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We're here to help you find itThis course will teach you the concept of “air gap” and its real work applications, while exploring the advantages of technologies like containers and Kubernetes in air-gapped environments.
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♱ Excluding VAT/GST
You can request classroom training in any city on any date by Requesting More Information
Certainly! Here are the minimum required prerequisites for undertaking the Modern Air Gap Software Delivery (LFS281) course:
Prerequisites for this course:
These prerequisites ensure that you have a foundational understanding and skills necessary to successfully engage with the course material. If you meet these requirements, you'll be well-prepared to delve into the specialized realm of air-gapped software systems for cloud-native solutions.
Modern Air Gap Software Delivery (LFS281) is a 3-day course designed for IT professionals keen on mastering air-gapped software systems for cloud-native environments.
Introduction: The "Modern Air Gap Software Delivery (LFS281)" course equips students with essential skills and knowledge for efficiently managing air-gapped software systems in cloud-native environments. Over three days, participants will delve into key concepts and best practices.
Learning Objectives and Outcomes:
Air-gapped software systems are highly secure computer networks isolated from unsecured networks, including the internet. This separation prevents unauthorized access and cyber threats. Typically used in military or government systems, they only allow manual data transfer via removable media, such as USB drives. This ensures that sensitive information remains protected from online vulnerabilities. Such systems, due to their isolation, do not integrate well with typical CI/CD pipelines, deployment strategies, or tools like Kubernetes, as these require network connectivity for automated updates and efficient software development processes.
Cloud-native solutions refer to a method of building and running applications that fully exploit the advantages of the cloud computing model. These solutions are designed from the ground up to be hosted and operated on a cloud environment, promoting scalability, flexibility, and resilience. They often utilize CI/CD pipelines (Continuous Integration/Continuous Deployment), which automate the process of software updates, allowing for frequent and reliable deployments. Additionally, cloud-native applications can leverage Kubernetes for orchestrating containerized applications, ensuring that deployment strategies are efficient and scalable, enhancing the overall CI/CD software process.
A workstation setup involves configuring a computer system with the necessary hardware and software to handle specific tasks effectively. In professional environments focusing on software development, this setup includes integration of CI/CD pipelines, which automate steps in software delivery to improve production speed and quality. CI (Continuous Integration) automates the merging and testing of code, reducing bugs, while CD (Continuous Deployment) automates the software release process, ensuring that any passed version can be deployed to production systems reliably. Adding CI/CD software into a workstation enhances development efficiency and helps implement robust deployment strategies.
An air gap in technology refers to a network security measure where a computer or network is physically isolated from other networks, including the internet. This separation helps protect sensitive data by making it virtually impossible for unauthorized users or malware to access the isolated system via network connections. This method is considered one of the most secure, as it eliminates virtually any risk of data leakage or hacking through conventional digital means. Air gaps are crucial in critical systems within military, governmental, and industrial sectors, where security is paramount.
Modern software delivery involves using advanced methods and tools to enhance the efficiency and speed of developing and updating software. Essential to this are CI/CD pipelines (Continuous Integration/Continuous Deployment), which automate the process from code creation through testing to deployment. CI/CD software streamlines these pipelines to ensure seamless, frequent updates and fewer errors. Deployment strategies dictate how updates are released in a controlled and systematic manner. Technologies like Kubernetes aid in CI/CD by managing containerized applications, allowing for scalable and reliable deployments within diverse environments. This orchestration improves software quality and operational resilience.
Container orchestration is the management of multiple software containers that run complex applications. It automates the deployment, scaling, and operation of containers across hosts, ensuring they work harmoniously. Kubernetes, a popular tool in this field, allows precise control over these processes and integrates well with CI/CD pipelines (Continuous Integration/Continuous Deployment), ensuring software updates are seamlessly moved from development to production. This streamlines deployment strategies, enhancing efficiency and stability in a system’s operations. Container orchestration thus serves as the backbone for managing large-scale containerized applications efficiently.
Modern Air Gap Software Delivery (LFS281) is a 3-day course designed for IT professionals keen on mastering air-gapped software systems for cloud-native environments.
Introduction: The "Modern Air Gap Software Delivery (LFS281)" course equips students with essential skills and knowledge for efficiently managing air-gapped software systems in cloud-native environments. Over three days, participants will delve into key concepts and best practices.
Learning Objectives and Outcomes:
