Cisco CCNA Voice Certification Exam Tutorial - Codecs Explained - G711, G729, G729a, ILBC

It is important as a CCNA Voice candidate to understand the various codecs that are supported by Cisco IP phones and the bandwidth that they each use.

Various codecs are supported on Cisco IP Phones including:

-G711

-G729

-G729a

-ILBC

G711

G711 provides toll quality voice - in other words, the best voice quality. There are two versions of G711 -

-G711ulaw - used in the USA, Canada & Japan (also called g711 mulaw)
-G711alaw - used in the rest of the world

A really clever guy called Nyquist worked that if you sample voice at two times its highest frequency, you can reproduce voice exactly on the other end. Nyquist decided that human voice conversation on telephones is in the range 0 to 4000 Hz.

Thus 2 x 4000 Hz = 8000 samples a second. When you call from an analog landline at home, a machine in the telco cloud is sampling your voice at 8000 times a second. Each of those samples is represented by an 8 bit code word.

Thus 8000 samples a second X 8 bits per sample = 64000 bps or 64 kbps.

Both G711ulaw and G711alaw use 64 kbps of bandwidth without headers.

However, to get a better signal to noise ratio, logarithmic sampling is used. This means that more samples are taken closer to zero and fewer samples are taken as the sound wave moves away from zero.

G729

However, by using clever voice sampling, the voice bandwidth can be reduced from the 64kbps required for G711. An example of this is G729. G729 is the codec that is common in Cisco environments. This uses 8 kbps.

The G.729 speech coder is an 8 kbps Conjugate-Structure Algebraic-Code-Excited Linear Prediction (CS-ACELP) speech compression algorithm approved by ITU-T.

G.729 offers high quality, robust speech performance at the price of complexity. We will not cover the details of the algorithm here - please refer to other documents for detailed explanations.

G729a

A variant of G.729 is G.729a which uses the same amount of bandwidth, but takes less resources to produce. It however, has a slightly lower quality than G729. It also uses 8kbps of bandwidth.

iLBC

The Internet Low Bandwidth Codec (iLBC) is a newer codec supported on the new Cisco IP Phones. It has several advandages over the previous codecs.

- Was designed for packetized communications

- Is royalty free

- Has better quality than G729

- Enables graceful speech quality degradation in the case of lost frames

- 13.3 kbps of bandwidth used

It however is only supported on new Cisco handsets, so if older handsets are in use, it will not be available to those.

Others

There are other may other codecs available, but these are not necessarily supported on the Cisco IP Handsets.

Summary

Various codecs are supported on Cisco IP phones. Each has various advantages and disadvantages. iLBC has several advantages over other codecs, but is only supported on newer Cisco IP phones.

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Cisco CCNA Voice Certification Exam Tutorial - Default Max Ephone and Ephone-dn and Configurations

How many phones and directory numbers can be configured on Cisco Unified Communications Manager Express by default?

Answer: Zero!

Yes, by default, no ephones or directory numbers can register. Before doing anything else, the following configuration is required:

Router>enable

Router#configure terminal
Router(config)#telephony-service
Router(config-telephony)#max-ephones 4
Router(config-telephony)#max-dn 8

This allow up to 4 phones to register / be configured and 8 directory numbers.

If you don't do this, the router will not allow ephones or ephone-dns to be created. Here is an example of what would happen:

R1(config)#ephone 1
ephone tag 1 exceeds max-ephones 0
R1(config)#ephone-dn 1
dn 1 exceeds max-dn 0

The maximum number of ephones and ephone-dns that can be configured is platform dependent. Here is an example of my router that can support 30 phones with up to 150 ephone-dns:

R1(config-telephony)#max-ephones ?
<1-30> Maximum phones to support

R1(config-telephony)#max-dn ?
<1-150> Maximum directory numbers supported

Cisco have a great document showing you how many ephones/dns are supported on specific platforms. Have a look here

As an example, using CME version 4.3:
The 2801 supports 25 phones and 120 ephone-dns
The 2811 supports 35 phones and 144 ephone-dns
The 2821 supports 50 phones and 192 ephone-dns
The 3845 supports 250 phones and 720 ephone-dns

(There are others, please refer to the link above for a full list)

Cisco also recommend that you only enable the number of ephones and ephone-dns for the number you require, not the maximum the platform can support. The reason is that when a ephone / ephone-dn is created, it uses up memory on the router. Don't just create them because you can! Create only what is required.

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MCSE Certification Boot Camp - What's It All About?

