because a colocation provider has the economies of scale of serving multiple customers. time. Uptime Institute Tier Classifications When considering building a data center, organizations typically build them to tier classification standards implemented by the Uptime Institute. The Uptime Institute is a leading 3rd party data center research, education, and consulting organization focused on data synonymous with certification and standards classifications within the data center industry.

Based on its research, the Uptime Institute has provided guidelines for Tier classifications and estimated the costs for building data centers. According to their research, the primary drivers of data center construction cost are the costs of power and cooling capacity to a data center. The four Tier Classifications provide a simple means for identifying the most common designs for building data centers. The Institute s tiered classification system addresses the needs of common benchmarking when discussing the abilities of data centers. The four tiers as classified by the Uptime Institute include the following: Tier 1: Composed of a single path for power and cooling distribution, without redundant components, providing 99.671% availability. Tier II: Composed of a single path for power and cooling distribution, with redundant components, providing 99.741% availability. Tier III: Composed of multiple active power and cooling distribution paths, but only one path active, has redundant components, and is concurrently maintainable, providing 99.982% availability. Tier IV: Composed of multiple active power and cooling distribution paths, has redundant components, and is fault tolerant, providing 99.995% availability. The Uptime Institute s research has also provided an estimation of the median costs of building facilities according to their tier structure. What transforms a raw space into a data center is the installation of utility power, redundant power systems and cooling. Data centers are often sized by the amount of protected electrical capacity of the facility measured in kilowatts (kw). The space required for power and mechanical needs grows incrementally based on the Tier level you decide upon. For example, Tier I and Tier II data centers can require a ratio of 1 to 1 support space, reducing actual allowed space for IT footprint. A Tier IV data center can require up to 3 to 1 of the space required to facilitate the IT footprint. Below are the Uptime Institute s cost estimates for building a data center broken down by three components: The kw Cost Component by desired level of functionality Tier I: 11,500/kW of redundant UPS capacity for IT Tier II: 12,500/kW of redundant UPS capacity for IT Tier III: 23,000/kW of redundant UPS capacity for IT Tier IV: 25,000/kW of redundant UPS capacity for IT

The Computer Room Component in all cases is 300/sq. ft. of computer floor and this cost must be added to the kw cost shown above. The Empty Space Component is added to the kw cost above at 190/sq. ft. Cost Examples of Building a Data Center In-house Based on the Uptime Institute benchmark costs, building data centers can be expensive. For example: Mid-sized Enterprise Data Center (5,000 square feet) Tier II level facility with 160 racks at 5.0 kw/rack (800 kw of UPS-protected power) @ 5.0kW/rack. (5,000 sq. ft. X 300/sq. ft.) + (800 kw x 12,500/kW) = 11.5 million Tier III level facility, with 160 racks at 10.0 kw/rack (1,600 kw of UPS-protected power) @ 10.0kW/rack. (5,000 sq. ft. X 300/sq. ft.) + (1,600 kw x 23,000/kW) = 38.3 million Small Data Center (1,000 square feet) Tier II level facility with 32 racks at 5.0 kw/rack (160 kw of UPS-protected power) @ 5.0kW/rack. (1,000 sq. ft. X 300/sq. ft.) + (160 kw x 12,500/kW) = 2.3 million Tier III level facility, with 32 racks at 10.0 kw/rack (320 kw of UPS-protected power) @ 10.0kW/rack. (1,000 sq. ft. X 300/sq. ft.) + (320 kw x 23,000/kW) = 7.7 million Large Telco Room (500 square feet) Tier II level facility with 16 racks at 5.0 kw/rack (80 kw of UPS-protected power) @ 5.0kW/ rack. (500 sq. ft. X 300/sq. ft.) + (80 kw x 12,500/kW) = 1.2 million Tier III level facility, with 16 racks at 10.0 kw/rack (160 kw of UPS-protected power) @ 10.0kW/rack. (500 sq. ft. X 300/sq. ft.) + (160 kw x 23,000/kW) = 3.8 million Build vs. Buy Colocation Comparisons Below we will compare the costs of 1) building a single tenant data center and 2) renting space from a retail colocation provider. The cost assumptions are based on matching the material, operations, and maintenance programs of a TIER II colocation provider. We also include the ongoing operational costs over a 5-year period. These comparisons assume a build option with the load at 40% of capacity with room for growth, utility costs of.08 per kwh and a 2.0 of 150 per mile per strand vs. cross connects. Note that while many colocation maintain a PUE of 1.3 to 1.5, building a single-tenant facility that is relatively small will result in a higher PUE. We have chosen to be extremely conservative in using a PUE assumption of 2.0.

