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Improve Your Network, Improve Your Business – Why it’s Time to Upgrade Your Campus Network

Today, Cisco is announcing the Cisco Catalyst 6840-X and 3850 10G Fiber Series for campus backbones to address new network infrastructure needs, especially in space constrained deployments.

According to the Visual Networking Index, traffic is expected to triple in the next four years. This means that many campus networks will lack the provisioned capacity to meet this expected growth in bandwidth. In fact, some network managers are telling us that this is already happening to their campus networks.

With video and bandwidth-intensive applications continuing to proliferate, traffic on campus networks is growing exponentially. This drives not only the challenge of managing the demand for growing scale in a secure and reliable fashion, but also the opportunity for IT to leverage video and robust applications to “add value to the business”.  Customers and suppliers are gravitating to businesses that offer them a comprehensive view of product offerings, an instant response, and easy transactions. This also drives additional demands on the network as an enabler for the business.

Things are changing with employees as well. While many employees are provided a mobile phone, most already have at least three mobile devices including laptops, tablets and even private smart phones. Even when employees are not actively using the apps on their mobile devices, these devices can create additional background traffic (OS, App updates & backups). According to a Cisco IBSG study, there are three times more devices per person than just a few years ago. Virtually all devices connect through the employer’s network, which has to service all these devices in a secure, scalable and reliable fashion.

While devices grow in number, wireless connectivity speed is increasing. Gigabit wireless (802.11ac) enables a network that is three times faster due to its 1.3 Gbps capacity.  802.11ac Wave 2 more than doubles that.  Thus, the bottleneck is moving “up the network” from wireless AP to the access uplinks. With 1G becoming the standard for access switch ports, access switch uplinks will need to move to ubiquitous 10G and 40G.  Read More »

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Miercom: Cisco Aironet AP3702i

Cisco’s newest 802.11ac product, the Aironet 3700 Series Access Point is now orderable and shipping in the next few weeks.  The AP 3700 features an integrated 11ac radio with a 4×4 architecture and Cisco’s High-Density Experience (HDX) Technology.  HDX is a suite of features specific to the AP 3700 that delivers the best possible user experience, especially in high client density networks.  HDX is enabled by a combination of  hardware and software features on the AP 3700, features including:

  • CleanAir 80 MHz – Interference detection and mitigation
  • ClientLink 3.0 – RF link quality
  • Smart Roam – Intelligent roaming handoff
  • Turbo Performance – Performance with high client density

Aruba recently launched their 802.11ac access point, the AP-220 series, featuring a 3×3 design.

Miercom recently published a third-party evaluation of the performance between the AP 3702i and the AP-225.  The report consists of a diverse range of test cases meant to gauge real-world performance of the access points.  The tests include; multi-client performance, single client rate vs. range, performance in the presence of interference, and performance on reduced power.  Here are some of the highlights from the report.

Multi-Client Performance

The AP 3700 performed very well in the multi-client performance test, thanks impart to HDX Turbo Performance.  With 60 clients, the AP 3702i had a 6x performance advantage over the AP-225.  The AP-225 struggled to serve all the clients and only mustered 40 Mbps total.  The AP 3702i was able to transmit a healthy 236 Mbps, while maintaining fair throughput to each client.

The test consisted of 60 11ac clients, all associated to the 5 GHz radio.  The clients used were 10 Dell E6430 laptops with Broadcom 4360 three spatial-stream chips, 20 Apple Macbook Air two spatial-stream laptops, and 30 Dell E6430 laptops with Intel 7260 two spatial-stream chips.  Clients were setup in an open office environment surrounding the AP.  Distances varied from 10’ to 50’.

1-Mulit-Client Read More »

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