[{"data":1,"prerenderedAt":818},["ShallowReactive",2],{"/en-us/blog/gitlab-flow-duo":3,"navigation-en-us":41,"banner-en-us":450,"footer-en-us":460,"blog-post-authors-en-us-Cesar Saavedra":699,"blog-related-posts-en-us-gitlab-flow-duo":713,"blog-promotions-en-us":756,"next-steps-en-us":808},{"id":4,"title":5,"authorSlugs":6,"body":8,"categorySlug":9,"config":10,"content":14,"description":8,"extension":27,"isFeatured":12,"meta":28,"navigation":29,"path":30,"publishedDate":20,"seo":31,"stem":35,"tagSlugs":36,"__hash__":40},"blogPosts/en-us/blog/gitlab-flow-duo.yml","Gitlab Flow Duo",[7],"cesar-saavedra",null,"ai-ml",{"slug":11,"featured":12,"template":13},"gitlab-flow-duo",false,"BlogPost",{"title":15,"description":16,"authors":17,"heroImage":19,"date":20,"body":21,"category":9,"tags":22,"updatedDate":26},"Combine GitLab Flow and GitLab Duo for a workflow powerhouse ","Add the AI-powered capabilities of GitLab Duo to GitLab Flow to boost the efficiency of DevSecOps workflows. This is a guide for deployment in your environment, including a video tutorial.",[18],"Cesar Saavedra","https://res.cloudinary.com/about-gitlab-com/image/upload/v1749662840/Blog/Hero%20Images/ai-experiment-stars.png","2023-07-27","Starting out with DevSecOps requires a well-thought-out workflow, but that can sometimes seem like a daunting challenge. Luckily, there are two things that can help: GitLab Flow and GitLab Duo. GitLab Flow is a prescribed approach to help organizations successfully apply DevSecOps processes. GitLab Duo is a [powerful set of AI-powered capabilities](https://about.gitlab.com/blog/supercharge-productivity-with-gitlab-duo/) within the GitLab DevSecOps Platform that can help organizations develop code, improve operations, and secure software more efficiently. Combined, GitLab Flow and GitLab Duo can help organizations achieve significant improvements in end-to-end workflow efficiency, which can lead to even higher levels of productivity, deployment frequency, code quality and overall security, and production resiliency and availability.\nIn this article, we delve into how GitLab Flow and GitLab Duo can be used together to help organizations be successful with DevSecOps.\n\n> Discover the future of AI-driven software development with our GitLab 17 virtual launch event. [Watch today!](https://about.gitlab.com/eighteen/)\n\n## What is GitLab Flow?\nGitLab Flow is a prescribed and opinionated end-to-end workflow for the development lifecycle of applications when using GitLab, an AI-powered DevSecOps platform with a single user interface and a single data model. GitLab Flow is based on best practices and lessons learned from customer feedback and our dogfooding. Furthermore, GitLab Flow spans across the [stages of the DevSecOps lifecycle](https://about.gitlab.com/stages-devops-lifecycle/), forming an efficient workflow with an inner feedback loop for reviewing a specific update and an outer feedback loop for improving the entire application, as well as the development lifecycle itself.\n![The GitLab Flow inner and outer loops](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/The-GitLab-Flow-2023-feedback-loops.png)\n\u003Ccenter>The GitLab Flow inner and outer loops\u003C/center>\u003Cp>\u003C/p>\n\nAs you can see by the many stages in GitLab Flow, there is much more to developing software than writing code. Below, we'll dive into each step of GitLab Flow and how GitLab Duo can help.\n### Planning\nThe first portion of GitLab Flow is planning, which sits on the outer feedback loop of GitLab Flow. It encompasses issues, merge requests, epics, milestones, iterations, release, release evidence, and more. Let’s cover what roles these components play in GitLab Flow and how GitLab Duo can help.\n\n![Planning - first portion of GitLab Flow](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/The-GitLab-Flow-2023-planning-portion.png)\n\u003Ccenter>Planning - first portion of GitLab Flow\u003C/center>\u003Cp>\u003C/p>\n\n#### Issues\nIssues are where product problems or new features are defined and where team members can collaborate. As an issue is created, you can populate its title and then leverage GitLab Duo **Issue description generation** capability to help enrich the description field, saving time and effort. Because many stakeholders can participate in comment threads on an issue, **Discussion summary** is an AI-powered capability in GitLab Duo that can summarize hundreds of comments on an issue into a concise paragraph so that a stakeholder can quickly get caught up with the conversation, jump into the discussion, and become productive right away.\n\nIssues can be organized and visualized in issue boards, which are a software project management tool that can be used as kanban or Scrum boards. These boards help teams plan, organize, and visualize a workflow for a feature or product release. Different categories of boards can be created and issues can be moved from one board to another one with a simple drag and drop.\n\n#### Merge requests\nMerge requests are where solutions are developed. As release components, issues and merge requests provide the auditability and tracking of application changes done by stakeholders, such as DevOps and platform engineers, system and database administrators, security engineers, and developers. In addition, issues and merge requests are key inputs for the release planning process.\n\nMerge requests can be individually created or created from an issue. Creating a merge request from an issue automatically relates it to that issue so when the merge request is merged its associated issue is automatically closed. Merge requests can also be manually related to an issue.\n\n![Merged merge request will close issue](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/mr-with-its-issue.png)\n\u003Ccenter>Merged merge request will close issue\u003C/center>\u003Cp>\u003C/p>\n\nLike issues, merge requests can include a long list of updates to a feature branch by many stakeholders. Collaborators who need to familiarize themselves with or understand all of the updates included in a merge request can take advantage of the **Merge request summary** capability in GitLab Duo to quickly get caught up on the changes. In addition, collaborators can invoke GitLab Duo **Code Merge request template population**, which uses a pre-created merge request template and automatically fills in the content for sections in it. Description templates provide a way to standardize and optimize collaboration and communication across the development lifecycle and GitLab Duo speeds this up even more!\n\nIssues with the same theme can be grouped together in an epic to organize the work to be done. Epics can have child issues and sub-epics and/or be linked to epics across the organization. Iterations can be used to track sprints of work, and can be manually scheduled or scheduled automatically using GitLab iteration cadences to streamline planning workflows. In addition, iterations include burndown and burnup charts. Burndown charts help track overall progress towards a project's total scope, while burnup charts track the daily total count and weight of issues added to and completed in a given timebox.\n\n#### Milestones\nTeams can use milestones to organize issues and merge requests into a cohesive group with an optional start date and an optional due date. Milestones are typically used to track releases and can track issues and merge requests at a project level or group level. Similar to iterations, milestones also provide burndown and burnup charts to show progress.\n\nMilestones can be associated with a release, whose automated creation generates many artifacts, including the release evidence. The release evidence is an automatically collected snapshot of data that’s related to the release. In addition to test artifacts and linked milestones, job artifacts can optionally be included in the release evidence, which can facilitate internal processes such as external audits.\n\nEpics, milestones, and iterations can be visualized via the Roadmaps page, which helps track release progress and streamline the release process.\nOnce the planning takes place, the work towards the resolution of a problem or a new feature can start. This happens in merge requests. Let’s delve deeper into how that happens in GitLab Flow.\n> [Learn more by trying GitLab Flow and GitLab Duo](https://gitlab.com/-/trials/new?glm_content=default-saas-trial&glm_source=about.gitlab.com%2Fblog%2F).