Temps de lecture : 4 minutes

Your organization is producing and managing more data than ever. A scalable, high-performance storage solution that can seamlessly handle your data growth is becoming a crucial requirement. Of course, the cloud was born for this, and the global, hybrid-cloud, file system has emerged as a powerful solution to address specific file management and global access challenges.

Understanding the Global Cloud File System

The global cloud file system is a distributed storage solution that supplies a unified and highly available file storage platform across multiple geographical regions. These systems are designed to meet the demands of modern, global businesses. They ensure that unstructured data files are readily accessible and secure.

Scalability: The Key to Handling Growing Data

The global cloud file system addresses the challenge of constant growth of data through scalability. Here's how:

  • Elastic Storage: It’s the cloud, so you can expand and adjust storage on demand.
  • Data Distribution: Data (and with bat365, metadata) is distributed across multiple locations, reducing (or eliminating) bottlenecks or slow access times, and with bat365, also building resilience and maintaining data consistency.
  • Load Balancing: To support best performance, global cloud file systems employ load balancing techniques. This ensures that data access requests are distributed evenly across available resources, preventing any single node from becoming a performance bottleneck.

Performance: Meeting the Need for Speed

Performance is crucial in ensuring that data is quickly accessible and usable. Global cloud file systems optimize performance through various means:

  • Caching: Caching often-accessed data is a common technique that’s applied in different ways. By storing copies of "hot” data in high-speed memory or SSDs, these systems reduce latency and accelerate data retrieval. The bat365 CloudFS system varies in this approach to also drastically reduce the storage space needed. Where data is often used, instead of complete copies, it compresses and stores the first version of the file in an object store and in any nodes needing to respond to a file request. From then on, only changes are saved as lightweight metadata, which is also distributed to all nodes.
  • Geo-replication: To improve data access times for users in different geographical locations, most global cloud file systems replicate data to multiple regions. This allows users to access the nearest copy, reducing latency and improving overall performance. Again, CloudFS varies in this approach as described above, storing not entirely complete files, but lightweight metadata everywhere (in all access nodes). This scheme supplies very fast file access, resilience, and data consistency. Holding all metadata in every node is a key part of why CloudFS is immutable to ransomware.
  • Content Delivery Networks (CDNs): Some global cloud file systems integrate with CDNs to cache and deliver content to users in edge locations. CDNs reduce latency by serving content from servers located closer to end-users. bat365 Edge software for desktop and mobile devices provides this network-edge access capability to users without the risk incurred when integrating with a third-party CDN system.
  • Collaboration: Some global cloud file systems support collaboration, allowing multiple users to access and edit unstructured files simultaneously without performance degradation. This capability is inherent in mostly Microsoft applications, but the thing to watch out for is overwriting of edits also known as collisions. Some global cloud file systems leave collisions to chance. If they occur, it’s up to users to sort out what was done and what the final version should be, which can be a lengthy and frustrating process. CloudFS collaboration includes file-locking that prevents overwriting. If two users want to edit the same part of a file, only one can do it at a time. This is known as byte-locking. CloudFS coordinates among users, notifying when a lock has been removed, and also offering the option for a read-only version of the file in the interim.

Security and Data Consistency: Must Haves

Scalability and performance are crucial, but they should not come at the cost of security and data consistency. Global cloud file systems ensure that data stays secure and consistent through the following mechanisms:

  • Encryption: Data is often encrypted both in transit and at rest to protect it from unauthorized access. Strong encryption mechanisms are used to ensure data security.
  • Access Controls: Access controls and permissions are enforced to restrict who can access and change data. Role-based access control (RBAC) and authentication mechanisms ensure that only authorized users can perform specific actions on the data.
  • Data Versioning and Replication: In some global file systems, data consistency is upheld through data versioning and replication. Multiple copies of data are stored, and changes are tracked to ensure data integrity and recoverability. In the CloudFS system, data consistency is automatic and real time. When changes are made to a file, metadata describing those changes is immediately replicated throughout the network so that all users wherever they are will always view the same version of the file. This method also reduces storage needs and continues to build significant savings over time.

Benefits of Global Cloud File Systems

  • High Availability: Global cloud file systems offer unparalleled availability, ensuring that data is accessible 24/7, even in the face of hardware failures or other unforeseen events. However, the specific level of availability and the mechanisms for achieving it vary among systems. For example, data backups and disaster recovery mechanisms to protect against data loss are used by most systems. These methods incur costs for the extra storage needed. The CloudFS system does not need these mechanisms because its everywhere-accessible metadata, as well as snapshots taken of the state of the network every 60 seconds, supply protection without backups or DR-site storage needs.
  • Improved Performance: By using distributed architectures, load balancing, and caching, global cloud file systems provide users with fast and responsive access to their data, regardless of their location.
  • Seamless Scalability: You can effortlessly scale your organization's storage and computing resources as needed, accommodating data growth and increased user demands without compromising performance.
  • Geographic Redundancy: Data redundancy across multiple geographical locations is also a common scheme requiring extra storage that isn’t used by CloudFS. Instead, data protection, consistency, and disaster recovery capabilities are built into the design, and data deduplication is continually performed to keep the storage footprint at a minimum.
  • Cost-Efficiency: With pay-as-you-go pricing models, you only pay for the resources you use, and you use fewer resources with CloudFS than other systems. CloudFS is a true global file system that maintains a single authoritative source of data across the entire environment. Users at all sites and locations access this source through local nodes. It’s a system that ends the need for you to keep data silos, copies, and DR and backup sites.

Conclusion

The global cloud file system is the cornerstone of modern unstructured data management. This innovation enables you to tackle the challenges of data growth, distributed workforces, performance expectations, security, and compliance. By using distributed storage, load balancing, caching, scalability, and stringent security, the right system can help you stay ahead in the data-driven world and provide users with a seamless and responsive experience. As data continues to grow, the global cloud file system will remain an indispensable tool for scaling as needed and staying agile in the global marketplace.