OpenShift Bare Metal Hosting, OpenShift and Kubernetes Clusters

OpenShift Bare Metal Hosting provides a robust and flexible solution for deploying and managing containerized applications on dedicated physical servers. By utilizing the power of Red Hat's OpenShift, organizations can leverage the full capabilities of Kubernetes for orchestration while enjoying the performance and control offered by bare metal infrastructure.

OpenShift Bare Metal Hosting Pricing

If you need multiple Bare Metal servers to build Kubernetes Clusters, Communicate with us first to obtain an exclusive customized solution.
HDD Server
SSD Server
NVMe Server
Raid Server

Express Dedicated Server - SATA

44.1/m
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  • 16GB RAM
  • 4-Core E3-1230 @3.20 GHzreport
  • 240GB SSD + 5TB SATA
  • 100Mbps-1Gbps Bandwidthreport
  • OS : Windows / Linux
  • 1 Primary IP

Basic Dedicated Server - SATA

65.00/m
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  • 32GB RAM
  • 8-Core E5-2670 @2.60 GHzreport
  • 4x3TB SATA RAID 10
  • 100Mbps-1Gbps Bandwidthreport
  • OS : Windows / Linux
  • 1 Primary IP

Advanced Dedicated Server - SATA

179.00/m
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  • 128GB RAM
  • 16-Core Dual E5-2667v3 @3.20 GHzreport
  • 120GB SSD + 12 x 8TB SATA
  • 100Mbps-1Gbps Bandwidthreport
  • OS : Windows / Linux
  • 1 Primary IP

Professional Dedicated Server - SATA

105.00/m
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  • 64GB RAM
  • 8-Core E5-2667v4 @3.20 GHzreport
  • 120GB SSD + 4 x 8TB SATA
  • 100Mbps-1Gbps Bandwidthreport
  • OS : Windows / Linux
  • 1 Primary IP

How to Start OpenShift Bare Metal Hosting

Rent Bare Metal Servers

Rent Bare Metal Servers

To begin with, select bare metal servers that meet your specific resource requirements, including CPU, memory, storage, and network capabilities. After securing the servers, install a Linux operating system such as Red Hat Enterprise Linux (RHEL) or CentOS. This foundational step ensures your servers are ready to support the OpenShift platform.
Install OpenShift

Install OpenShift

With your servers prepared, execute the OpenShift installation script. Follow the on-screen prompts to configure your OpenShift cluster, including setting up details like cluster name, domain, and network settings. Once the installation is complete, use OpenShift command-line tools to verify that the cluster is up and running properly, ensuring everything is configured correctly.
Configure and Manage OpenShift

Configure and Manage

Access the web-based OpenShift Console to manage your cluster effectively. This console allows you to configure projects, deploy applications, and monitor the health of your cluster. Additionally, set up user roles and permissions to control access to various parts of the OpenShift environment, and start deploying applications using templates, Helm charts, or custom configurations.
Monitoring and Maintenance

Monitor and Maintain

Implement robust monitoring tools such as Prometheus and Grafana to track the performance and resource usage of your cluster. Regular maintenance is crucial; perform updates and security patches routinely to keep your OpenShift environment secure and up to date. This proactive approach ensures the stability and efficiency of your OpenShift bare metal hosting setup.

Features of OpenShift Virtualization with Bare Metal

High Performance

High Performance

Utilizing bare metal servers for OpenShift virtualization ensures maximum performance by leveraging the full hardware capabilities without the overhead of a hypervisor layer. This results in faster application deployment and improved resource utilization.
Enhanced Security

Enhanced Security

Bare metal servers provide a dedicated environment that isolates workloads more effectively than shared infrastructure. This setup reduces the attack surface and enhances security, making it suitable for sensitive applications and data.
Scalability and Flexibility

Scalability and Flexibility

OpenShift on bare metal offers the ability to scale applications dynamically. With the flexibility to add or remove servers as needed, you can easily adjust to changing workloads and business requirements. The Kubernetes-based architecture of OpenShift further enhances scalability through efficient container orchestration.
Improved Resource Management

Resource Management

Bare metal hosting allows for precise resource allocation, ensuring that CPU, memory, and storage resources are optimally used. OpenShift’s robust management tools facilitate monitoring and managing these resources, leading to efficient operations and reduced costs.
Native Kubernetes Integration

Kubernetes Integration

OpenShift provides a comprehensive Kubernetes platform, offering advanced features like automated updates, integrated CI/CD pipelines, and service mesh capabilities. This native integration simplifies the deployment and management of containerized applications on bare metal infrastructure.
Reliability and Stability

Reliability and Stability

Running OpenShift on bare metal servers enhances the reliability and stability of your environment. Without the additional complexity of virtualization layers, there is less potential for software conflicts and system failures, leading to more consistent uptime and performance.
Customizability

Customizability

Bare metal environments offer greater customization options compared to virtualized environments. You can tailor the server configurations to meet specific application requirements, ensuring optimal performance and compatibility.
Cost Efficiency

Cost Efficiency

While the initial setup cost might be higher, the long-term operational costs of bare metal servers can be lower due to better resource utilization and fewer licensing fees associated with virtualization software.