More years ago than any of us can remember, the military introduced the "boot camp" process. It was designed to take civilians with little to no military training and in a few short weeks turn them into soldiers. MCSE Certification Boot Camp is designed on the same principle but with a few major differences. Our certification boot camp does not want inexperienced people. We want people with from six months to a year experience implementing and administering a Windows Network.

Our boot camp does not give you the certification. You have to earn that by passing the test. What our boot camp does is in a matter of days is give you intense training so that you will have the highest advantage possible when you sit to take the test.

Boot camp is made up of a combination of lecturers and lab courses. Much of the training is hands on. You learn by doing and making mistakes. When you make a mistake in boot camp it does not cost your employer anything and you have the benefit of a qualified instructor to walk you through the corrections and get you back on the right track. Labs are open round the clock, instructors are there 24/7. We do not recommend you work those hours, but in a boot camp environment the opportunity is there for you.

Your training will follow the Microsoft testing requirements for MCSE Boot Camp. Information on all the core exams: Managing and Maintaining a Windows Server 2003; Implementing, Managing, and Maintaining a Windows Server 2003 Network Infrastructure; Planning and Maintaining a Windows Server 2003 Network Infrastructure; and Planning, Implementing, and Maintaining a Windows Server 2003 Active Directory Infrastructure is provided.

As the certification process will require you to take an exam on your client operating systems, core design, and your choice of many of the elective exams, MCSE Certification Boot Camp will provide you with the training you need for those tests too. We provide you with all the training you will need.

Our goal is for you to succeed when you sit to take the examination. We do not consider your failing the exam to be an option and we will do all within our power to see that you leave the exam certified. Our highly qualified staff will serve your needs whether they be as teachers, counselors, coaches, cheer leaders or if need be, boot camp drill instructors.

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Microsoft Certified Solution Provider

Microsoft is a very successful corporation which has integrated their systems and applications in basic computers, servers, frameworks and several other types of infrastructure related to communication, business and development. In order to provide solutions for business owners and project managers who utilize the Microsoft platform several certifications have been created in order to meet the demand for individuals capable of setting up, configuring and taking care of complex Microsoft-based systems but the truth is that Microsoft certification is not only cover the training to handle complex infrastructure and systems but they also provide solutions for applications which are used day in and day out such as the Microsoft office set of tools.

Today we're not going to talk about the several tests that an individual needs to go through in order to be a Microsoft certified system engineer or a certified system administrator but rather about the fields and knowledge that people are qualified with these certifications have in the way their know-how is applied to business.

In order to provide support for most of the technologies developed by this Corporation several certifications have been created, those include solutions for:

-- Server technologies
-- Microsoft dynamics
-- The Windows environment
-- The office suite
-- Development and applications
-- Systems security

A certified individual may have the knowledge to cover one or several of the areas mentioned above. Medium-sized businesses and some small businesses which use an internal network or intranet may have several servers set up in order to manage the exchange of data throughout the network, the data may be related to sales, projections, client information, investment, accounting, etc.

A certified professional will be able to set up, tune up and troubleshoot all the aspects related to server technologies were needed the same can be said of those who have a certification related to the Windows environment and as you might imagine this type of solution providers are geared towards small businesses which don't really have a huge network rather several workstations based on this particular OS.

Certified individuals who know about the development of applications and are capable of applying security measures to build systems are always in demand mostly due to the fact that there will never be a universal application which can solve all the problems within the business, that's because not all the businesses are the same. Developing applications and putting in place reliable security measures are just some of the qualifications that make individuals with such knowledge highly qualified to work with businesses that rely on basic to high-tech systems.

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Why Go on a Microsoft Access Training Course?

Microsoft Access is one of the most powerful applications in the Microsoft Office suite. Using Access it is possible to build complex relational databases with relatively little effort. It's a very versatile program, and can be used to do anything from linking simple lists of data to creating fully functional accounting and invoice systems.

However, all this power comes at a price. Access is possibly the most difficult Office application to get to grips with. As a result many users are intimidated by Access and may resort to using other applications, such as Excel, even when Access would be the best solution.

Microsoft Access training courses can go a long way to overcoming peoples fear of using Access. Courses taught by experienced certified instructors can help a student learn how to use Access whilst also tackling lack of understanding of general database theory and terminology.

Whether you need to learn more about Access just to get your job done or whether you are an IT specialist, a good Access training course should allow you to learn in an easily digestible fashion. A good Access tutor can make it possible for a class full of students to all learn at a pace that they are comfortable with.

A typical Access database course would aim to familiarise the student with basic database concepts and the features of the application. A course is likely to focus on the teaching of database theory before it progresses onto how to manipulate an Access database. A student would expect to learn how databases relate to tables, how tables are in turn composed of fields and that each field has a data-type and how these concept work in Access.Once the basics have been covered a tutor would usually then progress onto how to improve the organisation and usability of reports and forms through various means including using the auto-format wizard. It is usually at this point that students will learn how to perform data calculations through queries, reports and forms.

