Red Hat OpenShift Administration is a course focused on teaching administrators how to manage and operate a Red Hat OpenShift cluster. OpenShift is a container application platform that provides a secure and scalable platform for deploying, managing, and running applications in containers. The course covers topics such as installation and configuration of OpenShift, setting up user authentication and authorization, managing application deployment, scaling applications, and monitoring the health and performance of the OpenShift cluster. Upon completion of the Red Hat OpenShift Administration course, participants will have the skills and knowledge to effectively manage and operate an OpenShift cluster in a production environment.

Red Hat open shift API Management

Red Hat open shift API Management

Red Hat OpenShift is a powerful and popular containerization solution that simplifies the process of building, deploying, and managing containerized applications. Red Hat open shift containers & Kubernetes have become the chief enterprise Kubernetes programs available to businesses looking for a hybrid cloud framework to create highly efficient programs. We are expanding on that by introducing Red Hat OpenShift API Management, a service for both Red Hat OpenShift Dedicated and Red Hat OpenShift Service on AWS that would help accelerate time-to-value and lower the cost of building APIs-first microservices applications.

Red Hat’s managed cloud services portfolio includes Red Hat OpenShift API Management, which helps in development rather than establishing the infrastructure required for APIs. Your development and operations team should be focusing on something other than the infrastructure of an API Management Service because it has some advantages for an organisation.

What is Red Hat OpenShift API Management? ​

OpenShift API Management is an on-demand solution hosted on Red Hat 3scale (API Management), with integrated sign-on authentication provided by Red Hat SSO. Instead of taking responsibility for running an API management solution on a large-scale deployment, it allows organisations to use API management as part of any service that can integrate applications within their organisation.

It is a completely Red Hat-managed solution that handles all API security, developer onboarding, program management, and analysis. It is ideal for companies that have used the 3scale.net SaaS offering and would like to extend to large-scale deployment. Red Hat will give you upgrades, updates, and infrastructure uptime guarantees for your API services or any other open-source solutions you need. Rather than babysitting the API Management infrastructure, your teams can focus on improving applications that will contribute to the business and Amrita technologies will help you.

Benefits of Red Hat OpenShift API Management

With Open API management, you have all the features to run API-first applications and cloud-hosted application development with microservice architecture. These are the API manager, the API cast ,API gateway, and the Red Hat SSO on the highest level. These developers may define APIs, consume existing APIs, or use Open Shift API management. This will allow them to make their APIs accessible so other developers or partners can use them. Finally, they can deploy the APIs in production using this functionality of Open Shift API management.

API analytics​

As soon as it is in production, Open Shift API control allows to screen and offer insight into using the APIs. It will assist you in case your APIs are getting used, how they’re getting used, what demand looks like — and even whether the APIs are being abused. Understanding how your API is used is critical to help manipulate site visitors, anticipate provisioning wishes, and understand how your applications and APIs are used. Once more, all of this is right at your fingertips without having to commit employees to standing up or managing the provider and Amrita technologies will provide you all course details.

Single Sign-On -openshift​

The addition of Red Hat SSO means organizations can choose to use their systems (custom coding required) or use Red Hat SSO, which is included with Open Shift API Management. (Please note that the SSO example is provided for API management only and is not a complete SSO solution.)Developers do not need administrative privileges. To personally access the API, it’s just there and there. Instead of placing an additional burden on developers, organizations can retain the user’s permissions and permissions.

Red Hat open shift container platform​

These services integrate with Red Hat Open Shift Dedicated and Red Hat Open Shift platform Service for AWS, providing essential benefits to all teams deploying applications .The core services are managed by Red Hat, like Open Shift’s other managed services. This can help your organization reduce operating costs while accelerating the creation, deployment, and evaluation of cloud applications in an open hybrid cloud environment.

Streamlined developer experience in open shift​​

Developers can use the power and simplicity of three-tier API management across the platform. You can quickly develop APIs before serving them to internal and external clients and then publish them as part of your applications and services. It also provides all the features and benefits of using Kubernetes-based containers. Accelerate time to market with a ready-to-use development environment and help you achieve operational excellence through automated measurement and balancing rise.

Conclusion:​

Redhat is a powerful solution that eases the management of APIs in environments running open shifts. Due to its integrability aspect, security concern, and developer-oriented features, it is an ideal solution to help firms achieve successful API management in a container-based environment. https://amritahyd.org/red-hat-open-shift-api-management/

Mastering OpenShift Administration II: Advanced Techniques and Best Practices

Introduction

Briefly introduce OpenShift as a leading Kubernetes platform for managing containerized applications.

Mention the significance of advanced administration skills for managing and scaling enterprise-level environments.

Highlight that this blog post will cover key concepts and techniques from the OpenShift Administration II course.

Section 1: Understanding OpenShift Administration II

Explain what OpenShift Administration II covers.

Mention the prerequisites for this course (e.g., knowledge of OpenShift Administration I, basics of Kubernetes, containerization, and Linux system administration).

Describe the importance of this course for professionals looking to advance their OpenShift and Kubernetes skills.

Section 2: Key Concepts and Techniques

Advanced Cluster Management

Managing and scaling clusters efficiently.

