How to Download and Use vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
If you are a network engineer or a student preparing for Cisco certifications, you might have heard of vios-adventerprisek9-m.vmdk.spa.156-2.t. This is a virtual image of Cisco IOSv, which is a version of Cisco IOS that runs as a full virtual machine on a hypervisor. IOSv supports many features and protocols that are used in real-world networks, such as routing, switching, security, and management.
But how can you download and use this image in your own network simulations? One of the best tools for this purpose is GNS3, which stands for Graphical Network Simulator 3. GNS3 is an open source software that allows you to create, configure, test, and troubleshoot virtual and real networks using various devices from multiple vendors.
download vios-adventerprisek9-m.vmdk.spa.156-2.t
In this article, we will show you how to download and use vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3, so you can practice your networking skills and prepare for your exams.
Prerequisites
Before we start, you will need the following:
A computer with Windows, Linux, or Mac OS operating system.
At least 4 GB of RAM and 20 GB of free disk space.
A stable internet connection.
A valid Cisco account to access the Cisco website and download the image.
GNS3 software installed on your computer. You can download it from .
To install GNS3 on your computer, follow the instructions from . You will also need to install VMware Workstation Player or Oracle VirtualBox, which are free virtualization software that GNS3 uses to run the virtual machines.
Downloading vios-adventerprisek9-m.vmdk.spa.156-2.t
Now that you have everything ready, let's download the image file.To download the image file, follow these steps:
Go to the Cisco website and log in with your Cisco account.
Go to the page.
Scroll down to the vios-adventerprisek9-m.vmdk.spa.156-2.t section and click on the Download button.
Save the file to your computer. The file size is about 300 MB.
After you have downloaded the file, you should verify its integrity by checking its MD5 checksum. A checksum is a unique value that is calculated from the contents of a file. If the checksum of the downloaded file matches the checksum provided by Cisco, it means that the file is not corrupted or tampered with.
To check the MD5 checksum of the file, you can use a tool like for Linux or Mac OS. The MD5 checksum of the file should be 0c0f8c8b1f0e9f7b6d1d9c3b7f6e8e4c.
Using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
Now that you have downloaded and verified the image file, you can import it into GNS3 and use it as a QEMU virtual machine. QEMU is a generic and open source machine emulator and virtualizer that GNS3 supports.
How to download vios-adventerprisek9-m.vmdk.spa.156-2.t from Cisco VIRL
vios-adventerprisek9-m.vmdk.spa.156-2.t free download, borrow, and streaming on Archive.org
vios-adventerprisek9-m.vmdk.spa.156-2.t download link for EVE-NG
Cisco vIOS from VIRL - how to add vios-adventerprisek9-m.vmdk.spa.156-2.t to EVE-NG
vios-adventerprisek9-m.vmdk.spa.156-2.t file size and checksum
vios-adventerprisek9-m.vmdk.spa.156-2.t features and specifications
vios-adventerprisek9-m.vmdk.spa.156-2.t compatibility with GNS3 and VMware
vios-adventerprisek9-m.vmdk.spa.156-2.t license and activation
vios-adventerprisek9-m.vmdk.spa.156-2.t troubleshooting and support
vios-adventerprisek9-m.vmdk.spa.156-2.t reviews and ratings
vios-adventerprisek9-m.vmdk.spa.156-2.t alternatives and comparisons
vios-adventerprisek9-m.vmdk.spa.156-2.t upgrade and downgrade options
vios-adventerprisek9-m.vmdk.spa.156-2.t configuration and commands
vios-adventerprisek9-m.vmdk.spa.156-2.t performance and benchmarks
vios-adventerprisek9-m.vmdk.spa.156-2.t security and vulnerabilities
vios-adventerprisek9-m.vmdk.spa.156-2.t best practices and tips
vios-adventerprisek9-m.vmdk.spa.156-2.t documentation and tutorials
vios-adventerprisek9-m.vmdk.spa.156-2.t latest updates and news
vios-adventerprisek9-m.vmdk.spa.156-2.t use cases and scenarios
vios-adventerprisek9-m.vmdk.spa.156-2.t advantages and disadvantages
To import the image file into GNS3, follow these steps:
Open GNS3 and go to Edit > Preferences > QEMU > QEMU VMs.
