IT is asked to do more, faster and at lower costs. They require new ways to rapidly deliver business applications and IT services while driving down overall TCO.
Buying, deploying, managing and scaling datacenter infrastructure is expensive and time consuming.
Legacy infrastructure built with separate servers, storage and networking creates inflexible silos of specialized IT skills.
Innovation suffers when IT spends a majority of time dealing with operational issues.
IT needs next-generation datacenter infrastructure that delivers cloud-like economics and agility, but with the security and reliability of on-premise solutions.
Hyperconverged infrastructure natively integrates compute and storage into a single x86-based server deployed in scale-out clusters. It reduces power and space, and dramatically eliminates storage complexity.
The converged storage and virtualization stack from Nutanix eliminates the bloat of legacy standalone hypervisors and makes virtualization invisible.
Designed to run on an intelligent, VM-centric storage layer, the built-in Acropolis Hypervisor delivers stable, secure computing services.
The tightly integrated management platform delivers true one-click infrastructure management, operational insights and remediation.
The Acropolis App Mobility Fabric (AMF) is a core set of technologies that free applications from getting locked into any infrastructure platform and allow applications and data to move freely between on-premise environments and public clouds. This mobility allows IT leaders to choose when and how they will use on-premise infrastructure and public cloud services, based on business needs.
Nutanix hyperconverged solutions are uniquely built using web-scale technologies and architectures that originated in large Internet and cloud companies, such as Google, Facebook and Amazon.
100% software-defined with no reliance on special purpose hardware for resilience, performance and availability. Allowing for new capabilities without hardware upgrades.
All data, metadata and operations are distributed across the entire cluster, eliminating performance bottlenecks and enabling predictable scalability without limits.
Designed to tolerate component failures through fault isolation and automatic recovery without bringing down the overall system.
Extensive automation and rich system-wide monitoring for data-driven efficiency, combined with REST-based programmatic interfaces for integration with datacenter management tools.
40-60% reduction in overall CapEx and OpEx.
Scale infrastructure predictably with no limits.
8x faster time to value in buying, deploying, and managing.
Up to 90% reduction in power, cooling, and space with a 2U form factor.
Free IT resources to focus on important business initiatives and true innovation.