Release & Press

Posted By admin On 29/12/21
Download Source Code ffmpeg-snapshot.tar.bz2
More releases
  1. Release Pressure Under Nail
  2. Release Pressure
  3. Release Pressure Instant Pot
  4. Press Release
  5. Release Pressure In The Duo Nova
  6. Release Pressure In Ears

If you find FFmpeg useful, you are welcome to contribute by donating. More downloading options

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Get packages & executable files

FFmpeg only provides source code. Below are some links that provide it already compiled and ready to go.

Linux Packages

Linux Static Builds

Windows EXE Files


Get the Sources

You can retrieve the source code through Git by using the command:

Cannot access Git or wish to speed up the cloning and reduce the bandwidth usage?
Release pressure in eye

FFmpeg has always been a very experimental and developer-driven project. It is a key component in many multimedia projects and has new features added constantly. Development branch snapshots work really well 99% of the time so people are not afraid to use them.

Git Repositories

Since FFmpeg is developed with Git, multiple repositories from developers and groups of developers are available.

Clone URLDescription
Main FFmpeg Git repository website repository server software repository
Mirror of the main repository
Mirror of the website repository
Mirror of the FATE server repository


Approximately every 6 months the FFmpeg project makes a new major release. Between major releases point releases will appear that add important bug fixes but no new features. Note that these releases are intended for distributors and system integrators. Users that wish to compile from source themselves are strongly encouraged to consider using the development branch (see above), this is the only version on which FFmpeg developers actively work. The release branches only cherry pick selected changes from the development branch, which therefore receives much more and much faster bug fixes such as additional features and security patches.

FFmpeg 4.3.1 '4:3'

4.3.1 was released on 2020-07-11. It is the latest stable FFmpeg release from the 4.3 release branch, which was cut from master on 2020-06-08.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

FFmpeg 4.2.4 'Ada'

4.2.4 was released on 2020-07-09. It is the latest stable FFmpeg release from the 4.2 release branch, which was cut from master on 2019-07-21.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

FFmpeg 4.1.6 'al-Khwarizmi'

4.1.6 was released on 2020-07-05. It is the latest stable FFmpeg release from the 4.1 release branch, which was cut from master on 2018-11-02.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

FFmpeg 4.0.6 'Wu'

4.0.6 was released on 2020-07-03. It is the latest stable FFmpeg release from the 4.0 release branch, which was cut from master on 2018-04-16.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

FFmpeg 3.4.8 'Cantor'

Release pressure in the duo nova

3.4.8 was released on 2020-07-04. It is the latest stable FFmpeg release from the 3.4 release branch, which was cut from master on 2017-10-11.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

FFmpeg 3.2.15 'Hypatia'

3.2.15 was released on 2020-07-02. It is the latest stable FFmpeg release from the 3.2 release branch, which was cut from master on 2016-10-26.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

FFmpeg 2.8.17 'Feynman'

2.8.17 was released on 2020-07-07. It is the latest stable FFmpeg release from the 2.8 release branch, which was cut from master on 2015-09-05. Amongst lots of other changes, it includes all changes from ffmpeg-mt, libav master of 2015-08-28, libav 11 as of 2015-08-28.

It includes the following library versions:

Download bzip2 tarballPGP signature
ChangelogRelease Notes

Old Releases

Older versions are available at the Old Releases page.


Azure Pipelines Azure DevOps Server 2020 Azure DevOps Server 2019 TFS 2018 - TFS 2015



Release Pressure Under Nail

In Microsoft Team Foundation Server (TFS) 2018 and previous versions,build and release pipelines are called definitions,runs are called builds,service connections are called service endpoints,stages are called environments,and jobs are called phases.


This article covers classic release pipelines. If you want to use YAML to author CI/CD pipelines, then see Create your first pipeline.

Release pipelines in Azure Pipelines help your team continuously deliver software to your customers at a faster pace and with lower risk. You can fully automate the testing and delivery of your software in multiple stages all the way to production. Or, set upsemi-automated processes with approvals and on-demand deployments.

See Releases in Azure Pipelines to understand releases and deployments and watch the following video to see release pipelines in action.

How do release pipelines work?

Release pipelines store the data for your pipelines, stages, tasks, releases, and deployments in Azure Pipelines.

Azure Pipelines runs the following steps as part of every deployment:

  1. Pre-deployment approval:When a new deployment request is triggered, Azure Pipelines checks whether a pre-deployment approval is required before deploying a release to a stage. If it's required, it sends out email notifications to the appropriate approvers.

  2. Queue deployment job:Azure Pipelines schedules the deployment job on an available automation agent. An agent is a piece of software that can run tasks in the deployment.