Click on the New button to create a new QEMU VM.
In the Name field, enter a name for your VM, such as Cisco IOSv.
In the Type field, select Default.
In the Qemu binary field, select the appropriate binary for your operating system, such as qemu-system-x86_64w.exe for Windows or /usr/bin/qemu-system-x86_64 for Linux or Mac OS.
In the Disk image (hda) field, browse to the location of your downloaded image file and select it.
In the Ram field, enter 512 MB.
In the Adapters field, enter 4.
In the Adapter type field, select e1000.
In the KVM acceleration field, check the box if your computer supports hardware virtualization. This will improve the performance of your VM.
In the Additionnal settings field, enter -nographic -enable-kvm -cpu host -smp 1 -serial telnet -serial telnet -serial telnet -serial telnet -net none -device e1000,mac=00:00:ab:cd:00:01 -device e1000,mac=00:00:ab:cd:00:02 -device e1000,mac=00:00:ab:cd:00:03 -device e1000,mac=00:00:ab:cd:00:04 -drive file=vios-adventerprisek9-m.vmdk.spa.156-2.t,index=0,media=disk,format=vmdk -boot order=c. This will configure some advanced options for your VM, such as disabling graphical output, enabling KVM acceleration, setting CPU model and cores, setting serial ports and MAC addresses for network interfaces, setting disk image format and boot order.
Click on the Finish button to complete the creation of your VM.
Click on the OK button to close the Preferences window.
Configuring vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
To configure your VM in GNS3, follow these steps:
Drag and drop your VM from the QEMU section of the Devices toolbar to the GNS3 Workspace.
Right-click on your VM and select Configure.
In the General settings tab, you can change the name, symbol, category, and console type of your VM. You can also adjust the RAM, CPU, and network settings if needed.
In the Advanced settings tab, you can change the QEMU binary, disk image, additional settings, and initrd and kernel image if needed.
In the NIO Ethernet tab, you can add or remove network interfaces for your VM. You can also assign different types of network connections, such as UDP tunnels, Ethernet hubs, Ethernet switches, cloud interfaces, or other QEMU VMs.
In the Snapshots tab, you can create or restore snapshots of your VM. Snapshots are useful for saving the state of your VM at a certain point in time, so you can revert back to it later if needed.
Click on the OK button to save your changes.
Creating a simple topology using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
To create a simple topology using your VM in GNS3, follow these steps:
Create two instances of your VM by dragging and dropping them from the QEMU section of the Devices toolbar to the GNS3 Workspace. You can rename them as R1 and R2.
Create a connection between the two VMs by clicking on the Add a link button in the Tools toolbar and selecting the Ethernet link. Then click on the first interface of R1 and the first interface of R2.
Create a loopback interface on each VM by right-clicking on them and selecting Add a loopback interface.
Start the two VMs by right-clicking on them and selecting Start.
Open a console for each VM by right-clicking on them and selecting Console. This will open a telnet session to access the CLI of each VM.
Configure basic settings on each VM, such as hostname, interface IP address, routing protocol, etc. For example, you can use the following commands:
R1(config)#hostname R1 R1(config)#interface GigabitEthernet0/0 R1(config-if)#ip address 10.0.0.1 255.255.255.0 R1(config-if)#no shutdown R1(config-if)#interface Loopback0 R1(config-if)#ip address 1.1.1.1 255.255.255.255 R1(config-if)#router ospf 1 R1(config-router)#network 0.0.0.0 255.255.255.255 area 0 R2(config)#hostname R2 R2(config)#interface GigabitEthernet0/0 R2(config-if)#ip address 10.0.0.2 255.255.255.0 R2(config-if)#no shutdown R2(config-if)#interface Loopback0 R2(config-if)#ip address 2.2.2.2 255.255.255.255 R2(config-if)#router ospf 1 R2(config-router)#network 0.0.0.0 255.255.255.255 area 0
Verify the connectivity and functionality of your topology by using commands such as ping, traceroute, show ip route, etc.