Most basic to intermediate Access training courses will typically not progress beyond this level as other concepts and uses are generally the only covered in a more advanced Access course.

As with all things in life it is important to note that no matter how good the course, if a student doesn't put what they have learned into practice they will eventually forget. Familiarity only comes with regular practice and students who are prepared to invest the time will find that Access becomes progressively easier to use and that their databases become more powerful.

However, the grounding provided by an Access training course makes the first steps to learning Access so much easier. Having a tutor to answer your questions and to help you grasp the basics provides a firm foundation on which you can develop your Access skills.

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MCSE Boot Camp Sets You to Face Future Challenges and Prospects of Systems Engineers

The fast-changing and cutting edge technology now demands qualified systems engineers who comprise proficiency in managing systems. Sensing the demand of the time and to cope up with this surging issue, Microsoft has come up with a certification system that effectively assesses an individual about Microsoft platforms and servers. MCSE certification is extremely significant for those wish to do extremely well technologically as well as financially. The certification assists one establish his/her claim of being a proficient in this platform. It also helps individuals to execute and design the infrastructure needed in Windows 2000 and Windows server 2003.

Different sets of examinations make one capable of performing the functions on both the enumerated platform. Individuals chalking out plans to have training in IT will face the MCSE boot camp to get their goal. The MCSE boot camp endows with a rigorous training to help students get trained, get ahead of the examination and be ready to capably face whatever comes their way in while working with a company. The notion of MCSE boot camp is now a force to be reckoned with for its intensity. The majority of MCSE boot camp is set to stretch around two weeks.

Together with the inclusion of air transportation, lodging and meals, the charge of the boot camp gets to touch a comparatively higher level. Employers are supposed to shell out for the cost of the camp for the most of the time. For the specified period of the boot camp, students are engaged in seven certification examinations. During the same period, the students are made out to work as instructed by instructors to perk oneself up for each examination. Being only the qualified and trained instructors around having supremacy in all Microsoft platforms, students get bright prospects to gain and learn immensely.

Besides, students are placed amid various practical guides with advanced hardware and software and get access to a twenty four hour lab. With the assured success assertions, having training under a boot camp comes with lots of gains. Though, in case of failures looming large, the instructors often spot and tame such mistakes reliably and smooth the progress of re-examination. Success is certain as MCSE boot camp manages a fine ratio amid classes, instructor and student.

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Cisco Wireless Lans WLAN

Bitmindframes cisco study guides

Why use wireless?
Networks are evolving to support people on the move
Many different infastructures (wired LAN, service providers) allow mobility.
Productivity is no longer restricted to a fixed work location or a defined time period.
WLAN's reduce cost.

COMPARING WLAN to a LAN
The dominant IEEE 802 groups are 802.3 & 802.11
However there are important differences between the two
Radio Frequency has no boundaries like a wire so data frames travel to anyone that can receive Radio Frequency signals. Radio Frequency is un protected from outside signals.
Radio Frequency has some unique challenges, The further from the source the weaker the transmission.
Radio Frequency bands are regulated differently in different countries. In a wireless topology a wireless AP can be used instead of a switch.

WLANs hosts contend for access to the Radio Frequency media.
802.11 uses collision avoidance instead of Collision detection.
WLANS use a different frame format than ethernet lans.
WLANS require additional info in the L2.
WLANS raise privacy issues since RF can reach outside the facility.

INTRO TO WIRELESS LANS
802.11 LANS extend the 802.3 infrastructure to provide additional connectivity options
Requires additional components & protocols
In 802.3 the switch is the AP for clients
In 802.11 clients use a wireless adapter to access a wireless router or AP
Once connected wireless clients can access resources just as if they were wired

WLAN STANDARDS
802.11 uses the unlicensed industrial, scientific, medical(ISM) frequencies for the physical & mac sub layer.
Early 802.11 was 2 MBs @ 2.4 GHz
Standards improved with 11a, 11b, 11g, 11n
802.11a & g = 54MBs
802.11b = 11MBs
802.11n appear to have a rate greater than 100Mbs
OFDM is faster & more expensive to implement than DSSS

802.11a
OFDM 5GHz, less prone to interference, smaller antennas
Poor range & performance susceptible to obstructions
802.11b & g both use 2.4 GHz
802.11b uses DSSS
802.11g uses OFDM & DSSS
2.4GHz has better range & not as easily obstructed, but still prone to interference

802.11n
Improves data & range without new RF band
Uses multiple input multi output (IMMO) technology
Theoretical 248Mbs
Expected to be ratified by sept 08
RF bands allocated by ITU-R
Bands administered by the FCC,CRTC

Wi-Fi CERTIFICATION
WiFi cert is provided by the WiFi
Standards ensure interoperability
Three key organizations influencing WLAN standards are
ITU-R:allocates RF bands
IEEE: specifies how RF is modulated
WiFi Alliance: interportability across vendors
The WiFi alliance certifies all 3 IEEE 802.11 standards as well as IEEE drafts & the WPA WPA2 standards based on 802.11i.