Techniques for deploying multiple clusters in different environments (hybrid or multi-cloud).

Best practices for disaster recovery and fault tolerance.

Automating OpenShift Operations

Introduction to automation in OpenShift using Ansible and other automation tools.

Writing and executing playbooks to automate day-to-day administrative tasks.

Streamlining OpenShift updates and upgrades with automation scripts.

Optimizing Resource Usage

Best practices for resource optimization in OpenShift clusters.

Managing workloads with resource quotas and limits.

Performance tuning techniques for maximizing cluster efficiency.

Section 3: Security and Compliance

Overview of security considerations in OpenShift environments.

Role-based access control (RBAC) to manage user permissions.

Implementing network security policies to control traffic within the cluster.

Ensuring compliance with industry standards and best practices.

Section 4: Troubleshooting and Performance Tuning

Common issues encountered in OpenShift environments and how to resolve them.

Tools and techniques for monitoring cluster health and diagnosing problems.

Performance tuning strategies to ensure optimal OpenShift performance.

Section 5: Real-World Use Cases

Share some real-world scenarios where OpenShift Administration II skills are applied.

Discuss how advanced OpenShift administration techniques can help enterprises achieve their business goals.

Highlight the role of OpenShift in modern DevOps and CI/CD pipelines.

Conclusion

Summarize the key takeaways from the blog post.

Encourage readers to pursue the OpenShift Administration II course to elevate their skills.

Mention any upcoming training sessions or resources available on platforms like HawkStack for those interested in OpenShift.

For more details click www.hawkstack.com

KServe Providers Serve NIMble Cloud & Data Centre Inference

It’s going to get easier than ever to implement generative AI in the workplace.

NVIDIA NIM, an array of microservices for generative AI inference, will integrate with KServe, an open-source programme that automates the deployment of AI models at the scale of cloud computing applications.

Because of this combination, generative AI can be implemented similarly to other large-scale enterprise applications. Additionally, it opens up NIM to a broad audience via platforms from other businesses, including Red Hat, Canonical, and Nutanix.

NVIDIA’s solutions are now available to clients, ecosystem partners, and the open-source community thanks to the integration of NIM on KServe. With a single API call via NIM, all of them may benefit from the security, performance, and support of the NVIDIA AI Enterprise software platform – the current programming equivalent of a push button.

AI provisioning on Kubernetes

Originally, KServe was a part of Kubeflow, an open-source machine learning toolkit built on top of Kubernetes, an open-source software containerisation system that holds all the components of big distributed systems.

KServe was created as Kubeflow’s work on AI inference grew, and it eventually developed into its own open-source project.

The KServe software is currently used by numerous organisations, including AWS, Bloomberg, Canonical, Cisco, Hewlett Packard Enterprise,as IBM, Red Hat, Zillow, and NVIDIA. Several organisations have contributed to and used the software.

Behind the Scenes With KServe

In essence, KServe is a Kubernetes addon that uses AI inference like a potent cloud app. It runs with optimal performance, adheres to a common protocol, and supports TensorFlow, Scikit-learn, PyTorch, and XGBoost without requiring users to be familiar with the specifics of those AI frameworks.

These days, with the rapid emergence of new large language models (LLMs), the software is very helpful.

KServe makes it simple for users to switch between models to see which one best meets their requirements. Additionally, a KServe feature known as “canary rollouts” automates the process of meticulously validating and progressively releasing an updated model into production when one is available.

GPU autoscaling is an additional feature that effectively controls model deployment in response to fluctuations in service demand, resulting in optimal user and service provider experiences.

KServe API

With the convenience of NVIDIA NIM, the goodness of KServe will now be accessible.

All the complexity is handled by a single API request when using NIM. Whether their application is running in their data centre or on a remote cloud service, enterprise IT administrators receive the metrics they need to make sure it is operating as efficiently and effectively as possible. This is true even if they decide to switch up the AI models they’re employing.

With NIM, IT workers may alter their organization’s operations and become experts in generative AI. For this reason, numerous businesses are implementing NIM microservices, including Foxconn and ServiceNow.

Numerous Kubernetes Platforms are Rideable by NIM

Users will be able to access NIM on numerous corporate platforms, including Red Hat’s OpenShift AI, Canonical’s Charmed KubeFlow and Charmed Kubernetes, Nutanix GPT-in-a-Box 2.0, and many more, because of its interaction with KServe.

Contributing to KServe, Yuan Tang is a principal software engineer at Red Hat. “Red Hat and NVIDIA are making open source AI deployment easier for enterprises “Tang said.The Red Hat-NVIDIA partnership will simplify open source AI adoption for organisations, he said. By upgrading KServe and adding NIM support to Red Hat OpenShift AI, they can simplify Red Hat clients’ access to NVIDIA’s generative AI platform.

“NVIDIA NIM inference microservices will enable consistent, scalable, secure, high-performance generative AI applications from the cloud to the edge.with Nutanix GPT-in-a-Box 2.0,” stated Debojyoti Dutta, vice president of engineering at Nutanix, whose team also contributes to KServe and Kubeflow.

