Advanced Digital Computer Company is a computing company that mainly deals with the selling of the various computing devices to the residents of Australia country and beyond, it has various branches and they are distributed in many towns’ centers.
The company is allocated IP address by their internet service providers which includes the ipv4 and ipv6 as 172.16.0.0/20 and 2001: acad:: bead:/60 respectively where an IP address scheme will be used to allocate the various subnets to certain IP addresses depending with number of hosts and this will allow growth since the network is expected to undergo 100% growth resulting to doubling of the network devices.
1.1 The made assumptions
Below are some of the assumptions made in the network designing to enable the accommodation of all network devices including the one that will added after the network undergo 100% growth.
1.2 The Proposed Network requirements
Below are the proposed network’s requirements that will be considered in the network designing and implementation processes.
1.3 The network connections Media
Below are some of the connection media where their respective prices are recorded to enable easy budgeting of the networking materials, these media will be used in the connection of the routers, switches, network printers and the computers in the subnets as summarized below (Douglas 2017).
|
Media type |
Bandwidths |
Data Transmissions Rates |
Price per Meter |
Justifications |
|
Copper (cat5e cable) |
350 MHz bandwidth per 100 Meters |
1000mbps per 100 Meters data transmissions throughputs |
AUD$0.3 each meter |
This cat5e media is used to do the connection of the switches and the end point devices including printer, computer and the server due to the following: i. Low acquisition prices. ii. Are installed and configured in the network easily. iii. They have quite high data transmission rates of 1000mbps as required in the network iv. They support data transmissions of 100 meters from the source. |
|
Copper (Cat6a Cable) |
750 MHz bandwidth per 100 Meters |
1 to 10gbps per 100 Meters data transmissions throughputs |
AUD$0.6 EACH METER |
This is the media chosen to enable the connection between the subnet main switch and the subnet router and it is better than cat5e cable in terms of speed and bandwidth and therefore selected due to the following. i. Low acquisition prices. ii. Are installed and configured in the network easily. iii. They have quite high data transmission rates of 1-10gbps as required in the network iv. They support data transmissions of 100 meters from the source. |
|
Fiber-cables |
20Ghzs bandwidth per 3-5kms |
10-gbps data transmissions throughputs per 3-5kms |
AUD$5.1 per meter |
This media was selected to do the router to router connection between the subnets and the head office subnet and is recommended due to higher transmission rates and longer transmission distance and thus better for internet connections, below are other features that made it to be selected. i. It supports up to 10gbps transmissions rates. ii. It maintains highest uptime compared to other media. iii. It can transmit data for 1- 5 kilometers per second. iv. It has lowest latency thus allowing high transmission rate. v. It is able to withstand any electro-magnetic interference. |
1.4 ADCC Network addressing schemes
1.4.1 Calculation of the IP addresses
The internet service providers had provide the company with 172.16.0.0/20 IP address space to be used in the sub-netting the six network branches subnets as below (Forouzan 2014).
1.4.1.1 Head office branch
The head office has three LANs which include sales with 60 hosts, marketing with 35 hosts and the accounts with 30 hosts; however there are 2 printers in the sales, 1 printer in the marketing and 1 printer in the accounts departments therefore the total hosts will be approximately 254 hosts.
Total Hosts = 122
2x = (122 + 2).
29 = 512 > 124
Network-bits = 32 – 9 = 23
Network-IP-Addresses = 172.16.1.0/23
Broadcast-IP-Addresses: – 172.16.1.255
Subnet-masks =255.255.254.0
Ipv6 mask=128-9=119
Total Hosts = 71
2x = (71 + 2).
29 = 512 > 73
Network-bits = 32 – 9 = 23
Network-IP-Addresses = 172.16.1.123/23
Broadcast-IP-Addresses: – 172.16.1.255
Subnet-masks =255.255.254.0
Ipv6 mask=128-9=119
Total Hosts = 61
2x = (61 + 2).
29 = 512 > 63
Network-bits = 32 – 9 = 23
Network-IP-Addresses = 172.16.1.194/23
Broadcast-IP-Addresses: – 172.16.1.255
Subnet-masks =255.255.254.0
Ipv6 mask=128-9=119
1.4.1.2 Chatswood branch
The chatswood will have a total of 104 hosts and 2 printers therefore.
Total Hosts = 106
2x = (106 + 2).
27 = 128 > 108
Network-Bits = 32 – 7= 25.
Network-Ip-Addresses = 172.16.2.0/25
Broadcast-Ip-Addresses: – 172.16.2.127
Subnet-Masks =255.255.255.128
Ipv6 mask=128-7=121
1.4.1.3 Leichhart branch
The Leichhart will have a total of 50 hosts and 1 printer therefore.
Total Hosts = 51
2x = (51 + 2).
26 = 64 > 53
Network-Bits = 32 – 6= 26
Network-Ip-Addresses = 172.16.3.0/26
Broadcast-Ip-Addresses: – 172.16.3.63
Subnet-Masks =255.255.255.192
Ipv6 mask=128-6=122
1.4.1.4 Rockdale branch
The Rockdale will have a total of 40 hosts and 1 printer therefore.
