Leveraging MongoDB Atlas in your Internal Developer Platform (IDP)

Zuhair Ahmed, Rutuja Rajwade, and Dan Mckean
January 4, 2024 | Updated: January 11, 2024
#Atlas#Kubernetes#DevOps

DevOps, a portmanteau of “Developer” and “Operations”, rose to prominence around the early 2010s and established a culture of incorporating automated processes and tools designed to deliver applications and services to users faster than the traditional software development process. A significant part of that was the movement to "shift left" by empowering developers to self-serve their infrastructure needs, in theory offering them more control over the application development lifecycle in a way that reduced the dependency on central operational teams.

While these shifts towards greater developer autonomy were occurring, the proliferation of public clouds, specific technologies (like GitHub, Docker, Kubernetes, Terraform), and microservices architectures entered the market and became standard practice in the industry. As beneficial as these infrastructure advancements were, these technical shifts added complexity to the setups that developers were using as a part of their application development processes. As a result, developers needed to have a more in-depth, end-to-end understanding of their toolchain, and more dauntingly, take ownership of a growing breadth of infrastructure considerations.

This meant that the "shift left" drastically increased the cognitive load on developers, leading to inefficiencies because self-managing infrastructure is time-consuming and difficult without a high level of expertise. In turn, this increased the time to market and hindered innovation. Concurrently, the increasing levels of permissions that developers needed within the organization led to a swath of compliance issues, such as inconsistent security controls, improper auditing, unhygienic data and data practices increased overhead which ate away at department budgets, and incorrect reporting. Unsurprisingly, the desire to enable developers to self-serve to build and ship applications hadn't diminished, but it became clear that empowering them without adding friction or a high level of required expertise needed to become a priority.

With this goal in mind, it became clear that investment was required to quickly and efficiently abstract away the complexities of the operational side of things for developers. From this investment comes the rise of Platform Engineering and Internal Developer Platforms (whether companies are labeling it as such or not).

Platform engineering and the rise of internal developer platforms

Within a developer organization, platform engineering (or even a central platform team) is tasked with creating golden paths for developers to build and ship applications at scale while keeping infrastructure spend and cognitive load on developers low. At the core of the platform engineering ethos is the goal of optimizing the developer experience to accelerate the delivery of applications to customers. Like teaching someone to fish, platform teams help pave the way for greater developer efficiency by providing them with pipelines that they can take and run with, reducing time to build, and paving the way for greater developer autonomy without burdening developers with complexity.

To do this, platform teams strive to design toolchains and workflows based on the end goals of the developers in their organization. Therefore, it’s critical for the folks tasked with platform engineering to understand the needs of their developers, and then build a platform that is useful to the target audience. The end result is what is often (but not exclusively) known as an Internal Developer Platform.

What is an IDP?

An IDP is a collection of tools and services, sourced and stitched together by central teams to create golden paths for developers who will then use the IDP to simplify and streamline application building. IDPs reduce complexity and lower cognitive load on developers - often by dramatically simplifying the experience of configuring infrastructure and services that are not a direct part of the developer's application. They encourage developers to move away from spending excess time managing the tools they use and allow them to focus on delivering applications at speed and scale. IDPs enable developers the freedom to quickly and easily build, deploy, and manage applications while reducing risk and overhead costs for the organization by centralizing oversight and iteration of development practices.

Example of an IDP.

An IDP is tailored with developers in mind and will often consist of the following tools:

  1. Infrastructure platform that enabled running a wide variety of workloads with the highest degree of security, resilience, and scalability, and a high degree of automation (eg. Kubernetes)

  2. Source code repository system that allows teams to establish a single source of truth for configurations, ensuring version control, data governance, and compliance. (eg. Github, Gitlab, BitBucket)

  3. Control interface that enables everyone working on the application to interact with and manage its resources. (eg. Port or Backstage)

  4. Continuous integration and continuous deployment (CI/CD) pipeline that applies code and infrastructure configuration to an infrastructure platform. (eg. ArgoCD, Flux, CircleCI, Terraform, CloudFormation)

  5. Data layer that can handle changes to schemas and data structures. (eg. MongoDB Atlas)

  6. Security layer to manage permissions in order to keep compliance. Examples of this are roles-based compliance tools or secrets management tools (eg. Vault).

While some tools have overlap and not all of them will be a part of a specific IDP, the goal of platform engineering efforts is to build an IDP for their developers that is tightly integrated with infrastructure resources and services to maximize automation, standardization, self-service, and scale for developers, as well as maximizing security whilst minimizing overhead for the enterprise.

