The digital era’s dependence on cloud-based operations has brought with it a heightened need for robust cyber resilience strategies. Understanding this imperative, Commvault has introduced its Cloud Rewind offering, a solution designed to fortify the cyber defense frameworks of organizations relying heavily on distributed cloud applications. This article delves into the key capabilities and advantages of Cloud Rewind, exploring how it can significantly boost cyber resilience for firms.
Commvault’s latest innovation addresses a critical pain point in modern cloud-centric business environments: the rapid restoration of operational capacities following a cyberattack. While data recovery is a fundamental element of disaster recovery plans, the real challenge lies in the swift and efficient rebuilding of distributed cloud applications. Let’s explore how Cloud Rewind addresses these complexities.
Enhancing Visibility and Resource Management
At the core of Cloud Rewind’s capabilities is its thorough and automated Resource Discovery feature. This function swiftly identifies and catalogs all cloud components within an organization’s infrastructure, providing a comprehensive view of assets that need protection and potential recovery. By ensuring no critical component is overlooked, organizations can better plan their resilience strategies and be better prepared for cyber incidents.
Resource Discovery also aids in proactively identifying any drifts in configurations, thanks to the Drift Analysis feature. Continuous monitoring ensures that any deviations are promptly caught and corrected, maintaining the integrity of restored systems. This constant vigilance simplifies the administrative load on IT teams and improves overall system reliability, contributing to an organization’s robust cyber resilience framework.
In addition, App-Centric Dependency Mapping uncovers the intricate relationships between various cloud components. By mapping these dependencies, Cloud Rewind accelerates the rebuilding process by ensuring all interconnected resources and services are aligned correctly. This granular visibility into dependencies is crucial for minimizing downtime and resuming normal operations swiftly post-recovery.
Automating the Recovery Process
One of the most significant advantages of Cloud Rewind is its emphasis on automation, significantly reducing the manual effort typically required in recovery operations. The Automated Cyber Recovery Testing capability plays a pivotal role here by capturing end-to-end data, application, infrastructure, and network configurations. This comprehensive blueprint mitigates guesswork, enabling faster and more accurate recovery procedures.
Furthermore, On-Demand Cloud Reconstruction allows organizations to rebuild their data environments and supporting infrastructure rapidly. This capability ensures that, post-disruption, businesses can quickly create a secure environment ready for use. The speed and efficiency of this process are vital in minimizing post-breach downtime, ultimately supporting business continuity and ensuring that operations can be resumed without significant delays.
By integrating widespread automation in recovery processes, Cloud Rewind enhances firms’ resilience against not only short-term failures but also significant cyber incidents. Organizations benefit from improved Recovery Time Objectives (RTO) and Recovery Point Objectives (RPO), without the need for a parallel hot standby IT infrastructure. This automation represents a significant step forward in the effort to streamline recovery operations in large enterprises managing extensive cloud services.
Integrating Cyber Resilience and Disaster Recovery
Cloud Rewind sets itself apart by combining application-centric cyber recovery and disaster recovery capabilities within a single framework. This integrated approach ensures that organizations can recover efficiently from both minor failures and major cyber incidents. Supporting major cloud platforms such as AWS, Google Cloud Platform, and Microsoft Azure, the solution offers the flexibility needed to adapt to various cloud environments.
The accompanying Cyber Resilience Dashboard further bolsters this integrated framework. This tool provides ongoing ransomware readiness assessments, offering valuable insights to enhance resilience and recovery readiness. The dashboard evaluates critical components, such as the frequency of testing and the availability of immutable, air-gapped copies of crucial data, and assigns a readiness grade. This actionable feedback helps organizations continuously improve their cyber defenses and readiness strategies.
By integrating these comprehensive recovery features, Cloud Rewind addresses the broader needs of modern enterprises’ disaster recovery plans. This holistic focus underlines the growing industry trend toward solutions that offer quick, automated restoration capabilities, reducing operational disruptions following a cyber incident. As businesses increasingly adopt cloud-first strategies, such integrated, automated solutions become invaluable in ensuring operational continuity.
Bridging the Application Recovery Gap
One major benefit of Cloud Rewind is its focus on automation, which greatly cuts down the manual effort needed in recovery operations. The Automated Cyber Recovery Testing feature is key, as it captures data, application settings, infrastructure details, and network configurations comprehensively. This detailed mapping removes guesswork, allowing for quicker and more precise recovery.
Additionally, On-Demand Cloud Reconstruction lets organizations swiftly rebuild their data environments and accompanying infrastructure. This feature ensures that after any disruption, businesses can rapidly establish a secure environment ready for operations. The speed and efficiency of this process are crucial for minimizing downtime after a breach, supporting business continuity by enabling quick resumption of operations.
By embedding widespread automation in recovery processes, Cloud Rewind enhances a firm’s resilience against both minor failures and major cyber incidents. Organizations achieve better Recovery Time Objectives (RTO) and Recovery Point Objectives (RPO) without needing a secondary hot standby IT setup. This automation marks a significant advancement in streamlining recovery operations for large enterprises using extensive cloud services.