What is Oracle Cloud Global Infrastructure?
Oracle Cloud Global Infrastructure is a robust and secure foundation for businesses to build, deploy, and manage workloads and applications in a scalable and cost-effective manner. It is a network of data centers distributed across the globe, providing a wide range of cloud services, including compute, storage, networking, and databases. The infrastructure is designed to offer high availability, fault tolerance, and disaster recovery capabilities, ensuring businesses can rely on it for their mission-critical workloads.
At the heart of Oracle Cloud Global Infrastructure is the concept of regions and availability domains. Regions are geographically dispersed data centers that provide a local point of presence for businesses, while availability domains are physically separate data centers within a region that offer redundant infrastructure for high availability. Fault domains are also used within availability domains to ensure that single points of failure do not impact the availability of applications and workloads.
Oracle Cloud Global Infrastructure provides a wide range of services, including Oracle Autonomous Database, Oracle Container Engine for Kubernetes, and Oracle Cloud Infrastructure Compute. These services leverage the global infrastructure to provide highly available, scalable, and secure environments for businesses. By using these services, businesses can focus on building and deploying their applications, without worrying about the underlying infrastructure.
Migrating to Oracle Cloud Global Infrastructure is a straightforward process, with a range of migration strategies available, including lift-and-shift, re-architecture, and re-platforming. Each strategy has its pros and cons, and businesses should choose the one that best fits their needs and requirements. Once migrated, businesses can take advantage of a range of best practices to maximize the benefits of the infrastructure, including monitoring performance, optimizing costs, and implementing security measures.
There are many real-world use cases and success stories of businesses that have leveraged Oracle Cloud Global Infrastructure to achieve their goals. By using the infrastructure, businesses have been able to reduce latency, meet data sovereignty requirements, and improve application performance. The infrastructure has also helped businesses to reduce costs, increase agility, and improve their overall IT operations.
The Components of Oracle Cloud Global Infrastructure
Oracle Cloud Global Infrastructure is built on a foundation of regions, availability domains, and fault domains. These components work together to provide high availability, fault tolerance, and disaster recovery capabilities, ensuring businesses can rely on the infrastructure for their mission-critical workloads.
Regions are geographically dispersed data centers that provide a local point of presence for businesses. Each region contains multiple availability domains, which are physically separate data centers that offer redundant infrastructure for high availability. Within each availability domain, there are one or more fault domains, which are used to ensure that single points of failure do not impact the availability of applications and workloads.
Fault domains are designed to prevent hardware failures from impacting the availability of applications and workloads. By distributing resources across multiple fault domains, businesses can ensure that their applications and workloads are not affected by hardware failures or other issues that may occur within a single fault domain. Fault domains are used in conjunction with availability domains to provide even higher levels of availability and fault tolerance.
Oracle Cloud Global Infrastructure also includes a range of services, such as Oracle Autonomous Database, Oracle Container Engine for Kubernetes, and Oracle Cloud Infrastructure Compute. These services leverage the global infrastructure to provide highly available, scalable, and secure environments for businesses. By using these services, businesses can focus on building and deploying their applications, without worrying about the underlying infrastructure.
When migrating to Oracle Cloud Global Infrastructure, businesses have a range of migration strategies available to them, including lift-and-shift, re-architecture, and re-platforming. Each strategy has its pros and cons, and businesses should choose the one that best fits their needs and requirements. Once migrated, businesses can take advantage of a range of best practices to maximize the benefits of the infrastructure, including monitoring performance, optimizing costs, and implementing security measures.
There are many real-world use cases and success stories of businesses that have leveraged Oracle Cloud Global Infrastructure to achieve their goals. By using the infrastructure, businesses have been able to reduce latency, meet data sovereignty requirements, and improve application performance. The infrastructure has also helped businesses to reduce costs, increase agility, and improve their overall IT operations.
Oracle Cloud Regions and Availability Domains
Oracle Cloud Global Infrastructure is distributed across multiple regions and availability domains around the world. This distribution enables businesses to meet data sovereignty requirements, reduce latency, and improve application performance.
Regions are large, geographically dispersed data centers that provide a local point of presence for businesses. Each region contains multiple availability domains, which are physically separate data centers that offer redundant infrastructure for high availability. By distributing resources across multiple regions and availability domains, businesses can ensure that their applications and workloads are not affected by local outages or disruptions.
Oracle Cloud Global Infrastructure includes regions in North America, Europe, Asia, and Australia. Each region contains at least three availability domains, ensuring that businesses have access to highly available and fault-tolerant infrastructure. By using multiple availability domains, businesses can ensure that their applications and workloads are not affected by hardware failures or other issues that may occur within a single availability domain.