While there will be many different terms that different organizations and teams use to refer to their IDP story, at its core, an IDP is a tailored set of tech, tools, and processes, built and managed by a central team, and used to provide developers with golden paths that enable greater developer self-service, lower cognitive load, and reduce risk.

How does MongoDB Atlas fit into this story?

Developers often cite working with data as one of the most difficult aspects of building applications. Rigid and unintuitive data technologies impede building applications and can lead to project failure if they don’t deliver the data model flexibility and query functionality that your applications demand. A data layer that isn’t integrated into your workflows slows deployments, and manual operations are a never-ending drag on productivity. Failures and downtime lead to on-call emergencies – not to mention the enormous potential risk of a data breach.

Therefore, making it easy to work with data is critical to improving the developer experience. IDPs are in part about giving developers the autonomy to build applications. For this reason, MongoDB’s developer data platform is a natural fit for an IDP because it serves as a developer data platform that can easily fit into any team’s existing toolstack and abstracts away the complexities associated with self-managing a data layer.

MongoDB’s developer data platform is a step beyond a traditional database in that it helps organizations drive innovation at scale by providing a unified way to work with data that address transactional workloads, app-driven analytics, full-text search, vector search, stream data processing, and more, prioritizing an intuitive developer experience and automating security, resilience, and performance at scale. This simplification and broad coverage of different use cases make a monumental difference to the developer experience.

By incorporating MongoDB Atlas within an IDP, developer teams have a fully managed developer data platform at their disposal that enables them to build and underpin best-in-class applications. This way teams won’t have to worry about adding the overhead and manual work involved in self-hosting a database and then building all these other supporting functionality that come out of the box with MongoDB Atlas.

Lastly, MongoDB Atlas can be hosted on more cloud regions than any other cloud database in the market today with support for AWS, Azure, and Google Cloud.

How can I incorporate MongoDB Atlas into my IDP?

MongoDB Atlas’ Developer Data Platform offers many ways to integrate Atlas into their IDP through many tools that leverage the MongoDB Atlas Admin API. The Atlas Admin API can be used independently or via one of these tools/integrations and provides a programmatic interface to directly manage and automate various aspects of MongoDB Atlas, without needing to switch between UIs or incorporate manual scripts. These tools include:

With the Atlas Kubernetes Operator, platform teams are able to seamlessly integrate MongoDB Atlas into the current Kubernetes deployment pipeline within their IDP allowing their developers to manage Atlas in the same way they manage their applications running in Kubernetes. First, configurations are stored and managed in a git repository and applied to Kubernetes via CD tools like ArgoCD or Flux. Then, Atlas Operator's custom resources are applied to Atlas using the Atlas Admin API and support all the building blocks you need, including projects, clusters, database users, IP access lists, private endpoints, backup, and more.

For teams that want to take the IaC route in connecting Atlas to their IDP, Atlas offers integrations with HashiCorp Terraform and AWS CloudFormation which can also be used to programmatically spin up Atlas services off the IaC integrations built off the Atlas Admin API in the Cloud environment of their choice.. Through provisioning with Terraform, teams can deploy, update, and manage Atlas configurations as code with either the Terraform Provider or the CDKTF. MongoDB also makes it easier for Atlas customers who prefer using AWS CloudFormation to easily manage, provision, and deploy MongoDB Atlas services in three ways: through resources from the CloudFormation Public Registry, AWS Quick Starts, and the AWS CDK.

Example of how to incorporate MongoDB Atlas into your IDP using the HashiCorp Terraform MongoDB Atlas Provider

Other programmatic ways that Atlas can be incorporated into an IDP are through

  • Atlas CLI, which interacts with Atlas from a terminal with short and intuitive commands and accomplishes complex operational tasks such as creating a cluster or setting up an access list interactively

  • Atlas Go SDK which provides platform-specific and Go language-specific tools, libraries, and documentation to help build applications quickly and easily

  • Atlas Admin API provides a RESTful API, accessed over HTTPS, to interact directly with MongoDB Atlas control plane resources.

Get started with MongoDB Atlas today

The fastest way to get started is to create a MongoDB Atlas account from the AWS Marketplace, Azure Marketplace, or Google Cloud Marketplace. Go build with MongoDB Atlas today!