Example A: 3 Cabinets @ 3kW per cab = 9 kw Load @30 kw Power Capacity Costs to Build Data Center In-House Architectural, Engineering, and Permitting Engineering Permits, Prep, and Demo 14,625.00 5,435.50 14,625.00 5,435.50 Power Construction Utility Improvements Electrical Panels Switch Gear Transfer Switches N+1 UPS Systems TVSS System Generator & Enclosures Generator Conduit and Cabling Data Center Lighting Lighting Protection Room PDUs 5,427.50 29,25 21,125.00 58,50 362.37 46,80 1,449.47 1,521.94 543.55 16,25 2,355.39 13,325.00 1,811.84 13,00 362.37 9,421.55 1,449.47 1,304.52 181.18 13,00 7,782.89 42,575.00 22,936.84 71,50 724.73 56,221.55 2,898.94 2,826.47 724.73 29,25 Environmental Controls HVAC Assets Raised Plenum Floor Condensate Drains Leak Detection Fire Suppression 20,15 2,826.47 289.89 869.68 6,142.50 14,494.69 4,348.41 289.89 173.94 2,174.20 34,644.69 7,174.87 579.79 1,043.62 8,316.70 Environmental Controls Facility Management System CCTV Building Access System 2,174.20 1,087.10 1,072.50 362.37 181.18 181.18 2,536.57 1,268.29 1,253.68 Build Estimate 314,319.86

Colocation Cost of Ownership Build vs. Buy Comparison over 5 years Constructions Costs Floor Space 500 sq. ft. @ 12 sq. ft. Annually Utility Electricity Cost @ 2.0 Electrical Maintenance Costs HVAC Maintenance Costs All Other System Maintenance Internet, Fiber, and Local Loop Charges Colocation Svcs. 9kW@350/kW/mo + 10k NRC Build In-house 314,32 30,00 63,072.00 23,855.00 26,786.00 26,786.00 180,00 640,354.00 Buy Colocation Services 30,00 199,00 229,00 64% Cost Savings of Buying Colocation vs. Building In-House Example B: 8 Cabinets @ 3kW per cab = 24 kw Load @70 kw Power Capacity Costs to Build Data Center In-House Architectural, Engineering, and Permitting Engineering Permits, Prep, and Demo 20,25 7,526.10 20,25 5,435.50 Power Construction Utility Improvements Electrical Panels Switch Gear Transfer Switches N+1 UPS Systems TVSS System Generator & Enclosures Generator Conduit and Cabling Data Center Lighting Lighting Protection Room PDUs 3,261.31 18,45 2,508.70 18,00 501.74 13,045.22 2,006.96 1,806.26 250.87 18,00 18,00 58,95 31,758.70 99,00 1,003.48 77,845.22 4,013.91 3,913.57 1,003.48 40,50 7,515.00 40,50 29,25 81,00 501.74 64,80 2,006.96 2,107.31 752.61 22,50

Environmental Controls HVAC Assets Raised Plenum Floor Condensate Drains Leak Detection Fire Suppression 27,90 3,913.57 401.39 1,204.17 8,505.00 20,069.57 6,020.87 401.39 240.83 3,010.44 47,969.57 9,934.44 802.78 1,445.01 11,515.44 Environmental Controls Facility Management System CCTV Building Access System 3,010.44 1,505.22 1,485.00 501.74 250.87 250.87 3,512.18 1,756.09 1,735.87 Build Estimate 435,212.15 Colocation Cost of Ownership Build vs. Buy Comparison over 5 years Constructions Costs Floor Space 500 sq. ft. @ 12 sq. ft. Annually Utility Electricity Cost @ 2.0 Electrical Maintenance Costs HVAC Maintenance Costs All Other System Maintenance Internet, Fiber, and Local Loop Charges Colocation Svcs. 9kW@350/kW/mo + 10k NRC Build In-house 435,212.00 60,00 168,192.00 23,855.00 35,714.00 2,321.00 180,00 905,294.00 Buy Colocation Services 30,00 529,00 559,00 64% Cost Savings of Buying Colocation vs. Building In-House

