Chapter 4 - Switched Network.pptx

Full Transcript

Data
and Networking 2
Communication
ITP107L

Casey Jasper A.
Instructor
Chavez
Switched
Network
s
Objectives
 4.1 LAN Design
Explain how switched networks support small to medium-sized
businesses.
Explain how data, voice, and video are converged in a switched
network.
Describe a switched network in a small to medium-sized
business.
 4.2 The Switched Environment
Explain how Layer 2 switches forward data in a small to
medium-sized LAN.
Explain how frames are forwarded in a switched network.
Compare a collision domain to a broadcast domain.
LAN
Design
Growing Complexity of Networks
 Next-generation networks need
to be secure, reliable, and
highly available.
 They must support a
globalized workforce.
 They must be able to
integrate legacy devices.
Elements of a Converged Network
 Converged network solutions
integrate voice systems, IP
phones, voice gateways, video
support, and video
conferencing.
 Primary benefit of the
converged network - just one
physical network to install and
manage.
Cisco Borderless Networks
 The Cisco Borderless Network has
the following features:
Allows organizations to connect
anyone, anywhere, anytime, on any
device; securely, reliably, and
seamlessly.
Provides the framework to unify
wired and wireless access,
including policy, access control,
and performance management
across many different device
types.
Provides network services, and user
and endpoint services that are all
managed by an integrated
management solution.
Hierarchy in the Borderless Switched
Network
 Borderless switched network design
guidelines are based on the following
principles:
Hierarchical - Facilitates
understanding the role of each
device at every tier.
Modularity - Allows seamless
network
expansion and integrated services.
Resiliency – Provides an
always available network.
Flexibility - Allows intelligent
traffic load
sharing.
 The three tiers of the hierarchical
model are Access, Distribution and
Access, Distribution, and Core Layers
 Access Layer – provides network
access to the user.
 Distribution Layer - interfaces
between the access layer and
the core layer. Provides functions
such as:
aggregating Layer 2 broadcast
domains and
Layer 3 routing boundaries.
Providing intelligent switching,
routing, and network access
policy functions to access the Smaller networks that do not need a
rest of the network. separate distribution and core layer
 Core Layer - is the network often use a two-tier campus or collapsed
core network design.
backbone. It provides fault isolation
Role of Switched Networks
 A hierarchical switched LAN allows
more flexibility, traffic management,
and additional features:
Quality of service
Additional security
Support for wireless networking and
connectivity
Support for new technologies.
Form Factors

Fixed Configuration
Stackable
Configuration
 Considerations when selecting switches:
Cost
Port Density
Power
Reliability
Port Speed
Frame buffers
Modular Scalability
Configuration
The Switched
Environment
Switching as a General Concept in
Networking and Telecommunications
 A LAN switch makes decisions based
on
two criteria:
Ingress port - where a frame
enters the device
Destination address
 A LAN switch maintains a table that
it uses to determine how to forward
traffic.
 In the diagram, If a message enters
switch port 1 with a destination
address of EA, then the switch
forwards the traffic out port 4.
 Layer 2 Ethernet switches forward
frames based on the destination
Switch Forwarding Methods
Store-and-Forward Switching
 Features of Store-and-Forward
Switching:
Error Checking– After receiving
the entire frame, the switch
compares the frame-check-
sequence (FCS) value in the last
field against its own FCS
calculations. Only error-free
frames are forwarded
Automatic Buffering– ingress
port buffering provides the
flexibility to support any mix of
Ethernet speeds.
 Store-and-Forward is Cisco’s
primary LAN switching method.
Cut-Through Switching
 Rapid Frame Forwarding - The
switch can make a forwarding
decision as soon as it has
looked up the destination MAC
address.
Frames with errors are
forwarded.
 Fragment Free - modified form
of cut- through switching. The
switch waits for the collision
window (64 bytes) to pass
before forwarding the frame.
Provides better error
checking than cut-through,
with practically no increase
in latency.
Collision Domains
 In hub-based Ethernet segments,
network devices compete for the
medium, therefore collisions will
occur.
 Ethernet switch ports operating in
full duplex eliminate collisions.
 Ethernet switch ports will
autonegotiate full-duplex if
connected to full-duplex device.
 If connected to a half-duplex device
then the switch port will operate in
half duplex and be part of a collision
domain.
Broadcast Domains
 One switch or multiple
interconnected switches form a
single broadcast domain.
 When a switch receives a
broadcast frame, it forwards the
frame out each of its ports,
except the ingress port where
the broadcast frame was
received.
 When two switches or more
switches are connected together,
the broadcast domain is increased
because the broadcast is
propagated from switch to switch.
 Too many broadcasts can cause
network congestion.
Alleviating Network Congestion
 The following characteristics of
switches help alleviate congestion:
Establishing full-duplex links,
therefore eliminating collisions.
High port density
Large frame buffers
Port speed
Fast internal switching
Low per-port cost
Chapter
Summary
Summary
Explain how switched networks support small to medium-sized
businesses.
Explain how Layer 2 switches forward data in a small to
medium-sized LAN.
Reference
CCNA Routing and Switching: Introduction to
Networks v6.0:
http://vapenik.s.cnl.sk/pcsiete/CCNA2/04_Switche
d_Networks.pdf