\n\n### Merge requests and pushing code\n\n![Merge requests and pushing code - second portion of GitLab Flow](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/The-GitLab-Flow-2023-mr-pushing-code-portion.png)\n\u003Ccenter>Merge requests and pushing code - second portion of GitLab Flow\u003C/center>\u003Cp>\u003C/p>\n\nThe second portion of GitLab Flow is related to merge requests and pushing code. As mentioned earlier, merge requests are where solutions are developed through collaboration among stakeholders across the organization. This collaboration can happen in a distributed manner and asynchronously. Participants can take advantage of collaborative capabilities, such as tagging, inline suggestions, inline comments, merge request comments, review threads, and review requests, which can help improve code quality, availability, reliability, and performance. Right after the creation of the merge request is the start of the GitLab Flow inner feedback loop, which is where code and fix pushes, test and scan runs, and collaboration and update reviews take place.\n\n#### Pipelines\nAs updates are applied to a feature branch via merge requests, pipelines — if defined — are automatically executed. Pipelines can have multiple stages and jobs to build and test, and then deploy the application or microservice to a review environment. In that review environment, the updates can be dynamically verified before they are merged to the main branch. This automation helps streamline the application update and review processes.\n\nIn addition, as DevSecOps teams make updates to the application via merge requests, they have a variety of AI-powered capabilities at their disposal. As they write or update code, GitLab Duo **Code Suggestions** recommends code that should come next and the developer can choose to accept or ignore the recommendation. Code Suggestions support code generation via prompts as well as code completion as you type. Code Suggestions can help improve the programming experience by reducing errors and helping developers write code faster, which can help enhance production code quality. Code Suggestions also can lead to higher developer productivity and faster iterations and rollouts.\n\nAs different stakeholders within the organization participate in the development or review of applications, they may encounter code that is poorly documented, complex or difficult to understand, or is written in a programming language unfamiliar to them. The GitLab Duo **Code explanation** capability explains code in natural language so that everyone can understand the code and get up to speed quickly.\n\nMoreover, when updates are committed to the feature branch, the GitLab Duo **Suggested reviewers** capability uses the changes in a merge request and a project’s contribution graph to suggest appropriate reviewers in the reviewer dropdown in the merge request sidebar. The list includes users that are knowledgeable about a specific aspect of the application and would be the best candidates to review the updates. Developers save time by not having to search and identify adequate reviewers, streamlining the review process and avoiding delays and low-quality reviews.\n\nWhen developers make changes to the code, they often don't include a comment in the merge request about the specific changes they made. The GitLab Duo **Merge request summary** capability allows the author of merge request changes to use AI to generate a natural-language comment that summarizes the updates to the code. Reviewers then can better understand the changes and streamline the entire review process\n\nAs reviewers review updates to the code in a merge request, they can create a review block, which can consist of many comments spanning many source files. To help the original author of the updates better understand the feedback provided by the reviewer in a long review block, the GitLab Duo **Code review summary** capability generates a natural-language summary of the reviewer’s feedback. This enables better handoff between authors and reviewers, streamlining the review process.\n\nFurthermore, when developers add new code via a merge request, they can leverage the GitLab Duo **Test generation** capability to use AI to generate unit tests for the new code. This can help to increase developer productivity, improve test coverage, and catch bugs early in the development lifecycle. Developers can also leverage GitLab Duo **Chat**, which is always accessible, to refactor code and generate in-line documentation, e.g. docstrings, for their source code.\n\nWhile pipelines execute on branch updates, they can include automated tests and scans, which helps in shifting security left.\n\n### Shifting security left\n\n![Shifting security left - third portion of GitLab Flow](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/The-GitLab-Flow-2023-shift-sec-left-portion.png)\n\u003Ccenter>Shifting security left - third portion of GitLab Flow\u003C/center>\u003Cp>\u003C/p>\n\nThe third portion of GitLab Flow is shifting security left, which is also part of the GitLab Flow inner feedback loop.\n\nIn addition to DevOps and platform engineers, system and database administrators, and developers, some of the stakeholders collaborating in a merge request may be concerned about security and compliance, which is where automated tests and security scans play a role. Scans can be simply included in a pipeline via readily available templates and/or can be automatically executed within a merge request pipeline. GitLab provides a broad set of built-in security scanners and analyzers that can be leveraged by GitLab Flow, but the DevSecOps platform can also accommodate third-party and custom scanners.\n\nGitLab Flow shifts security left in the pipeline to detect and resolve defects as early as possible in the software development process. It is much simpler and cheaper to fix vulnerabilities early in the development cycle than once the application is in production, where an unscheduled outage can affect your users and revenue.\n\nThe built-in security scanners and analyzers provided by GitLab include: unit testing, infrastructure-as-code (IaC) scanning, static application security testing (SAST) scanners, dependency scanning, secret detection, container scanning, API security, web API fuzz testing, and coverage-guided fuzz testing. In addition, GitLab provides a variety of security dashboards and reports to manage and visualize vulnerabilities, such as the Dependencies list, Security dashboard, Vulnerability Report, and vulnerability pages.\n\nTo help developers and security engineers better understand and remediate vulnerabilities more efficiently, the GitLab Duo **Vulnerability explanation** capability provides an explanation about a specific vulnerability, how it can be exploited, and, most importantly, a recommendation on how to fix the vulnerability. Developers can also take advantage of GitLab Duo **Vulnerability resolution**, which automatically creates a merge request that includes code changes to fix the vulnerability. These AI-powered capabilities can help streamline and optimize the process of securing and hardening an application to prevent vulnerabilities that can be exploited by cyber attacks in production.\n\nBesides SAST scanners, GitLab provides dynamic application security testing (DAST) scanners, which require a running application. When leveraging these scanners, GitLab is capable of automatically provisioning a DAST environment for the DAST scans and then performing a complete cleanup of all resources post-DAST testing. In addition, for running containers, GitLab provides operational container scanning, which scans container images in your cluster for security vulnerabilities.\n\nThe scans mentioned above can be executed automatically within a merge request pipeline or, in some cases, can be scheduled for execution via scan execution and merge request approval policies. These policies can be defined via the GitLab UI or YAML files and are configured in a separate project, allowing segregation of duties for reusability, maintenance, and management. Scan execution policies require that security scans be run on a specified schedule or with the project pipeline, and merge request approval policies take action based on scan results. Security engineers or teams can define these policies to enforce security processes across the organization and GitLab Flow may encounter or leverage these as it spans through its steps.\n\nTo enforce security and compliance across projects in your organization, you can use compliance labels and pipelines. Compliance labels and pipelines can be made mandatory to execute before a project’s own pipeline. With this approach, you can ensure that all teams within your organization meet your security and compliance standards. In addition, you can secure your applications against cyber attacks, conform to government compliance standards, and always be audit-ready.