Oracle Cloud Global Infrastructure also includes a range of services, such as Oracle Autonomous Database, Oracle Container Engine for Kubernetes, and Oracle Cloud Infrastructure Compute. These services leverage the global infrastructure to provide highly available, scalable, and secure environments for businesses. By using these services, businesses can focus on building and deploying their applications, without worrying about the underlying infrastructure.
When migrating to Oracle Cloud Global Infrastructure, businesses have a range of migration strategies available to them, including lift-and-shift, re-architecture, and re-platforming. Each strategy has its pros and cons, and businesses should choose the one that best fits their needs and requirements. Once migrated, businesses can take advantage of a range of best practices to maximize the benefits of the infrastructure, including monitoring performance, optimizing costs, and implementing security measures.
There are many real-world use cases and success stories of businesses that have leveraged Oracle Cloud Global Infrastructure to achieve their goals. By using the infrastructure, businesses have been able to reduce latency, meet data sovereignty requirements, and improve application performance. The infrastructure has also helped businesses to reduce costs, increase agility, and improve their overall IT operations.
Oracle Cloud Fault Domains
Fault domains are a key component of Oracle Cloud Global Infrastructure, designed to help prevent single points of failure and ensure high availability and fault tolerance for businesses. A fault domain is a logical boundary within an availability domain that ensures that hardware failures or other issues that may occur within a single fault domain do not impact the availability of applications and workloads.
Fault domains are used in conjunction with availability domains to provide even higher levels of availability and fault tolerance. By distributing resources across multiple fault domains within an availability domain, businesses can ensure that their applications and workloads are not affected by hardware failures or other issues that may occur within a single fault domain. This helps to ensure that businesses can rely on Oracle Cloud Global Infrastructure for their mission-critical workloads.
Oracle Cloud Global Infrastructure includes multiple fault domains within each availability domain, ensuring that businesses have access to highly available and fault-tolerant infrastructure. By using multiple fault domains, businesses can ensure that their applications and workloads are not affected by hardware failures or other issues that may occur within a single fault domain.
Oracle Cloud Global Infrastructure also includes a range of services, such as Oracle Autonomous Database, Oracle Container Engine for Kubernetes, and Oracle Cloud Infrastructure Compute. These services leverage the global infrastructure to provide highly available, scalable, and secure environments for businesses. By using these services, businesses can focus on building and deploying their applications, without worrying about the underlying infrastructure.
When migrating to Oracle Cloud Global Infrastructure, businesses have a range of migration strategies available to them, including lift-and-shift, re-architecture, and re-platforming. Each strategy has its pros and cons, and businesses should choose the one that best fits their needs and requirements. Once migrated, businesses can take advantage of a range of best practices to maximize the benefits of the infrastructure, including monitoring performance, optimizing costs, and implementing security measures.
There are many real-world use cases and success stories of businesses that have leveraged Oracle Cloud Global Infrastructure to achieve their goals. By using the infrastructure, businesses have been able to reduce latency, meet data sovereignty requirements, and improve application performance. The infrastructure has also helped businesses to reduce costs, increase agility, and improve their overall IT operations.
Oracle Cloud Services and Global Infrastructure
Oracle Cloud Global Infrastructure provides the foundation for a wide range of Oracle Cloud services, including Oracle Autonomous Database, Oracle Container Engine for Kubernetes, and Oracle Cloud Infrastructure Compute. These services leverage the global infrastructure to provide highly available, scalable, and secure environments for businesses.
Oracle Autonomous Database is a cloud-based database service that uses machine learning and automation to provide a self-driving, self-securing, and self-repairing database. The service is built on Oracle Cloud Global Infrastructure, providing businesses with a highly available and scalable database environment that is easy to use and manage. With Oracle Autonomous Database, businesses can focus on building and deploying applications, without worrying about the underlying database infrastructure.
Oracle Container Engine for Kubernetes is a managed container orchestration service that enables businesses to deploy, manage, and scale containerized applications on Oracle Cloud Global Infrastructure. The service provides a highly available and scalable environment for containerized applications, with built-in monitoring, logging, and security features. With Oracle Container Engine for Kubernetes, businesses can easily deploy and manage containerized applications, without worrying about the underlying infrastructure.
Oracle Cloud Infrastructure Compute is a cloud-based compute service that provides businesses with high-performance, scalable, and secure compute resources. The service is built on Oracle Cloud Global Infrastructure, providing businesses with a highly available and scalable compute environment that is easy to use and manage. With Oracle Cloud Infrastructure Compute, businesses can easily provision and manage compute resources, without worrying about the underlying infrastructure.