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IoT 데이터와 관련한 3대 핵심 과제와 해결 방법

IoT(Internet of Things, 사물인터넷)는 미래 지향적인 솔루션을 위한 핵심 구성 요소로 자리매김하고 있으며 막대한 경제적 가치가 내재되어 있습니다. McKinsey & Company는 2030년까지 IoT가 소비자 및 고객을 통한 가치 창출을 포함해 전 세계적으로 5조5천 억 달러에서 12조6천 억 달러 규모의 시장을 형성할 것으로 전망했습니다. 지속적으로 높아지는 IoT의 인기와 소비자들의 의존도는 아마도 여러분의 손목을 보는 것만으로도 충분히 확인할 수 있을 것입니다. 피트니스 밴드에서 커넥티드 카, 스마트 홈, 그리고 제조 및 소매 산업의 플릿 관리(fleet-management) 솔루션에 이르기까지, IoT는 이미 전 세계 수십 억 대의 장치를 연결하고 있으며, 앞으로 그 수는 더욱 증가할 것입니다. 점차 더 많은 IoT 기반 장치들이 온라인으로 연결되고 더욱 정교한 센서들이 탑재되고 있기 때문에, IoT 솔루션을 보다 쉽게 구현하고 기업들이 새로운 혁신 기회를 포착할 수 있도록 돕는 올바른 기반 기술을 선택하는 것이 매우 중요합니다. 이 블로그에서는 제조, 소매, 통신, 의료 등을 비롯한 다양한 산업에서 MongoDB가 어떻게 IoT 데이터와 관련한 3대 핵심 과제를 성공적으로 해결하는지를 보여드릴 것입니다. 3대 핵심 과제는 다음과 같습니다. 데이터 관리 실시간 분석 공급망 최적화 그림 1: MongoDB Atlas for IoT 자, 이제 자세히 살펴보겠습니다! 데이터 관리 IoT 장치들이 생성한 대용량 데이터를 저장, 전송 및 처리하는 데는 상당한 어려움이 따릅니다. 또한, IoT 장치들이 생성한 데이터는 많은 경우, 가변적인 구조를 가지고 있습니다. 효과적인 의사 결정에 필요한 컨텍스트를 생성하려면, 이러한 데이터에 신중하게 타임스탬프(timestamp)를 저장하고, 인덱스를 만들며, 다른 데이터 소스와의 상관 관계를 분석해야 합니다. 이러한 데이터 볼륨과 복잡성으로 인해 IoT 장치들의 데이터를 효과적이고 효율적으로 처리하기 어렵습니다. Bosch Bosch Digital의 IoT 장치 관리, IoT 데이터 관리, IoT 엣지를 위한 제품 및 서비스 제품군인 Bosch IoT Suite를 보십시오. 이들 제품 및 서비스는 250개 이상의 국제적인 IoT 프로젝트와 1천 만 개 이상의 커넥티드 장치들을 유지하고 있습니다. Bosch는 실시간으로 데이터를 저장, 관리 및 분석하기 위해 MongoDB를 구축했습니다. MongoDB는 정형, 반정형 및 비정형 데이터를 처리할 수 있으며, JSON으로 효율적인 데이터 모델링을 실행할 수 있기 때문에, 각 장치의 정보 모델을 데이터베이스 내 관련 도큐먼트에 쉽게 매핑할 수 있습니다. 또한, 동적 스키마는 애자일(agile) 개발 방법론을 지원하며 애플리케이션과 소프트웨어의 개발을 단순화합니다. 새로운 장치, 센서 및 에셋(asset)을 쉽게 추가할 수 있기 때문에 개발 팀은 보다 우수한 소프트웨어를 개발하는 데 집중할 수 있습니다. ThingSpace 또 다른 예로, Verizon의 시장 선도적인 IoT 연결 관리 플랫폼으로서, 다양한 IoT 제품 및 서비스를 제공하는 데 필요한 네트워크 액세스를 제공하는 ThingSpace를 들 수 있습니다. Verizon은 자사 네트워크 액세스를 구매한 회사들과 협력하여 이들의 장치를 연결하고, 이들 회사의 고유 솔루션과 함께 번들하여 최종 사용자에게 판매합니다. ThingSpace의 각 