\n\nThe main goal of all of these GitLab Flow security prescriptions is to fix vulnerabilities early in the development cycle rather than once the application is in production, where remediating a vulnerability can prove to be very costly in reputation and revenue.\n\nAs vulnerabilities are mitigated within the GitLab Flow inner feedback loop and more updates are applied to the application in the feature branch, stakeholders need to re-review these updates to ensure that the updates have taken place and no regressions have inadvertently been introduced.\n\n### Continuous review\n\n![Reviews - fourth portion of GitLab Flow](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/The-GitLab-Flow-2023-reviewing-features-portion.png)\n\u003Ccenter>Reviews - fourth portion of GitLab Flow\u003C/center>\u003Cp>\u003C/p>\n\nThe next portion of GitLab Flow is reviewing features, which prescribes the continuous review of applications. Reviewing features involves the ability to stand up a review environment to which the interim application (feature branch) is deployed so that stakeholders can review it in real time and provide feedback. The interim application can then be continuously adjusted until it is ready to be merged to the main branch. GitLab Flow also prescribes the cleanup of all provisioned review environment resources at the moment when the merge request is merged to the main branch.\n\nThis iterative automated review process is part of the inner feedback loop in GitLab Flow. As mentioned above, within the inner feedback loop, GitLab Duo capabilities like Code explanation, Code Suggestions, Suggested reviewers, Merge request summary, Merge request template population, Code review summary, Vulnerability explanation, Vulnerability resolution, and Root cause analysis are prescribed by GitLab Flow to enable a better handoff between authors and reviewers and streamline the entire review process.\n\nThe GitLab Flow inner feedback loop terminates when all review items are addressed and the merge request is approved and merged to the main branch, which triggers the deployment of the application to production.\n\n### Deploying applications and infrastructure\n\n![Deploying - fifth portion of GitLab Flow](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/The-GitLab-Flow-2023-deploy-apps-portion.png)\n\u003Ccenter>Deploying - fifth portion of GitLab Flow\u003C/center>\u003Cp>\u003C/p>\n\nDepending on an organization’s needs, either continuous delivery or continuous deployment is prescribed by GitLab Flow. Whereas continuous delivery is the frequent release of code by triggering the deployments manually (e.g., to production), continuous deployment is the automated release of code (e.g., to production) without human intervention. Let’s cover continuous delivery first.\n\nAs you release your software using continuous delivery, you have a few deployment options. You can establish a freeze window and then deploy using advanced deployment techniques, such as canary, blue/green, timed, and incremental rollouts. Incremental rollouts can lower the risk of production outages delivering a better user experience and customer satisfaction. Advanced deployment techniques can also improve development and delivery efficiency, streamlining the release process.\n\nAs you release your software using continuous deployment, all changes/updates go directly to production. Progressive delivery approaches like feature flags, which allow you to separate the delivery of specific features from a launch, are a good way to reduce risk and manage what functionality to make available to production users. Feature flags support multiple programming languages and allow developer experimentation and controlled testing. You can even use feature flags to roll out features to specific users.\n\nAlthough GitLab supports all these deployment approaches, GitLab Flow allows for the adoption of the approach that best fits the organization and/or specific project needs.\n\n### Monitoring applications and DevSecOps processes\nOnce your application has been deployed to production, it needs to be continuously monitored to ensure its stability, performance, and availability. In addition, as the DevSecOps processes execute, they are measured, providing the opportunity to improve their performance and efficiency. The monitoring capabilities are provided by GitLab and, as such, can be leveraged by GitLab Flow.\n\nFor running containers, GitLab provides operational container scanning (OCS), which scans container images in your cluster for security vulnerabilities. These scans can be automated by scheduling them when to run and any found vulnerabilities are automatically displayed in a security dashboard. The OCS can help keep your cluster applications secure and preempt any cyber attacks that can lead to leaks of private data and even cause unexpected outages.\n\nError tracking allows developers to discover and view errors generated by their application. All errors generated by your application are displayed in the Error Tracking list in GitLab. Error tracking can help with availability and performance of your applications by detecting and resolving unexpected application conditions fast.\n\nGitLab can accept alerts from any monitoring source, including Prometheus, via a webhook receiver. As alerts come in, they are displayed in the GitLab Alerts list, from which you can manually manage them. Alerts can also automatically trigger the creation of incidents, ChatOps, and email messages to appropriate individuals or groups. All these capabilities streamline the alert resolution and management process.\n\nAs incidents are created, due to production problems, they appear in the GitLab Incidents list for incident management. You can manage one or more incidents, sort them, search them, assign them, set their statuses, and even see their SLA preset countdown timer. Moreover, you can create on-call schedules and rotations, escalation policies, and set up paging and notifications to handle incidents. In addition, you can link an incident to an alert so that when the incident is closed, its associated alert is automatically resolved. Incident timelines are another capability for executives and external viewers to see what happened during an incident, and which steps were taken for it to be resolved. All these capabilities streamline the incident management process so that they can be resolved as quickly as possible.\n\nAudit events track important events, including who performed the related action and when in GitLab. These events are displayed in the GitLab Audit Events list and provide, among others, the action that was taken on an object, who did it, and the date and time of its occurrence.\n\nAll the lists and dashboards mentioned above can help preempt out-of-compliance scenarios to avoid penalties as well as streamline audit processes. For your running applications, they generate the data and metrics that can be used in the GitLab Flow outer feedback loop to help improve and optimize your applications and lower the risk of unscheduled production outages.\n\n### Continuous improvement\nWhen applying GitLab Flow, you also have the opportunity to use the insight that GitLab provides in the form of end-to-end process metrics dashboards to continuously improve not just your application but also your software delivery performance. These dashboards and their metrics are auto-generated by GitLab and are always available.\n\n### The Value Stream Analytics dashboard\n\nYou can track and monitor your application development lifecycle through the Value Stream Analytics Dashboard, where you can check project or group statistics over time. This dashboard is customizable but you can get started quickly by creating a value stream using a GitLab-provided default template. The default dashboard displays metrics for each of the pre-defined stages of your value stream analytics, namely Issue, Plan, Code, Test, Review, and Staging, as well as a graph with the average time to completion for each. It also shows the value stream analytics key metrics: lead time, cycle time, new issues, commits, and deploys. You can use these metrics to find areas of improvement in the stages of your value stream.