The best known model is probably the public cloud
Posted: Sun Jan 05, 2025 7:11 am
It provides access to services to many users via the Internet. User data is kept separate so that only the user's own data can be accessed. The application scenarios are end-user applications such as email, document or photo storage and the like, development environments for corporate applications including testing and deployment, or as an additional resource for outsourcing in cases of high utilization.
With the private cloud, access to services and resources is limited to a single hospitals email list company. The cloud operates either in a data center managed by a third-party provider or within the company itself. This model is used in regulated industries. Here, the processing of sensitive data requires control over data protection and security mechanisms.
Hybrid cloud is a combination of private and public clouds. The goal is a connected and unified environment that allows applications to seamlessly migrate and scale to access data from any cloud without worrying about the underlying infrastructure. Cloud-naive technologies that emphasize automation, virtualization and portability make this possible.
Specific functions implement microservices as independent and reusable components. Containers provide the environment in which they can run. A platform provides and orchestrates microservices in a cloud environment. Infrastructure virtualization enables developers to create any environment as needed, using resources from different clouds or on-premises.
With the private cloud, access to services and resources is limited to a single hospitals email list company. The cloud operates either in a data center managed by a third-party provider or within the company itself. This model is used in regulated industries. Here, the processing of sensitive data requires control over data protection and security mechanisms.
Hybrid cloud is a combination of private and public clouds. The goal is a connected and unified environment that allows applications to seamlessly migrate and scale to access data from any cloud without worrying about the underlying infrastructure. Cloud-naive technologies that emphasize automation, virtualization and portability make this possible.
Specific functions implement microservices as independent and reusable components. Containers provide the environment in which they can run. A platform provides and orchestrates microservices in a cloud environment. Infrastructure virtualization enables developers to create any environment as needed, using resources from different clouds or on-premises.