고객들은 장치들이 항상 작동하도록 보장하기 위해 신뢰할 수 있는 연결이 필요한 IoT 제품을 판매합니다. WiFi는 이러한 연결을 제공할 수 없습니다. Verizon의 모놀리식(monolithic) RDBMS 기반 시스템은 트랜잭션 및 시계열 워크로드 모두를 처리하도록 확장될 수 없기 때문에 Verizon은 앞으로 분산 데이터베이스 아키텍처가 필요하다고 판단했습니다. MongoDB는 Verizon의 다양한 활용 사례와 워크로드 유형 전반에서 Verizon의 요구 사항을 충족하도록 확장되는 유일한 솔루션이라는 것을 입증했습니다. 수많은 장치와 빠르게 수신되는 메시지로 인해 발생한 엄청난 처리 요구는 MongoDB의 매우 가용성과 확장성이 뛰어난 아키텍처로만 해결되었습니다. 네이티브 MongoDB Time Series는 클러스터링된 인덱스로 최적화된 스토리지와 최적화된 Time-Series 쿼리 연산자를 통해 성능을 향상시킬 수 있습니다. 유연한 데이터 모델링, 강력한 인덱싱, Time Series 등과 같은 MongoDB의 첨단 기능들은 IoT 장치들이 생성한 복잡하고 다양한 데이터를 관리하는 효과적인 솔루션입니다. 실시간 분석 오늘날 빅 데이터 분석에서 가장 필수적인 부분 중 하나인 실시간 데이터 분석은 보다 데이터 기반의 실시간 의사 결정을 내릴 수 있도록 한다는 점에서 기업에 매우 중요합니다. 하지만, 그 중요성에도 불구하고 분 단위로 또는 초 단위로 데이터의 변경에 대응할 수 있는 경우는 극소수에 불과합니다. 엔터프라이즈 규모로 실시간 분석을 구현하는 과정에서 많은 과제들이 발생하게 됩니다. 이처럼 엄청난 용량의 데이터를 저장하고 이를 실시간으로 분석하는 것은 완전히 다른 문제입니다. Thermo Fisher Cloud AWS의 과학계를 위한 최대 클라우드 플랫폼 중 하나인 Thermo Fisher Cloud를 살펴보겠습니다. MS Instrument Connect는 Thermo Fisher 고객들이 모든 모바일 장치나 브라우저에서 실시간으로 실험 결과를 확인할 수 있도록 합니다. 각 실험은 수백 만 개의 데이터 "행(row)"을 생성했으며, 이에 따라, 기존 데이터베이스들은 최적의 성능으로 실행되지 못하게 됐습니다. 내부 개발자들은 빠르게 변경되는 다양한 데이터를 쉽게 처리할 수 있는 데이터베이스를 필요로 했습니다. MongoDB의 표현식 쿼리 언어와 리치 보조 인덱스는 고객들의 과학 실험을 위해 필요한 애드혹(ad-hoc) 쿼리와 사전 정의된 쿼리 모두를 유연하게 지원합니다. 언제나 MongoDB Atlas와 같은 서비스를 이용할 수 있기 때문에, Thermo Fisher는 핵심 업무, 즉 과학 분야에서 업계 최고 수준의 서비스를 제공하는 회사로 성장하는 데 집중할 수 있습니다. Joseph Fluckiger, Thermo Fisher의 수석 소프트웨어 아키텍트 MongoDB Atlas 는 원활하게 확장되고, 엄청난 양의 센서 및 이벤트 정보를 수집해 실시간 분석을 지원함으로써 모든 중요한 이벤트를 포착할 수 있습니다. 이를 통해 기업들은 다음과 같은 새로운 기능들을 활용할 수 있습니다. 과도한 데이터 매핑 없이 모든 유형의 스트리밍 또는 배치(batch) 데이터 캡처 내장된 집계 프레임워크로 쉽고 직관적으로 데이터 분석 실행 신속하고 손쉽게 규모에 맞는 데이터 통찰력 제공 MongoDB를 통해 기업들은 쿼리를 최적화하여 신속하게 결과를 제공함으로써 운영을 개선하고 비즈니스 성장에 박차를 가할 수 있습니다. 공급망 최적화 품목들은 공급망 내 여러 지점을 거쳐 이동하기 때문에 이러한 여정의 전반에 걸쳐 처음부터 끝까지 완벽한 가시성을 유지하기 어렵습니다. 