  3. Agent selection:An automation agent picks up the job. The agents for release pipelines are exactly the same as the agents that run your builds in Azure Pipelines. A release pipeline can contain settings to select an appropriate agent at runtime.

  4. Download artifacts:The agent downloads all the artifacts specified in that release, provided you haven't opted to skip the download. The agent currently understands two types of artifacts: Azure Pipelines artifacts and Jenkins artifacts.

  5. Run the deployment tasks:The agent then runs all the tasks in the deployment job to deploy the app to the target servers for a stage.

  6. Generate progress logs:The agent creates detailed logs for each step while running the deployment, and pushes these logs back to Azure Pipelines.

  7. Post-deployment approval:When deployment to a stage is complete, Azure Pipelines checks if there's a post-deployment approval required for that stage. If no approval is required, or upon completion of a required approval, it proceeds to trigger deployment to the next stage.

Release pipelines and build pipelines have separate UIs. The main differences in the pipelines are the support in release pipelines for different types of triggers, and the support for approvals and gates.

How do I use a release pipeline?

You start using Azure Pipelines releases by authoring a release pipeline for your application. To author a release pipeline, you must specify the artifacts that make up the application and the release pipeline.

An artifact is a deployable component of your application. It's typically produced through a Continuous Integration or a build pipeline. Azure Pipelines releases can deploy artifacts produced by a wide range of artifact sources. such as Azure Pipelines build, Jenkins, or Team City.

Define the release pipeline using stages and restrict deployments into or out of a stage using approvals. Define the automation in each stage using jobs and tasks. Use variables to generalize your automation and triggers to control when the deployments should be kicked off automatically.

See the following example of a release pipeline that can be modeled through a release pipeline:

In this example, a release of a website is created by collecting specific versions of two builds (artifacts), each from a different build pipeline. The release is first deployed to a Dev stage and then forked to two QA stages in parallel. If the deployment succeeds in both the QA stages, the release is deployed to Production ring 1 and then to Production ring 2. Each production ring represents multiple instances of the same website deployed at various locations around the world.

See the following example of how deployment automation can be modeled within a stage:

In this example, a job is used to deploy the app to websites across the world in parallel within production ring 1. After all those deployments are successful, a second job is used to switch traffic from the previous version to the newer version.


TFS 2015: Jobs and fork/join deployments are not available in TFS 2015.


Check out the following articles to learn how to:

  • Create your first pipeline.

  • Set up a multi-stage managed release pipeline.

  • Manage deployments by using approvals and gates.

What is a draft release?

Draft releases are deprecated in Azure Pipelines because you can change variables while you're creating the release.

Creating a draft release allows you to edit some settings for the release and tasks, depending on your role permissions before you start the deployment.The changes apply only to that release, and don't affect the settings of the original pipeline.

Create a draft release using the '...' ellipses link in the list of releases:

... or the Release drop-down in the pipeline definition page:

After you finish editing the draft release, choose Start from the draft release toolbar.

How do I specify variables I want to edit when a release is created?

In the Variables tab of a release pipeline, when you add new variables, set Settable at release time for the variables that you want to edit when a release gets created and queued.

Then, when you create a new release, you can edit the values for these variables.

How do I integrate and report release status?

The current status for a release can be reported back in the source repository. In the Options tab of a release pipeline, open the Integrations page.

Report deployment status to the repository host

If your sources are in an Azure Repos Git repository in your project, this option displays a badge on the Azure Repos pages. The badge indicates where the specific commit got deployed and whether the deployment is passing or failing. This option improves the traceability from code commit to deployment.

The deployment status is displayed in the following sections of Azure Repos:

  • Files: Indicates the status of the latest deployment for the selected branch.
  • Commits: Indicates the deployment status for each commit (requires the continuous integration (CD) trigger to be enabled for your release).
  • Branches: Indicates the status of the latest deployment for each branch.

If a commit gets deployed to multiple release pipelines, with multiple stages, each has an entry in the badge with status that's shown for each stage. By default, when you create a release pipeline, deployment status is posted for all stages. However, you can selectively choose the stages for which deployment status should be displayed in the status badge (for example, show only the production stage). Your team members can select the status badge to view the latest deployment status for each of the selected stages of the release pipelines.


If your source is not an Azure Repos Git repository, you cannot use Azure Pipeline to automatically publish the deployment status to your repository. However, you can still use the Enable the Deployment status badge option described as follows, to show deployment status within your version control system.

Report deployment status to Work

Select this option if you want to create links to all work items that represent associated changes to the source, when a release is complete.

Enable the deployment status badge

Select this option if you want to display the latest outcome of a stage deployment on an external website.

  1. Select 'Enable the deployment status badge'.

  2. Select the stages for which you want to display the outcome. By default, all the stages are selected.

  3. Save your pipeline.

  4. Copy the badge URL for the required stage to the clipboard.

  5. Use this badge URL as a source of an image in an external website.
    For example: <img src='{URL you copied from the link}'/>

When should I edit a release instead of the pipeline that defines it?

You can edit the approvals, tasks, and variables of a previously deployed release. Do so instead of editing these values in the pipeline from which the release was created. However, these edits apply to only the release generated when you redeploy the artifacts. If you want your edits apply to all future releases and deployments, choose the option to edit the release pipeline instead.

When and why would I abandon a release?

After you create a release, you can redeploy the artifacts to any stages that are defined in that release. This is useful if you want to do regular manual releases, or set up a continuous integration stage trigger that redeploys the artifacts using this release.

If you don't plan to reuse the release, or want to prevent it being used to redeploy the artifacts, you can abandon the release using the shortcut menu that opens from the ellipses (...) icon in the Pipeline view of the pipeline.

You can't abandon a release when a deployment is in progress, you must cancel the deployment first.

How do I send release summaries by email?

After a release is triggered and completed, you may want to email the summary to stakeholders. Use the Send Email option on the menu that opens from the ellipses (...) icon in the Pipeline view of the pipeline.

In the Send release summary mail window, you can further customize the information sent in the email by selecting only certain sections of the release summary.

How do I manage the names for new releases?

The names of releases for a release pipeline are, by default, sequentially numbered. The first release is named Release-1, the next release is Release-2, and so on. You can change this naming scheme by editing the release name format mask. In the Options tab of a release pipeline, edit the Release name format property in the General page.

When specifying the format mask, you can use the following pre-defined variables.

Release Pressure

Rev: rrAn auto-incremented number with at least the specified number of digits.
Date / Date: MMddyyThe current date, with the default format MMddyy. Any combinations of M/MM/MMM/MMMM, d/dd/ddd/dddd, y/yy/yyyy/yyyy, h/hh/H/HH, m/mm, s/ss are supported.
System.TeamProjectThe name of the project to which this build belongs.
Release.ReleaseIdThe ID of the release, which is unique across all releases in the project.
Release.DefinitionNameThe name of the release pipeline to which the current release belongs.
Build.BuildNumberThe number of the build contained in the release. If a release has multiple builds, it's the number of the primary build.
Build.DefinitionNameThe pipeline name of the build contained in the release. If a release has multiple builds, it's the pipeline name of the primary build.
Artifact.ArtifactTypeThe type of the artifact source linked with the release. For example, this can be Azure Pipelines or Jenkins.
Build.SourceBranchThe branch of the primary artifact source. For Git, this is of the form main if the branch is refs/heads/main. For Team Foundation Version Control, this is of the form branch if the root server path for the workspace is $/teamproject/branch. This variable isn't set for Jenkins or other artifact sources.
Custom variableThe value of a global configuration property defined in the release pipeline.

For example, the release name format Release $(Rev:rrr) for build $(Build.BuildNumber) $(Build.DefinitionName) creates releases with names such as Release 002 for build 20170213.2 MySampleAppBuild.

How do I specify the retention period for releases?

You can customize how long releases of this pipeline must be retained. For more information, see release retention.

How do I use and manage release history?

Every time you save a release pipeline, Azure Pipelines keeps a copy of the changes. This copy allows you to compare the changes at a later point, especially when you're debugging a deployment failure.

How do I set it up to automatically link new work in a build?

When we establish traceability between work items and builds/releases, there are the following two aspects:

  • List the work items that were newly built as part of a build. You can find this when you're looking at a build instance.
  • List the builds that this work item was built in. You can find the list in the 'Development' section in a work item form.The setting to 'Automatically link new work in this build' has nothing to do with how we compute the first bulleted item. It only influences how we compute the second bulleted item.
Release pressure

The computation for the first bullet is as follows for a build:Let's say, for example, that you started a new build. Whatever the setting, we compute a list of new commits for the build. We do the following tasks:

Release Pressure Instant Pot

  • We find the commit c2 that is being built now.
  • We find the commit c1 that was built in the last successful build of the same branch (Build.SourceBranch).
  • We find all the commits between c1 and c2 (in the commit tree).

It could happen that there's no last known successful build on the same branch. For example, when you run a build for the first time on a branch, or when all the previous builds on a branch have been deleted (possibly through retention policies). The list could be long in these cases.

Once we have the list of commits, we enumerate all the work items associated with each of those commits. This is the list that you see in a build.

Press Release

Get started now!

Release Pressure In The Duo Nova


Release Pressure In Ears

Complete the following steps:

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