Cat9kvprd171201prd9qcow2 ✦ No Password
This central segment appears to denote environment context and a unique asset identifier:
"cat9kv-prd-17.12.01prd9.qcow2" is a virtual machine disk image for the Cisco Catalyst 9000v virtual switch, running IOS-XE version 17.12.01. This image is primarily used in network simulation environments such as Cisco Modeling Labs (CML), GNS3, and EVE-NG to test enterprise switching features without physical hardware. Overview of the Catalyst 9000v Image
The Catalyst 9000v (or Cat9kv) is a virtualized form of the Cisco Catalyst 9000 series hardware. It simulates the dataplane ASICs found in physical switches, such as the Unified Access Data Plane (UADP) and Silicon One Q200.
File Format: .qcow2 (QEMU Copy-On-Write), standard for KVM-based hypervisors.
Software Version: IOS-XE 17.12.01, a specific release within the Dublin 17.12.x train.
Deployment Status: Currently distributed as a Public Beta image. As such, it lacks official Cisco TAC support and may experience instability under high traffic loads. Key Specifications and Requirements
Because this image simulates complex hardware ASICs, it is resource-intensive compared to older virtual routers. Requirement Recommended Setting Memory (RAM) 16 GB to 24 GB CPU 2 to 4 vCPUs Disk Space Approximately 2.7 GB for the image file Modes of Operation
Depending on your lab needs, the 17.12.01-prd9 image can be booted into different node definitions:
Regular UADP: Simulates Catalyst 9300/9500 switches with 8 to 9 interfaces.
Q200 (Silicon One): Simulates Catalyst 9500X switches, requiring slightly less RAM (12 GB) but supporting up to 25 ports. Implementation in Labs
To use this specific image in a third-party emulator like EVE-NG:
Create a directory named cat9kv-17.12.01-prd9 in the QEMU addons folder. Upload the .qcow2 file and rename it to virtioa.qcow2. Fix permissions using the unl_wrapper tool.
License Activation: To access advanced features like BGP, users must often manually set the license boot level to network-advantage or dna-advantage and reload the node. cat9kvprd171201prd9qcow2
For official access and support forums, users can refer to the Cisco Modeling Labs (CML) Documentation or the GNS3 Marketplace for pre-configured appliance files. CAT 9000v - Cisco Modeling Labs v2.9
Since the string looks like a Cisco Catalyst 9000 series virtual switch image filename (likely a QCOW2 file for Cisco CML/VIRL/EVE-NG), I’ve assumed this is for a lab or virtualization environment.
Title: 📦 Deploying cat9kvprd171201prd9qcow2 – Cisco Catalyst 9000v in Your Lab
Body:
Got my hands on cat9kvprd171201prd9qcow2 – that’s a Cisco Catalyst 9000v (virtual switch) QCOW2 image. Here’s what it’s good for and how to use it.
🔹 What is it?
🔹 Quick deploy steps (EVE-NG):
🔹 Minimum requirements:
🔹 Tip:
First boot takes a few minutes – be patient. Default credentials are usually cisco/cisco (if not, check your image docs).
Anyone else labbing with this image? Seen any bugs in this 171201 build?
The string "cat9kvprd171201prd9qcow2" (standardized as cat9kv-prd-17.12.01prd9.qcow2) refers to a specific virtual disk image for the Cisco Catalyst 9000v
(Cat9kv) virtual switch. It is a critical component for network engineers who want to simulate high-end Catalyst 9000 hardware in virtual environments like Cisco Modeling Labs (CML) or GNS3. Core Technical Profile This central segment appears to denote environment context
Software Release: This image runs Cisco IOS XE Dublin 17.12.1, which is an Extended Maintenance Release (EMR) designed for long-term stability and a 36-month support lifecycle.
Format: The .qcow2 extension signifies a "QEMU Copy-On-Write" file, the standard format used by Linux-based hypervisors like KVM and simulation tools like EVE-NG.
