Case study
A customer needs a wireless network upgrade for 802.11ac and possibly an upgrade to the wired network. The customer requires dual-radio 802.11ac APs, each radio of which can support 4×4 MIMO at full feature set.
The customer has given architects this information about their wireless devices:
– 2700 IoT devices which will have only wireless connections; they support WPA2 with 802.1X
– 300 on each floor in 3 buildings with 3 floors each
– 5,400 users, who use devices such as laptops and smartphones
– 600 users on each floor in 3 buildings with 3 floors each
– 24 security cameras which will have only wireless connections; they support WPA2 with 802.1X
and have a local power source
– 4 on floor 1 of each of the 3 buildings
– 2 on the other 6 floors
The architect also has collected information about the existing wired network.
The existing access layer switches support these features:
– 10/100/1000 edge ports
– PoE (802.3af)
– 1GbE fiber uplinks
The existing aggregation switches support these features:
– 1/10GbE fiber ports
– ARP tables up to 62,000
The customer has provided this figure that shows the existing cabling between floors and between buildings:
Each floor is about 100 feet (30 m) by 140 feet (43 m) with a 10 foot (3 m) ceiling. Interior walls are drywall. The layout for each floor is similar to that shown below. CAT5e cable is extended to all areas.
What is one change to the existing network that the architect should recommend to meet the new customer requirements?
A . upgrade to at least CAT7 cable for all the wired drops
B . upgrade to MM OM3 fiber between the floors
C . new aggregation layer switches to support larger ARP tables
D . new access layer switches to support PoE+
Answer: B