Andreea Munteanu, MLOps product manager at Canonical, stated, “We’re happy to offer NIM through Charmed Kubernetes and Charmed Kubeflow as a company that also contributes significantly to KServe.” “Their combined efforts will enable users to fully leverage the potential of generative AI, with optimal performance, ease of use, and efficiency.”

NIM benefits dozens of other software companies just by virtue of their use of KServe in their product offerings.

Contributing to the Open-Source Community

Regarding the KServe project, NVIDIA has extensive experience. NVIDIA Triton Inference Server uses KServe’s Open Inference Protocol, as mentioned in a recent technical blog. This allows users to execute several AI models concurrently across multiple GPUs, frameworks, and operating modes.

NVIDIA concentrates on use cases with KServe that entail executing a single AI model concurrently across numerous GPUs.

NVIDIA intends to actively contribute to KServe as part of the NIM integration, expanding on its portfolio of contributions to open-source software, which already includes TensorRT-LLM and Triton. In addition, NVIDIA actively participates in the Cloud Native Computing Foundation, which promotes open-source software for several initiatives, including generative AI.

Using the Llama 3 8B or Llama 3 70B LLM models, try the NIM API in the NVIDIA API Catalogue right now. NIM is being used by hundreds of NVIDIA partners throughout the globe to implement generative AI.

Read more on Govindhtech.com

OpenShift vs Kubernetes: A Detailed Comparison

When it comes to managing and organizing containerized applications there are two platforms that have emerged. Kubernetes and OpenShift. Both platforms share the goal of simplifying deployment, scaling and operational aspects of application containers. However there are differences between them. This article offers a comparison of OpenShift vs Kubernetes highlighting their features, variations and ideal use cases.

What is Kubernetes? Kubernetes (often referred to as K8s) is an open source platform designed for orchestrating containers. It automates tasks such as deploying, scaling and managing containerized applications. Originally developed by Google and later donated to the Cloud Native Computing Foundation (CNCF) Kubernetes has now become the accepted industry standard for container management.

Key Features of Kubernetes Pods: Within the Kubernetes ecosystem, pods serve as the units for deploying applications. They encapsulate one or multiple containers.

Service Discovery and Load Balancing: With Kubernetes containers can be exposed through DNS names or IP addresses. Additionally it has the capability to distribute network traffic across instances in case a container experiences traffic.

Storage Orchestration: The platform seamlessly integrates with storage systems such as on premises or public cloud providers based on user preferences.

Automated. Rollbacks: Kubernetes facilitates rolling updates while also providing a mechanism to revert back to versions when necessary.

What is OpenShift? OpenShift, developed by Red Hat, is a container platform based on Kubernetes that provides an approach to creating, deploying and managing applications in a cloud environment. It enhances the capabilities of Kubernetes by incorporating features and tools that contribute to an integrated and user-friendly platform.

Key Features of OpenShift Tools for Developers and Operations: OpenShift offers an array of tools that cater to the needs of both developers and system administrators.

Enterprise Level Security: It incorporates security features that make it suitable for industries with regulations.

Seamless Developer Experience: OpenShift includes a built in integration/ deployment (CI/CD) pipeline, source to image (S2I) functionality, as well as support for various development frameworks.

Service Mesh and Serverless Capabilities: It supports integration with Istio based service mesh. Offers Knative, for serverless application development.

Comparison; OpenShift, vs Kubernetes 1. Installation and Setup: Kubernetes can be set up manually. Using tools such as kubeadm, Minikube or Kubespray.

OpenShift offers an installer that simplifies the setup process for complex enterprise environments.

2. User Interface: Kubernetes primarily relies on the command line interface although it does provide a web based dashboard.

OpenShift features a comprehensive and user-friendly web console.

3. Security: Kubernetes provides security features and relies on third party tools for advanced security requirements.

OpenShift offers enhanced security with built in features like Security Enhanced Linux (SELinux) and stricter default policies.

4. CI/CD Integration: Kubernetes requires tools for CI/CD integration.

OpenShift has an integrated CI/CD pipeline making it more convenient for DevOps practices.

5. Pricing: Kubernetes is open source. Requires investment in infrastructure and expertise.

OpenShift is a product with subscription based pricing.

6. Community and Support; Kubernetes has a community, with support.

OpenShift is backed by Red Hat with enterprise level support.

7. Extensibility: Kubernetes: It has an ecosystem of plugins and add ons making it highly adaptable.

OpenShift:It builds upon Kubernetes. Brings its own set of tools and features.

Use Cases Kubernetes:

It is well suited for organizations seeking a container orchestration platform, with community support.

It works best for businesses that possess the technical know-how to effectively manage and scale Kubernetes clusters.

OpenShift:

It serves as a choice for enterprises that require a container solution accompanied by integrated developer tools and enhanced security measures.

Particularly favored by regulated industries like finance and healthcare where security and compliance are of utmost importance.

Conclusion Both Kubernetes and OpenShift offer capabilities for container orchestration. While Kubernetes offers flexibility along with a community, OpenShift presents an integrated enterprise-ready solution. Upgrading Kubernetes from version 1.21 to 1.22 involves upgrading the control plane and worker nodes separately. By following the steps outlined in this guide, you can ensure a smooth and error-free upgrade process. The selection between the two depends on the requirements, expertise, and organizational context.