WIRELESS NICS
Uses the config modulation tech encoded a data stream onto an RF signal
Early wireless NICS were cards PCMCIA but are built into laptops now
PCI & USB Nics are available as well

WIRELESS ACCESS POINTS
Clients do not typically communicate directly to each
AN AP connects clients to wired LAN and converts tcp-ip packets from 802.11 to 802.3 frames.
Clients must associate with an AP to obtain net services. An AP is a L2 device that functions like an Ethernet hub. Radio Frequency is a shared medium just like early Ethernet buses. Devices that want to use the medium must contend for it. Wireless NIC's cannot detect collisions, so instead they must avoid them.

CSMA/CA
AP's oversee a distributed coordination function (DCF) called CSMA/CA
Devices on a WLAN must sense the medium for energy & wait until the medium is free before sending.
If an AP receives data from a client it sends an ACK. This ACK keeps the client from assuming that a collision occurred & prevents a retransmission. Attenuation cause problems in a WLAN where stations contend for media. RTS/CTS allows negotiation between a client and an AP.
RTS: Request to send
CTS: Clear to send
When enabled AP's allocate the medium to a requesting station. When the transmission is complete other stations can request the channel.

WIRELESS CONFIGURATION
To create a connection, parameters must be configured on both AP & client.
Because 11g is backwards compatible with 11b AP's support both standards.
A SSID is a unique identifier that client devices use to distinguish between wifi networks.
SSID is alphanumeric, case sensitive and can be between 2-32 characters.
Several AP's can share an SSID. The 2.4GHz band has 11 channels in North America & 13 in Europe
These channels actually overlap, so best practices for multiple AP's is used non overlapping channels.

Planning the wireless LAN
Implementing a good WLAN requires careful planning
The number of users WLAN is not a straightforward calculation
It depends on the layout , the data rates needed, the use of non-overlapping channels & transmit power
When planning the location of AP's, drawing coverage circles may not be enough.
If AP's need existing wiring or there are locations where AP's cannot be placed, note these locations on the map
Position AP's above obstructions
Position AP's vertically

Position AP's where users are expected to be
When these points are addresses, estimate the expected coverage
Place AP's so that coverage circles are overlapping
Coverage area is usually square, but BSA takes its radius diagonally from the center of the square

Threats to wireless security
Unauthorized access
A business relies on the protection of its information. Security difficulties are amplified with a wireless network. A WLAN is open to anyone in range with credentials to associate to it.
There are 3 major categories of threats:
WARDRIVERS
Hackers/Crackers
Employees
War driving used to exploit cell phone numbers, but now means driving around exploiting unsecured networks.
Hackers were originally benign explorers, but now hacker/cracker often means malicious intruders.
Unfortunately employees are often unwittingly the biggest source of security issues,often by installing rogue AP's.

Most wireless devices have default settings & can be used with little or no config but this is never recommended. These settings are easily compromised using wire sniffers, This allows admins to capture data packets for debugging, and can be exploited. A rogue AP is any AP installed without permission that can be used to capture data.

MAN IN THE MIDDLE ATTACKS
In a wired network the attacker needs physical access but wireless signals can provide access from outside.
Because AP's act like hubs, each nic hears all the traffic.
Attackers can modify their nic so that it accepts all traffic. Hackers can observe clients connecting to an AP and record user/server names & IP. When all legitimate users are known you can then monitor for rogue users.

Denial Of Service
The 2.4GHz ISM band is used by most consumer products. Attackers can actually create noise using these commonly available devices. The attacker can use a PC as an AP and flood the BSS with CTS messages which defeats CSMA/CA. The AP's then flood the BSS causing a stream of collisions. Another attack is sending disassociate commands to cause all stations to disconnect.

WIRELESS SECURITY
2 types of authentication originally: OPEN & SHARED WEP
Open auth is really none, & WEP keys proved to be flawed. To counteract WEP companies tried cloaking SSID and filtering MAC addresses. The WEP algorithm is crackable & since keys are manually entered they are susceptible to entry errors. There was a period of interim security measures from vendors as 802.11i evolved. TKIP encryption was linked to the WiFi Alliance WPA.
Today 802.11i is the security standard( similar to WPA2)
WPA2 includes a connection to a RADIUS database.

