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      The Flagship Series: INAP Boston Data Center and POPs


      Boston, Massachusetts is one of America’s oldest cities and the largest city in New England. Beantown is known for many things, including Fenway Park, the Boston Marathon, the American Revolution. And … colocation data centers? Okay, fine—that last item might not make the cut of a Boston Trip Advisor list anytime soon, but the data center market in the nation’s tenth largest metro area is stacked with Tier 3 facilities offering high-performance colocation solutions.

      Home to some of the nation’s most prestigious universities, Boston is at the forefront of research and development in a number of growing industries. Software, biotech and health care industries also figure prominently in the area’s economy. When these institutions are looking to cut costs and improve operations by moving their infrastructures off-premise, what is the deciding factor in going with colocation in Boston, rather than cloud in New York or elsewhere? Cloud vs. colocation is a common debate when looking to move off-premise, and choosing to go with either—or both—is a decision to be made based on your applications and IT infrastructure model.

      For companies looking to reside in close proximity to their data, needing a top-tier facility and demanding full control and ownership of the infrastructure stack, colocation is and will remain a popular solution. And Boston colocation options meet the needs of the local industries.

      Wholesale providers competing in this area are also seeing demand from Big Data analytics and high-performance computing markets, according to a Data Center Frontier.

      Are you considering Boston colocation for an off-premise move or need an upgrade over your existing environment? There are several reasons why we’re confident you’ll call INAP your future partner in this market.

      INAP’s Presence in Boston and Beyond

      We offer two POPs on a fiber ring through the metro area that connect to our Boston flagship. The data center provides a backbone connection to New York, Chicago and Montreal through our private fiber. INAP’s data center is positioned to support the growth in research and development in the city and region.

      With INAP, you can expect more from your data center. Designed with Tier 3 compliant attributes, our Boston data center is concurrently maintainable and energy efficient, which is important in markets like Boston. We offer high-density configurations, including cages, cabinets and private suites, which are fully integrated with critical infrastructure monitoring.

      Our Boston-area flagship is strategically located 10 minutes from downtown and Logan International Airport, outside of flood plains and seismic zones to help give you extra peace of mind. You’ll also find NOC and onsite engineers 24/7/365, with remote hands available. They’re dedicated to keeping your infrastructure online, secure and always operating at peak efficiency.

      At a glance, our Boston Data Center features:

      • Power: 6 MW of power capacity, 20+ kW per cabinet
      • Space: Over 45,000 square feet of leased space with 28,000 square feet of raised floor
      • Facilities: Tier 3 compliant attributes, located outside of flood plain and seismic zones
      • Energy Efficient Cooling: 1,600 tons of cooling capacity, N+1 with concurrent maintainability
      • Security: 24/7/365 onsite staff, video surveillance, key card and biometric authentication
      • Compliance: PCI DSS, HIPAA, SOC 2 Type II and annual independent compliance audits

      Download the Boston Center spec sheet here [PDF].

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      INAP’s Private Data Center Suites

      Boston is just one of INAP’s 11 locations offering Private Data Center Suites. Our private suites offer custom-built wholesale colocation solutions in Tier 3-design facilities. We support custom deployments of 250kW and up in state-of-the-art data centers equipped with redundant UPS and cooling infrastructure, advanced security features and premium amenities.

      These fully customizable colocation solutions provide access to INAP’s high-capacity network backbone and one-of-a-kind, latency-killing Performance IP® solution. Learn more about the INAP’s Private Data Center Suites here.

      INAP Interchange for Boston Colocation

      Considering Boston for colocation, but not sure where your future will take you? With INAP’s global footprint, which includes more than 600,000 square feet of leasable data center space, you’ll have access to data centers woven together by our high-performance network backbone and route optimization engine, ensuring your environment can connect everywhere, faster.

      With INAP Interchange, a spend portability program available to new colocation or cloud customers, you can switch infrastructure solutions—dollar for dollar—part-way through your contract. This will help you avoid environment lock-in and achieve current IT infrastructure goals while providing the flexibility to adapt for whatever comes next.

      INAP Colocation, Bare Metal and Private Cloud solutions are eligible for the Interchange program. Chat with us to learn more about these services, and how spend portability can benefit your infrastructure solution.

      Explore your options with INAP Interchange.