Example Code Snippet: Deploying an App on Kubernetes

apiVersion: v1

kind: Pod

metadata:

name: myapp-pod

labels:

app: myapp

spec:

containers:

- name: myapp-container

image: myapp:1.0 This YAML file is an example of deploying a simple application on Kubernetes. It defines a Pod with a single container running ‘myapp’.

In conclusion, both OpenShift vs Kubernetes offer robust solutions for container orchestration, each with its unique strengths and use cases. The choice between them should be based on organizational requirements, infrastructure, and the level of desired security and integration.

Red Hat open shift API Management

Red Hat open shift:​

Red Hat OpenShift is a powerful and popular containerization solution that simplifies the process of building, deploying, and managing containerized applications. Red Hat open shift containers & Kubernetes have become the chief enterprise Kubernetes programs available to businesses looking for a hybrid cloud framework to create highly efficient programs. We are expanding on that by introducing Red Hat OpenShift API Management, a service for both Red Hat OpenShift Dedicated and Red Hat OpenShift Service on AWS that would help accelerate time-to-value and lower the cost of building APIs-first microservices applications.

Red Hat’s managed cloud services portfolio includes Red Hat OpenShift API Management, which helps in development rather than establishing the infrastructure required for APIs. Your development and operations team should be focusing on something other than the infrastructure of an API Management Service because it has some advantages for an organisation.

What is Red Hat OpenShift API Management? ​

OpenShift API Management is an on-demand solution hosted on Red Hat 3scale (API Management), with integrated sign-on authentication provided by Red Hat SSO. Instead of taking responsibility for running an API management solution on a large-scale deployment, it allows organisations to use API management as part of any service that can integrate applications within their organisation.

It is a completely Red Hat-managed solution that handles all API security, developer onboarding, program management, and analysis. It is ideal for companies that have used the 3scale.net SaaS offering and would like to extend to large-scale deployment. Red Hat will give you upgrades, updates, and infrastructure uptime guarantees for your API services or any other open-source solutions you need. Rather than babysitting the API Management infrastructure, your teams can focus on improving applications that will contribute to the business and Amrita technologies will help you.

Benefits of Red Hat OpenShift API Management

With Open API management, you have all the features to run API-first applications and cloud-hosted application development with microservice architecture. These are the API manager, the API cast ,API gateway, and the Red Hat SSO on the highest level. These developers may define APIs, consume existing APIs, or use Open Shift API management. This will allow them to make their APIs accessible so other developers or partners can use them. Finally, they can deploy the APIs in production using this functionality of Open Shift API management.

API analytics​

As soon as it is in production, Open Shift API control allows to screen and offer insight into using the APIs. It will assist you in case your APIs are getting used, how they’re getting used, what demand looks like — and even whether the APIs are being abused. Understanding how your API is used is critical to help manipulate site visitors, anticipate provisioning wishes, and understand how your applications and APIs are used. Once more, all of this is right at your fingertips without having to commit employees to standing up or managing the provider and Amrita technologies will provide you all course details.

Single Sign-On -openshift​

The addition of Red Hat SSO means organizations can choose to use their systems (custom coding required) or use Red Hat SSO, which is included with Open Shift API Management. (Please note that the SSO example is provided for API management only and is not a complete SSO solution.)Developers do not need administrative privileges. To personally access the API, it’s just there and there. Instead of placing an additional burden on developers, organizations can retain the user’s permissions and permissions.

Red Hat open shift container platform​

These services integrate with Red Hat Open Shift Dedicated and Red Hat Open Shift platform Service for AWS, providing essential benefits to all teams deploying applications .The core services are managed by Red Hat, like Open Shift’s other managed services. This can help your organization reduce operating costs while accelerating the creation, deployment, and evaluation of cloud applications in an open hybrid cloud environment.

Streamlined developer experience in open shift​​

Developers can use the power and simplicity of three-tier API management across the platform. You can quickly develop APIs before serving them to internal and external clients and then publish them as part of your applications and services. It also provides all the features and benefits of using Kubernetes-based containers. Accelerate time to market with a ready-to-use development environment and help you achieve operational excellence through automated measurement and balancing rise.

Conclusion:​

Redhat is a powerful solution that eases the management of APIs in environments running open shifts. Due to its integrability aspect, security concern, and developer-oriented features, it is an ideal solution to help firms achieve successful API management in a container-based environment.

Register here:https://lnkd.in/dNtCpmXB

Join the masterclasses with Vatsal Thakor about OpenShift on 5th November at 11 AM and get a 100% placement guarantee!!🤩

Red Hat OpenShift Administration Scaling Kubernetes Deployments in the Enterprise expands upon the skills required to plan, implement, and manage OpenShift® clusters in the enterprise. You will learn how to support a growing number of stakeholders, applications, and users to achieve large-scale deployments.✅

Let's understand the OpenShift Learning path with our expert!! Don't lose this opportunity click the above link to join us!✨

Industry use cases of OpenShift

OpenShift is a cloud development Platform as a Service (PaaS) developed by Red Hat. It is an open-source development platform, which enables developers to develop and deploy their applications on cloud infrastructure. It is very helpful in developing cloud-enabled services. This tutorial will help you understand OpenShift and how it can be used in the existing infrastructure. All the examples and code snippets used in this tutorial are tested and working code, which can be simply used in any OpenShift setup by changing the current defined names and variables.

