Cisco Systems have been successfully developing cross-platform tools. Especially for users to create network topologies, simulate Cisco router and switches called Tracers. If you think of a scenario where a new office is to be set up. The Cisco Packet provides you with a layout for networking (LAN’s) on your MAC in the office. It also allows the user to switch between networks and create interchangeable router networks.
In this tutorial you will learn a step by step guide to download and install free Cisco packet tracer for your MAC OS.
Conducting network tests on real hardware can be an expensive process. In such situations, Cisco packet Tracers come in very useful letting users conduct virtual configurations of routers, switches, and other networking devices virtually.
Since there is no Cisco Tracer for Mac we will need Wineskin to use Cisco Packet Tracer on iMac or MacBook Pro.
Follow these simple steps to download Cisco packet tracer.
1. Download and Install WineSkin Winery on your Mac
For More Information The following Packet Tracer resources are available on Cisco NetSpace Offerings Packet Tracer. FAQs. At A Glance. Overview Presentation. Packet Tracer 6.0.X Errata List. Packet Tracer 6.0.1 Executables. Part 1: Gather PDU Information for Local Network Communication. Note: Review the Reflection Questions in Part 3 before proceeding with Part 1. It will give you an idea of the type of information you will need to gather. Step 1: Gather PDU information as a packet travels from 172.16.31.5 to 172.16.31.2. Click 172.16.31.5 and open the Command Prompt. They are pre-configured on the PC's in Packet Tracer. For example, add a PC to your topology and then double click on it. A window will come up and then click on the second tab option that says 'Config'.Then under Interface on the left click on 'FastEthernet'.Once there you can see the duplex and speed settings for that PC, in addition to the MAC Address and IP configuration information. 5.3.1.3 Packet Tracer – Identify MAC and IP Addresses Packet Tracer – Identify MAC and IP Addresses (Answer Version – Optional Packet Tracer) Answer Note: Red font color or gray highlights indicate text that appears in the Answer copy only. Optional activities are designed to enhance understanding and/or to provide additional practice.
- Download Wineskin from their official website.
- Wineskin runs on the following MAC devices;
1. OS X 10.6 Snow Leopard
2. OS X 10.7 Lion
3. OS X 10.8 Mountain Lion
4. OS X 10.9 Mavericks
5. OS X 10.10 Yosemite
Make sure you have the right MAC OS configuration.
- Once the download is complete, the following will be the installation process.
- Open the downloaded file on the desktop.
- Click on the (+) button on the file that opens followed by download to get the engine required to run Wineskin on your MAC device.
- In the next step, you’ll need to update the wrapper. Click on “Update” to download the latest wrapper.
- Now, to install a new program click on “Create New Blank Wrapper” named “Cisco Packet Tracer”.
2. Free Download and Install the Cisco Packet Tracer 6.0.1
- Download Cisco Packet Tracer
Open Wineskin and click on “View Wrapper and Finder”.
Double click on the previously created wrapper “Cisco Packet Tracer”. Obviously, it will be empty.
Now, click on “Install Software” when the option appears followed by “Choose Setup Executable”.
- The file menu will open, find the downloaded “Cisco Packet Tracer” in the download menu and “Choose” the Exe.
- The Wineskin will run it and the Setup for Cisco will emerge.
- Click on Next > I accept and Next > Next > Next
- Create a shortcut on the desktop.
- Click “Ok” and “Finish” to end the installation process.
- An option will appear that says “the programs executable file set in Wineskin is currently not found”. Here, you’ll need to click on the drop-down menu and choose the Cisco Packet Tracer Exe file and click on Ok.Now go back to double tap on the “Cisco Packet Tracer” wrapper created on Wineskin.
- Wallah! You’ll see the Cisco Packet Tracer 6.0.1 opening on your Mac OS.
