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parallelvirtualcluster

Parallel Virtual Cluster is an HCI system for KVM VMs.

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What is PVC?

PVC is a Linux KVM-based hyperconverged infrastructure (HCI) virtualization cluster solution that is fully Free Software, scalable, redundant, self-healing, self-managing, and designed for administrator simplicity. It is an alternative to other HCI solutions such as Ganeti, Harvester, Nutanix, and VMWare, as well as to other common virtualization stacks such as ProxMox and OpenStack.

PVC is a complete HCI solution, built from well-known and well-trusted Free Software tools, to assist an administrator in creating and managing a cluster of servers to run virtual machines, as well as self-managing several important aspects including storage failover, node failure and recovery, virtual machine failure and recovery, and network plumbing. It is designed to act consistently, reliably, and unobtrusively, letting the administrator concentrate on more important things.

PVC is highly scalable. From a minimum (production) node count of 3, up to 12 or more, and supporting many dozens of VMs, PVC scales along with your workload and requirements. Deploy a cluster once and grow it as your needs expand.

As a consequence of its features, PVC makes administrating very high-uptime VMs extremely easy, featuring VM live migration, built-in always-enabled shared storage with transparent multi-node replication, and consistent network plumbing throughout the cluster. Nodes can also be seamlessly removed from or added to service, with zero VM downtime, to facilitate maintenance, upgrades, or other work.

PVC also features an optional, fully customizable VM provisioning framework, designed to automate and simplify VM deployments using custom provisioning profiles, scripts, and CloudInit userdata API support.

Installation of PVC is accomplished by two main components: a Node installer ISO which creates on-demand installer ISOs, and an Ansible role framework to configure, bootstrap, and administrate the nodes. Installation can also be fully automated with a companion cluster bootstrapping system. Once up, the cluster is managed via an HTTP REST API, accessible via a Python Click CLI client or WebUI (eventually).

Just give it physical servers, and it will run your VMs without you having to think about it, all in just an hour or two of setup time.

More information about PVC, its motivations, the hardware requirements, and setting up and managing a cluster can be found over at our docs page.

Getting Started

To get started with PVC, please see the About page for general information about the project, and the Getting Started page for details on configuring your first cluster.

Changelog

View the changelog in CHANGELOG.md. Please note that any breaking changes are announced here; ensure you read the changelog before upgrading!

Screenshots

These screenshots show some of the available functionality of the PVC system and CLI as of PVC v0.9.85.

0. Integrated help
The CLI features an integrated, fully-featured help system to show details about every possible command.

1. Connection management
A single CLI instance can manage multiple clusters, including a quick detail view, and will default to a "local" connection if an "/etc/pvc/pvc.conf" file is found; sensitive API keys are hidden by default.

2. Cluster details and output formats
PVC can show the key details of your cluster at a glance, including health, persistent fault events, and key resources; the CLI can output both in pretty human format and JSON for easier machine parsing in scripts.

3. Node information
PVC can show details about the nodes in the cluster, including their live health and resource utilization.

4. VM information
PVC can show details about the VMs in the cluster, including their state, resource allocations, current hosting node, and metadata.

5. VM details
In addition to the above basic details, PVC can also show extensive information about a running VM's devices and other resource utilization.

6. Network information
PVC has two major client network types, and ensures a consistent configuration of client networks across the entire cluster; managed networks can feature DHCP, DNS, firewall, and other functionality including DHCP reservations.

7. Storage information
PVC provides a convenient abstracted view of the underlying Ceph system and can manage all core aspects of it.

8. VM and node logs
PVC can display logs from VM serial consoles (if properly configured) and nodes in-client to facilitate quick troubleshooting.

9. VM and worker tasks
PVC provides full VM lifecycle management, as well as long-running worker-based commands (in this example, clearing a VM's storage locks).

10. Provisioner
PVC features an extensively customizable and configurable VM provisioner system, including EC2-compatible CloudInit support, allowing you to define flexible VM profiles and provision new VMs with a single command.

11. Prometheus and Grafana dashboard
PVC features several monitoring integration examples under "node-daemon/monitoring", including CheckMK, Munin, and, most recently, Prometheus, including an example Grafana dashboard for cluster monitoring and alerting.

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  1. pvc pvc Public

    Parallel Virtual Cluster - A KVM/Zookeeper/Ceph-based hyperconverged infrastructure manager

    Python 112 4

  2. pvc-ansible pvc-ansible Public

    Ansible roles and example configuration for managing a PVC cluster

    Shell 3 1

  3. pvc-installer pvc-installer Public

    Node installer ISO generator for PVC nodes, based off Debian Live

    Shell 3 1

  4. docs docs Public

    PVC Documentation via MKDocs

  5. pvc-bootstrap pvc-bootstrap Public

    Automated deployment system for PVC clusters

    Python

  6. website website Public

    PVC website at https://www.parallelvirtualcluster.org

    SCSS

Repositories

Showing 8 of 8 repositories
  • pvc Public

    Parallel Virtual Cluster - A KVM/Zookeeper/Ceph-based hyperconverged infrastructure manager

    parallelvirtualcluster/pvc’s past year of commit activity
    Python 112 GPL-3.0 4 0 0 Updated Nov 19, 2024
  • docs Public

    PVC Documentation via MKDocs

    parallelvirtualcluster/docs’s past year of commit activity
    0 0 0 0 Updated Nov 18, 2024
  • pvc-ansible Public

    Ansible roles and example configuration for managing a PVC cluster

    parallelvirtualcluster/pvc-ansible’s past year of commit activity
    Shell 3 GPL-3.0 1 0 0 Updated Nov 15, 2024
  • pvc-installer Public

    Node installer ISO generator for PVC nodes, based off Debian Live

    parallelvirtualcluster/pvc-installer’s past year of commit activity
    Shell 3 GPL-3.0 1 0 0 Updated Nov 6, 2024
  • pvc-bootstrap Public

    Automated deployment system for PVC clusters

    parallelvirtualcluster/pvc-bootstrap’s past year of commit activity
    Python 0 GPL-3.0 0 1 0 Updated Nov 4, 2024
  • .github Public
    parallelvirtualcluster/.github’s past year of commit activity
    0 0 0 0 Updated Oct 26, 2024
  • parallelvirtualcluster/website’s past year of commit activity
    SCSS 0 CC-BY-4.0 0 0 0 Updated Oct 26, 2024
  • vhostmd Public Forked from vhostmd/vhostmd

    vhostmd provides a "metrics communication channel" between a host and its hosted virtual machines, allowing limited introspection of host resource usage from within virtual machines. Soft fork for PVC Debian builds.

    parallelvirtualcluster/vhostmd’s past year of commit activity
    C 0 LGPL-2.1 7 0 0 Updated Dec 26, 2023

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