AUTHENTCATING TO WLAN
In Enterprise networks,association alone is not enough: additional authentication is usually required.
This is managed by Extensible Authentication Protocol.
EAP is an auth framework used in 802.1x which is a port based authentication protocol.
Configured AP's block all data except for 802.1x traffic. 802.1x frames carry EAP packets to a server that maintains authentication credentials.
This is an AAA server running a RADIUS protocol.
If successful the AAA server advises the AP which then allows traffic from client to pass through the virtual port. Before opening the port L2 encryption between client & AP is established to ensure integrity.

MAC address filtering is easily fooled with spoofing, but it should still be used in tandem with WPA2
Even without SSID broadcasts the SSID is still revealed.
The best security incorporates port based access control such as WPA2

ENCRYPTION
2 mechanisms specified by 802.11i WPA & WPA2
Temperal Key Integrity Protocol
Advanced Encryption Standard
TKIP certified as WPA supports legacy equip & WEP
TKIP encrypts L2 payload & adds messag integrity check to the encrypted packet
TKIP is good but AES is perferred for 802.11i
When configuring wireless routers instead of a reference to WPA/WPA2 you may see pre-shared key
PSK or PSK2 with TKIP = WPA
PSK or PSK2 with AES = WPA2
PSK2 with no encryption specified = WPA2

Controlling ACCESS to WLANs
WPA2 is like having a security system. You can always add Depth to your security.
SSID CLOAKING.
MAC ADDRESS filtering.
Configure AP's near outside walls to transmit with less power.

Security mode -select from 7 modes
Mode parameters - PSK, PSK2 & RADIUS ONLY

Troubleshooting
Work up the tc/ip stack from L1 to L7
Step1 eliminate the pc's as the source of the problem.
Try to determine the severity of the problem.
Confirm that the device can connect to the wired network.
Check security & encryption....MATCH?
Check for interference (other devices).

SITE SURVEY
Manual site surveys can include a site evaluation to be followed by a more thorough assessment
A site evaluation involves inspecting area for potential issues: multi WLANS, building structures & usage(day/night).
Utility-assisted surveys use tools such as airmagnet.
Mount AP's on tripods & set them in planned locations, then walk the facility using a survey meter in the client utility of your pc.

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LAN Design and the Hierarchical Network Model

CCNA focuses on networks for SMBs (small, medium businesses).
A hierarchical design model is recommended.
Easier to manage and expand.
Problems are solved more quickly.

Hierarchical design divides the network into 3 layers.
Core, (CL).
Distribrution, (DL).
Access, (AL).

Each layer provides specific functions.
This "modularity" facilitates scalability and performance.

Access Layer, (AL): lowest

Interfaces with the end device (user).
Includes routers, switches, bridges, hubs and wireless APs.
Provides a means of connecting devices to the network and controlling which one communicate on the network.

Distribution Layer, (DL):

Aggregates data received from the AL before transmitting to the CL for routing.
Controls traffic flow using policies and delineates broadcast domains with VLANs defined at the AL.
VLANs allow traffic segmentation (separate subnetworks).
DL switches are typically high-performance devices that have high availability and redundancy to ensure reliability.

Core Layer, (CL):

The high-speed backbone or the internetwork.
Critical for interconnectivity between distribution layer devices ? needs to be highly available and redundant.
Often connects to Internet resources.
Aggregates tfc fm all devices, so it must be capable of forwarding large amounts of data quickly.
Note: smaller networks often combine the distribution and core layers.

Three Logical Laye3rs are separated into a well-defined hierarchy.
It is much harder to see these layers physically.

Benefits of a Hierarchical Network:

Scalability:

Hierarchical networks scale very well.
The modularity allows you to replicate design elements.
Expansion is easy to plan and implement.

Redundancy:

As a network grows, availability becomes more important.
Availability increases dramatically with hierarchical networks.
E.G. AL switches connect to 2 DL switches. If one DL switch fails, the AL switch can switch to the other one.
Redundancy is limited is at the access layer. Typically, end devices do not connect to multiple switches.

Performance:

Properly designed networks can achieve near wire speed btwn all devices.

Security:

AL switches can be configured to provide control over which devices are allowed to connect to the network.
More advanced security policies available at the DL.
Some AL switches support L3 functionality, but it is usually the job of the DL switches, because they can process it much more efficiently.

Manageability:

Changes can be repeated across all devices in a layer because they presumably perform the same functions.
Deployment of new switches is simplified because configs can be copied with few modifications.
Consistency within each layer simplifies troubleshooting.