What is OpenShift Bare Metal Server Used For?

OpenShift Bare Metal Server is utilized for running containerized applications on dedicated physical servers without a hypervisor layer. This setup is ideal for organizations seeking to maximize performance, control, and efficiency in their IT environments.
Hybrid and Multi-Cloud Integration

Hybrid and Multi-Cloud

OpenShift’s ability to run on bare metal servers integrates seamlessly with hybrid and multi-cloud strategies. Organizations can deploy and manage applications across on-premises bare metal servers and public or private clouds, providing flexibility and scalability.
AI and Machine Learning Workloads

AI and Machine Learning

AI and machine learning applications often require high-performance hardware such as GPUs. Bare metal servers are ideal for these workloads as they can provide direct access to GPU resources, enhancing performance for training and inference tasks.
Financial Services

Financial Services

High-frequency trading, risk modeling, and real-time analytics benefit from the performance and low latency of bare metal servers.
Telecommunications

Telecommunications

Network functions virtualization (NFV) and other telco applications require high performance and reliability, which bare metal servers provide.
Healthcare and Life Sciences

Healthcare and Life Sciences

Applications such as genomic sequencing, medical imaging, and real-time patient monitoring demand high-performance computing and data processing capabilities.
Manufacturing and Engineering

Manufacturing and Engineering

Computer-aided design (CAD), simulations, and other engineering applications benefit from the raw compute power and low latency of bare metal servers.

FAQs of OpenShift Bare Metal Server Virtualization

What is OpenShift Bare Metal Server Virtualization?

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OpenShift Bare Metal Server Virtualization refers to the deployment of OpenShift, a Kubernetes-based container orchestration platform, directly on physical (bare metal) servers without the use of a hypervisor. This setup maximizes performance and resource utilization by taking full advantage of the server hardware.

What are the hardware requirements for running OpenShift on bare metal?

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The hardware requirements for running OpenShift on bare metal include servers with sufficient CPU, memory, and storage resources to support your anticipated workload. Additionally, a network setup that supports high availability and redundancy is recommended. Specific requirements will vary based on the size and complexity of your OpenShift deployment.

How do I install OpenShift on bare metal servers?

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Installing OpenShift on bare metal involves preparing your servers with a compatible Linux OS, configuring the network, and running the OpenShift installation scripts. Detailed installation guides are available from Red Hat, which provide step-by-step instructions for setting up an OpenShift cluster on bare metal.

How is the network configured for OpenShift on bare metal?

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Network configuration for OpenShift on bare metal involves setting up IP addresses, VLANs, and firewall rules to ensure proper communication between the OpenShift nodes and other network devices. This setup is critical for maintaining high availability and security.

Are there any additional costs associated with running OpenShift on bare metal?

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While there may be higher initial costs due to the need for physical hardware, running OpenShift on bare metal can reduce long-term operational costs by eliminating hypervisor licensing fees and improving resource efficiency. Additionally, Red Hat offers various subscription plans for OpenShift support and services.

Why should I use OpenShift on bare metal instead of a virtualized environment?

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Using OpenShift on bare metal servers eliminates the overhead associated with hypervisors, leading to better performance and more efficient resource utilization. It also provides enhanced security and reliability by offering dedicated hardware resources for your applications.

Which operating systems are compatible with OpenShift on bare metal?

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OpenShift is typically deployed on Linux-based operating systems, with Red Hat Enterprise Linux (RHEL) and CentOS being the most common choices. These operating systems provide the necessary stability and compatibility for running OpenShift.

Can I scale my OpenShift bare metal deployment?

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Yes, one of the key benefits of using OpenShift is its ability to scale. You can add more bare metal servers to your OpenShift cluster to handle increased workloads. OpenShift’s Kubernetes-based architecture allows for dynamic scaling of applications and resources.

What tools are available for monitoring and managing an OpenShift bare metal environment?

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OpenShift provides integrated tools for monitoring and managing your cluster, such as Prometheus for monitoring, Grafana for visualization, and the OpenShift Console for managing applications and resources. These tools help ensure optimal performance and resource utilization.

What support options are available for OpenShift on bare metal?

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Red Hat offers comprehensive support for OpenShift, including troubleshooting, security patches, and updates. Various subscription levels are available, providing access to different levels of support and service to meet your organization’s needs.

OpenShift Virtualization with Kubernetes Clusters

OpenShift Virtualization with Kubernetes Clusters leverages the robust capabilities of Kubernetes to orchestrate and manage containerized applications. OpenShift enhances Kubernetes by adding developer and operational tools, empowering organizations to build, deploy, and scale applications with ease. This integration provides a comprehensive platform for managing complex, multi-cloud and hybrid cloud environments.