OpenShift

OpenShift is a cloud-enabled application Platform as a Service (PaaS). It’s an open-source technology that helps organizations move their traditional application infrastructure and platform from physical, virtual mediums to the cloud.

OpenShift supports a very large variety of applications, which can be easily developed and deployed on the OpenShift cloud platform. OpenShift basically supports three kinds of platforms for the developers and users.

Infrastructure as a Service (IaaS)

In this format, the service provider provides hardware-level virtual machines with some pre-defined virtual hardware configuration. There are multiple competitors in this space starting from AWS Google Cloud, Rackspace, and many more.

The main drawback of having IaaS after a long procedure of setup and investment is that one is still responsible for installing and maintaining the operating system and server packages, managing the network of infrastructure, and taking care of the basic system administration.

Software as a Service (SaaS)

With SaaS, one has the least worry about the underlying infrastructure. It is as simple as plug-and-play, wherein the user just has to sign up for the services and start using them. The main drawback with this setup is, one can only perform a minimal amount of customization, which is allowed by the service provider. One of the most common examples of SaaS is Gmail, where the user just needs to log in and start using it. The user can also make some minor modifications to his account. However, it is not very useful from the developer’s point of view.

Platform as a Service (PaaS)

It can be considered as a middle layer between SaaS and IaaS. The primary target of PaaS evaluation is for developers in which the development environment can be spin up with a few commands. These environments are designed in such a way that they can satisfy all the development needs, right from having a web application server with a database. To do this, you just require a single command and the service provider does the stuff for you.

Why Use OpenShift?

OpenShift provides a common platform for enterprise units to host their applications on the cloud without worrying about the underlying operating system. This makes it very easy to use, develop, and deploy applications on the cloud. One of the key features is, it provides managed hardware and network resources for all kinds of development and testing. With OpenShift, PaaS developer has the freedom to design their required environment with specifications.

OpenShift provides different kinds of service level agreements when it comes to service plans.

Free − This plan is limited to three years with 1GB space for each.

Bronze − This plan includes 3 years and expands up to 16 years with 1GB space per year.

Sliver − This is a 16-year plan of bronze, however, has a storage capacity of 6GB with no additional cost.

Other than the above features, OpenShift also offers an on-premises version known as OpenShift Enterprise. In OpenShift, developers have the leverage to design scalable and non-scalable applications and these designs are implemented using HAproxy servers.

Features

There are multiple features supported by OpenShift. Few of them are −

Multiple Language Support

Multiple Database Support

Extensible Cartridge System

Source Code Version Management

One-Click Deployment

Multi Environment Support

Standardized Developers’ workflow

Dependency and Build Management

Automatic Application Scaling

Responsive Web Console

Rich Command-line Toolset

Remote SSH Login to Applications

Rest API Support

Self-service On-Demand Application Stack

Built-in Database Services

Continuous Integration and Release Management

IDE Integration

Remote Debugging of Applications

Types of Openshift -1. OpenShift Online

OpenShift online is an offering of OpenShift community using which one can quickly build, deploy, and scale containerized applications on the public cloud. It is Red Hat’s public cloud application development and hosting platform, which enables automated provisioning, management and scaling of application which helps the developer focus on writing application logic.

2. OpenShift Container Platform

OpenShift container platform is an enterprise platform which helps multiple teams such as development and IT operations team to build and deploy containerized infrastructure. All the containers built in OpenShift uses a very reliable Docker containerization technology, which can be deployed on any data center of publically hosted cloud platforms.

3. OpenShift Dedicated

This is another offering added to the portfolio of OpenShift, wherein there is a customer choice of hosting a containerized platform on any of the public cloud of their choice. This gives the end user a true sense of multi-cloud offering, where they can use OpenShift on any cloud which satisfies their needs.

A Quest from System Administration to Developer: A Prelude

A Quest from System Administration to Developer: A Prelude

Summary In this series I will be diving into my journey of moving from a more Systems Administration focused career into a Developer focused career as a DevOps engineer. We will cover many topics including learning Python basics, React basics, API development, Automation, GitLab pipelines, GitHub Actions, Cloud Deployments, Serverless, deploying to OpenShift, and many more that we will discover…

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EX210: Red Hat OpenStack Training (CL110 & CL210)

In CL110, equips you to operate a secure, scalable RHOSP overcloud with OpenStack integration, enhancing troubleshooting skills. In CL210, gain expertise in scaling and managing Red Hat OpenStack environments, using the OpenStack Client for seamless day-to-day operations of enterprise cloud applications.

Overview of this Training | CL110 & CL210 Red Hat OpenStack Administration I | CL110 Training | KR Network Cloud

The course CL110, Red Hat OpenStack Administration I: Core Operations for Domain Operators, educates you on how to run and maintain a production-ready Red Hat OpenStack Platform (RHOSP) single-site overcloud. The skills that participants will gain include managing security privileges for the deployment of scalable cloud applications and building secure project environments for resource provisioning. Integration of OpenShift with load balancers, identity management, monitoring, proxies, and storage are all covered in the course. Participants will also improve their Day 2 operations and troubleshooting skills. Red Hat OpenStack Platform 16.1 is in keeping with this course.