Resource Intensity: Unlike older virtual routers, this image is heavy on hardware. It typically requires 18 GB to 24 GB of RAM and 4 vCPUs to function correctly. What Makes This Release Interesting? Cisco CAT IOS-XE 9000v 17.12
It looks like you’ve provided a string that resembles a QEMU/COW2 disk image filename for a Cisco Catalyst 9000v (virtual switch/router) – likely for testing with EVE-NG, GNS3, or VMware.
The pattern suggests:
cat9kvprd171201prd9qcow2 → possibly a cat9kv (Catalyst 9000v) prd (production?) 171201 (date or build ID) prd9 (iteration) qcow2 (format).
When deploying Cisco’s Catalyst 9000v (virtual version), filenames must match expected patterns. This filename may be from an unsupported build or an internal test build not meant for public use.
Action: Compare the checksum with official Cisco release notes. If unavailable, treat as non-production artifact.
The inclusion of a Production tag (prd) and a specific version (171201) implies a structured DevOps pipeline:
qemu-system-x86_64 -machine pc -accel kvm -m 8192 -smp 2 \
-drive file=cat9kvprd171201prd9qcow2,format=qcow2,if=virtio \
-netdev user,id=net0 -device virtio-net-pci,netdev=net0 \
-nographic
If you need help:
Let me know what your end goal is, and I’ll give precise commands.
Based on the identifier provided, this paper outlines the technical profile, deployment, and operational significance of the Cisco Catalyst 9000V (Cat9000V) virtual switch, specifically referencing the release image cat9kvprd171201prd9qcow2 Technical Profile: Cisco Catalyst 9000V (Virtual Switch) cat9kvprd171201prd9qcow2
file is a virtual disk image in QCOW2 format, designed for KVM-based hypervisors. This specific version belongs to the Cisco IOS XE 17.12.1 🔹 Quick deploy steps (EVE-NG):
release cycle (indicated by the "171201" string), providing a virtualized environment that mirrors the feature set of physical Catalyst 9000 series hardware. 1. Core Architectural Specifications Operating System Cisco IOS XE Cupertino 17.12.1
, which introduces enhanced programmability and security features.
(QEMU Copy-On-Write), the standard format for OpenStack, EVE-NG, GNS3, and Cisco Modeling Labs (CML). Virtual Resource Requirements : Minimum 1 (4 recommended for control plane stability). : Minimum 4GB (8GB+ recommended for full feature testing). : Approximately 2GB for the image base. 2. Key Capabilities of Release 17.12.1
This specific software version provides several critical networking functionalities in a virtual form factor: Model-Driven Programmability
: Full support for YANG data models (NETCONF/RESTCONF) for automated configuration. L2/L3 Feature Parity
: Supports advanced routing (OSPF, EIGRP, BGP), switching (VLANs, STP), and VXLAN EVPN fabrics.
: Integration with Cisco TrustSec and advanced Access Control Lists (ACLs). High Availability
: Virtualized StackWise functionality to simulate physical switch stacking. 3. Deployment Use Cases
The use of the Cat9000V virtual image is primarily focused on reducing hardware overhead during the development lifecycle: Network Simulation : Architects use this image in environments like Cisco Modeling Labs (CML) to validate complex topologies before physical deployment. CI/CD Integration
: DevOps teams use the QCOW2 image to run automated configuration tests in virtual pipelines. Training & Certification
: It is the standard platform for engineers studying for CCNP and CCIE Enterprise certifications. 4. Operational Advantages Zero Hardware Footprint
: Enables testing of the Catalyst 9k feature set without the multi-thousand dollar investment in physical switches. Snapshotted Testing
: Unlike physical hardware, the QCOW2 format allows users to save "snapshots," enabling instant rollback if a configuration change fails. Resource Efficiency
: The "PRD" (Production) optimized image is tuned for lower CPU overhead during idle states compared to older virtual switch versions. Conclusion cat9kvprd171201prd9qcow2