HyperSERV™
HyperSERV™ is a software-defined hyperconverged infrastructure platform that unifies compute, storage, and virtualization on x86-based Intel® and AMD® systems.
True Software-Defined HCI
Run compute and storage as a single intelligent system without proprietary hardware constraints.
Unified Infrastructure Control
Manage virtual machines, storage services, and clusters through a centralized, coherent control plane.
Built for Performance at Scale
Support data-intensive, latency-sensitive workloads across core, cloud, and edge environments.
Hyperconverged Platform Simplifying Operations
HyperSERV™ brings virtualization and storage together as a single operational model rather than separate layers.
Multi-Cloud Adoption
Multi-Cloud Adoption
Unified Computing
HyperSERV™'s seamless integration in on-premises, private, and public cloud environments supports data mobility and compliance for multi-cloud deployments.
Virtualization Integrated
Virtualization Integrated
Orchestrated Within HCI
HyperSERV™ embeds StratiSERV™ virtualization directly into the hyperconverged platform, ensuring consistent workload behavior across clustered environments.
Converged Performance
Converged Performance
Optimized for Hyperconverged Systems
HyperSERV™ integrates StratiSTOR™ storage services to deliver scalable, resilient data access within hyperconverged environments.
Multi-Cloud Adoption
HyperSERV™'s seamless integration in on-premises, private, and public cloud environments supports data mobility and compliance for multi-cloud deployments.
Virtualization Integrated
HyperSERV™ embeds StratiSERV™ virtualization directly into the hyperconverged platform, ensuring consistent workload behavior across clustered environments.
Converged Performance
HyperSERV™ integrates StratiSTOR™ storage services to deliver scalable, resilient data access within hyperconverged environments.
Multi-Cloud Adoption
Unified Computing
HyperSERV™'s seamless integration in on-premises, private, and public cloud environments supports data mobility and compliance for multi-cloud deployments.
Virtualization Integrated
Orchestrated Within HCI
HyperSERV™ embeds StratiSERV™ virtualization directly into the hyperconverged platform, ensuring consistent workload behavior across clustered environments.
Converged Performance
Optimized for Hyperconverged Systems
HyperSERV™ integrates StratiSTOR™ storage services to deliver scalable, resilient data access within hyperconverged environments.
Engineered Together for Performance
SteelDome + Supermicro
Enterprise Infrastructure Without Compromise
SteelDome collaborates with Supermicro through a formal OEM partnership to deliver fully integrated, ready to deploy infrastructure solutions.
By combining the StratiSYSTEM™-powered SteelDome platform with Supermicro's enterprise class hardware, organizations gain a foundation designed for performance, efficiency, and long term adaptability.
Supermicro’s leadership in energy efficient, highly configurable x86-based systems using Intel® and AMD® processors complements SteelDome’s software driven approach. Together, they deliver an enterprise platform that supports modern workloads without the cost, rigidity, or complexity of legacy infrastructure models.
Powered Platforms
SteelDome delivers infrastructure advantages that extend beyond performance into long-term operational value.
Software-Defined Freedom
Operate on standard x86-based Intel® and AMD® platforms without vendor lock-in or proprietary hardware dependencies.
Built-In Resilience
Protect data through intelligent architecture that supports availability, recovery, and long-term integrity at every layer.
Operational Simplicity
Unify storage, virtualization, and compute management through a cohesive software platform designed for clarity.
PROBLEMS WE SOLVE WITH HyperSERV™
Complex Multi-Tier Architectures
Eliminate the operational overhead of managing separate compute, storage, and virtualization silos.
Slow Infrastructure Deployment
Deploy ready-to-use clusters faster without lengthy integration or hardware dependency cycles.
Edge and ROBO Limitations
Operate compact, manageable infrastructure at remote locations without sacrificing control.
Mixed Workload Inefficiency
Run VDI, databases, analytics, and general workloads on a single optimized platform.
Scaling Without Disruption
Expand capacity and performance incrementally without rearchitecting the environment.
Complex Multi-Tier Architectures
Eliminate the operational overhead of managing separate compute, storage, and virtualization silos.
Slow Infrastructure Deployment
Deploy ready-to-use clusters faster without lengthy integration or hardware dependency cycles.
Edge and ROBO Limitations
Operate compact, manageable infrastructure at remote locations without sacrificing control.
Mixed Workload Inefficiency
Run VDI, databases, analytics, and general workloads on a single optimized platform.
Scaling Without Disruption
Expand capacity and performance incrementally without rearchitecting the environment.
Complex Multi-Tier Architectures
Eliminate the operational overhead of managing separate compute, storage, and virtualization silos.
Slow Infrastructure Deployment
Deploy ready-to-use clusters faster without lengthy integration or hardware dependency cycles.
Edge and ROBO Limitations
Operate compact, manageable infrastructure at remote locations without sacrificing control.
Mixed Workload Inefficiency
Run VDI, databases, analytics, and general workloads on a single optimized platform.
Scaling Without Disruption
Expand capacity and performance incrementally without rearchitecting the environment.
Principles That Shape Hyperconverged Design
HyperSERV™ combines StratiSERV™ and StratiSTOR™ into a unified cluster that scales predictably across environments.
Software-Defined Control
Infrastructure intelligence is delivered through software, not fixed hardware limitations.
Automated Recovery
Resolves faults automatically, ensuring continuous availability
Operational Simplicity
Complex systems should remain manageable and predictable.
Architectural Freedom
Organizations retain control over hardware, scale, and deployment models.