Red Hat OpenStack Administration II | CL210 Training | KR Network Cloud The course CL210, Red Hat OpenStack Administration II: Day 2 Operations for Cloud Operators, is designed for service administrators, automation engineers, and cloud operators who manage Red Hat OpenStack Platform hybrid and private cloud environments. Participants in the course will learn how to scale, manage, monitor, and troubleshoot an infrastructure built on the Red Hat OpenStack Platform. The main goal is to set up metrics, policies, and architecture using the OpenStack Client command-line interface so that enterprise cloud applications can be supported and day-to-day operations run smoothly. For further information visit our Website: krnetworkcloud.org

Red Hat Training Categories: Empowering IT Professionals for the Future

Red Hat, a leading provider of enterprise open-source solutions, offers a comprehensive range of training programs designed to equip IT professionals with the knowledge and skills needed to excel in the rapidly evolving world of technology. Whether you're an aspiring system administrator, a seasoned DevOps engineer, or a cloud architect, Red Hat's training programs cover key technologies and tools that drive modern IT infrastructures. Let’s explore some of the key Red Hat training categories.

1. Red Hat Enterprise Linux (RHEL)

RHEL is the foundation of many enterprises, and Red Hat offers extensive training to help IT professionals master Linux system administration, automation, and security. Key courses in this category include:

Red Hat Certified System Administrator (RHCSA): An essential certification for beginners in Linux administration.

Red Hat Certified Engineer (RHCE): Advanced training in system administration, emphasizing automation using Ansible.

Security and Identity Management: Focuses on securing Linux environments and managing user identities.

2. Ansible Automation

Automation is at the heart of efficient IT operations, and Ansible is a powerful tool for automating tasks across diverse environments. Red Hat offers training on:

Ansible Basics: Ideal for beginners looking to understand how to automate workflows and deploy applications.

Advanced Ansible Automation: Focuses on optimizing playbooks, integrating Ansible Tower, and managing large-scale deployments.

3. OpenShift Container Platform

OpenShift is Red Hat’s Kubernetes-based platform for managing containerized applications. Red Hat training covers topics like:

OpenShift Administration: Learn how to install, configure, and manage OpenShift clusters.

OpenShift Developer: Build, deploy, and scale containerized applications on OpenShift.

4. Red Hat Cloud Technologies

With businesses rapidly adopting cloud technologies, Red Hat’s cloud training programs ensure that professionals are prepared for cloud-native development and infrastructure management. Key topics include:

Red Hat OpenStack: Learn how to deploy and manage private cloud environments.

Red Hat Virtualization: Master the deployment of virtual machines and manage large virtualized environments.

5. DevOps Training

Red Hat is committed to promoting DevOps practices, helping teams collaborate more efficiently. DevOps training includes:

Red Hat DevOps Pipelines and CI/CD: Learn how to streamline software development, testing, and deployment processes.

Container Development and Kubernetes Integration: Get hands-on experience with containerized applications and orchestrating them using Kubernetes.

6. Cloud-Native Development

As enterprises move towards microservices and cloud-native applications, Red Hat provides training on developing scalable and resilient applications:

Microservices Architecture: Learn to build and deploy microservices using Red Hat’s enterprise open-source tools.

Serverless Application Development: Focus on building lightweight applications that scale on demand.

7. Red Hat Satellite

Red Hat Satellite simplifies Linux system management at scale, and its training focuses on:

Satellite Server Administration: Learn how to automate system maintenance and streamline software updates across your RHEL environment.

8. Security and Compliance

In today's IT landscape, security is paramount. Red Hat offers specialized training on securing infrastructure and ensuring compliance:

Linux Security Essentials: Learn to safeguard Linux environments from vulnerabilities.

Advanced Security Features: Cover best practices for maintaining security across hybrid cloud environments.

Why Red Hat Training?

Red Hat certifications are globally recognized, validating your expertise in open-source technologies. They offer hands-on, practical training that helps professionals apply their knowledge directly to real-world challenges. By investing in Red Hat training, you are preparing yourself for future innovations and ensuring that your skills remain relevant in an ever-changing industry.

Conclusion

Red Hat training empowers IT professionals to build, manage, and secure the enterprise-grade systems that are shaping the future of technology. Whether you're looking to enhance your Linux skills, dive into automation with Ansible, or embrace cloud-native development, there’s a Red Hat training category tailored to your needs.

For more details click www.hawkstack.com 

Red Hat OpenShift on AWS: Modern Cloud Hosting IBM TAS

The industry-leading comprehensive workplace management solution, IBM TRIRIGA Application Suite (TAS), helps businesses effectively manage their facility portfolios and assets throughout the course of their lives. It assists businesses in managing transactions, capital projects, space, facility maintenance, and facility sustainability. It also helps them schedule facility resources, plan strategic facilities, prepare for leasing accounting, and dispose of assets.

