Local Share-Nothing Storage
Independent Controllers with Dedicated Storage Architecture
Advanced shared-nothing design featuring independent controllers with dedicated JBOD storage, real-time replication, and complete fault isolation for mission-critical environments requiring maximum redundancy.
When to Choose Share-Nothing
Ideal for organizations requiring maximum fault tolerance, complete hardware isolation, and regulatory compliance. Perfect for mission-critical applications where shared components represent unacceptable risk and independent operation is essential.
Complete Fault Isolation
Independent hardware stacks eliminate cascade failures – controller and storage failures remain completely isolated.
Continuous Replication
Real-time ZFS dataset synchronization maintains standby controller with current, consistent data ready for activation.
Performance Scaling
Each controller operates independently for optimal performance, with dedicated network fabric preventing replication bottlenecks.
Comprehensive Monitoring
Real-time visibility into replication status, sync progress, and health across independent systems through unified management.
Share-Nothing Architecture
Each controller maintains independent hardware, storage, and network resources. RSF-1 orchestrates real-time replication while preserving complete isolation between systems.
Independent Controllers
Two controllers, each with dedicated JBOD storage and independent ZFS pools, connected via RSF-1 clustering for maximum redundancy.
Dedicated Storage per Controller
Each controller has its own N+1 JBOD enclosures, eliminating shared storage dependencies and providing true fault isolation.
Real-Time Replication
RSF-1 maintains dataset synchronization between controllers through continuous replication, ensuring standby readiness without shared components.
Performance Tiers
Choose the right performance level for your specific workload requirements
Entry Series Share-Nothing
Processor:
2× AMD X-Core CPUs
Memory:
2× 256 GB ECC
Included Features:
Dual OCP Cards per Controller
Independent JBOD Storage
RSF-1 Replication Engine
Dedicated Replication Network
Complete Hardware Isolation
Ideal for:
Mission-critical file services, backup systems requiring isolation, regulated environments
Base Series Share-Nothing
Processor:
2× AMD Y-Core CPUs
Memory:
2× 512 GB ECC
Included Features:
Dual OCP Cards per Controller
Independent JBOD Storage
RSF-1 Replication Engine
Dedicated Replication Network
Enhanced Performance Tier
Ideal for:
Production databases, virtualization with strict isolation, compliance workloads
Performance Series
Processor:
2× AMD Z-Core CPUs
Memory:
2× 1024 GB ECC
Included Features:
Dual OCP Cards per Controller
Independent JBOD Storage
RSF-1 Replication Engine
Dedicated Replication Network
Maximum Performance Optimization
Ideal for:
High-transaction systems, analytics requiring isolation, performance-critical applications
Technical Specifications
Component
Specification
Configuration
2 Controllers with dedicated JBOD storage per controller
Controller Independence
Each controller operates with separate storage pools and hardware
Memory per Controller
256 GB / 512 GB / 1024 GB ECC DDR4
Client Network per Controller
4×10 GbE or 4×25 GbE (dual OCP cards)
Replication Network
2×40 GbE or 2×100 GbE dedicated for inter-controller sync
Storage per Controller
Up to 4 dedicated JBOD enclosures (60-bay SAS each)
Total Raw Capacity
Up to 8 PB across both controllers (4 PB per controller)
Replication Method
Continuous ZFS dataset synchronization via RSF-1
Failover Time
Sub-15 second failover with data consistency verification
Fault Isolation
Complete hardware isolation between active and standby systems
Network Fabric
Dedicated replication links separate from client traffic
Data Consistency
Transaction-level consistency with automatic integrity checks
Ideal Use Cases
Financial services requiring regulatory compliance
Healthcare systems with zero-tolerance for data loss
Mission-critical databases requiring fault isolation
Manufacturing systems with 24/7 operation requirements
vs. Local HA Storage
Replication & Consistency
RSF-1 maintains transaction-level consistency between independent controllers through continuous ZFS dataset synchronization. Each write operation is replicated in real-time, ensuring standby systems maintain current, consistent data ready for instant activation.
Pre-flight checks verify data integrity before failover activation, while automatic resynchronization reconciles any inconsistencies after network partitions or extended outages.
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