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      Laura Vietmeyer


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      The Flagship Series: INAP Atlanta Data Center Market Overview


      Atlanta is the Southeast’s leading economic hub. It may be the ninth largest metro-area in the U.S., but it ranks in the top five markets for bandwidth access, in the top three for headquarters of Fortune 500 companies and is home to the world’s busiest airport[i]. It should be no surprise that Atlanta is also popular and growing destination for data centers.

      There’s plenty about Atlanta that is attractive to businesses looking for data center space. Atlanta is favorable for its low power costs, low risk for natural disasters and pro-business climate. The major industries in Atlanta include technology, mobility and IoT, bioscience, supply chain and manufacturing.

      Low power and high connectivity are strong factors driving data center growth in this area. On average, the cost of power is under five cents per kilowatt-hour, a cost even more favorable than the 5.2 cents per kWh in Northern Virginia—the U.S.’s No. 1 data center market. Atlanta is on an Integrated Transmission System (ITS) for power, meaning all providers have access to the same grid, ensuring that transmission is efficient and reliable, according to Georgia Transmission Corp.

      Noted in the Newmark Knight Frank, 2Q18—Atlanta Data Center Market Trends report, the City of Atlanta is invested in becoming a sustainable smart city. Plans include a Smart City Command Center at Georgia Tech’s High Performance Computing Center and a partnership with Google Fiber.

      Economic incentives also aid Atlanta’s data center market growth. According to Bisnoow, legislators in Georgia passed House Bill 696, giving “data center operators a sales and use tax break on the expensive equipment installed in their facilities.” This incentive extends to 2028 and providers have taken notice. 451 Research noted that if all the providers who have declared plans to build follow through, Atlanta will overtake Dallas for the No. 3 spot for data center growth.

      Considering Atlanta for a colocation, network or cloud solution? There are several reasons why we’re confident you’ll call INAP your future partner in this growing market.

      The INAP Atlanta Data Center Difference

      With a choice of providers in this thriving metro, why choose INAP?

      Our Atlanta Data Centers—one located downtown and the other on the perimeter of the city—offer a reliable, high-performing backbone connection to Washington, D.C. and Dallas through our private fiber. INAP customers in these flagship data centers avoid single points of failure with our high-capacity metro network rings. Metro Connect provides multiple points of egress for traffic and is Performance IP® enabled. The metro rings are built on dark fiber and use state-of-the-art networking gear from Ciena.

      Atlanta Data Centers ACS Building
      Our downtown Atlanta flagship data center.

      These flagship data centers offer cages, cabinets and private suites, all housed under facilities designed with Tier 3 compliant attributes. For customers looking to manage largescale deployments, Atlanta is a great fit—our private colocation suites give the flexibility they need. And for customers looking to reduce their footprint, our high-density data centers allow them to fit more gear into a smaller space.

      To find a best-fit configuration within the data center, customers can work with INAP’s expert support technicians to adopt the optimal architecture specific to the needs of their applications. Engineers are onsite in the Atlanta data centers and are dedicated to keeping your infrastructure online, secure and always operating at peak efficiency.

      CHAT NOW

      INAP’s extensive product portfolio supports businesses and allows customers to customize their infrastructure environments.

      At a glance, our Atlanta Data Centers feature:

      • Power: 8 MW of power capacity, 20+ kW per cabinet
      • Space: Over 200,000 square feet of leased space with 45,000 square feet of raised floor
      • Facilities: Tier 3 compliant attributes, located outside of flood plain and seismic zones
      • Energy Efficient Cooling: 4,205 tons of cooling capacity, N+1 with concurrent maintainability
      • Security: 24/7/365 onsite staff, video surveillance, key card and biometric authentication
      • Network: INAP Performance IP® mix, carrier-neutral connectivity, geographic redundancy
      • Compliance: PCI DSS, HIPAA, SOC 2 Type II, Green Globes and ENERGY STAR

      Download the Atlanta Data Center spec sheet here [PDF].

      INAP’s Content Delivery Network Performs with 18 Edge Locations

      Atlanta is one of INAPs’ 18 high-capacity CDN edge locations. Our Content Delivery Network substantially improves end users’ online experience for our customers, regardless of their distance from the content’s origin server. We also have 100 global POPs to support this network.

      Content is delivered along the lowest-latency path—from the origin sever, to the edge, to the user—using INAP’s proven and patented route-optimization technology. We also use GeoDNS technology, which identifies user longitude-latitude and directs requests to the nearest INAP CDN cache, for seamless delivery.