AI and data are becoming more and more important tools as businesses modernize their facilities management. AI-infused real-time insights facilitate dynamic space design. By using shared data, tenants may request services, reserve rooms, optimise portfolio size, and improve the effectiveness of capital projects, lease administration, and other operations. IBM TAS is a straightforward, quick, and adaptable modular solution that offers the ideal combination of applications to optimise your construction lifecycle and get you ready for future demands.

Because it addresses the changing demands of contemporary organisations and places a strong emphasis on simplicity and flexibility, the TRIRIGA Application Suite is an appealing option. The complexity of business systems is decreased by streamlining deployment and management procedures via the consolidation of facility management features onto a single platform. TRIRIGA’s flexible deployment options in on-premises, cloud, and hybrid cloud environments support a range of organizational architectures.

More flexibility is provided by the suite’s streamlined licencing mechanism, allowing customers to adjust their use in accordance with needs. The TRIRIGA Application Suite increases efficiency by emphasising a consistent and improved user experience. Through the clear AppPoints licencing architecture, it provides easy expansion into other capabilities, hence promoting innovation and cost-effectiveness in asset management methods.

As TRIRIGA develops further, TAS will be the main product offered for new, significant upgrades. Customers are receiving assistance from IBM and their partners throughout their migrations so they may benefit from new technologies as soon as they are made available on TAS.

We go over the suggested choices for executing IBM TAS on Amazon Web Services (AWS) in this blog article. We go over the architecture and explain how Red Hat, Amazon, and IBM work together to provide a strong basis for executing IBM TAS. IBM also go over the architectural choices to think about, allowing you to choose the one that best suits the requirements of your company.

Three methods for executing IBM TAS on AWS are covered in this article:

TAS on Red Hat OpenShift hosted by the client

TAS on Red Hat OpenShift Service on Amazon (ROSA), hosted by the client

Partners’ TAS Managed Services

TAS on Red Hat OpenShift hosted by a client

With this deployment, clients may use their in-house, highly experienced team members with Red Hat OpenShift knowledge, especially in security-related areas, to help provide strong protection for their environment. Every element of this ecosystem has to be managed by customers, which calls for constant care, upkeep, and resource allocation.

Customers have complete control over the application and infrastructure with this deployment, but they also assume more management responsibilities for both. This solution is still scalable, giving you the freedom to modify resources to meet changing demand and maximise effectiveness.

Red Hat OpenShift and TAS management skills and architectural design of the client determine the environment’s availability and dependability.

The customer’s software update strategy for Red Hat OpenShift and TAS determines the availability of version upgrades and additional features.

Additionally, since the environment is powered by the customer’s AWS account, it deducts from their current AWS Enterprise Discount Plan, which might have some financial advantages.

In the end, this deployment choice requires careful planning and administration to help assure optimum performance and cost-effectiveness even if it offers autonomy and scalability.Image credit to IBM

TAS on ROSA hosted by the client

RedHat Openshift on AWS

The TAS’s customer-hosted Red Hat OpenShift Service on AWS (ROSA) deployment option is designed to make things easier for users to utilise.

By giving Red Hat and AWS staff complete control over the (OpenShift) ROSA cluster lifecycle management, including updates and security hotfixes, this solution lessens the operational burden on the client.

With Red Hat and AWS staff handling platform and infrastructure administration and support, this solution frees users to concentrate on the TAS application.

This method is perfect for clients that want to concentrate on their TAS application as it simplifies administration and frees up customer resources for other important duties.

In addition, the implementation retains scalability, enabling easy resource modifications to meet changing demand levels.

With this solution, the user may manage software lifecycles in accordance with business deadlines and requirements while maintaining complete control over TAS upgrades and distributed versions.

Strong fault-tolerance and high availability safeguards are also offered by the managed portion of the ROSA platform, which is supported by a 99.95% service level agreement. This SLA is intended to meet your needs for platform stability and dependability so that your TAS application may continue to get services without interruption.

In addition, there are certain financial advantages since the environment uses the customer’s current AWS Enterprise Discount Plan (EDP) because it runs within their AWS account. Customers that are concentrating on TAS applications and outsourcing platform maintenance and monitoring to a managed service may find the ROSA deployment option to be an attractive tool.Image credit to IBM

Partners’ TAS Managed Services

Customers may get a customised solution with the TAS Managed Services by Partners option, which relieves them of the hassles involved in managing their TAS setup. This option allows clients to avoid learning Red Hat OpenShift skills since partners are in charge of administering Red Hat OpenShift. When a client uses a fully managed service from the business partner, they are no longer obliged to maintain the platform or application.

By using the deployment’s inherent scalability, this solution enables organisations to concentrate on their primary goals while enabling smooth resource modifications in response to changing demand.

Subject to a SLA with the partner, the business partner is responsible for the environment’s availability, resilience, and dependability.

Customers also depend on partners for TAS version upgrades and new feature availability, which may be contingent on the partner’s schedule and offers.

Customers may only see and access the application endpoints that are necessary for their business activities, and the environment is run inside the partner’s AWS account. The client has to be aware that their data is stored in and managed by the partner AWS account.

Customers looking for a simplified, scalable, and well-supported TAS deployment solution may find the TAS Managed Services by Partners option to be an appealing offer.Image credit to IBM

Note: The architecture shown above is generic. The partner solution may cause variations in the actual architecture.

