Let’s build the future of sustainable data together.
Let’s build the future of sustainable data together.
Flux Core Data Systems delivers cloud-based disaster recovery solutions built on renewable energy infrastructure. Our modular, solar and battery-powered systems ensure business continuity, energy independence, and carbon-free operations—protecting both your data and the planet.
Cloud-based disaster recovery (DRaaS) is a cloud computing backup and recovery model that replicates critical systems, applications, and data to geographically distributed infrastructure. In the event of an outage, cyberattack, or disaster, operations are restored within predefined Recovery Time Objectives (RTO) and Recovery Point Objectives (RPO).
Flux Core’s cloud based disaster recovery service combines distributed renewable-powered data centers with enterprise-grade backup disaster recovery solutions to ensure continuous availability—even during grid failures.
Traditional recovery systems depend on grid power and centralized facilities that fail during outages. Flux Core’s distributed model uses renewable and stored energy to keep operations running through any disruption.
Most traditional disaster recovery solutions rely on centralized hyperscale data centers that remain vulnerable to regional grid outages, fuel shortages, and infrastructure congestion. Our distributed renewable architecture reduces single points of failure while improving resiliency.
Our cloud computing backup and recovery architecture includes:
In the event of disruption, workloads are automatically shifted to an operational recovery node powered by solar + battery storage, ensuring uptime even when the utility grid is unavailable.
Our cloud based disaster recovery service is designed to meet strict recovery objectives:
Our renewable-powered recovery sites operate independently from utility grids, maintaining uptime during blackouts or disasters. Modular deployment means sites are operational within 90 days—offering a sustainable, low-risk alternative to traditional data centers.
Advantages
Our disaster recovery solutions support:
Flux Core’s containerized data centers deploy quickly, expand easily, and operate anywhere renewable energy is available. We work with landowners and investors to develop distributed recovery networks that add both resilience and revenue. These modular systems reduce deployment timelines compared to traditional brick-and-mortar facilities while delivering enterprise-grade disaster recovery solutions in decentralized locations.
Eco-Friendly Performance
Our facilities deliver enterprise-grade performance powered entirely by renewable energy.
As a veteran- and minority-owned company with decades of expertise in solar, storage, and cloud systems, Flux Core builds sustainable computing that strengthens both business and community.
We combine disaster recovery solutions expertise with renewable infrastructure engineering—bridging the gap between cloud resiliency and energy independence.
Our Partners Include:
Let’s Build a Resilient, Renewable Future
Turn your land or infrastructure into a sustainable disaster recovery site.
Deploy scalable cloud-based disaster recovery solutions that protect your business, reduce carbon impact, and strengthen operational continuity.
Contact Flux Core to schedule a project evaluation or compute partnership today.
Disaster recovery solutions are systems and processes designed to restore IT infrastructure, applications, and data after disruptions such as cyberattacks, power outages, or natural disasters.
Cloud based disaster recovery replicates workloads and data to cloud infrastructure, enabling rapid failover and minimizing downtime.
Traditional backup stores static copies of data, while cloud computing backup and recovery enables automated replication, orchestration, and rapid system restoration.
A cloud based disaster recovery service (DRaaS) is a managed offering that provides continuous replication, failover infrastructure, monitoring, and recovery orchestration through cloud environments.
Yes. Distributed solar and battery-powered recovery sites operate independently of grid infrastructure, increasing resilience during regional outages.