Total Hosts = 41
2x = (41 + 2).
26 = 64 > 43
Network-Bits = 32 – 6= 26
Network-Ip-Addresses = 172.16.4.0/26
Broadcast-Ip-Addresses: – 172.16.4.63
Subnet-Masks =255.255.255.192
Ipv6 mask=128-6=122
1.4.1.5 Bankstown H.O branch
The Rockdale will have a total of 8 hosts and 1 printer therefore.
Total Hosts = 9
2x = (9 + 2).
24 = 16 > 11
Network-Bits = 32 – 4= 28
Network-Ip-Addresses = 172.16.5.0/28
Broadcast-Ip-Addresses: – 172.16.5.15
Subnet-Masks =255.255.255.240
Ipv6 mask=128-4=124
1.4.1.6 Epping H.O branch
The Rockdale will have a total of 4 hosts and 1 printer therefore.
Total Hosts = 5
2x = (5 + 2).
23 = 8 > 7
Network-Bits = 32 – 3= 29
Network-Ip-Addresses = 172.16.6.0/29
Broadcast-Ip-Addresses: – 172.16.6.7
Subnet-Masks =255.255.255.248
Ipv6 mask=128-3=125
/125/2001::acad:c401-2001::acad:c406
1.4.1.7 Server network branch
The Rockdale will have a total of 4 hosts therefore.
Total Hosts = 4
2x = (4 + 2).
23 = 8 > 6
Network-Bits = 32 – 3= 29
Network-Ip-Addresses = 172.16.7.0/29
Broadcast-Ip-Addresses: – 172.16.7.7
Subnet-Masks =255.255.255.248
Ipv6 mask=128-3=125
1.4.2 ADC IPv4 Address Schemes
|
Subnet Name |
Subnet Address |
Subnet Mask |
Host Range Of Address |
Broadcast Address |
|
City head office (Accounts) |
172.16.1.194/23 |
255.255.254.0 |
172.16.1.194-172.16.1.254 |
172.16.1.255 |
|
City head office (marketing) |
172.16.1.123/23 |
255.255.254.0 |
172.16.1.124-172.16.1.193 |
172.16.1.255 |
|
City head office (Sales) |
172.16.1.0/23 |
255.255.254.0 |
172.16.1.1-172.16.1.122 |
172.16.1.255 |
|
Chatswood branch |
172.16.2.0/25 |
255.255.255.128 |
172.16.2.1-172.16.2.126 |
172.16.2.127 |
|
Leichhart branch |
172.16.3.0/26 |
255.255.255.192 |
172.16.3.1-172.16.3.62 |
172.16.3.63 |
|
Rockdale branch |
172.16.4.0/26 |
255.255.255.192 |
172.16.4.1-172.16.4.62 |
172.16.4.63 |
|
Bankstown H.O |
172.16.5.0/28 |
255.255.255.240 |
172.16.5.1-172.16.5.14 |
172.16.5.15 |
|
Epping H.O |
172.16.6.0/29 |
255.255.255.248 |
172.16.6.1-172.16.6.6 |
172.16.6.7 |
|
Server Network |
172.16.7.0/29 |
255.255.255.248 |
172.16.7.1-172.16.7.6 |
172.16.7.7 |
|
Chatswood WAN |
172.16.2.0/25 |
255.255.255.128 |
172.16.2.1-172.16.2.126 |
172.16.2.127 |
|
Leichhart WAN |
172.16.3.0/26 |
255.255.255.192 |
172.16.3.1-172.16.3.62 |
172.16.3.63 |
|
Rockdale WAN |
172.16.4.0/26 |
255.255.255.192 |
172.16.4.1-172.16.4.62 |
172.16.4.63 |
|
Bankstown WAN |
172.16.5.0/28 |
255.255.255.240 |
172.16.5.1-172.16.5.14 |
172.16.5.15 |
|
Epping WAN |
172.16.6.0/29 |
255.255.255.248 |
172.16.6.1-172.16.6.6 |
172.16.6.7 |
1.4.3 IPv6 Addressing scheme
After obtaining the respective ipv4 address scheme they are converted to the respective ipv6 address where the subnet and its mask and the host range addresses are identified as below.