\n\n### DORA metrics dashboard\n\nTo view the performance metrics that measure the effectiveness of your organization’s development and delivery practices, GitLab provides the [DORA](https://about.gitlab.com/solutions/value-stream-management/dora/) (DevOps Research and Assessment) metrics dashboard, which displays four key metrics: Deployment Frequency, Lead Time for Changes, Time to Restore Service, and Change Failure Rate. Deployment Frequency measures how often your organization deploys code to production or releases it to end users. Lead Time for Changes measures how long it takes to go from code committed to code successfully running in production. Time to Restore Service measures the time needed to restore services to the level they were previously, in case of an incident. Finally, Change Failure Rate is the percentage of changes to production or released to users that resulted in a degraded service (for example, a change that caused a service impairment or outage) and subsequently required remediation (required a hotfix, rollback, patch). These four key metrics are outcomes of your current processes and give you the opportunity to improve the factors and capabilities that drive them.\n\n### Customize your dashboard\n\nAnother dashboard is the Value Streams Dashboard, which is a customizable dashboard that enables decision-makers to identify trends, patterns, and opportunities for software development improvements. The metrics shown are the DORA metrics followed by the value stream analytics flow metrics and counts for critical and high vulnerabilities for the month to date, the two preceding months, and the past six months.\n\nGitLab Duo can also help in your continuous improvement efforts. For example, the **Value stream forecasting** capability takes historical data and uses data trends across your development lifecycle to predict the future behavior of your value stream metrics. You can use these predictive analyses in your optimization initiatives.\n\nAll these dashboards and the metrics they report on are part of the GitLab Flow outer feedback loop to help you lower the risk of unscheduled production outages and improve and optimize your applications and DevSecOps workflows.\n\n### AI impact analytics\nTo better understand the impact of the use of GitLab Duo (or AI) along the entire development life cycle, you can check the [AI Impact analytics](https://about.gitlab.com/blog/developing-gitlab-duo-ai-impact-analytics-dashboard-measures-the-roi-of-ai/), from where you can see how the adoption of GitLab Duo Code Suggestions impacts other performance, quality and security metrics. You can visualize the last six months of AI adoption and its impact on other metrics, such as cycle time, lead time, deployment frequency, change failure rate, and critical vulnerabilities over time.\n\nAI impact analytics help to measure adoption, effectiveness and benefits that AI brings to teams and organizations and also to identify areas for improvement.\n\n## Why use GitLab Flow?\nGitLab Flow is a prescribed approach, practiced by our customers and users worldwide, that can provide the following benefits: - Higher productivity via the automation capabilities provided by GitLab and its single user interface and data model, all leveraged by GitLab Flow\n- Accurate insights into the end-to-end DevSecOps lifecycle to support continuous improvement\n- Built-in dashboards and metrics that can help you optimize your applications and DevSecOps processes\n- Higher code quality and improved reliability and availability of your applications\n- Better application security through built-in security scanners and capabilities\n- Compliance- and audit-readiness via built-in compliance features\n- Shorter cycle times that can help you increase deployment frequency\n- Continuous review enabled by the GitLab Flow inner feedback loop\n- The GitLab Flow inner feedback loop can help you optimize application updates leading to better code quality and higher reliability and availability of your applications\n- The GitLab Flow outer feedback loop can help you improve your applications as well as the development lifecycle itself\n- High levels of collaboration among stakeholders in your organization\n- Shifting security left to help find vulnerabilities in applications before they make it to production to avoid costly, unscheduled outages\n- Lower risk when deploying to production via the advanced deployment techniques and progressive delivery approaches supported by GitLab\n- AI-powered capabilities that span across the entire development lifecycle and can boost productivity, code quality, continuous improvement, security and compliance, and more\n- Support for cloud-native and non-cloud-native applications\n- Multi-cloud support for hybrid/multi-cloud applications\n- Shifting security left to help you find vulnerabilities in your applications before they make it to production so that you can avoid costly unscheduled outages\n\nHow can you get started with GitLab Flow? Leveraging GitLab Auto DevOps or parts of it is a good starting point for applying GitLab Flow principles to your application development lifecycle.\n\n## GitLab Flow and Auto DevOps\n\n![Auto DevOps - an instantiation of GitLab Flow](https://about.gitlab.com/images/blogimages/gitlab-flow-duo/ado-pipeline.png)\n\u003Ccenter>Auto DevOps - an instantiation of GitLab Flow\u003C/center>\u003Cp>\u003C/p>\n\n[Auto DevOps](https://docs.gitlab.com/ee/topics/autodevops/) applies GitLab Flow throughout all its stages and jobs. You can think of it as a good example for the instantiation of GitLab Flow.\n\nAuto DevOps is a collection of predefined, out-of-the-box CI/CD templates that auto-discover the source code you have. Based on best practices, these templates automatically detect, build, test, deploy, and monitor your applications.\n\nThe Auto DevOps pipeline shifts work left to find and prevent defects as early as possible in the software delivery process. The pipeline then deploys the application to staging for verification and then to production in an incremental/timed fashion.\n\nAuto DevOps gets you started quickly, increasing developer productivity, and it can be easily customized to your needs, with support for the most common programming frameworks and languages. Auto DevOps is modular, customizable, and extensible, which allows you to leverage pieces of it in your pipelines or apply all of it for your application.\n\n## Get started\n[Combine GitLab Flow and GitLab Duo today](https://gitlab.com/-/trials/new?glm_content=default-saas-trial&glm_source=about.gitlab.com%2Fblog%2F) to achieve significant improvements in end-to-end workflow efficiency that can lead to even higher levels of productivity, deployment frequency, code quality and overall security, and production resiliency and availability.\nIf you'd like to see a workflow in action that combines GitLab Flow and GitLab Duo and how it can benefit you, watch the following video:\n\n\u003C!-- blank line -->\n\u003Cfigure class=\"video_container\">\n  \u003Ciframe src=\"https://www.youtube.com/embed/CKrZ4_tKY4I?si=Kf6QsYFIzKkJZpJd\" frameborder=\"0\" allowfullscreen=\"true\"> \u003C/iframe>\n\u003C/figure>\n\u003C!-- blank line 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Since its general availability in January 2026, the platform is bringing agentic AI to every phase of the software development lifecycle. Duo Agent Platform is an intelligent orchestration layer where software teams, and their specialized agents plan, code, review, and remediate security vulnerabilities together.\n\nThrough this exciting partnership, [GitLab Duo Agent Platform](https://about.gitlab.com/gitlab-duo-agent-platform/) automates software development orchestration and lifecycle context via its integration with Vertex AI on Google Cloud, which powers the model tier for agent calls. Software teams keep working on issues, merge requests, pipelines, and security workflows while inference follows the Google Cloud posture they already defined. \n\nAdvances in Google Cloud’s Vertex AI models expand how Google Cloud customers can use GitLab Duo Agent Platform in their environment. Customers get an AI-powered DevSecOps control plane in GitLab, backed by a rapidly advancing AI infrastructure foundation in Vertex AI and Duo Agent Platform’s flexible deployment and integration options. The combination enables more capable, governed agentic workflows that operate at enterprise scale.