Cloud computing delivers a lot of benefits, but only if a company’s infrastructure is ready for cloud workloads. Proper cloud infrastructure design entails automation, orchestration, monitoring, compliance, cost optimization and high availability.
SHALB designs and implements next-gen infrastructures of any complexity, including hybrid and multi-cloud scenarios. We build production-ready, HA systems tailored to fit customer business requirements. We work with major providers of cloud services: AWS, Azure & Google Cloud.
Choosing SHALB as a technical partner you receive:
- Completely codified infrastructure solution (IaC) that is easy to maintain and replicate
- Kubernetes orchestrated workloads
- Automatic deployment of containerized services
- Set up observability: logging, tracing, monitoring
- Cutting-edge technology stack
- Open source components
Advantages of working with us:
Cluster.dev is an open source templating engine for cloud-native infrastructures. It encapsulates everything that SHALB has gained over the years of working with clouds: skills, knowledge, design patterns and technologies.
Initially designed to simplify work of SHALB in-house engineers, Cluster.dev enables automation of most routine tasks that DevOps and SRE teams are assigned with, including deployment to cloud environments and infrastructure testing.
In particular, it allows engineers to easily configure cloud-native stacks and have at once: environments described as code with proven default settings, and complete with operational dashboards, logging and monitoring out-of-the-box.
Best-in-class automation and proven practices guarantee availability, scalability, and compliance with the most demanding data security and privacy standards.
Using Cluster.dev empowers your teams to:
- Create and reuse infrastructure blueprints across different projects
- Seamlessly integrate different technologies under one roof
- Replicate complex cloud-native infrastructures
- Deploy a whole stack with a single command
- Test and validate infrastructure changes before propagating them to critical environments