어떤 단계에서든 통제력을 잃는다면, 계획의 효율성이 저하되고, 전체 공급망 속도가 느려지며, 궁극적으로 투자수익률(Return on Investment, ROI)이 낮아지는 결과를 초래할 수 있습니다. 필요에 따라 원재료를 소싱하여 물류센터 공간을 최적화하는 것부터 실시간 공급망 통찰력에 이르기까지, IoT 기반 공급망은 사각지대와 비효율을 제거해 이러한 프로세스를 크게 최적화할 수 있도록 지원합니다. Longbow Advantage Longbow Advantage 는 고객들이 자체 공급망을 최적화할 수 있도록 지원함으로써 상당한 비즈니스 성과를 거두고 있습니다. 수백 만 건의 화물이 매일 여러 물류센터를 거쳐 이동하면서 하루 종일 실시간 가시성과 리포팅을 위해 분석해야 하는 엄청난 양의 데이터를 생성합니다. 대표적인 물류센터 가시성 플랫폼인 Rebus는 실시간 성능 리포팅 기능과 함께 엔드투엔드 물류센터 가시성 및 지능형 인력 관리 기능을 결합하고 있습니다. Longbow는 이러한 규모의 데이터를 처리하고 Rebus의 핵심에서 실시간 물류센터 가시성 및 리포팅 기능을 제공할 수 있는 데이터베이스 솔루션을 필요로 했으며, 많은 시간이 소요되는 모놀리식 스프레드시트는 이를 수행하는 데 역부족이라는 사실을 깨달았습니다. MongoDB의 도큐먼트 데이터베이스 모델이 여기에 가장 적합하며, Rebus가 거의 실시간으로 다양한 데이터를 수집하고 저장하며 가시성을 확보하도록 지원할 것이라는 확신을 갖게 됐습니다. 지능형 공급망 솔루션에서 중요한 또 하나의 구성 요소는 실시간 가시성을 제공하고 현장에서 데이터 기반 의사 결정을 수행할 수 있도록 지원하는 IoT 기반 모바일 앱입니다. 이러한 상황에서, 직원들은 연결이 취약하거나 존재하지 않는 지역에서도 데이터에 액세스해야 하기 때문에 오프라인 우선(offline-first) 패러다임이 중요해집니다. MongoDB의 Realm은 리소스가 제한된 환경을 위한 경량의 객체 지향형 임베디드 기술입니다. 모바일 기기에 데이터를 저장하는 데 이상적인 솔루션입니다. Realm 데이터베이스를 래핑(wrap)하는 MongoDB의 Realm SDK와 함께, 개발자들이 최소한의 작업만으로 MongoDB와 모바일 기기의 Realm 간에 원활하게 데이터 동기화를 실행할 수 있는 Atlas Device Sync를 활용함으로써 기업들은 신속하게 모바일 애플리케이션을 개발하고 혁신을 추진할 수 있습니다. MongoDB는 프로세스를 최적화하고 비효율을 제거할 수 있는 IoT 기반 공급망을 위한 강력한 솔루션을 제공하기 때문에 기업들은 데이터 기반 의사 결정을 수행하고 공급망 효율성을 향상시킬 수 있습니다. 결론 IoT 산업이 빠르게 진화하고, 커넥티드 장치의 수가 늘어나면서 이들 솔루션을 활용하는 기업들이 직면한 과제도 증가하고 있습니다. 여러 다양한 실제 활용 사례들을 통해 MongoDB가 어떻게 기업들이 IoT 데이터 관리를 처리하고, 실시간 분석을 수행하며, 공급망을 최적화함으로써 다양한 산업 부문에서 혁신을 추진할 수 있도록 지원했는지 살펴봤습니다. 고객들을 위해 힘든 작업을 관리하도록 설계된 고유한 특징과 기능들을 통해, MongoDB는 IoT 환경의 지속적인 디지털 전환에서 중요한 역할을 수행할 수 있는 유리한 입지를 확보하고 있습니다. 자세한 내용을 원하거나, MongoDB로 시작하시기를 원하십니까? MongoDB의 IoT 리소스를 확인해 보십시오. MongoDB IoT 참조 아키텍처 Relational Migrator를 이용한 기존 애플리케이션 마이그레이션 MongoDB & IIoT e북 IoT 웹페이지