\n\n![Conceptual illustration of the GitLab Duo Agent Platform integrated with Google Cloud's Vertex AI to power agentic software development and governed AI workflows](https://res.cloudinary.com/about-gitlab-com/image/upload/v1776165990/b7jlux9kydafncwy8spc.png)\n\n## Agents that work across the full lifecycle\n\nMany AI tools focus on a single task: generating code faster. GitLab Duo Agent Platform goes further. It orchestrates AI agents across the entire software development lifecycle (SDLC), from planning through security review to delivery, across many teams with many projects and releases. At this scale, AI coding assistants are necessary for continuous innovation but not sufficient. \n\nSingle-purpose coding assistants rarely see the full state of a project. Backlog shape, open merge requests, failing jobs, and security findings live in GitLab, but a separate chat window in a coding assistant does not inherit that full picture of the SDLC. The gap shows up as manual handoffs, duplicate explanations to an AI that lacks context, and governance teams trying to map data flows across tools that were never designed as one system.\n\nGitLab Duo Agent Platform helps close that gap by running agents and flows on the same objects engineers use every day. Vertex AI then supplies the models and services those agents call when Google Cloud is your chosen inference home, with GitLab’s AI Gateway mediating access so administrators keep a clear map of what connects to what. For instance, GitLab Duo Planner Agent analyzes backlogs, breaks epics into structured tasks, and applies prioritization frameworks to help teams decide what to build next. Security Analyst Agent triages vulnerabilities, details risks in plain language, and recommends remediation in priority order. Built-in flows connect these agents into end-to-end processes, without requiring developers to manage every handoff manually.\n\nAgentic Chat in GitLab Duo Agent Platform ties the experience together for developers. They query in natural language to get context-aware responses with multi-step reasoning that draws on the full state of a project: its issues, merge requests, pipelines, security findings, and codebase. Because GitLab serves as the system of record for the SDLC with a unified data model, GitLab Duo agents operate with lifecycle context that falls outside the reach of standalone, tool-specific AI assistants.\n\n### Amplified by Vertex AI\n\nGitLab Duo Agent Platform is designed to be model-flexible, routing different capabilities to different models based on what performs best for a given task. That architectural choice pays off on Google Cloud, where Vertex AI acts as the managed environment for foundation models and related services, providing a broad model ecosystem and managed infrastructure that helps push the platform's capabilities further.\n\nThe latest generations of AI models available through Vertex AI bring significant improvements in reasoning, tool use, and long-context understanding compared to previous iterations — the same properties that GitLab's agents rely on across many projects and teams with large, complex codebases. Longer context windows and richer tool integration in the underlying models expand what agents can accomplish in a single pass, which is especially important for workloads like deep backlog analysis or monorepo security review.\n\n[Vertex AI Model Garden](https://cloud.google.com/model-garden), with access to a wide range of foundation models, gives customers the breadth to make these choices based on performance, cost, and regulatory requirements rather than vendor lock-in.\n\nMoreover, GitLab customers can use Bring Your Own Model (BYOM) for Duo Agent Platform so approved providers and gateways land where your security model expects them. GitLab’s [18.9 launch coverage of self-hosted Duo Agent Platform and BYOM](https://about.gitlab.com/blog/agentic-ai-enterprise-control-self-hosted-duo-agent-platform-and-byom/) describes how that wiring works. With this deployment option, customers gain access to a wider set of model options they can tailor to their software development process: the right model for the right workflow, with the right guardrails.\n\nFor GitLab, the decision to build on Vertex AI was driven by the need for enterprise-grade reliability and unparalleled model breadth. Vertex AI and Model Garden completely abstract the heavy lifting of LLM hosting — meaning rapid version delivery, robust security, and strict governance are seamlessly built into the integration. Beyond offering Gemini models, Vertex AI provides global, low-latency access to a vast catalog of third-party and open-source models. \n\nCombined with Google Cloud's industry-leading approach to data privacy and model protection, Vertex AI emerged as the clear choice to power GitLab's next-generation developer experience. \n\nBy integrating Vertex AI Model Garden into its backend, GitLab supercharges its DevSecOps platform without passing any complexity on to users. Development teams are not burdened with evaluating or managing underlying LLMs; instead, they experience a streamlined, AI-assisted workflow for building their applications. \n\nGitLab completely abstracts cloud orchestration, enabling developers to focus entirely on writing great code, while Vertex AI powers the features and functionality that assist them.\n\n## What this means for customers on Google Cloud\n\nGitLab Duo Agent Platform already delivers AI agents that operate across the full software lifecycle within a single, governed system of record. On Google Cloud, it enables rapid innovation as Vertex AI continues to advance the model and infrastructure layers. \n\nFor Google Cloud customers, this integration means streamlined software delivery while maintaining strict enterprise governance. For platform engineering groups, it means normalizing which Vertex-backed models power suggestions, analysis, and remediation inside GitLab instead of cataloging dozens of client-side tools. Security programs benefit when agents propose and validate fixes in the same place developers already triage findings, cutting context switching and reducing work that would otherwise spill into unmanaged channels.\n\nFrom a cloud economics and policy angle, drawing agent inference toward Vertex from within GitLab keeps usage nearer to the agreements and controls you already run on Google Cloud, which helps avoid duplicate spend and shadow paths that bypass procurement.\n\nBecause Vertex AI is an underlying infrastructure provider for GitLab Duo Agent Platform, organizations are enabled to dramatically lift developer productivity without the overhead and risk of managing fragmented AI toolchains. Teams stay aligned within a single, secure system of record, helping them build applications faster and ship with confidence.\n\nThe GitLab and Google Cloud collaboration has been building since 2018. Today, it represents one of the most comprehensive paths for organizations moving from AI experiments to fully governed, agentic software development on Google Cloud. As both platforms continue to advance — GitLab expanding its agent orchestration and developer context, and Vertex AI pushing the boundaries of model capability and agent infrastructure — the value for joint customers will continue to grow.\n\n> [Start a free trial of GitLab Duo Agent Platform](https://about.gitlab.com/free-trial/) to experience the power of GitLab and Vertex AI on Google Cloud.","https://res.cloudinary.com/about-gitlab-com/image/upload/v1749663121/Blog/Hero%20Images/LogoLockupPlusLight.png","2026-04-14",[24,277,725,726,727],"google","news","product",{"featured":29,"template":13,"slug":729},"gitlab-and-vertex-ai-on-google-cloud",{"content":731,"config":741},{"heroImage":732,"title":733,"description":734,"authors":735,"date":737,"category":9,"tags":738,"body":740},"https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643639/sapu29gmlgtwvhggmj6k.png","Extend GitLab Duo Agent Platform: Connect any tool with MCP","Learn how to connect external tools to GitLab Duo Agent Platform using MCP. Step-by-step setup with three practical workflow demos.",[736],"Albert Rabassa","2026-03-05",[9,727,739],"tutorial","Managing software development often means juggling multiple tools: tracking issues in Jira, writing code in your IDE, and collaborating through GitLab. Context switching between these platforms disrupts focus and slows down delivery.\n\nWith GitLab Duo Agent Platform's [MCP](https://about.gitlab.com/topics/ai/model-context-protocol/) support, you can now connect Jira or any tool that supports MCP directly to your AI-powered development environment. Query issues, update tickets, and sync your workflow — all through natural language, without ever leaving your IDE.