|
Subnet Name |
Subnet Address And Mask |
Host Range Of Addresses |
|
City head office (Accounts) |
2001::acad: 00c2/119 |
2001::acad:00c3- 2001::acad:00fe |
|
City head office (marketing) |
2001::acad: 007b/119 |
2001:: acad: 007c- 2001:: acad: 00c1 |
|
City head office (SALES) |
2001::acad:be00/119 |
2001::acad:be01-2001::acad: 007a |
|
Chatswood branch |
2001::acad:c000/121 |
2001::acad:c001- 2001::acad:c07e |
|
Leichhart branch |
2001::acad:c100/122 |
2001::acad:c101-2001::acad:c13e |
|
Rockdale branch |
2001::acad:c200/122 |
2001::acad:c201-2001::acad:c23e |
|
Bankstown H.O |
2001::acad:c300/124 |
2001::acad:c301-2001::acad:c30e |
|
Epping H.O |
2001::acad:c400/125 |
2001::acad:c401-2001::acad:c406 |
|
Server Network |
2001::acad:c500/125 |
2001::acad:c501-2001::acad:c506 |
|
Chatswood WAN |
2001::acad:c000/121 |
2001::acad:c001- 2001::acad:c07e |
|
Leichhart WAN |
2001::acad:c100/122 |
2001::acad:c101-2001::acad:c13e |
|
Rockdale WAN |
2001::acad:c200/122 |
2001::acad:c201-2001::acad:c23e |
|
Bankstown WAN |
2001::acad:c300/124 |
2001::acad:c301-2001::acad:c30e |
|
Epping WAN |
2001::acad:c400/125 |
2001::acad:c401-2001::acad:c406 |
1.5 ADC Network hardware Selection
The table below shows the various network routers and switches that are required in the various network branches where the switches are used to link the end devices together while routers link the branches subnet-works to the main router in the head office.
Below is the list of hardware used.
|
Network Location |
Devices |
Models and series |
Number required |
Ports |
Justifications |
|
Head Offices |
Routers |
Cisco 2620xm |
1 |
24 Ports |
The head office location network is made of four subnet-works which includes the sales, accounts and management and therefore more network switches are required where 7 switches are in the sales department, four in marketing and four in accounts department, however one is the distribution switch which is used to link the access layers switch and the network router. |
|
Switches |
Cisco 2960-24TT |
15 |
24 Ports |
||
|
Chatswood branch |
Routers |
Cisco 2620xm |
1 |
24 Ports |
There is one distribution layer switch that links other access layer switches and the network router while the router links the subnet to the head office. |
|
Switches |
Cisco 2960-24TT |
6 |
24 Ports |
||
|
Leichhart branch |
Router |
Cisco 2620xm |
1 |
24 Ports |
There is one distribution layer switch that links other access layer switches and the network router while the router links the subnet to the head office. |
|
Switch |
Cisco 2960-24TT |
6 |
24 Ports |
||
|
Rockdale branch |
Router |
Cisco 2620xm |
1 |
24 Ports |
There is one distribution layer switch that links other access layer switches and the network router while the router links the subnet to the head office. |
|
Switch |
Cisco 2960-24TT |
6 |
24 Ports |
||
|
Bankstown H.O |
Router |
Cisco 2620xm |
1 |
24 Ports |
There is one distribution layer switch that links other access layer switches and the network router while the router links the subnet to the head office.. |
|
Switch |
Cisco 2960-24TT |
2 |
24 Ports |
||
|
Epping H.O |
Router |
Cisco 2620xm |
1 |
24 Ports |
There is one distribution layer switch that links other access layer switches and the network router while the router links the subnet to the head office. |
|
Switch |
Cisco 2960-24TT |
2 |
24 Ports |
||
|
Server Network |
Router |
Cisco 2620xm |
1 |
24 Ports |
There is one distribution layer switch that links the network servers and the network routers while the router is used to link the subnet with the head office network and allow internet access. |
|
Switch |
Cisco 2960-24TT |
1 |
24 Ports |
1.6 Network locations topologies
Below are the various network locations topologies indicating how the devices are interlinked in the network and showing the network infrastructures.
There are two main types of network topologies in the entire network, these includes the hybrid topology in the head office where there are three LANs that are linked to form one hybrid network topology ,however all the other network areas subnets has star topologies where all the network devices are connected in a central point using the distribution layers switches as below (Tom 2015).
1.6.1 Head office topology (Star/Hybrid Topology)
1.1 Proposed Internet Access
1.1.1 Fiber optic cable internet access
The fiber optic cable is the selected type of internet supply from the internet services providers in Australia, however the internet is connected through the internet point of presence in the head offices and the internet services provider will use the DHCP technology to automatically assign ip address to the connected devices.
The fiber cable was selected due to its high transmission speed, confirmed up-time services, ability to withstand interferences, ability to transmit signals for long distance, and reliability in un-limited data supply (William 2014).
Conclusion
This report highlighted various network design items where the various assumptions and requirements were identified, the sub-netting was done and the respective IP addresses were assigned and the network topologies were also drawn for all company’s’ branches.
Therefore the implementation of this network will enable the company to have efficient communication between the staffs and also provide internet accessibility.
Reference
Andrew, S. (2015) Computer Networks.2nd edn. New York:Prentice Hall.
Behrouz ,A.(2016) Data Communication and Networking. 4th edn.New York: McGraw-Hill Education.
Douglas,C.(2017) Internetworking with TCP/IP, Volume1.1st edn.California: Addison-Wesley Professional.
Forouzan,I.(2014) Computer Networks: A Top – Down Approach.5th edn.New York: McGraw-Hill.
Tom ,C.(2015) IPv6 Address Planning: Designing an Address Plan for the Future.3rd edn. San Francisco: O’Reilly Media.
William,S.(2014) Data and Computer Communication. 2nd edn. New Delhi: Tata McGraw Hill.
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