Maintainability:

Because of their modularity and scalability, hierarchical networks are easy to maintain.
This also means these networks are less expensive.
With other designs, manageability becomes increasingly complicated as the network grows.

Principles of Hierarchical Network Design:

Hierarchical design is no guarantee of good design.
Simple guidelines help differentiate btwn well-designed and poorly designed hierarchical networks.

Network Diameter:

Usually the first thing to consider.
The # of devices a packet crosses to reach its destination.
Small diameter ensures low and predictable latency.

Bandwidth Aggregation, (adding together):

Combines links btwn switches to achieve up throughput.
Cisco has a proprietary link aggregation technology called EtherChannel.
Aggregated links are indicated by multiple dotted lines with an oval or a single, dotted line with an oval.
Can be used at every layer (less common @ AL).

Redundancy:

Redundancy can be provided in a number of ways.
E.G. 2x connections btwn devices, or 2x devices.
Redundant links can be expensive.
Designing redundancy starts at the AL. You ensure that you accommodate all network devices ? 3 of AL switches.
This helps determine 3 of DL switches ? CL switches.

What is a Converged network?

SMBs are increasingly running voice, video and data.
Convergence is the process of combining these.
Until recently this was limited to large enterprises.
Legacy (older) equipment hinders convergence.
Because analog phones have not yet been replaced, you will also see legacy PBX telephone and IP-based systems.
Convergence is now easier and less expensive.
With a convergence there is just one network to manage.
This costs less to implement and manage.
IT cabling requirements are simplified.
Convergence also creates new opportunities.
You can tie voice and video directly into an employee's PC.
No need for an expensive phone or video equipment.
Softphones (Cisco IP |Communicator) offer a lot of flexibility.
With software businesses can quickly convert to converged networks with little capital expense.
With cheap webcams videoconferencing can be added.

Separate Voice, Video and Data Networks:

Voice networks contain isolated phone lines running to a PBX (Private BDXT Exchange) switch located in a Telco wiring closet PSTN (Public Switch Telephone Network).
Telco closet often separate fm the data and video closets.
New phone ? a new line to the PBX.
Using a properly designed hierarchical network voice lines can be added with little or no impact.
Now that networks can accommodate the BW it makes sense to converge.

Considerations for Hierarchical Network Switches:

Tfc Flow Analysis:
The process of measuring BW usage and analyzing it for performance tuning, planning, and HW improvement.
To select the appropriate gear in a hierarchical network, you need to spec out tfc flows, users and servers.
Networks must be designed with an eye on growth.
Done using tfc flow analysis software.
Should consider port densities and forwarding rates to ensure adequate growth capability.

Analysis Tools:

Many tfc flow analysis tools are available.
E.G. Solarwinds Orion 8.1 NetFlow Analysis.

User Communities Analysis:

Identifies user grpings and their impact on net performance.
Affects port density and tfc flow, which influences the selection of network switches.
Typically users are grped according to job function.
E.G. HR one floor and Finance on another.
Each dept. has different users and needs, and requires access to different resources through the network.
Choose switches that have enough ports to meet the dept needs and pwrful enough to accommodate tfc.
Good network design also factors in the growth.
Investigate the tfc generated by end-user applications.
Some user communities generate a lot, some do not.
The location of the user communities influences where data stores and server farms are located.
By locating users close to their servers, you can reduce network diameter, reducing the impact on other users.
However, usage is not always bound by department or physical location.

Data Stores and Data Servers Analysis:

Data stores can be servers, SANs, NAS, tape bu units, or any other storage device or component.
Considers both client-server and server-server tfc.
Client-server tfc typically traverses multiple switches.
BW aggregation and switch forwarding rates can help eliminate bottlenecks for this type of tfc.
Some server apps generate high volumes btwn servers.
These server shouls be located close to each other (i.e. secured data centers).
Tfc across data center switches is typically very high.
Requires higher performing switches.

Topology Diagrams:

A graphical representation of a network infrastructure.
Shows how all switches are interconnected, including which ports interconnect devices.
It shows where and how many switches are in use.
Can also contain info on device densities and user grps.
Helps visually identify potential bottlenecks.
Very difficult to create after the fact.

Switch Features:

Switch Form Factors:

Fixed or modular config, and stackable or non-stackable.
Thickness is expressed in rack units. (i.e. 1U, 3U).
Fixed Config Switches - Cannot add hardware.
Modular Switches - chassis allows for multiple line cards which contain the ports.
The larger the chassis, the more modules it can support.