\n\n## What you'll learn\n\nIn this tutorial, we'll walk you through:\n\n* **Setting up the Jira/Atlassian OAuth application** for secure authentication\n* **Configuring GitLab Duo Agent Platform** as an MCP client\n* **Three practical use cases** demonstrating real-world workflows\n\n## Prerequisites\n\nBefore getting started, ensure you have the following:\n\n| Requirement | Details |\n| ---- | ----- |\n| **GitLab instance** | GitLab 18.8+ with Duo Agent Platform enabled |\n| **Jira account** | Jira Cloud instance with admin access to create OAuth applications |\n| **IDE** | Visual Studio Code with GitLab Workflow extension installed |\n| **MCP support** | MCP support enabled in GitLab |\n\n\n## Understanding the architecture\n\nGitLab Duo Agent Platform acts as an **MCP client**, connecting to the Atlassian MCP server to access your Jira project management data. Atlassian  MCP server handles authentication, translates natural language requests into API calls, and returns structured data back to GitLab Duo Agent Platform — all while maintaining security and audit controls.\n\n## Part 1: Configure Jira OAuth application\n\nTo securely connect GitLab Duo Agent Platform to your Jira instance, you'll need to create an OAuth 2.0 application in the Atlassian Developer Console. This grants to GitLab the MCP server authorized access to your Jira data.\n\n### Setup steps\n\nIf you prefer to configure manually, follow these steps:\n\n1. **Navigate to the Atlassian Developer Console**\n\n   * Go to [developer.atlassian.com/console/myapps](https://developer.atlassian.com/console/myapps)\n\n   * Sign in with your Atlassian account\n\n2. **Create a new OAuth 2.0 app**\n\n   * Click **Create** → **OAuth 2.0 integration**\n\n   * Enter a name (e.g., \"gitlab-dap-mcp\")\n\n   * Accept the terms and click **Create**\n\n3. **Configure permissions**\n\n   * Navigate to **Permissions** in the left sidebar.\n\n   * Add **Jira API** and configure the following scopes:\n\n     * `read:jira-work` — Read issues, projects, and boards\n\n     * `write:jira-work` — Create and update issues\n\n     * `read:jira-user` — Read user information\n\n4. **Set up authorization**\n\n   * Go to **Authorization** in the left sidebar\n\n   * Add a callback URL for your environment (`https://gitlab.com/oauth/callback`)\n\n   * Save your changes\n\n5. **Retrieve credentials**\n\n   * Navigate to **Settings**\n\n   * Copy your **Client ID** and **Client Secret**\n\n   * Store these securely — you'll need them for the MCP configuration\n\n\n### Interactive walkthrough: Jira OAuth setup\n\nClick on the image below to get started.\n\n\n[![Jira OAuth setup tour](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772644850/wnzfoq43nkkfmgdqldmr.png)](https://gitlab.navattic.com/jira-oauth-setup)\n\n\n## Part 2: Configure GitLab Duo Agent Platform MCP client\n\nWith your OAuth credentials ready, you can now configure GitLab Duo Agent Platform to connect to the Atlassian MCP server.\n\n### Create your MCP configuration file\n\nCreate the MCP configuration file in your GitLab project at `.gitlab/duo/mcp.json`:\n\n\n```json\n{\n  \"mcpServers\": {\n    \"atlassian\": {\n      \"type\": \"http\",\n      \"url\": \"https://mcp.atlassian.com/v1/mcp\",\n      \"auth\": {\n        \"type\": \"oauth2\",\n        \"clientId\": \"YOUR_CLIENT_ID\",\n        \"clientSecret\": \"YOUR_CLIENT_SECRET\",\n        \"authorizationUrl\": \"https://auth.atlassian.com/oauth/authorize\",\n        \"tokenUrl\": \"https://auth.atlassian.com/oauth/token\"\n      },\n      \"approvedTools\": true\n    }\n  }\n}\n```\n\nReplace `YOUR_CLIENT_ID` and `YOUR_CLIENT_SECRET` with the credentials you generated in Part 1.\n\n### Enable MCP in GitLab\n\n1. Navigate to your **Group Settings** → **GitLab Duo** → **Configuration**\n2. Make sure “Allow external MCP tools” is checked\n\n### Verify the connection\n\nOpen your project in VS Code and ask in GitLab Duo Agent Platform chat:\n\n```text\nWhat MCP tools do you have access to?\n```\n\nThen\n\n```text\nTest the MCP JIRA configuration in this project\n```\n\nAt this point you'll be redirected from the IDE to the MCP Atlassian website to approve access:\n\n![Redirect to MCP Atlassian website](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643461/z5acqjgguh0damnnde9g.png \"Redirect to MCP Atlassian website\")\n\n\u003Cbr>\u003C/br>\n\n![Approve access](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643461/rwowamm8nsubhpixtn3i.png \"Approve access\")\n\n\u003Cbr>\u003C/br>\n\n![Select your JIRA instance and approve](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643461/chuzqd0jeptfwvoj7wjr.png \"Select your JIRA instance and approve\")\n\n\u003Cbr>\u003C/br>\n\n![Success!](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643462/bsgti5iste2bzck19o5y.png \"Success!\")\n\n\u003Cbr>\u003C/br>\n\n### Verify with the MCP Dashboard\n\nGitLab also provides a built-in **MCP Dashboard** directly in your IDE for this.\n\nIn VS Code or VSCodium, open the Command Palette (`Cmd+Shift+P` on macOS, `Ctrl+Shift+P` on Windows/Linux) and search for **\"GitLab: Show MCP Dashboard\"**. The dashboard opens in a new editor tab and gives you:\n\n* **Connection status** for each configured MCP server\n* **Available tools** exposed by the server (e.g., `jira_get_issue`, `jira_create_issue`)\n* **Server logs** so you can see exactly which tools are being called in real time\n\n![MCP servers dashboard and status](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643462/mmvdfchucacsydivowvn.png \"MCP servers dashboard and status\")\n\n\u003Cbr>\u003C/br>\n\n![Server details and permissions](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643462/tcocgdvovp2dl42pvfn8.png \"Server details and permissions\")\n\n\u003Cbr>\u003C/br>\n\n\n![MCP Server logs](https://res.cloudinary.com/about-gitlab-com/image/upload/v1772643466/mougvqqk1bozchaufsci.png \"MCP Server logs\")\n\n\u003Cbr>\u003C/br>\n\n### Interactive walkthrough: Testing MCP\n\n\u003Ciframe src=\"https://player.vimeo.com/video/1170005495?badge=0&autopause=0& player_id=0&app_id=58479\" frameborder=\"0\" allow=\"autoplay; fullscreen; picture-in-picture; clipboard-write; encrypted-media; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" style=\"position:absolute;top:0;left:0;width:100%;height:100%;\" title=\"Testing MCP\">\u003C/iframe>\u003Cscript src=\"https://player.vimeo.com/api/player.js\">\u003C/script>\n\n## Part 3: Use cases in action\n\nNow that your integration is configured, let's explore three practical workflows that demonstrate the power of connecting Jira to GitLab Duo Agent Platform.\n\n### Planning assistant\n\n**Scenario:** You're preparing for sprint planning and need to quickly assess the backlog, understand priorities, and identify blockers.\n\nThis demo shows you how to:\n\n* Query the backlog\n* Identify unassigned high-priority issues\n* Get AI-powered sprint recommendations\n\n#### Example prompts\n\nTry these prompts in GitLab Duo Agent Platform Chat:\n\n```text\nList all the unassigned issues in JIRA for project GITLAB\n```\n\n```text\nSuggest the two top issues to prioritize and summarize them. Assign them to me.\n```\n\n### Interactive walkthrough: Project planning\n\n\u003Ciframe src=\"https://player.vimeo.com/video/1170005462?badge=0&autopause=0&player_id=0&app_id=58479\" frameborder=\"0\" allow=\"autoplay; fullscreen; picture-in-picture; clipboard-write; encrypted-media; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" style=\"position:absolute;top:0;left:0;width:100%;height:100%;\" title=\"Project Planning\">\u003C/iframe>\u003Cscript src=\"https://player.vimeo.com/api/player. js\">\u003C/script>\n\n### Issue triage and creation from code\n\n**Scenario:** While reviewing code, you discover a bug and want to create a Jira issue with relevant context — without leaving your IDE.\n\nThis demo walks you through:\n\n* Identifying a bug while coding\n* Creating a detailed Jira issue via natural language\n* Auto-populating issue fields with code context\n* Linking the issue to your current branch\n\n#### Example prompts\n\n```text\nSearch in JIRA for a bug related to: Null pointer exception in PaymentService.processRefund().\nIf it does not exist create it with all the context needed from the code. Find possible blockers that this bug may cause.\n```\n\n```text\nCreate a new branch called issue-gitlab-18, checkout, and link it to the issue we just created. Assign the JIRA issue to me and mark it as in-progress.