Start by choosing the perfect solution from our services
Dedicated servers for big data storage
Powerful, cost-effective solutions for Big Data, archiving, and analytics. Build your own configuration
The ideal solution for your workloads
Big Data and AI/ML
For training models and working with large datasets. High read/write performance
Archiving and backups
Reliable, cost-effective storage for "cold" data on HDD arrays
Media storage
For studios, marketplaces, and media services. Fast access to content.
Hosting and SaaS platforms
Storage for thousands of users' data with guaranteed fault tolerance
Get started in 4 steps
1
Selection
You pick a configuration in the widget or with help from our engineer
2
Service setup
Sign up in billing and pay online or under contract
3
Deployment
We provision and configure the server for your workloads (24-48 hours)
Access
You receive access details. You can start migrating data
Dedicated server or cloud: which pays off?
With a dedicated server you get full control, high performance, and data security without cloud limitations
Best value
Dedicated
server
Security
Hardware isolation
Control
Full root access
Performance
Maximum, guaranteed
Cost at 50+ TB
Fixed, better value
S3
Cloud storage
Security
Virtual isolation
Control
Limited
Performance
Variable, depends on neighbors
Cost at 50+ TB
High, pay per capacity
Frequently asked questions
Which disk type should I choose: HDD, SSD, or hybrid?
The right choice depends on your workloads and budget. Here is a quick guide:
HDD (hard disk drives):
Ideal for: "cold" data, long-term archives, backups, and media files where capacity matters more than speed.
Pros: Lowest cost per GB, large capacities (up to 16–22 TB per drive).
Cons: Lower read/write speeds.
SSD (solid-state drives):
Ideal for: "hot" data, high-performance databases (ClickHouse, PostgreSQL), Big Data, AI/ML, caching tiers, and virtualization.
Pros: Very high speeds (often tens of times faster than HDD), low latency, no moving parts.
Cons: Higher cost per GB.
Hybrid systems (HDD + SSD/NVMe):
Ideal for: Mixed workloads. For example, frequently used data can sit on fast SSD cache while bulk data stays on cost-effective HDDs.
Pros: Balanced price/performance for heterogeneous tasks.
How do I migrate my data to your server? Do you help?
We provide a powerful, secure, fully managed dedicated data-storage server with guaranteed durability and fault tolerance.The actual data migration is carried out by the client. That keeps security and control maximal at the critical stage of moving your information. Only you or your trusted specialists have full access to source data and know its structure and sensitivity.How we can help:
Free consultation and guidance. Open a ticket in the billing portal with your data volume, preferred migration method (e.g. FTP, SFTP, rsync, VPN tunnel), and speed requirements. We will prepare the server, grant the required access, and provide detailed instructions for safe data upload.
Recommendations. If you need help organizing the process, we can refer you to vetted IT integrators who will perform the migration professionally.
You get a ready, reliable storage platform with full access tools, and our expert support keeps integration clear and safe.
What RAID options do you offer?
We configure all popular RAID levels on hardware controllers with cache and battery backup (BBU) to protect data during power loss.
RAID 10 (recommended): Speed plus redundancy. Mirroring and striping. Requires an even number of disks. High performance and fault tolerance (can survive failure of up to half the disks in each mirrored set).
RAID 6: Best for large HDD arrays. Dual parity survives any two simultaneous disk failures without data loss. More space-efficient than RAID 10, but slower writes.
RAID 5: Classic choice for SSDs or HDD arrays up to 6–8 disks. Tolerates one disk failure. Good balance of capacity, speed, and reliability.
RAID 60 (RAID 6+0): For very large arrays (20+ disks). Combines RAID 6 resilience within each group with RAID 0 striping across groups.
Our engineers will help you pick the optimal RAID level based on disk count, required fault tolerance, and workload profile.A hardware RAID controller is an optional add-on.
How is data loss protection implemented?
We provide layered protection, but remember: RAID is not a substitute for backups! Our approach rests on three pillars:
Hardware fault tolerance (server level):
RAID arrays (see above) to protect against disk failures.
Servers with redundant power supplies.
Backups (your responsibility with our support):
We provide tooling and guidance to configure automated backups.
We can offer remote backup—your data is copied regularly to separate, geographically distributed storage to guard against catastrophic failures.
Infrastructure resilience (data-center level):
Server disks are continuously monitored with S.M.A.R.T. to predict failures.
Data centers have redundant power (UPS, diesel generators) and cooling.
Together this creates an environment highly resistant to outages and gives you everything you need to build a full backup strategy.
Can I scale the server after ordering?
Yes—several flexible scaling paths are available:
Vertical scaling (more capacity in the same server):
Disks: Servers usually have free bays—you can add HDDs or SSDs easily to grow capacity.
Memory and CPUs: Many configurations allow more RAM or a CPU upgrade.
Horizontal scaling (adding servers):
If you outgrow one machine, we can provide additional servers quickly and help set up a clustered or distributed file system (e.g. Ceph, GlusterFS).
Scaling is handled transparently: you submit a request, we align on the work plan (often with minimal downtime), and complete it as fast as possible.
