Managed Connectivity describes the reality that, for the first time ever, your entire Layer 1 network will be automatically documented with 100% accuracy using Connection Point ID.
2. Businesses and organizations worldwide are more dependent than
ever upon networks that operate over a broadly distributed physical
infrastructure layer, comprised of hundreds of millions of cables and
connections. The reliability or fallibility of these networks’ is dependent
upon many factors, including comprehensive and accurate status
and documentation, and the ability of network personnel to isolate,
troubleshoot, and repair failures.
With network challenges and growing complexities, there is a greater need to identify
a solution that will confront the following issues head-on:
S e c u ri ty Every organization must mitigate the risk of network intrusion to prevent
compromise of critical business information. Ever-increasing security threats raise
the need for organizations to require complete network visibility and instantaneous
intrusion detection.
Hi gh Avai l abi l i ty Today’s networks require business continuity, but network
operators currently lack visibility into the entire network as the physical layer is
excluded from existing network management, monitoring systems and policies. With
typically 60 to 80% of unplanned downtime originating in the physical layer, this lack
of visibility and management capability poses serious risks to network availability.
OPEX The costs associated with network infrastructure maintenance are staggering.
Tracking, tracing, discovering and resolving network disruptions have a direct impact
on your organization’s IT budgets and bottom line. Accurate knowledge of physical
layer network topology leads to less network issues, faster resolution of problems and
a reduced OPEX.
Compl i an ce There are a variety of government regulations, compliance and
reporting requirements regarding how an organization’s data is accessed, transacted
and stored. Today’s network management tools simply do not have access to
information related to physical layer connections where intrusion detection and
accurate logging of events can guarantee network integrity and meet security,
compliance and reporting requirements.
Capac i ty an d S c al e The ever-increasing amount of network traffic and data
storage requirements continues to drive complexity in the network. Data Centers need
to be more agile and able to scale their network based on new demands. It is more
critical than ever to choose solutions that allow for capacity and flexibility.
3. TE’s Q u a re o ™
To solve these network issues, TE Connectivity introduces Quareo, a game-changing
technology in the physical layer or layer 1 of the OSI model. This technology is based on
unique identifiers for every connection point in the network, where a connection point
can be defined as one end of an Ethernet cable or a port on a network device. Quareo is
a Connection Point Identification Technology™, which provides unprecedented knowledge
about the network including accurate documentation and reporting of changes, as well as
enhanced security; Quareo enables higher network availability while lowering the network
operating costs for a network, from the data center all the way to the desktop.
Wh at is Q u a re o?
Quareo is based on microchips that are
embedded in connectors of TE’s high-
Ope n Syste m Inte rco nne c t i o n M o d e l (OSI)
performance copper and fiber network
cabling solutions. These microchips have
information related to the cable itself as
well as unique identifiers for each cable.
Quareo PathManager software suite is Layer 3
Network Layer
able to have real time communication Computer/Phone Sytems
with each cable and network panel.
This information is stored in the Quareo
PathManager database and is then
used to draw topology maps as well as Layer 2
Data Link
integrate with industry applications.
Layer 1
Physical Layer
Today, network managers utilize multiple routers or switches Finally, the same can be said for the appliances, be they IP phones,
connected together to effectively run the network. The perception is laptops, PCs, WAPs, etc. These items aren’t directly connected to the
that these routers or switches are physically connected to each other, servers, routers or switches. They are connected to the physical layer
but the reality is that they are actually connected together through that connects them to the servers.
the physical layer.
Although the network perception is that all these items are connected
The same is true for application servers. They either have multiple together via a direct connections, the reality is that they are all
servers, or partitions of servers are logically connected together connected together through a complex and distributed physical
through routers or switches. Again, these servers aren’t physically layer infrastructure.
connected to the routers or switches directly. They are connected via
the physical layer.