\n```\n\n### Interactive walkthrough: Bug review and task automation\n\n\u003Ciframe src=\"https://player.vimeo.com/video/1170005368?badge=0&autopause=0& player_id=0&app_id=58479\" frameborder=\"0\" allow=\"autoplay; fullscreen; picture-in-picture; clipboard-write; encrypted-media; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" style=\"position:absolute;top:0;left:0;width:100%;height:100%;\" title=\"Bug Review\">\u003C/iframe>\u003Cscript src=\"https://player.vimeo.com/api/player.js\">\u003C/script>\n\n### Cross-system incident investigation\n\n**Scenario:** A production incident occurs, and you need to correlate information from Jira (incident ticket), GitLab Project Management, your codebase, and merge requests to identify the root cause.\n\nThis demo demonstrates:\n\n* Fetching incident details from Jira\n* Correlating with recent merge requests in GitLab\n* Identifying potentially related code changes\n* Generating an incident timeline\n* Design a remediation plan and create it as a work item in GitLab\n\n#### Example prompts\n\n```text\n\"We have a production incident INC-1 about checkout failures. Can you help me investigate with all available context?\"\n```\n\n```text\nCreate a timeline of events for incident INC-1 including related Jira issues and recent deployments\n```\n\n```text\nPropose a remediation plan\n```\n\n### Interactive walkthrough: Cross-system troubleshooting and remediation\n\n\u003Ciframe src=\"https://player.vimeo.com/video/1170005413?badge=0&autopause=0& player_id=0&app_id=58479\" frameborder=\"0\" allow=\"autoplay; fullscreen; picture-in-picture; clipboard-write; encrypted-media; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" style=\"position:absolute;top:0;left:0;width:100%;height:100%;\" title=\"Cross System Investigation\">\u003C/iframe>\u003Cscript src=\"https://player.vimeo.com/api/player.js\">\u003C/script>\n\n## Troubleshooting\n\nThese are some common setup issues and quick fixes:\n\n| Issue | Solution |\n| ----- | ----- |\n| \"MCP server not found\" | Verify the `mcp.json` file is in the correct location and properly formatted |\n| \"Authentication failed\" | Re-check your OAuth credentials and ensure scopes are correctly configured in Atlassian |\n| \"No Jira tools available\" | Restart VS Code after updating `mcp.json` and ensure MCP is enabled in GitLab |\n| \"Connection timeout\" | Check your network connectivity to `mcp.atlassian.com` |\n\n\u003Cbr/> For detailed troubleshooting, see the [GitLab MCP clients documentation](https://docs.gitlab.com/user/gitlab_duo/model_context_protocol/mcp_clients/).\n\n\n## Security considerations\n\nWhen integrating Jira with GitLab Duo Agent Platform:\n\n* **OAuth tokens** — Make sure credentials remain secure\n* **Principle of least privilege** — Only grant the minimum required Jira scopes\n* **Token rotation** — Regularly rotate your OAuth credentials as part of security hygiene\n\n\n## Summary\n\nConnecting GitLab Duo Agent Platform to different tools through MCP transforms how you interact with your development lifecycle. In this article, you have learned how to:\n\n* **Query issues naturally** — Ask questions about your backlog, sprints, and incidents in natural language.\n* **Create and update issues on all your DevSecOps environment** — File bugs and update tickets without leaving your IDE.\n* **Correlate across systems** — Combine Jira data with GitLab project management, merge requests, and pipelines for complete visibility.\n* **Reduce context switching** — Keep your focus on code while staying connected to project management.\n\nThis integration exemplifies the power of MCP: standardized, secure access to your tools through AI, enabling developers to work more efficiently without sacrificing governance or security.\n\n\n## Read more\n\n* [GitLab Duo Agent Platform adds support for Model Context Protocol](https://about.gitlab.com/blog/duo-agent-platform-with-mcp/)\n\n* [What is Model Context Protocol?](https://about.gitlab.com/topics/ai/model-context-protocol/)\n\n* [Agentic AI guides and resources](https://about.gitlab.com/blog/agentic-ai-guides-and-resources/)\n\n* [GitLab MCP clients documentation](https://docs.gitlab.com/user/gitlab_duo/model_context_protocol/mcp_clients/)\n\n* [Get started with GitLab Duo Agent Platform: The complete guide](https://about.gitlab.com/blog/gitlab-duo-agent-platform-complete-getting-started-guide/)",{"featured":12,"template":13,"slug":742},"extend-gitlab-duo-agent-platform-connect-any-tool-with-mcp",{"content":744,"config":754},{"title":745,"description":746,"authors":747,"heroImage":749,"date":750,"body":751,"category":9,"tags":752},"10 AI prompts to speed your team’s software delivery","Eliminate review backlogs, security delays, and coordination overhead with ready-to-use AI prompts covering every stage of the software lifecycle.",[748],"Chandler Gibbons","https://res.cloudinary.com/about-gitlab-com/image/upload/v1772632341/duj8vaznbhtyxxhodb17.png","2026-03-04","AI-assisted coding tools are helping developers generate code faster than ever. So why aren’t teams _shipping_ faster?\n\nBecause coding is only 20% of the software delivery lifecycle, the remaining 80% becomes the bottleneck: code review backlogs grow, security scanning can’t keep pace, documentation falls behind, and manual coordination overhead increases.\n\nThe good news is that the same AI capabilities that accelerate individual coding can eliminate these team-level delays. You just need to apply AI across your entire software lifecycle, not only during the coding phase.\n\nBelow are 10 ready-to-use prompts from the [GitLab Duo Agent Platform Prompt Library](https://about.gitlab.com/gitlab-duo/prompt-library/) that help teams overcome common obstacles to faster software delivery. Each prompt addresses a specific slowdown that emerges when individual productivity increases without corresponding improvements in team processes.\n\n## How do you move code review from bottleneck to accelerator?\nDevelopers generate merge requests faster with AI assistance, but human reviewers can quickly become overwhelmed as code review cycles stretch from hours to days. AI can handle routine review tasks, freeing reviewers to focus on architecture and business logic instead of catching basic logical errors and API contract violations.\n\n### Review MR for logical errors\n**Complexity**: Beginner\n\n**Category**: Code Review\n\n**Prompt from library**:\n\n\n```text\nReview this MR for logical errors, edge cases, and potential bugs: [MR URL or paste code]\n```\n\n**Why it helps**: Automated linters catch syntax issues, but logical errors require understanding intent. This prompt catches bugs before human reviewers even look at the code, reducing review cycles from multiple rounds to often just one approval.\n\n### Identify breaking changes in MR\n**Complexity**: Beginner\n\n**Category**: Code Review\n\n**Prompt from library**:\n\n\n```text\nDoes this MR introduce any breaking changes?\n\nChanges:\n[PASTE CODE DIFF]\n\nCheck for:\n1. API signature changes\n2. Removed or renamed public methods\n3. Changed return types\n4. Modified database schemas\n5. Breaking configuration changes\n```\n\n**Why it helps**: Breaking changes discovered during deployment can cause rollbacks and incidents. This prompt shifts that discovery left to the MR stage, when fixes are faster and less expensive.\n\n## How can you shift security left without slowing down?\nSecurity scans generate hundreds of findings. Security teams manually triage each one while developers wait for approval to deploy. Most findings are false positives or low-risk issues, but identifying the real threats requires expertise and time. AI can prioritize findings by actual exploitability and auto-remediate common vulnerabilities, allowing security teams to focus on the threats that matter.\n\n### Analyze security scan results\n**Complexity**: Intermediate\n\n**Category**: Security\n\n**Agent**: Duo Security Analyst\n\n**Prompt from library**:\n\n\n```text\n@security_analyst Analyze these security scan results:\n\n[PASTE SCAN OUTPUT]\n\nFor each finding:\n1. Assess real risk vs false positive\n2. Explain the vulnerability\n3. Suggest remediation\n4. Prioritize by severity\n```\n\n**Why it helps**: Most security scan findings are false positives or low-risk issues. This prompt helps security teams focus on the findings that actually matter, reducing remediation time from weeks to days.\n\n### Review code for security issues\n**Complexity**: Intermediate\n\n**Category**: Security\n\n**Agent**: Duo Security Analyst\n\n**Prompt from library**:\n\n```text\n@security_analyst Review this code for security issues:\n\n[PASTE CODE]\n\nCheck for:\n1. Injection vulnerabilities\n2. Authentication/authorization flaws\n3. Data exposure risks\n4. Insecure dependencies\n5. Cryptographic issues\n```\n\n**Why it helps**: Traditional security reviews happen after code is written. This prompt enables developers to find and fix security issues before creating an MR, eliminating the back and forth that delays deployments.