Example C: 20 Cabinets @ 3kW per cab = 60 kw Load @150 kw Power Capacity Costs to Build Data Center In-House Architectural, Engineering, and Permitting Engineering Permits, Prep, and Demo 46,125.00 17,142.76 46,125.00 17,142.76 Power Construction Utility Improvements Electrical Panels Switch Gear Transfer Switches N+1 UPS Systems TVSS System Generator & Enclosures Generator Conduit and Cabling Data Center Lighting Lighting Protection Room PDUs 17,142.76 92,25 66,625.00 184,50 1,142.85 147,60 4,571.40 4,799.97 1,714.28 51,25 7,428.53 42,025.00 42,025.00 41,00 1,142.85 29,714.12 4,571.40 4,114.26 571.43 41,00 24,546.03 134,275.00 72,339.25 225,50 2,285.70 177,314.12 9,142.81 8,914.24 2,285.70 92,25 Environmental Controls HVAC Assets Raised Plenum Floor Condensate Drains Leak Detection Fire Suppression 63,55 8,914.24 914.28 2,742.84 19,372.50 45,714.03 13,714.21 914.28 548.57 6,857.10 109,264.03 22,628.45 1,828.56 3,291.41 26,229.60 Environmental Controls Facility Management System CCTV Building Access System 6,857.10 3,428.55 3,382.50 1,142.85 571.43 571.43 7,999.96 3,999.98 3,953.93 Build Estimate 991,316.53

Cost of Ownership over 5 years Constructions Costs Floor Space 500 sq. ft. @ 12 sq. ft. Annually Utility Electricity Cost @ 2.0 Electrical Maintenance Costs HVAC Maintenance Costs All Other System Maintenance Internet, Fiber, and Local Loop Charges Colocation Svcs. 9kW@350/kW/mo + 10k NRC DIY 991,317.00 150,00 420,48 54,337.00 44,643.00 5,287.00 180,00 TIER II Colocation 30,00 1,460,00 1,846,064.00 1,490,00 19% Cost Savings of Buying Colocation vs. Building In-House Costs to Build In-House Data Center Building your own in-house data center is not a walk in the park. You need to make an informed decision about the feasibility of building one versus colocating your workloads to a colocation provider. An in-depth analysis of the costs, risks, and opportunities corresponding to each option helps uncover hidden costs: Construction Through the phases of planning, engineering, building, and completion, a typical data center for single tenant use could take 12-24 months to be move in ready. Existing colocation providers can have spaces move in ready within weeks, a much shorter time frame to manage. Building a data center means a company will need to shift time, knowledge, expertise, and additional personnel resources away from their core business to understand the specialized needs in a data center such as power, cooling, fire suppression, security, maintenance and local/environmental codes.

Ongoing Support Businesses must also consider not only the initial startup costs involved with construction and acquisition of real estate, but also the ongoing costs of power, heating and air conditioning, along with the security and maintenance of these physical assets. Scalability A life cycle of 10 or more years is expected when building a single tenant data center. This may lead to initial overbuilds that adds to the bill: additional capital, infrastructure, and energy consumption costs. If the data center is too big, the cost of each rack will be higher. If the data center is too small, the business will run out of space too soon and lose the cost-saving benefits through economies of scale. Colocation leases can be made for much shorter time frames, and allow a business to grow or reduce their footprint as needed. Colocation options typically allow capacity to be added or removed quickly and cost Shared Cost Structure In a single tenant data center, all of the costs of the space, power, and environmental infrastructure are absorbed by the user. A colocation service provider allows its clients to share in the lower fixed costs of facility management, maintenance, security and costs of infrastructure. Connectivity Building a single tenant data center can add additional costs of connectivity from carriers and ISPs by adding fiber and local loop charges. This can also extend the timeline for the facility to become fully operational. Colocation providers typically have carrier pops located within their premises that provide redundancy and access to their networks without additional local loop fees. Colocation providers may need to share the cost of building fiber entrance facilities or create an incentive to make it worthwhile for the carrier to extend their fiber network into the data center.

Certifications Another cost that needs to be accounted for is the cost of certifications as well as the requirements and processes that need to be in place for certifications such as SSAE16 and HIPAA. Conclusion Building an in-house data center is an expensive undertaking especially when you consider the total cost of ownership over the next five years. Buying colocation services from a third-party service provider is more cost-e building an in-house Tier 2 data center. References Uptime Institute Website: http://uptimeinstitute.com/about-us Uptime Institute White Paper: Dollars per kw plus Dollars per Square Foot of Computer Floor: http://www.level8group.com/uploads/costmodeldollarsperkwplusdollars.pdf Uptime Institute White Paper: Data Center Site Infrastructure Tier Standard: Topology: http://www.gpxglobal.net/wp-content/uploads/2012/10/tierstandard_topology_120801.pdf Uptime Institute Data Center Industry 2015: https://uptimeinstitute.com/ui-2015-survey

About Change the About 365 paragraph to this " is the leading data center solutions provider for cloud, content, carriers, and enterprises in tier 2 markets. We help hundreds of businesses to improve user experience, reduce cost, and speed innovation by leveraging our secure, carrier neutral, and reliable edge colocation services. With 100% uptime and industry compliance, ensures that mission-critical application infrastructure is highly available and conveniently accessible. For more information, visit 365datacenters.com