CPU flags indicate hardware support for specific features, including virtualization. Let’s analyze each
option:
A . lvm
Incorrect: LVM (Logical Volume Manager) is a storage management technology used in Linux
systems. It is unrelated to CPU virtualization.
B . vmx
Correct: The vmx flag indicates Intel Virtualization Technology (VT-x), which provides hardware-
assisted virtualization capabilities. This feature is essential for running hypervisors like VMware ESXi,
KVM, and Hyper-V.
C . xvm
Incorrect: xvm is not a recognized CPU flag for virtualization. It may be a misinterpretation or typo.
D . kvm
Correct: The kvm flag indicates Kernel-based Virtual Machine (KVM) support, which is a Linux kernel
module that leverages hardware virtualization extensions (e.g., Intel VT-x or AMD-V) to run virtual
machines. While kvm itself is not a CPU flag, it relies on hardware virtualization features like vmx
(Intel) or svm (AMD).
Why These Answers?
Hardware Virtualization Support: Both vmx (Intel VT-x) and kvm (Linux virtualization) are directly
related to CPU virtualization. These flags enable efficient execution of virtual machines by offloading
tasks to the CPU.
JNCIA Cloud Reference:
The JNCIA-Cloud certification emphasizes understanding virtualization technologies, including
hardware-assisted virtualization. Recognizing CPU flags like vmx and kvm is crucial for deploying and
troubleshooting virtualized environments.
For example, Juniper Contrail integrates with hypervisors like KVM to manage virtualized workloads
in cloud environments. Ensuring hardware virtualization support is a prerequisite for deploying such
solutions.
Reference:
Intel Virtualization Technology Documentation
KVM Documentation
Juniper JNCIA-Cloud Study Guide: Virtualization