Stackable Switches:

Can be interconnected using a special backplane cable that provides high-bandwidth throughput btwn the switches.
Cisco's StackWise technology allows you to interconnect up to nine switches using fully redundant backplane connections.
Stacked switches effectively operate as a single larger switch.
Desirable where fault tolerance and BW availability are critical and a modular switch is too costly.

Performance:

Port Density:

Port density is the 3 of ports available per switch.
Fixed sitches typically <= 48 ports.
2 24-port switches = up to 46 devices + 2 AC outlets.
1 48-port switch = 47 devices + 1 AC.
Modular switches = very high port densities.
E.G. 6500 > 1,000 ports!

Large enterprise networks require high density, modular switches to make the best use of space and pwr.
Also prevent uplink bottlenecks.
A series of fixed swtches consume many additional ports for BW aggregation btwn switches.
Whith a modular switch, aggregation is less of an issue because the chassis backplane provides the BW.

Forwarding Rates:

The processing capabilities of a switch in bps.
Switch product lines are classified by forwarding rates.
If this rate is too low, it cannot accommodate wire-speed across all ports.
Wire speed = rate that each port is capable of (10Mbps etc).
E.G. 48-port GbE switch at wire speed = 48Gbps of tfc.
If the switch only supports 32 Gbps (internally), it cannot run at full wire speed across all posrts simultaneously.
Access switches typically do not need full wire speed because they are physically limited by their uplinks to the DL.

Link Aggregation:

Determine if there are enough ports to aggregate to support the required BW.
E.G. GbE 24-port switch could generate up to 24 Gbps.
If it is connected to the network by a single cable, it can only forward 1 Gbps to the rest of the network.
That results in 1/24th wire speed for each of the 24 devices.
Link aggregation helps to reduce these bottlenecks by allowing up to 8 ports to be grped, providing up to 8 Gbps.
With multiple 10GbE uplinks very high throughput rates can be achieved.
Cisco uses the term EtherChannel = aggregated ports.

Power over Ethernet (PoE):

PoE allows a switch to deliver power over existing Ethernet.
Can be used by IP phones and some wireless APs.
Allows more flexibility for equipment installations.
Adds considerable cost to the switch.
PoE switch marked with a `V`for volts.

Layer 3 Functions:

Typically, switches operate at L2 and deal primarily with MAC addresses.
L3 switches offer advanced functionality.
L3 switches = multilayer switches.

Switch features in a Hierarchical Network:

Access Layer switch Features:

Port security - first line of defense for a network.
How many or what devices are allowed to connect.
All Cisco switches support port layer security.
VLANs - component of converged networks.
Voice tfc is typically given a separate VLAN.
Port speed:
Fast Ethernet is adequate for VoIP and most data tfc.
PoE - much more expensive, so use only when required.
Link Aggregation - supported at all 3 lvls.
QoS - needed for VoIP.

Distribution Layer Switch features:

Collect all AL switch data and forward it to the CL switches.
Provides the inter-VLAN routing functions.
DL switches have higher processing capabilities than AL.
Need L3 to support inter-VLAN routing.

Security Policies:

Need L3 so advanced security policies can be applied.
ACLs control tfc flows through a network.
ACLs allow switches to filter tfc.
ACLs are CPU-intensive because they need to inspect every packet and match ACL rules.
Placing ACLs at the DL also reduces the 3 of switches that require the extra mgmt configuration.
Policy-based connectivity and departmentaléworkgroup access to the core layer.

Quality of Service:

DL switches need to maintain the priorities of tfc coming fm the AL switches that have implemented QoS.
If not all the devices support QoS, the benefits will be reduced -. poor performance and quality.
DL switches are under high demand.
They need redundancy for adequate availability.
DL switches are typically implemented in pairs.
Recommended that they support multiple, hot swappable pwr supplies.
Finally, they need to support link aggregation and high-bandwidth aggregated links back to the core.

Core Layer Switch Features:

The CL is the high-speed backbone.
The forwarding rate is dependent on the number of devices participating in the network.
If you choose an inadequate switch at the core, you face potential bottleneck issues slowing down all tfc.
CL switches should support aggregated 10GbE.
L3 redundancy has faster convergence than L2, so, ensure CL switches support L3 functions.
CL switches should support FULL redundancy features.
QoS is important at the core since high-speed WAN access is often prohibitivel expensive.

Switches for SMBs:

Identify the Cisco switches used in SMB applications.

