As CTOs, we’re both feeling the pressure. Our teams are expected to ship faster, with fewer errors, and at a scale that feels almost limitless. But as you know, scaling software delivery isn’t just about telling developers to move faster — it’s about giving them the right tools and platforms to make it possible. This is where platform engineering steps in, and it’s proving to be a game-changer.
The way I see it, platform engineering is like the unsung hero of modern software development. It creates the internal developer platforms (IDPs) that handle the heavy lifting of infrastructure and automation. Instead of having devs stuck managing the infrastructure, these platforms let them focus on what they do best: writing code.
Let’s break it down a bit more and look at why platform engineering is quickly becoming indispensable for modern enterprises — and why we, as tech leaders, should be paying attention.
What Exactly Is Platform Engineering?
At its core, platform engineering is about building internal platforms that streamline the software delivery process. These platforms are typically self-service, highly automated, and standardized to make things easier for developers.
Think of it like this: your devs don’t need to know the ins and outs of Kubernetes clusters or cloud provisioning anymore. The platform abstracts all of that complexity away. They get intuitive tools and interfaces, and the platform takes care of the messy parts.
Key features of a solid platform engineering setup include:
- Self-service interfaces: Developers can provision resources and deploy apps without having to go through a series of ops requests.
- Standardization: Uniform workflows and environments keep things consistent across teams.
- Abstraction of complexity: Developers don’t have to worry about the underlying infrastructure — just build, deploy, repeat. The outcome? Developers spend more time on innovation, less on debugging infrastructure issues.
The Evolution of Platform Engineering
We’ve all seen how DevOps revolutionized the way we work by bridging the gap between development and operations. But as we moved into cloud-native architectures and microservices, we needed something even more tailored. The increasing complexity called for a dedicated practice — platform engineering.
Some key trends that drove this evolution:
- Cloud-native adoption: As we shifted to the cloud, the need for scalable, automated platforms became unavoidable.
- Microservices architecture: With distributed systems becoming the norm, orchestration and monitoring became central issues.
- Kubernetes and containers: Containerization took off, and platform engineering stepped in to manage infrastructure at scale.
- CI/CD pipelines: The demand for faster delivery cycles called for more sophisticated platforms to support continuous integration and deployment. It’s not just about putting out fires anymore — it’s about having a proactive approach to managing complexity and scale.
The Real Difference Between DevOps and Platform Engineering
I think it’s important to clarify the distinction here. DevOps is a cultural shift that emphasizes collaboration and automation between dev and ops teams. It’s the mindset we’ve adopted to streamline workflows.
Platform engineering, on the other hand, is a technical discipline. It’s about creating the infrastructure and tools that enable the principles of DevOps.
So, while they’re different, they work in tandem. DevOps focuses on automating workflows, while platform engineering builds the infrastructure that makes that automation possible. If DevOps is the race car driver, platform engineering is the team designing and maintaining the car.
Why Should CTOs Like Us Care About Platform Engineering?
The benefits are hard to ignore. Here are a few key ones we’ve seen:
- Increased developer productivity: Less time managing infrastructure means more time writing code.
- Faster time to market: Streamlined processes mean you can deploy new features and updates faster.
- Cost efficiency: Automation and resource optimization mean you’re using what you need and nothing more.
- Improved security: Built-in compliance and security measures reduce the risk of breaches or violations. Plus, as we continue to expand in the cloud-native world, platform engineering is becoming the backbone of everything we do. Whether it’s managing multiple cloud environments, enabling serverless architectures, or orchestrating containers at scale, a robust internal platform is key.
The Challenges We Need to Be Aware Of
That said, platform engineering isn’t a silver bullet. There are challenges:
- Managing complexity: How do you balance making things easy for developers while still maintaining the flexibility needed for different use cases? It’s a tricky balance.
- Cultural resistance: Some teams are so used to doing things the old way that they might push back against platform engineering’s new workflows.
- Maintenance: The platform will need regular updates, scaling, and fine-tuning. It’s not a one-and-done project.
The Future: Where Platform Engineering Is Headed
As we look ahead, platform engineering is poised to grow, especially with emerging technologies like AI, edge computing, and further infrastructure abstraction. Here’s what’s on my radar:
- AI and Machine Learning: Think automated optimizations and predictive monitoring built right into the platform.
- Edge computing: As more processing moves closer to the edge, platforms will need to operate efficiently across diverse environments.
- Further abstraction: Serverless and low-code/no-code platforms are making it even easier for developers to innovate without worrying about infrastructure.
Read the full article on Bunnyshell blog
Top comments (0)