      INAP’s CDN also gives customers control of all aspects of content caching at their CDN edges—automated purges, cache warming, cache bypass, connection limits, request disabling, URL token stripping and much more.

      Learn more about the INAP’s CDN here.

      [i] Newmark Knight Frank, 2Q18 – Atlanta Data Center Market Trends

       

      Laura Vietmeyer


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      How to Choose a Data Center


      Updated by Linode Written by Linode

      Deploying your Linode to a geographically advantageous data center can make a big difference in connection speeds to your server. Ideally, your site or application should be served from multiple points around the world, with requests sent to the appropriate region based on client geolocation. On a smaller scale, deploying a Linode in the data center nearest to you will make it easier to work with than one in a different region or continent.

      There are many things can affect network congestion, connection speeds, and throughput, so you should never interpret one reading as the sole data point. Always perform tests in multiples of three or five for an average, and on both weekend and weekdays for the most accurate information.

      This page is a quick guide for choosing and speed testing a data center (DC). Start by creating a Linode in the data center in or near your region, or several Linodes in multiple regions if you’re close to more than one DC. From there, use Linode’s Facilities Speedtest page for test domains to ping and files to download.

      Network Latency

      The Linux ping tool sends IPv4 ICMP echo requests to a specified IP address or hostname. Pinging a server is often used to check whether the server is up and/or responding to ICMP. Because ping commands also return the time it takes a request’s packet to reach the server, ping is commonly used to measure network latency.

      Ping a data center to test your connection’s latency to that DC:

      ping -c 5 speedtest.dallas.linode.com
      

      Use ping6 for IPv6:

      ping6 -c 5 speedtest.dallas.linode.com
      

      Note

      Many internet connections still don’t support IPv6 so don’t be alarmed if ping6 commands don’t work to your Linode from your local machine. They will, work from your Linode to other IPv6-capable network connections (ex. between two Linodes in different data centers).

      Download Speed

      Download speed will be limited most heavily first by your internet service plan speed, and second from local congestion between you and your internet service provider. For example, if your plan is capped at 60 Mbps, you won’t be able to download much faster than that from any server on the internet. There are multiple terminologies to discuss download speeds with so here are a few pointers to avoid confusion:

      • Residential internet connection packages are sold in speeds of megabits per second (abbreviated as Mbps, Mb/s, or Mbit/s).

      • One megabit per second (1 Mbps or 1 Mb/s) is 0.125 megabytes per second (0.125 MB/s). Desktop applications (ex: web browsers, FTP managers, Torrent clients) often display download speeds in MB/s.

      • Mebibytes per second is also sometimes used (MiB/s). One Mbps is also equal to 0.1192 MiB/s.

      To test the download speed from your data center of choice, use the cURL or wget to download the bin file from a data center of your choice. You can find the URLs on our Facilities Speedtest page.

      For example:

      curl -O http://speedtest.dallas.linode.com/100MB-dallas.bin
      wget http://speedtest.dallas.linode.com/100MB-dallas.bin
      

      Below you can see that each time cURL is run, a different average download speed is reported and each takes a slightly different amount of time to complete. This is to be expected, and you should analyze multiple data sets to get a real feel for how fast a certain DC will behave for you.

      root@debian:~# curl -O http://speedtest.dallas.linode.com/100MB-dallas.bin
        % Total    % Received % Xferd  Average Speed   Time    Time     Time  Current
                                       Dload  Upload   Total   Spent    Left  Speed
      100  100M  100  100M    0     0  11.4M      0  0:00:08  0:00:08 --:--:-- 12.0M
      
      root@debian:~# curl -O http://speedtest.dallas.linode.com/100MB-dallas.bin
        % Total    % Received % Xferd  Average Speed   Time    Time     Time  Current
                                       Dload  Upload   Total   Spent    Left  Speed
      100  100M  100  100M    0     0  10.8M      0  0:00:09  0:00:09 --:--:--  9.9M
      
      root@debian:~# curl -O http://speedtest.dallas.linode.com/100MB-dallas.bin
        % Total    % Received % Xferd  Average Speed   Time    Time     Time  Current
                                       Dload  Upload   Total   Spent    Left  Speed
      100  100M  100  100M    0     0  9189k      0  0:00:11  0:00:11 --:--:-- 10.0M
      

      Find answers, ask questions, and help others.

      This guide is published under a CC BY-ND 4.0 license.



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