FDC VPS is optimized for real workloads. Here's the proof.
View Plans →Real benchmark data from our infrastructure, tested with industry-standard tools.
NVMe storage performance
Maximum memory capacity
High-Performance Tier
US, EU, Asia coverage
We benchmark all VPS tiers with real-world tools like YABS, fio, and iperf. No inflated specs. Customers can review or reproduce our test methods anytime.
Standardized CPU performance benchmark measuring single-core and multi-core workloads.
Industry-standard I/O performance measurement tool
Network bandwidth and throughput validation
Different FDC VPS plans are built with different performance characteristics by design. The benchmarks below show how each tier performs under real-world conditions, helping you select the plan that best matches your needs.
Best for databases, file operations, and storage-heavy workloads
Ideal for handling concurrent users, background jobs, and application logic
Designed for traffic-heavy applications, streaming, and data transfer at scale
Best for latency-sensitive app logic and fast request handling
Each VPS tier is designed for different workload requirements. Use the sustained performance data below to understand which plan matches your application's needs.
How each VPS tier performs during continuous, real-world workloads
Ideal for testing, development environments, small websites, and lightweight services where cost efficiency matters most.
Balanced mix of CPU, storage, and network performance for production websites, APIs, and growing SaaS applications.
Designed for demanding workloads like databases, high-traffic platforms, analytics, and compute-intensive tasks requiring sustained performance.
| Workload | S-tier | R-tier | H-tier |
|---|---|---|---|
| Personal websites | – | ||
| Production websites | – |
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| Databases | – |
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| High traffic APIs | – |
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| Analytics / batch jobs | – | – |
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VPS platforms are built with different priorities in mind. Some focus on burst flexibility and elasticity, while others prioritize sustained performance and predictable behavior in production.
Understanding these differences helps you choose the right platform for your workload — and avoid surprises later.
Optimized for flexibility and short-term spikes
Handle short traffic spikes efficiently
High burst, shared allocation
Optimized for peak tests
Transfer-based or burst-limited
Complexe, resource-based
Dev, testing, low-duty workloads
Optimized for consistent, sustained performance
Deliver consistent performance under load
Predictable, sustained allocation
Optimized for continuous I/O
Unmetered ports
Flat rate
Production apps, APIs, databases
Burstable VPS platforms may feel fast initially but can slow down under sustained load.
Production-focused VPS platforms are designed to remain consistent as traffic, disk I/O, and background jobs increase.
Neither approach is universally better — the right choice depends on how your application actually runs.
The benchmarks shown above reflect sustained performance on live FDC VPS instances. They are designed to illustrate how different VPS tiers behave under continuous, real-world workloads — not short-lived peak conditions.
A burst-oriented or fully managed cloud platform may be a better choice if you need:
Rapid autoscaling across many regions
Deep integration with managed cloud services
Mostly idle workloads with occasional spikes
Trusted by developers, agencies, and businesses worldwide for mission-critical applications.
Full OS control with complete administrative privileges
Automated backup solutions included at no extra cost
Advanced dashboard tools for monitoring and management
Static IP addresses included with every VPS plan
Multiple deployment regions across EU, US, and Asia
Used by SaaS developers, resellers, and agencies
Experience verified performance with transparent benchmarks. Deploy your VPS and see the difference real data makes.
Choose Your Plan