Oracle Cloud Global Infrastructure provides businesses with a robust and secure foundation for building, deploying, and managing workloads and applications in a scalable and cost-effective manner. By using Oracle Cloud services, businesses can take advantage of the global infrastructure to provide highly available, scalable, and secure environments for their applications and workloads.
When migrating to Oracle Cloud Global Infrastructure, businesses have a range of migration strategies available to them, including lift-and-shift, re-architecture, and re-platforming. Each strategy has its pros and cons, and businesses should choose the one that best fits their needs and requirements. Once migrated, businesses can take advantage of a range of best practices to maximize the benefits of the infrastructure, including monitoring performance, optimizing costs, and implementing security measures.
There are many real-world use cases and success stories of businesses that have leveraged Oracle Cloud Global Infrastructure to achieve their goals. By using the infrastructure, businesses have been able to reduce latency, meet data sovereignty requirements, and improve application performance. The infrastructure has also helped businesses to reduce costs, increase agility, and improve their overall IT operations.
How to Migrate to Oracle Cloud Global Infrastructure
Migrating to Oracle Cloud Global Infrastructure can provide businesses with a range of benefits, including improved scalability, cost savings, and increased security. However, the migration process can be complex, and businesses should carefully consider their migration strategy to ensure a smooth and successful transition.
There are three main migration strategies that businesses can use when moving to Oracle Cloud Global Infrastructure: lift-and-shift, re-architecture, and re-platforming. Each strategy has its pros and cons, and businesses should choose the one that best fits their needs and requirements.
Lift-and-Shift Migration
A lift-and-shift migration involves moving existing workloads and applications to Oracle Cloud Global Infrastructure without making any significant changes to the underlying architecture. This strategy is relatively simple and can be completed quickly, but it may not take full advantage of the benefits of Oracle Cloud Global Infrastructure.
The main advantage of a lift-and-shift migration is that it allows businesses to quickly move their workloads and applications to the cloud, without having to make significant changes to the underlying architecture. However, this strategy may not provide the same level of scalability, cost savings, or security as other migration strategies.
Re-architecture Migration
A re-architecture migration involves redesigning existing workloads and applications to take full advantage of Oracle Cloud Global Infrastructure. This strategy can provide significant benefits, including improved scalability, cost savings, and increased security, but it can also be complex and time-consuming.
The main advantage of a re-architecture migration is that it allows businesses to fully leverage the benefits of Oracle Cloud Global Infrastructure, including improved scalability, cost savings, and increased security. However, this strategy can be complex and time-consuming, and may require significant changes to existing workloads and applications.
Re-platforming Migration
A re-platforming migration involves moving existing workloads and applications to a new platform that is optimized for Oracle Cloud Global Infrastructure. This strategy can provide significant benefits, including improved scalability, cost savings, and increased security, but it can also be complex and time-consuming.
The main advantage of a re-platforming migration is that it allows businesses to fully leverage the benefits of Oracle Cloud Global Infrastructure, including improved scalability, cost savings, and increased security. However, this strategy can be complex and time-consuming, and may require significant changes to existing workloads and applications.
When migrating to Oracle Cloud Global Infrastructure, businesses should carefully consider their migration strategy and choose the one that best fits their needs and requirements. By following best practices and carefully planning the migration process, businesses can take full advantage of the benefits of Oracle Cloud Global Infrastructure and achieve their goals in a scalable, cost-effective, and secure manner.
Best Practices for Using Oracle Cloud Global Infrastructure
Oracle Cloud Global Infrastructure provides businesses with a robust and secure foundation for building, deploying, and managing workloads and applications in a scalable and cost-effective manner. To maximize the benefits of Oracle Cloud Global Infrastructure, businesses should follow best practices for using the infrastructure.
Monitor Performance
Monitoring the performance of applications and workloads is critical to ensuring that they are running efficiently and effectively. Oracle Cloud Global Infrastructure provides a range of tools for monitoring performance, including metrics, logs, and alerts. By using these tools, businesses can quickly identify and resolve any performance issues, ensuring that their applications and workloads are running at optimal levels.
Optimize Costs
Oracle Cloud Global Infrastructure provides businesses with a highly scalable and cost-effective infrastructure for building, deploying, and managing workloads and applications. To optimize costs, businesses should carefully consider their resource utilization and usage. By using tools such as Oracle Cloud Infrastructure Cost Management and Oracle Cloud Infrastructure Tagging, businesses can gain insights into their resource usage and optimize their costs accordingly.