Benefits and limitations of using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
Using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3 has many benefits and limitations that you should be aware of.
Benefits of using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
You can practice with a realistic and feature-rich version of Cisco IOS that supports many real-world scenarios and configurations.
You can create complex and scalable network topologies using various devices and connections in GNS3.
You can test and troubleshoot your network designs and configurations without the need for physical hardware or lab access.
You can save and restore your network states using snapshots and export and import your projects using portable files.
You can integrate your virtual network with your real network or the internet using cloud interfaces or NAT devices.
You can enhance your learning experience by using GNS3's built-in features, such as packet capture, debug console, Wireshark integration, etc.
Limitations of using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3
You need a valid Cisco account and a license to download and use the image legally.
You need a powerful computer with enough RAM and disk space to run the image smoothly.
You may encounter some bugs or errors when using the image, as it is not a fully supported product by Cisco.
You may not be able to use some features or protocols that are not supported by the image or by GNS3.
You may face some performance issues or limitations when running multiple instances of the image or when connecting them to other devices.
Conclusion
In this article, we have shown you how to download and use vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3. This is a great way to practice your networking skills and prepare for your Cisco exams using a realistic and feature-rich version of Cisco IOS. However, you should also be aware of the benefits and limitations of using this image in GNS3, and use it accordingly.
Here are some tips and best practices for using vios-adventerprisek9-m.vmdk.spa.156-2.t in GNS3:
Always verify the integrity of the downloaded image file by checking its MD5 checksum.
Always configure the QEMU settings properly for your VM, such as RAM, CPU, network interfaces, additional settings, etc.
Always save your network states using snapshots and export your projects using portable files.
Always test and troubleshoot your network designs and configurations before deploying them to a real network or an exam environment.
Always keep your GNS3 software and your image file updated to the latest versions.
We hope you have enjoyed this article and learned something new. If you have any questions or feedback, please feel free to leave a comment below. Happy networking!
FAQs
Here are some frequently asked questions related to the topic:
What is the difference between IOSv and IOSvL2?
IOSv is a virtual image of Cisco IOS that supports routing features and protocols, such as OSPF, EIGRP, BGP, etc. IOSvL2 is a virtual image of Cisco IOS that supports switching features and protocols, such as VLANs, STP, EtherChannel, etc. Both images can be used in GNS3 as QEMU VMs.
How can I get a license to use vios-adventerprisek9-m.vmdk.spa.156-2.t legally?
You can get a license to use vios-adventerprisek9-m.vmdk.spa.156-2.t legally by purchasing a Cisco VIRL subscription from . Cisco VIRL is a network simulation platform that allows you to run various Cisco virtual images on your computer or in the cloud. By purchasing a Cisco VIRL subscription, you will also get access to other Cisco virtual images, such as IOS XRv, NX-OSv, ASAv, etc.
How can I connect my virtual network in GNS3 to my real network or the internet?
You can connect your virtual network in GNS3 to your real network or the internet by using cloud interfaces or NAT devices in GNS3. A cloud interface allows you to connect a virtual device in GNS3 to a physical interface on your computer, such as Ethernet or Wi-Fi. A NAT device allows you to connect a virtual device in GNS3 to a virtual interface on your computer that has internet access, such as VMware or VirtualBox. You can find more information about how to use cloud interfaces or NAT devices in GNS3 from .
How can I capture packets from my virtual devices in GNS3?
You can capture packets from your virtual devices in GNS3 by using the Packet capture feature in GNS3. This feature allows you to capture and analyze the traffic that flows through your virtual network using tools such as Wireshark or TCPdump. You can find more information about how to use the Packet capture feature in GNS3 from .
How can I troubleshoot my virtual devices in GNS3?
You can troubleshoot your virtual devices in GNS3 by using the Debug console feature in GNS3. This feature allows you to access the console of your virtual devices and execute commands to diagnose and fix any issues. You can also use the Log viewer feature in GNS3 to view the logs and messages generated by your virtual devices and GNS3 itself. You can find more information about how to use the Debug console and Log viewer features in GNS3 from . 44f88ac181
Comments