How to Evaluate Container Management Software

3 min read

Containers mark a major reshuffling in the technology world, just like the shift from client-server software on isolated physical networks to the server less data center. A reassessment of current infrastructure frameworks, systems, and policies is needed to work with these.

The very first objective is to formulate an understanding of the full container environment that includes elements such as container orchestrators and container libraries. There are two crucial steps to follow to leverage this technology at its fullest capacity. The second step is to determine the functionality of container management software with current infrastructure and processes for interprocess communication, the possible safety threats, and the complexities of interoperability and deployment.

An overview of the container ecosystem

Containers are a modern invention based on a compartmentalization principle that is almost 40 years old. Containers permit multiple programs to run within the same OS in remote settings. This improves the utilization of services, decreases load time, and simplifies the implementation and maintenance of distributed apps that are scattered across numerous networks and regions.

Containers themselves are just a summary of the source code of program modules, device libraries, and specification that can be translated into a binary image, which is installed and operated during the runtime of an OS and container. The latency of the container allows logical differentiation of program contexts but introduces isolation of operations and resource use limits.

Containers and their dynamic engines provide a framework for application and technology modernization but need several other modules to build a development environment. Although some have attempted, the complex design of container production which means that the best container management software does not have widely agreed standard classifications. In a cloud data center, running several containers includes components to handle installation on one or even more computers, task scheduling and tracking, routing, and each instance’s operating state.

Key features to assess before purchasing container management software

There are important areas that organizations need to address when reviewing container management software to help implement an application transformation plan.

Usage and workflow

Original container framework architectures, like Docker, use an entirely different range of software and management frameworks that usually do not align with existing platforms for cloud computing and are very challenging. If an enterprise plans to create a greenfield infrastructure or use public cloud resources for modern container orchestration, this is not a problem. Recent advances from VMware and Microsoft allow containers to run on traditional server systems using business processes that minimize the training time and improve process integration considerably.

Container systems use the principles of virtual networking applied with application virtualization so that an overlay network and a digital switch are generated by the container runtime algorithm to transfer packets among container instances on the very same network. Networking features built into container engines like Docker are sufficient. However, linking a container network to a public cloud provider or through data centers is challenging without a controller for network overlay.

Security and policy

Bugs and general security of containers are particularly questionable as it is a new and modern technology. While containers offer greater program separation than device operations in an operating system, they are not as impenetrable as virtual machines (VMs) on a Type 1 hypervisor. Prospective modes of threat include OS vulnerabilities, breakouts of containers, denial of service, hidden ransomware, and theft of credentials. Most of these vulnerabilities can be mitigated by operating single containers inside a compact VM. Another environment where container management software is needed is the central monitoring of access policies.


Most modern OSs have a Docker-compatible container framework, including different varieties of Linux, Microsoft Windows, VMware ESXi, and IBM PowerLinux. Though Docker attracts much of the public being the sole legal application container framework, it is not the only one, and conflicts among Docker and other free software programmers lead to the development of the Open Container Initiative (OCI). Container vendors and developers must also collaborate on the development of image sharing and discovery protocols (via a registry procedure) and APIs among back-end resources such as the orchestrator/cluster administrator and resources monitoring to increase interoperability.

Containers are indeed a perfect cloud-native, shared server hosting technology that can spread across thousands of physical hosts with far less device overhead than a VM device. Containers can also, nevertheless, be used to bundle legacy software not intended for virtual spaces that can quickly be shared and installed on public or private cloud networks.

What is CaaS?

With CaaS, cloud providers basically have a hosting container orchestration system to install and operate containers, handle databases, optimize scaling and vulnerability detection, and manage the common infrastructure framework, including compliance and safety, usually based on Google’s super-popular Kubernetes open platform. The CaaS software takes care of all communication, load balancing, reporting, monitoring, encryption, protection, automatic scaling, and continuous integration/continuous delivery (CI/CD) features.

If containers are the way users would like to go, then if the company has the expertise and capabilities to deploy and manage Kubernetes (or other container orchestration layer) internally or will benefit from outsourcing it to a cloud service provider is the differentiation amongst CaaS and operating on traditional infrastructure-as-a-service (IaaS). The decision can also focus on whether several clusters and/or on-site ecosystems may cover the container environment. A variety of providers provide CaaS platforms that can be installed on-site or in the cloud.

Running the containers on CaaS is similar to running the virtual machines on IaaS: installation pace and flexibility to use are the key advantages, as well as the convenience of the pay-as-you-go cloud model and the lock-in period of the provider. Another advantage is the reliability of orchestration and monitoring, as isolating individual resources in containers using the common sidecar deployment model will allow for more efficient log aggregation and unified monitoring.

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