Implement Security Measures
Security is a critical consideration for businesses building, deploying, and managing workloads and applications in the cloud. Oracle Cloud Global Infrastructure provides a range of security features, including identity and access management, network security, and data security. By implementing these security measures, businesses can ensure that their applications and workloads are protected against threats and vulnerabilities.
Take Advantage of Automation
Oracle Cloud Global Infrastructure provides a range of automation tools and features, including Oracle Cloud Infrastructure Resource Manager and Oracle Cloud Infrastructure Terraform Provider. By using these tools, businesses can automate the deployment, management, and scaling of their applications and workloads, reducing the need for manual intervention and ensuring consistent and repeatable processes.
Plan for Disaster Recovery
Disaster recovery is a critical consideration for businesses building, deploying, and managing workloads and applications in the cloud. Oracle Cloud Global Infrastructure provides a range of disaster recovery features, including backup and restore, standby databases, and disaster recovery as a service. By planning for disaster recovery, businesses can ensure that their applications and workloads are protected against outages and disruptions.
By following these best practices, businesses can maximize the benefits of Oracle Cloud Global Infrastructure and achieve their goals in a scalable, cost-effective, and secure manner. With its robust and secure foundation, Oracle Cloud Global Infrastructure provides businesses with the flexibility and agility they need to succeed in today’s fast-paced and ever-changing business environment.
Oracle Cloud Global Infrastructure: Use Cases and Success Stories
Oracle Cloud Global Infrastructure is a powerful and flexible infrastructure that provides businesses with a robust and secure foundation for building, deploying, and managing workloads and applications in a scalable and cost-effective manner. Here, we will highlight some real-world use cases and success stories of businesses that have leveraged Oracle Cloud Global Infrastructure to achieve their goals.
Use Case 1: High-Performance Computing
One use case for Oracle Cloud Global Infrastructure is high-performance computing (HPC). HPC workloads require significant computational resources and fast, low-latency networking. Oracle Cloud Global Infrastructure provides businesses with access to powerful compute resources and a high-speed network, enabling them to run HPC workloads with ease.
For example, a leading automotive manufacturer used Oracle Cloud Global Infrastructure to run complex simulations for vehicle design and testing. By using Oracle Cloud Global Infrastructure, the manufacturer was able to reduce simulation times by up to 70%, enabling them to bring new vehicles to market faster and more efficiently.
Use Case 2: Disaster Recovery
Another use case for Oracle Cloud Global Infrastructure is disaster recovery. Disaster recovery is a critical consideration for businesses of all sizes, as outages and disruptions can result in significant downtime and data loss. Oracle Cloud Global Infrastructure provides businesses with a range of disaster recovery features, including backup and restore, standby databases, and disaster recovery as a service.
For example, a leading financial services firm used Oracle Cloud Global Infrastructure to implement a disaster recovery solution for their mission-critical applications. By using Oracle Cloud Global Infrastructure, the firm was able to reduce recovery times from hours to minutes, ensuring that their applications were always available and their data was always protected.
Success Story: Media and Entertainment Company
A media and entertainment company used Oracle Cloud Global Infrastructure to modernize their infrastructure and improve application performance. By using Oracle Cloud Global Infrastructure, the company was able to reduce latency and improve application performance for their global user base. Additionally, the company was able to optimize their costs and improve their security posture by using Oracle Cloud Global Infrastructure’s built-in security features.
Success Story: Healthcare Provider
A healthcare provider used Oracle Cloud Global Infrastructure to implement a secure and scalable infrastructure for their electronic health records (EHR) system. By using Oracle Cloud Global Infrastructure, the provider was able to meet data sovereignty requirements, improve application performance, and ensure the security and privacy of their patients’ data. Additionally, the provider was able to optimize their costs and improve their scalability by using Oracle Cloud Global Infrastructure’s flexible resource allocation features.
In conclusion, Oracle Cloud Global Infrastructure provides businesses with a robust and secure foundation for building, deploying, and managing workloads and applications in a scalable and cost-effective manner. By following best practices and implementing the right migration strategy, businesses can maximize the benefits of Oracle Cloud Global Infrastructure and achieve their goals. With its global distribution of regions and availability domains, Oracle Cloud Global Infrastructure enables businesses to meet data sovereignty requirements, reduce latency, and improve application performance. Additionally, Oracle Cloud Global Infrastructure provides businesses with access to powerful compute resources, a high-speed network, and a range of disaster recovery features, making it an ideal infrastructure for a wide range of use cases and industries.