Cisco Packet Tracer 6.0.1 Features
The Cisco Packet Tracer 6.0.1 comes with the following features:
Cisco Packet Tracer 6.0 1 For Mac Pro
- Basic Improvements
- CAB-HD8-ASYNC cable
- Circling tool
- Terminal server for routers
- IPv6 in IP Configuration for Desktop
- PC Firewall for IPv4 and IPv6
- Updated to Activity Wizard and Variable Manager
- Servers with 2 NICs
- Hardware Updates
- Cisco 1941 Integrated Service Router
- Cisco 2901 Integrated Service Router
- Cisco 2911 Integrated Service Router
- HWIC-2T (Cisco One- and 2-Port Serial High-Speed WAN Interface Card)
- HWIC-8A (Cisco 8-Port Asynchronous High-Speed WAN Interface Card)
- Router show line as:
- Tty Line Typ Tx/Rx
- 0/0/0 3 TTY 9600/9600
- 0/0/1 4 TTY 9600/9600
- 0/0/2 5 TTY 9600/9600
- 0/0/3 6 TTY 9600/9600
- 0/0/4 7 TTY 9600/9600
- 0/0/5 8 TTY 9600/9600
- 0/0/6 9 TTY 9600/9600
- 0/0/7 10 TTY 9600/9600
- IOS Update
The Cisco version 6.0.1 is delivered with the Mac iOS 15 6.0.1 is delivered with IOS 15.1(4)M4 (C1900-UNIVERSALK9-M and C2900-UNIVERSALK9-M) i.e. inclusive of IPbase license. This can be applied for 60 fee periods with CLI commands as:
Security (Cisco 1941, Cisco 2901, Cisco 2911): license boot module c2900 technology-package securityk9
![6.0 6.0](/uploads/1/1/9/6/119672061/423554952.jpg)
Unified communications (Cisco 2901 and Cisco 2911 only): license boot module c2900 technology-package uck9
Cisco Packet Tracer 7.0 Feature
The latest addition to the Cisco Packet Tracer is its new 7.0 update. The same can be downloaded by following the above steps. The only change would be to download the new Cisco Packet Tracer 7.0 exe file. Its features include:
- Precision Time Protocol (P2P) introduced
- LLDP and SPAN protocols added
- Wireless IOE RFID added
- Support of PoE is improved
- the modifiable environment for demonstrating IoT devices capabilities updated
- The Cisco HTTP server supports CSS and Javascript
- customizable IOE with wireless or wired network functionalities
- Support for IPV$ and IPV6
- IoT protocol support included
EndNote
The Cisco Packet Tracer is an extremely important software for IT students who are keen on learning various router and networking applications. A lot of them can’t afford the high cost of buying new software. Cisco Packet tracer saves both time and money.
If you have been stuck figuring out a way to get Cisco Tracer on your device this tutorial should have solved all your queries. For any further queries mention your doubts in the comment section below.
Check This video if you are still confused
Packet Tracer – Identify MAC and IP Addresses
Cisco Packet Tracer 6.0 1 For Mac Os
Objectives
- Part 1: Gather PDU Information for Local Network Communication
- Part 2: Gather PDU Information for Remote Network Communication
Objectives
- This activity is optimized for viewing PDUs. The devices are already configured. You will gather PDU information in simulation mode and answer a series of questions about the data you collect.
Instructions
Part 1: Gather PDU Information for Local Network Communication
- Note: Review the Reflection Questions in Part 3 before proceeding with Part 1. It will give you an idea of the type of information you will need to gather.
Step 1: Gather PDU information as a packet travels from 172.16.31.5 to 172.16.31.2.
- Click 172.16.31.5 and open the Command Prompt.
- Enter the ping 172.16.31.2command.
- Switch to simulation mode and repeat the ping 172.16.31.2command. A PDU appears next to 172.16.31.5.
- Click the PDU and note the following information from the OSI Model and Outbound PDU Layer tabs:
- Destination MAC Address: 000C:85CC:1DA7
- Source MAC Address: 00D0:D311:C788
- Source IP Address: 172.16.31.5
- Destination IP Address: 172.16.31.2
- At Device: 172.16.31.5
- Click Capture / Forward (the right arrow followed by a vertical bar) to move the PDU to the next device. Gather the same information from Step 1d. Repeat this process until the PDU reaches its destination. Record the PDU information you gathered into a spreadsheet using a format like the table shown below:
Example Spreadsheet Format
At Device | Dest. MAC | Src MAC | Src IPv4 | Dest IPv4 |
172.16.31.5 | 000C:85CC:1DA7 | 00D0:D311:C788 | 172.16.31.5 | 172.16.31.2 |
Switch1 | 000C:85CC:1DA7 | 00D0:D311:C788 | N/A | N/A |
Hub | N/A | N/A | N/A | N/A |
172.16.31.2 | 00D0:D311:C788 | 000C:85CC:1DA7 | 172.16.31.2 | 172.16.31.5 |
Step 2: Gather additional PDU information from other pings.