The features of Cisco Catalyst Switches:

You cannot simply select a switch by the size of a business.
Businesses are often cross integrated with other entities.
A 6500 makes sense as an AL switch where there are hundreds of users in an area, such as a stock exchange.
Cat Express 500 - forwarding rates = 8.8 - 24 Gbps.
Cat 2960 - L3, QoS, no PoE, 16 - 32 Gbps.
Cat 3560 - enterprise-class PoE, QoS, 32 - 128 Gbps.
Cat 3750 - stackable high performance.
Cat 4500 - DL midrange modular - up to 136 Gbps.
Cat 4900 - data center.
Cat 6500 - DL and CL - up to 720 Gbps.

Miscellaneous:

MDF - Main Distribution Facility.
Gi 0é1 - abbreviation for Gigabit Ethernet ports.
Spanning Tree - protocols allows redundant paths, but shuts down some links to avoid switching loops.

Bitmindframes CCNA study tips.

Busby Seo Challenge | Nursing Assistant

5 Important Things to Know About the Network Plus Certification

1. Why should you even consider doing the Network plus certification?

The Network plus certification is a natural continuation from the A+ certification. A+ teaches you about computers (hardware and software), the net+ teaches you about networking. This is another entry certification a lot of people take to broaden their knowledge base before tackling the more advance certifications.

2. CCNA vs Network+ confusion

As both these certifications are about networking, new people in the industry feel confused on which will give them more value for money. The truth is, you can't compare them. The only thing they have in common is that they deal with networking. The Network+ is an entry certification which broadens your foundation. It is vendor neutral. The CCNA is not. It concentrates on Cisco Routers.

Network+ although an entry cert has a lot of information - and I mean ALOT. By the time you finish studying for it, you will be sick of network terminology. The CCNA is even more difficult. After studying for this one, you will be subnetting in your head - even when you don't realize it. Know how you hear a song and it sticks in your mind and you can't get it out? Same thing with subnetting.

If you are new to the industry, go for the network+ first.

3. Best way to study

Most IT professionals choose the self study method. If this will be your choice as well, what I recommend is that you buy a good book from amazon but more importantly also try to get hands on experience. Get a couple of computers and network them. Get CBT (computer based training) videos so you can also visually study. The reason I recommend hand-on and visual training is because this certification has a lot of terminology to study and remember and it can become exceedingly boring if you don't keep your hands occupied as well.

4. Where can you book the exam?

All comptia exams are booked through Prometric or Vue. Once you finished studying, go to either website and choose your nearest testing center. Pay the fee and book the exam on your choice of date. Now you are all set. When you go to the training center, arrive 30 minutes beforehand and don't forget to bring 2 forms of ID with you.

5. How long does it take for the certification to arrive?

When you complete your exam at the training center and you pass, they will give you a piece of paper stating you have passed the exam. You can use that on your resume for the moment to show employers you are now Network+ certified. The actual certification will be posted to you from Comptia and this take around 2 to 6 weeks.

Busby Seo Challenge | Nursing Assistant

5 Important Things to Know About the A-Plus Certification

1. The A plus is what most people start with

Comptia (the vendor offering this certification) got it right with the A+ certification. It's extremely popular and no wonder why. The A+ is the very first step in our career ladder and a very important one. Studying for this cert we get down to the basics of what computers are - hardware and software - and in depth learn everything that is important about them. This is what the A+ gives you - an extremely important foundation to work on. Nearly nobody stops at the A+ - it's our very first step towards obtaining other higher certs which gives us higher positions and more money in our pockets.

2. How to study for it [this is important]

New people into the Industry feel unsure on how to best take this first step in their career ladders. Getting your first certification is like getting your first kiss - you always remember more details about it than any other cert you will be getting after that. Always opt to self study, unless your employer is willing to pay for a training school or boot camp. The truth is, entry certifications build a foundation to work on. They do not land you in the big bucks. That comes later. Spending lots of money on training for entry certs doesn't make money sense.
3. There are 4 exams you can choose. Which ones do you do?

The A+ essentials (exam 220-601) is the first one you must pass. After that, you have the choice of:

IT Technician (220-602)

Remote Support Technician (220-603)

Depot Technician (220-604)

Most people do the IT Technician one as it gives you a more rounded knowledge. The other two, specialize so to speak, you should choice either one of these two only if your job requires it.

4. Where can you book the exam?

All comptia exams are booked through Prometric or Vue. Once you finished studying, go to either website and choose your nearest testing center. Pay the fee and book the exam on your choice of date. Now you are all set. When you go to the training center, arrive 30 minutes beforehand and don't forget to bring 2 forms of ID with you.

5. How long does it take for the certification to arrive?

When you complete your exam at the training center and you pass, they will give you a piece of paper stating you have passed the exam. You can use that on your resume for the moment to show employers you are now A+ certified. The actual certification will be posted to you from Comptia and this take around 2 to 6 weeks.

Busby Seo Challenge | Nursing Assistant