Deploy. Scale.
Relax.
Provision compute, NVMe storage, and secure networking in minutes—
no hardware to buy, no contracts to sign.
Performance-Built Foundation
Network Isolation
Strong network isolation ensures each Virtual Data Center operates within its own protected environment, with independent
network segments, resources, and policies. Workloads remain sealed off from external systems, maintaining consistent performance
and security.
Inline Deduplication
Always-on, hypervisor-wide deduplication eliminates redundant data globally across the infrastructure. This integrated approach
reduces capacity usage, network overhead, and CPU cycles—delivering higher efficiency without compromising I/O performance.
100% NVMe
Powered entirely by NVMe flash, the platform sustains low latency and steady throughput even under the most demanding
conditions. Direct integration with the hypervisor ensures predictable performance for any workload.
Resilient Snapshots
Immutable, space-efficient snapshots capture full copies of virtual machines or entire data centers instantly. They can be
retained indefinitely without performance impact, enabling rapid recovery from data loss, corruption, or ransomware events.
Unified Management
Configure compute, storage, and networking from a single interface. Define reusable policies and templates to provision consistently and reduce handoffs.
Schedule snapshot policies, execute restores, and roll back either a single VM or an entire virtual data center—all without context-switching.
Set role-based permissions, manage firewall rules, and configure advanced routing (OSPF/BGP) and site-to-site IPsec VPNs.
Frequently Asked Questions
Each Virtual Data Center is provisioned with defined allocations of compute, memory, and NVMe storage managed directly at the
hypervisor layer. These allocations can be scaled up or down at any time to align with workload requirements.
Each Virtual Data Center includes its own virtual network stack with stateful firewalls and advanced routing capabilities such as
OSPF, BGP, and IPsec site-to-site VPNs. This design enables customers to build complex, multi-tier network topologies without
requiring separate SDN licenses or third-party controllers.
KorGrid's platform uses distributed block-level redundancy across NVMe drives and nodes to maintain data integrity and availability.
When data is written, multiple replicas are created automatically, ensuring operations continue seamlessly in the event of a drive or
host failure, with recovery occurring in place and without manual intervention.
Typically, hosting providers won't guarantee that every workload runs on pure NVMe storage—most blend slower SATA or SAS tiers or
charge a steep premium for all-NVMe service. NVMe is critical for workload performance because it connects storage directly to the
PCIe bus, eliminating the latency and queuing overhead found in legacy storage interfaces. This results in dramatically faster I/O
response times, higher throughput, and consistent performance under load. KorGrid's architecture is NVMe-only from day one, so every
workload benefits from that speed and predictability without add-on pricing.
Yes. While the platform provides built-in snapshot and replication capabilities, customers can also mount NFS or S3-compatible targets
and use existing backup or DR software.
Because snapshots are immutable and accessible via standard protocols, third-party systems can protect or replicate data without
special plug-ins.
The system continuously monitors host and drive health.
If a failure occurs, virtual machines are automatically restarted on healthy nodes using predefined priorities.
Because the underlying storage and network states are preserved, recovery is immediate and predictable—often completing before users
notice an interruption.
The architecture scales linearly—organizations can start with a few nodes and expand seamlessly by adding capacity or compute as
needed.
Each addition becomes part of the same unified resource pool, maintaining consistent performance and efficiency as environments grow.