- Repeat the process in Step 1 and gather the information for the following tests:
- Ping 172.16.31.2 from 172.16.31.3.
- Ping 172.16.31.4 from 172.16.31.5.
- Return to Realtime mode.
Part 2: Gather PDU Information for Remote Network Communication
- In order to communicate with remote networks, a gateway device is necessary. Study the process that takes place to communicate with devices on the remote network. Pay close attention to the MAC addresses used.
Cisco Packet Tracer 6.0.1 Download For Mac
Step 1: Gather PDU information as a packet travels from 172.16.31.5 to 10.10.10.2.
- Click172.16.31.5 and open the Command Prompt.
- Enter the ping 10.10.10.2command.
- Switch to simulation mode and repeat the ping 10.10.10.2command. A PDU appears next to 172.16.31.5.
- Click the PDU and note the following information from the Outbound PDU Layer tab:
- Destination MAC Address:00D0:BA8E:741A
- Source MAC Address: 00D0:D311:C788
- Source IP Address: 172.16.31.5
- Destination IP Address: 10.10.10.2
- At Device: 172.16.31.5
What device has the destination MAC that is shown?
The router
- Click Capture / Forward (the right arrow followed by a vertical bar) to move the PDU to the next device. Gather the same information from Step 1d. Repeat this process until the PDU reaches its destination. Record the PDU information you gathered from pinging 172.16.31.5 to 10.10.10.2 into a spreadsheet using a format like the sample table shown below:
At Device | Dest. MAC | Src MAC | Src IPv4 | Dest IPv4 |
172.16.31.5 | 00D0:BA8E:741A | 00D0:D311:C788 | 172.16.31.5 | 10.10.10.2 |
Switch1 | 00D0:BA8E:741A | 00D0:D311:C788 | N/A | N/A |
Router | 0060:2F84:4AB6 | 00D0:588C:2401 | 172.16.31.5 | 10.10.10.2 |
Switch0 | 0060:2F84:4AB6 | 00D0:588C:2401 | N/A | N/A |
Access Point | N/A | N/A | N/A | N/A |
10.10.10.2 | 00D0:588C:2401 | 0060:2F84:4AB6 | 10.10.10.2 | 172.16.31.5 |
Reflection Questions
Cisco Packet Tracer Download Mac
- Answer the following questions regarding the captured data:
- Were there different types of cables/media used to connect devices?
Yes: copper, fiber, and wireless - Did the cables change the handling of the PDU in any way?
No - Did the Hub lose any of the information that it received
No - What does the Hub do with MAC addresses and IP addresses?
Nothing - Did the wireless Access Point do anything with the information given to it?
Yes. It repackaged it as wireless 802.11 frames. - Was any MAC or IP address lost during the wireless transfer?
No - What was the highest OSI layer that the Hub and Access Point used?
Layer 1 - Did the Hub or Access Point ever replicate a PDU that was rejected with a red “X”?
Yes - When examining the PDU Details tab, which MAC address appeared first, the source or the destination?
Destination - Why would the MAC addresses appear in this order?
A switch can begin forwarding a frame to a known MAC address more quickly if the destination is listed first - Was there a pattern to the MAC addressing in the simulation?
No - Did the switches ever replicate a PDU that was rejected with a red “X”?
No - Every time that the PDU was sent between the 10 network and the 172 network, there was a point where the MAC addresses suddenly changed. Where did that occur?
It occurred at the router - Which device uses MAC addresses that start with 00D0:BA?
The router - What devices did the other MAC addresses belong to?
To the sender and receiver - Did the sending and receiving IPv4 addresses change fields in any of the PDUs?
No - When you follow the reply to a ping, sometimes called a pong, do you see the sending and receiving IPv4 addresses switch?
Yes - What is the pattern to the IPv4 addressing used in this simulation
Each port of a router requires a set of non-overlapping addresses - Why do different IP networks need to be assigned to different ports of a router?
The function of a router is to inter-connect different IP networks. - If this simulation was configured with IPv6 instead of IPv4, what would be different?
The IPv4 addresses would be replaced with IPv6 addresses, but everything else would be the same.