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---
layout: "intro"
page_title: "Introduction"
sidebar_current: "what"
description: |-
Welcome to the intro guide to Nomad! This guide is the best place to start with Nomad. We cover what Nomad is, what problems it can solve, how it compares to existing software, and contains a quick start for using Nomad.
---
# Introduction to Nomad
Welcome to the intro guide to Nomad! This guide is the best
place to start with Nomad. We cover what Nomad is, what
problems it can solve, how it compares to existing software,
and contains a quick start for using Nomad.
If you are already familiar with the basics of Nomad, the
[documentation](/docs/index.html) provides a better reference
guide for all available features as well as internals.
## What is Nomad?
Nomad is a tool for managing a cluster of machines and running applications
on them. Nomad abstracts away machines and the location of applications,
and instead enables user to declare what they want to run and Nomad handles
where they should run and how to run them.
The key features of Nomad are:
* **Docker Support**: Nomad supports Docker as a first-class workload type.
Jobs submitted to Nomad can use the “docker” driver to easily deploy containerized
applications to a cluster. Nomad enforces the user-specified constraints,
ensuring the application only runs in the correct region, datacenter, and host
environment. Jobs can specify the number of instances needed and
Nomad will handle placement and recover from failures automatically.
* **Operationally Simple**: Nomad ships as a single binary, both for clients and servers,
and requires no external services for coordination or storage. Nomad combines features
of both resource managers and schedulers into a single system. Nomad builds on the strength
of [Serf](https://www.serfdom.io) and [Consul](https://www.consul.io), distributed management
tools by [HashiCorp](https://hashicorp.com).
* **Multi-Datacenter and Multi-Region Aware**: Nomad models infrastructure as
groups of datacenters which form a larger region. Scheduling operates at the region
level allowing for cross-datacenter scheduling. Multiple regions federate together
allowing jobs to be registered globally.
* **Flexible Workloads**: Nomad has extensible support for task drivers, allowing it to run
containerized, virtualized, and standalone applications. Users can easily start Docker
containers, VMs, or application runtimes like Java. Nomad supports Linux, Windows, BSD and OSX,
providing the flexibility to run any workload.
* **Built for Scale**: Nomad was designed from the ground up to support global scale
infrastructure. Nomad is distributed and highly available, using both
leader election and state replication to provide availability in the face
of failures. Nomad is optimistically concurrent, enabling all servers to participate
in scheduling decisions which increases the total throughput and reduces latency
to support demanding workloads.
## Next Steps
See the page on [Nomad use cases](/intro/use-cases.html) to see the
multiple ways Nomad can be used. Then see
[how Nomad compares to other software](/intro/vs/index.html)
to see how it fits into your existing infrastructure. Finally, continue onwards with
the [getting started guide](/intro/getting-started/install.html) to use
Nomad to run a job and see how it works in practice.