\n\n## How do you keep documentation current as code changes?\nCode changes faster than documentation. Onboarding new developers takes weeks because docs are outdated or missing. Teams know documentation is important, but it always gets deferred when deadlines approach. Automating documentation generation and updates as part of your standard workflow ensures docs stay current without adding manual work.\n\n### Generate release notes from MRs\n**Complexity**: Beginner\n\n**Category**: Documentation\n\n**Prompt from library**:\n\n```text\nGenerate release notes for these merged MRs:\n[LIST MR URLs or paste titles]\n\nGroup by:\n1. New features\n2. Bug fixes\n3. Performance improvements\n4. Breaking changes\n5. Deprecations\n```\n\n**Why it helps**: Manual release note compilation takes hours and often includes errors or omissions. Automated generation ensures every release has comprehensive notes without adding work to your release process.\n\n### Update documentation after code changes\n**Complexity**: Beginner\n\n**Category**: Documentation\n\n**Prompt from library**:\n\n```text\nI changed this code:\n\n[PASTE CODE CHANGES]\n\nWhat documentation needs updating? Check:\n1. README files\n2. API documentation\n3. Architecture diagrams\n4. Onboarding guides\n```\n\n**Why it helps**: Documentation drift happens because teams forget which docs need updates after code changes. This prompt makes documentation maintenance part of your development workflow, not a separate task that gets deferred.\n\n## How do you break down planning complexity?\nLarge features get stuck in planning. Teams spend weeks in meetings trying to scope work and identify dependencies. The complexity feels overwhelming, and it's hard to know where to start. AI can systematically decompose complex work into concrete, implementable tasks with clear dependencies and acceptance criteria, transforming weeks of planning into focused implementation.\n\n### Break down epic into issues\n**Complexity**: Intermediate\n\n**Category**: Documentation\n\n**Agent**: Duo Planner\n\n**Prompt from library**:\n\n```text\nBreak down this epic into implementable issues:\n\n[EPIC DESCRIPTION]\n\nConsider:\n1. Technical dependencies\n2. Reasonable issue sizes\n3. Clear acceptance criteria\n4. Logical implementation order\n```\n\n**Why it helps**: This prompt transforms a week of planning meetings into 30 minutes of AI-assisted decomposition followed by team review. Teams start implementation sooner with clearer direction.\n\n## How can you expand test coverage without expanding effort?\nDevelopers are writing code faster, but if testing doesn't keep pace, test coverage decreases and bugs slip through. Writing comprehensive tests manually is time-consuming, and developers often miss edge cases under deadline pressure. Generating tests automatically means developers can review and refine rather than write from scratch, maintaining quality without sacrificing velocity.\n\n### Generate unit tests\n**Complexity**: Beginner\n\n**Category**: Testing\n\n**Prompt from library**:\n\n```text\nGenerate unit tests for this function:\n\n[PASTE FUNCTION]\n\nInclude tests for:\n1. Happy path\n2. Edge cases\n3. Error conditions\n4. Boundary values\n5. Invalid inputs\n```\n\n**Why it helps**: Writing tests manually is time consuming, and developers often miss edge cases. This prompt generates thorough test suites in seconds, which developers can review and adjust rather than write from scratch.\n\n### Review test coverage gaps\n**Complexity**: Beginner\n\n**Category**: Testing\n\n**Prompt from library**:\n\n```text\nAnalyze test coverage for [MODULE/COMPONENT]:\n\nCurrent coverage: [PERCENTAGE]\n\nIdentify:\n1. Untested functions/methods\n2. Uncovered edge cases\n3. Missing error scenario tests\n4. Integration points without tests\n5. Priority areas to test next\n```\n\n**Why it helps**: This prompt reveals blind spots in your test suite before they cause production incidents. Teams can systematically improve coverage where it matters most.\n\n## How do you reduce mean time to resolution when debugging?\nProduction incidents take hours to diagnose. Developers wade through logs and stack traces while customers experience downtime. Every minute of debugging is a minute of lost productivity and potential revenue. AI can accelerate root cause analysis by parsing complex error messages and suggesting specific fixes, cutting diagnostic time from hours to minutes.\n\n### Debug failing pipeline\n**Complexity**: Beginner\n\n**Category**: Debugging\n\n**Prompt from library**:\n\n```text\nThis pipeline is failing:\n\nJob: [JOB NAME]\nStage: [STAGE]\nError: [PASTE ERROR MESSAGE/LOG]\n\nHelp me:\n1. Identify the root cause\n2. Suggest a fix\n3. Explain why it started failing\n4. Prevent similar issues\n```\n\n**Why it helps**: CI/CD failures block entire teams. This prompt diagnoses failures in seconds instead of the 15-30 minutes developers typically spend investigating, keeping deployment velocity high.\n\n## Moving from individual gains to team acceleration\nThese prompts represent a shift in how teams apply AI to software delivery. Rather than focusing solely on individual developer productivity, they address the coordination, quality, and knowledge-sharing challenges that actually constrain team velocity.\n\nThe [complete prompt library](https://about.gitlab.com/gitlab-duo/prompt-library/) contains more than 100 prompts across all stages of the software lifecycle: planning, development, security, testing, deployment, and operations. Each prompt is tagged by complexity level (Beginner, Intermediate, Advanced) and categorized by use case, making it easy to find the right starting point for your team.\n\nStart with prompts tagged “Beginner” that address your team’s most pressing obstacles. As your team builds confidence, explore intermediate and advanced prompts that enable more sophisticated workflows. The goal is not just faster coding — it's faster, safer, higher-quality software delivery from planning through production.",[24,753],"DevOps platform",{"featured":12,"template":13,"slug":755},"10-ai-prompts-to-speed-your-teams-software-delivery",{"promotions":757},[758,771,782,794],{"id":759,"categories":760,"header":761,"text":762,"button":763,"image":768},"ai-modernization",[9],"Is AI achieving its promise at scale?","Quiz will take 5 minutes or less",{"text":764,"config":765},"Get your AI maturity score",{"href":766,"dataGaName":767,"dataGaLocation":244},"/assessments/ai-modernization-assessment/","modernization assessment",{"config":769},{"src":770},"https://res.cloudinary.com/about-gitlab-com/image/upload/v1772138786/qix0m7kwnd8x2fh1zq49.png",{"id":772,"categories":773,"header":774,"text":762,"button":775,"image":779},"devops-modernization",[727,39],"Are you just managing tools or shipping innovation?",{"text":776,"config":777},"Get your DevOps maturity score",{"href":778,"dataGaName":767,"dataGaLocation":244},"/assessments/devops-modernization-assessment/",{"config":780},{"src":781},"https://res.cloudinary.com/about-gitlab-com/image/upload/v1772138785/eg818fmakweyuznttgid.png",{"id":783,"categories":784,"header":786,"text":762,"button":787,"image":791},"security-modernization",[785],"security","Are you trading speed for security?",{"text":788,"config":789},"Get your security maturity score",{"href":790,"dataGaName":767,"dataGaLocation":244},"/assessments/security-modernization-assessment/",{"config":792},{"src":793},"https://res.cloudinary.com/about-gitlab-com/image/upload/v1772138786/p4pbqd9nnjejg5ds6mdk.png",{"id":795,"paths":796,"header":799,"text":800,"button":801,"image":806},"github-azure-migration",[797,798],"migration-from-azure-devops-to-gitlab","integrating-azure-devops-scm-and-gitlab","Is your team ready for GitHub's Azure move?","GitHub is already rebuilding around Azure. Find out what it means for you.",{"text":802,"config":803},"See how GitLab compares to GitHub",{"href":804,"dataGaName":805,"dataGaLocation":244},"/compare/gitlab-vs-github/github-azure-migration/","github azure migration",{"config":807},{"src":781},{"header":809,"blurb":810,"button":811,"secondaryButton":816},"Start building faster today","See what your team can do with the intelligent orchestration platform for DevSecOps.\n",{"text":812,"config":813},"Get your free trial",{"href":814,"dataGaName":52,"dataGaLocation":815},"https://gitlab.com/-/trial_registrations/new?glm_content=default-saas-trial&glm_source=about.gitlab.com/","feature",{"text":506,"config":817},{"href":56,"dataGaName":57,"dataGaLocation":815},1776454385431]