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Should today’s developers worry about AI code generators taking their jobs? Dec 11, 2022 Book review: Clojure for the Brave and True Oct 2, 2022 Stop Shakespearizing Sep 16, 2022 Using GNU Make with JavaScript and Node.js to build AWS Lambda functions Sep 4, 2022 Monolithic repository vs a monolith Aug 23, 2022 Scripting languages are tools for tying APIs together, not building complex systems Jun 8, 2022 Good developers can pick up new programming languages Jun 3, 2022 Java is no longer relevant May 29, 2022 Automation and coding tools for pet projects on the Apple hardware May 28, 2022 There is no such thing as one grand unified full-stack programming language May 27, 2022 Most terrifying professional artifact May 14, 2022 TypeScript is a productivity problem in and of itself Apr 20, 2022 Tools of the craft Dec 18, 2021 Node.js and Lambda deployment size restrictions Mar 1, 2021 What programming language to use for a brand new project? Feb 18, 2020 Using Markov Chain Generator to create Donald Trump's state of union speech Jan 20, 2019 The religion of JavaScript Nov 26, 2018 Let’s talk cloud neutrality Sep 17, 2018 TypeScript starts where JavaScript leaves off Aug 2, 2017 Node.js is a perfect enterprise application platform Jul 30, 2017 Singletons in TypeScript Jul 16, 2017 Copyright in the 21st century or how "IT Gurus of Atlanta" plagiarized my and other's articles Mar 21, 2017 Collaborative work in the cloud: what I learned teaching my daughter how to code Dec 10, 2016 Amazon Alexa is eating the retailers alive Jun 22, 2016 What can we learn from the last week's salesforce.com outage ? May 15, 2016 JEE in the cloud era: building application servers Apr 22, 2016 JavaScript as the language of the cloud Feb 20, 2016 In memory of Ed Yourdon Jan 23, 2016 Top Ten Differences Between ActiveMQ and Amazon SQS Sep 5, 2015 We Live in a Mobile Device Notification Hell Aug 22, 2015 What Every College Computer Science Freshman Should Know Aug 14, 2015 Ten Questions to Consider Before Choosing Cassandra Aug 8, 2015 The Three Myths About JavaScript Simplicity Jul 10, 2015 Book Review: "Shop Class As Soulcraft" By Matthew B. Crawford Jul 5, 2015 Big Data is not all about Hadoop May 30, 2015 Smart IT Departments Own Their Business API and Take Ownership of Data Governance May 13, 2015 Guaranteeing Delivery of Messages with AWS SQS May 9, 2015 Where AWS Elastic BeanStalk Could be Better Mar 3, 2015 Why I am Tempted to Replace Cassandra With DynamoDB Nov 13, 2014 How We Overcomplicated Web Design Oct 8, 2014 Docker can fundamentally change how you think of server deployments Aug 26, 2014 Cassandra: Lessons Learned Jun 6, 2014 Things I wish Apache Cassandra was better at Feb 12, 2014 "Hello, World!" Using Apache Thrift Feb 24, 2013 Have computers become too complicated for teaching ? Jan 1, 2013 Java, Linux and UNIX: How much things have progressed Dec 7, 2010

Monolithic repository vs a monolith

August 23, 2022

In software, a monolith architecture is one in which all application parts are encapsulated in a single component offering many services. A monolith makes sense from a convenience and developer productivity standpoint. 



In a monolith, all code is in one place, and it is easy to add features and reuse components. All developers can contribute to all parts of the code as needed. Importantly, all code in a monolith is tested and deployed together as a single unit in which everything is compatible.



It is easy to get bogged down in religious aspects of software architecture and build architectural flaws into the application that will be difficult to overcome later. Strict adherence to domain-driven architecture, for example, leads to the opposite problem to that of the monoliths. Both code and teams working on it become so decoupled they can’t perform together.



As an architect, I am not opposed to monolith architecture per se. At the onset of brand new application development, it is not always obvious what boundaries are necessary. I don’t believe that time spent in meetings trying to boil the architectural ocean is conducive to productivity. A well-designed monolith with firm logical boundaries (i.e., modules) between distinct layers of functionality is good enough to get an application out of the door.



The advantages of the monolith are therefore obvious:




  1. All code in one place is conducive to developer productivity and agility. All developers can see all code. They can contribute to all parts of the application and transfer their skills from one area to another;
  2. Code reuse and refactoring are easy because all code is in one place;
  3. Simple builds and deployments



Over time, however, services offered by the monolith develop a life of their own. Here are the main areas where a monolith begins to get in the way of a well-designed and functional architecture:




  1. Different security profiles: Some APIs in a monolith should be open to the public Internet, while others should not. Some services should live in the application-tier subnet, and others should live in the database-tier subnet. In a hybrid cloud model, some services should have access to the company’s internal on-premise infrastructure, while others should not, etc.;
  2. Different performance characteristics: Different parts of the monolith have unique performance characteristics with specialized auto-scaling rules;
  3. Different release cycles: Some parts of the monolith are project hotspots that require a fast release cycle. It should be possible to deploy hotfixes to some parts of the application without having to regression test the entire code base;
  4. Code base too large for the tooling: The code base has become so large that the toolchain can’t handle it. Unit tests run too long; compiler crashes with out-of-memory errors, etc. Some programming languages reach this point earlier than others, but JavaScript-based projects are particularly notorious for not scaling well with the size of the code base;
  5. Programming language for the monolith is inappropriate for some tasks: for example, imposing Node.js on machine learning services will result in neither good use of Node.js nor good machine learning;



A monorepo can address all of the above problems without sacrificing some of the main advantages of a monolith. Using a monorepo, you can:




  1. Keep all code in one place;
  2. Facilitate code reuse and refactoring across the entire project;
  3. Separate services based on security, scalability, and performance profiles while still having all of their code at your fingertips;
  4. Incrementally build and deploy only those services that have been modified for a particular release;
  5. Use different programming languages as needed, utilizing the right tool for the tasks;



Now, I am not advocating for all components and all projects in a company to be in a monorepo. Monorepo makes sense under some circumstances and makes no sense under others. A set of related features with related code, similar security, performance, and scalability profiles belong in a single deployable service. Services that are functionally related and have a closely aligned release cycle belong to the same monorepo.



Generally speaking, I am also not advocating for an approach taken by Google, which has some 90% of its code in a single monorepo. Standardization of tooling is good to an extent — until it inhibits innovation and agility. Developers should own the proverbial sausage-making.

Last updated January 20, 2026. Return to home.