Hi there

I could do with more benefits if possible from adding a distribution layer rather than connecting my switches directly to the core.

thanks

u cant design a network like accees-to-core

but somtimes as i mentioned above the distribution layer switches do the both roles as distsribution and core at the same time which is practical for small and medume networks

with distribution layer u move ur network from flat switched network that contains alot of proplems like single point of faulor to a hirerichal switched network

the core usualy link betwenn diffrent networks block for example

lets say u have two big buldings each building has its access and distribution layers the core layer will link between those two buildings and route traffic between them on L3 then go the distribution switches in dist switches will be routed to the right L3 valn and passed to corsponding L2 vlan in the access switch

good luck

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Hi There

I have to do a presentation on the new distribution layer that we are installing, I need to tell management probably 4 or 5 benefits in simple terms , Can anyone help on this with the best things to say?

hi Carl

acording to cisco

The hierarchical network model provides a modular view of a network, making it easier to

design and build a deterministic scalable network. The hierarchical network structure is

composed of the access, distribution, and core layers. Each layer has its own functions, which

are used to develop a hierarchical network design

Access layer: Used to grant user access to network devices. In a network campus, the

access layer generally incorporates switched LAN devices with ports that provide

connectivity to workstations and servers

Distribution layer: Aggregates the wiring closets, using switches to segment workgroups

and isolate network problems in a campus environment. Similarly, the distribution layer

aggregates WAN connections at the edge of the campus and provides policy-based

connectivity

Distribution layer devices control access to resources that are available

at the core layer and must, therefore, make efficient use of bandwidth. In addition, a

distribution layer device must address the quality of service (QoS) needs for different

protocols by implementing policy-based traffic control to isolate backbone and local

environments. Policy-based traffic control enables you to prioritize traffic to ensure the best

performance for the most time-critical and time-dependent applications

The distribution layer is the place where routing and packet manipulation are performed and

can be a routing boundary between the access and core layers. The distribution layer represents

a redistribution point between routing domains or the demarcation between static and dynamic

routing protocols. The distribution layer performs tasks such as controlled routing decisions and

filtering to implement policy-based connectivity and QoS

The distribution layer uses a combination of Layer 2 and multilayer switching to segment

workgroups and isolate network problems, preventing them from impacting the core layer. The

distribution layer is commonly used to terminate VLANs from access layer switches. The

distribution layer connects network services to the access layer and implements policies

regarding QoS, security, traffic loading, and routing. The distribution layer provides default

gateway redundancy using a FHRP such as HSRP, Gateway Load Balancing Protocol (GLBP),

or Virtual Router Redundancy Protocol (VRRP) to allow for the failure or removal of one of

the distribution nodes without affecting end point connectivity to the default gateway

good luck

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