Concluding remarks

Every deployment option for the IBM TAS has unique benefits and drawbacks. To guarantee an effective and successful IBM TAS implementation, customers should evaluate their infrastructure, customization, internal capabilities, and cost factors. Customers may choose the deployment option that best suits their company goals by being aware of the advantages and disadvantages of each one.

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New 5G and AI studio opens as a component of cooperation with IBM, Samsung and M1

The studio will uphold Industry 4.0 use cases for everything from independent vehicles to cooperative robots and 3D increased reality.

Another IBM Industry 4.0 Studio opened Tuesday in Singapore, and it joins 5G availability with artificial insight, mixture cloud and edge computing abilities for 5G preliminaries for the venture.

The Industry 4.0 Studio will create, test and benchmark real Industry 4.0 use cases for self-governing aide vehicles, communitarian robots, 3D enlarged reality and continuous AI visual and acoustic acknowledgment that can utilize 5G for ongoing examination of creation line surrenders, as indicated by a public statement.

Changing assembling through 5G-empowered portable and organization arrangements

"The kickoff of the studio in Singapore is a significant achievement in applying 5G-empowered portable and organization arrangements with Industry 4.0 capacities to help change fabricating. Versatile and 5G abilities like these are enabling specialists and changing the manner in which plants and distribution centers work, carrying new effectiveness and profitability to tasks. 

Samsung is satisfied to work together with IBM, IMDA, and M1 in this historic task to help make 5G a reality for clients," said KC Choi, Samsung Electronics leader VP and worldwide head of B2B business, versatile interchanges business, in an official statement.

M1 is one of the three significant full assistance interchanges suppliers in Singapore.

"5G is a possible distinct advantage for Industry 4.0. It is the basic network layer that can empower brilliant assembling. I might want to salute IBM for the launch of its 5G-empowered Industry 4.0 studio here in Singapore. It is significant for Singapore to be where inventive 5G arrangements can be created and conveyed around the world. 

A solid 5G biological system will give more freedoms to organizations and our kin. We will work with industry to move forward with 5G, as we engineer Singapore's advanced future," said Lew Chuen Hong, CEO of the Infocomm Media Development Authority (IMDA), which is a legal leading group of the Singapore government, in an official statement.

Industry 4.0 Studio will incorporate seven center territories

There are a few center territories for testing that will be essential for the studio, as indicated by the delivery:

Visual Recognition arrangements utilizing IBM Maximo Visual Inspection

Acoustic Insights

Expanded reality (AR) arrangement, a coordinated effort between IBM Singapore and IBM Haifa Research Lab

Complex use cases for computerized guided vehicles and cooperative robots, empowered by the low idleness of 5G

AI models created and conveyed anxious workers

Container-based applications

5G start to finish arrangements and vertical use cases for private organizations

5G to pair with half and half cloud, edge computing and AI

At the studio, Samsung's independent 5G organization arrangements and cell phones pair with IBM's half and half cloud, edge computing and AI technologies, just as M1's designing and organization administrations experience. The utilization cases are based on Red OpenShift and they utilize IBM's AI answers for visual and acoustic examination and increased reality technologies, as per the delivery.

"5G presents a gigantic chance for undertakings to drive new esteem and change their tasks to outfit the following period of mechanical availability. This undertaking expands on IBM's longstanding key organization with Samsung, and a common vision with M1 and IMDA, to help organizations tap into arising mixture cloud and AI technologies that will characterize their future achievement," said Brenda Harvey, head supervisor of IBM APAC, in a public statement.

The studio is facilitating Singapore's first 5G Industry 4.0 preliminary by testing true applications that can be utilized in assembling, while at the same time estimating and enhancing the exhibition of big business 5G for modern use.

At any rate half of Singapore is relied upon to have undeniable 5G independent ability before the finish of 2022.

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Red Hat OpenShift Administration teaches how to install and administer the Red Hat OpenShift Container Platform. OpenShift may be a containerized application platform that permits enterprises to manage container deployments and scale their applications using Kubernetes. It is a layered system where each layer is tightly bound with the other layer using Kubernetes and Docker cluster. In this, Docker helps in creation of lightweight Linux-based containers and Kubernetes supports the task of orchestrating and managing containers on multiple hosts.

OpenShift is also known as the cloud development Platform as a Service developed by Red Hat which is an open source development platform, enables the developers to develop and deploy their applications on cloud infrastructure.                            

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Red Hat OpenShift administration training course is a key to unlock the doors to entering the IT world and fulfill the dreams. Things which a person will be able to carry out after completing this training program include configuring authentication using local users, configuring service and container networking, knowledge about cluster installation and update processes, troubleshooting application deployments, scaling a cluster, etc.

Red Hat OpenShift Administration training course is a voucher to enter the world of IT sector and start a job position in any of the leading companies that use Red Hat. With this training, one can be able to

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                                            The Training course is based on Red Hat Enterprise Linux 7.5 and OpenShift Container Platform 4.2. So with Grras Solutions grab the opportunity to learn and explore in OpenShift Administration training certification with job guarantee.