Beyond the Data Center, Cloud Computing or Cloud Infrastructure Services was a revolutionary technology trend for companies of all sizes in almost all sectors, and became a central component of a modern integration strategy and ecosystem applications. Instead of investing in expensive hardware, despite having to administer and manage a data center system, companies are converting cloud providers such as Amazon Web services, Google Cloud and Microsoft Azure for flexible cloud infrastructures to provide calculation, networks and resources of Modernized storage.

Cloud computing is the availability of computer system resources, in particular data storage and computer energy, without direct actual management by the user. The big clouds often have functions distributed in multiple positions, each position is a data center. But defining exactly what a cloud infrastructure is can be a little difficult. But when reduced to it, a Cloud based infrastructure has several key components, including a combination of:

• Server
• Software
• Network Devices and other storage resources

Now that we have an outline of what cloud infrastructure looks like, here is how it is generally categorized.

1. Computing: The part of the infrastructure computer comes from server racks to provide cloud services for various services and partners.
2. Networking: To transfer data externally, as well as among computer and storage systems, this part of the infrastructure is based on routers and switches.
3. Storage: A cloud infrastructure will probably need a considerable memory often using a combination of hard disks and flash memory.

Usually, a cloud infrastructure is offered in three methods - public, private and hybrid. They offer different amounts of control, security and management.

The private cloud: With a private cloud architecture, the service is carried out at home and in advance. Resources are internally shared between closed users for a high level of control and security for confidential data. This method is often better when a company is large enough to effectively use its cloud data center and has a budget to finance it. A private cloud makes sense, for example, if the company revolves around an application and its data.

The public cloud: A public cloud architecture is a service provided, managed and maintained by the site via the Internet. This method can help simplify workflows and collaboration in applications with many users (e-mails, for example), making them share more efficient resources. However, there is an increase in the risk of vulnerability with a public offer. A public cloud makes sense, for a company that is working on an Ad Hoc software development project with a Paa offer.

The hybrid cloud: as the name suggests, a hybrid architecture in the cloud includes a combination of private and public cloud offers. This offers the efficiency of a public cloud and the security of a private cloud. A company can manage numerous platforms simultaneously, guaranteeing an integration of the API without problems. A hybrid cloud makes more sense, for example, if a company wants to enable a SaaS application if they want to prioritize security.

Cloud infrastructure as a service:
A cloud infrastructure is accessible as a service (IaaS), as with all cloud technologies, through the Internet. You can access it from a cloud providing data center, which is responsible for maintaining and managing traditional hardware. This means that the customer has the freedom and control to manage the application, data, middleware and other operating systems.

With an IaaS Cloud solution, there are important infrastructure services, such as network monitoring, safety, billing, disaster recovery and load balance. There is also advanced automation and orchestration to simplify the performance and administration of the application, as well as facilitate the installation of operating systems, distribute the middleware, start virtual machines and create storage backup and workload.

But why exactly do we need cloud infrastructure management?
The main objective of cloud infrastructure management is to provide corporate scalability while consolidating IT resources and allowing a variety of users to share the same infrastructure without compromising the data of others. In the long run, this reduces operating costs by a lot. A cloud infrastructure management interface (CIMI) is an open standard API requirement to manage the cloud infrastructure and allows users to manage homogeneous communication between cloud ecosystems. This reaches an interoperable management between cloud sellers, developers and customers.

Requirements for building a cloud infrastructure

1. Service and Resource Management
2. Data Center Management Tools Integration
3. Reporting, Visibility, Reliability, a Security
4. Interfaces for Users, Admins, and Developers

Benefits of cloud infrastructure

1. Cost effective: The cloud eliminates or significantly reduces the operational spending of a company configured and administered its data center. With the infrastructure in the cloud, a company simply pays that it is administered while you pay only from peak services.
2. Increased security: Most cloud service infrastructure are offered as self-managing applications, where changes can be made in service in a few minutes. This improves the time of activity and efficiency of business systems, while allowing colleagues from any part of the world to access shared data on mobile devices.
3. Agility and flexibility: Cloud infrastructure technologies always improve hacker protection, viruses and other data violations with stronger firewalls, advanced encryption keys and a hybrid approach that stores confidential data in a private cloud and other data, also applications, In public cloud.

As the technology of the cloud integration platform continues to evolve and improve, it will be further converted into a blessing for less qualified companies with the maintenance and management of its servers and other storage tools.