December 29, 2023
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The Developers' Developers: Two Australian Developers Share Their Connections to Customers

The world’s 28 million software developers are writing the foundations of our future, propelling innovation for their organizations through lines of code by creating game-changing new apps. Indeed, the US Bureau of Labor Statistics predicts that between 2022 and 2032, the number of software developers, quality assurance analysts, and testers will grow 24%, “much faster than the average for all occupations.” Fueling this innovative workforce is another group of developers, the people working behind the scenes to build the tools, technologies and platforms that other developers need to be successful: the developers’ developers. Many developers at MongoDB—which after all was built by developers for developers, and is beloved by enterprises and startups alike—fall into this camp. To learn more about what makes these developers tick, we talked with two Australia-based senior software engineers at MongoDB who love to code for their peers. For Lavender Chan and Angus Lee, there’s nothing like seeing the ripple effect of the code they have been working on and the impact it has on their customers. What’s more, the opportunity to be a “developer’s developer” has allowed Chan and Lee to find a space for deep technical work while thriving in an autonomous environment. At MongoDB we believe developers will build the future. First, can you share more about your roles and what you’re working on? Lavender Chan (LC): I work on the Relational Migrator tool, which allows developers to migrate SQL data onto MongoDB. I joined the company two and a half years ago, and have been part of the Sydney technology scene for the last 10 years. The appeal of joining MongoDB was that it’s a large global company, but in the engineering team you are able to have a big impact and a lot of autonomy. Relational Migrator was a greenfield project, and our team has been able to take the original product idea built out of the US and run with it. I’m a full stack developer and have touched on every feature of the tool. A lot of the engineers were able to contribute and work on new ideas. There’s also a strong emphasis on culture here which practically means a lot of the people I work with are excited to be here and passionate about their roles. Angus Lee (AL): I work in the MongoDB Charts team in Australia and think our team is a sweet spot for developers. I’ve interned for other tech companies and started my career at MongoDB. Since then I’ve been given responsibilities where I can create a lot of impact. My role at MongoDB in Sydney has also given me great opportunities to connect directly to the developers we are creating products for in a way that pushes my work to a higher level. Your roles are focused on products targeted to other developers. How does developing for developers affect your approach to your work? LC: In our roles we are creating directly for other developers, so the work that I am doing is deeply technical and specific. As Migrator is a newer product, we are able to interact directly with our customers—other developers—and often a lot of their questions are quite complex and specific, which means I go on a learning journey in debunking and fixing their problems. AL: We have a strong team culture in that as developers we want to be our own users. That means we want to use other MongoDB team products, and they use ours, so we can better identify pain points and issues for our customers. There’s a term that developers use called “dogfooding” that really sums up how we think on this, which basically means to use your own product. It means for me that I think about writing clean code to help any other developers extend on this, and how effective what I do will be for the user. What I’ve also learnt is how our product helps other products thrive. We should have done all the hard work to transform data and show it through data visualizsation tools so it’s easy for the customer. Can you tell us more about this connection to customers and how MongoDB empowers developers? LC: When Relational Migrator was released as a general product, I went to MongoDB World to work at the booth, and I talked to the developers and customers using the platform. As an engineer, it was an amazing experience and opportunity to see how it was being used and what else we could be doing. This connection of engineers with customers, as well as the ability to speak to them regularly in my role, is unique. In other companies I would need to go through support teams, to go through someone else just to push out a bug fix. Our team is very customer focused, so we can prioritizse features that our customers want. AL: One of the best moments for me at MongoDB was when I went to MongoDB World and I sat down with a customer to talk through a feature of Charts. It was a pivotal moment to see the improvements it makes for the businesses that use it, and the impact it generates for their customers beyond that. I could sit back and see the ripple effect of the code I’m writing. There is also a great feedback engine where our users can submit ideas and other users can vote for that feature. The product managers pick from these and push out features that are directly relevant to the developers using it. Where we really connect is in our aim to create an open forum for developers and customers to provide feedback and suggest ideas. Developers are problem solvers. As part of the MongoDB Love Your Developers campaign, we believe in championing the voice of developers and giving them the freedom to experiment and innovate. How do you see this in action? LC: In other places I was a small cog in a massive system. At MongoDB, I really have an impact, and can see directly how my work translates to our final product. In Sydney, we’re a satellite office, but it’s indicative of our company culture that there is huge trust placed in these teams. We’re given high impact projects and can run with them, which means I’ve been able to watch the Relational Migrator product go from a tiny product used by only a few customers, to one that is now generally available. Not many engineers get to work for a well-established,large company and still have the opportunity to work on and release products like a startup. There is a strong global interest in AI-driven innovations. How have your connections to customers led to innovations in this area? AL: We’ve been able to take an idea for a new AI feature, Natural Language Charts , and take it from concept to being released as a feature at MongoDB.local in London. We could see from our conversations with customers, as well as broader industry trends, that there was strong interest in new AI features so we were able to prioritizse it for Charts. We started with nothing and were given the freedom to research how this feature could work using AI, create a new proof of concept, and from there we were able to push it out into a feature which was a really proud moment. Having this agility and flexibility to prioritize something new is exactly what we want to provide to our customers. I never feel like I'm just churning out code. We are connected to the work and to our customers. MongoDB is built by developers, for developers. Become part of the team changing the way the world works with data!

May 9, 2024