Fast Anonymous Hosting — Speed Meets Privacy

Speed in hosting comes from three factors: CPU performance, storage throughput, and network quality. AnubizHost optimizes all three. Our servers run the latest Intel Xeon Scalable and AMD EPYC processors with high single-thread performance for latency-sensitive workloads and high core counts for parallel processing tasks.

Every server in our fleet uses NVMe SSD storage exclusively. NVMe drives deliver sequential read speeds exceeding 3,500 MB/s and random IOPS above 500,000 — orders of magnitude faster than traditional SATA SSDs and incomparably faster than spinning hard drives. Database queries, file operations, and application loading all benefit from this storage performance.

Network connectivity uses multiple Tier 1 transit providers and direct peering at major internet exchanges. We optimize BGP routing for the lowest possible latency to major population centers, and our network engineering team actively monitors and adjusts routing to avoid congestion and suboptimal paths.

Counterintuitively, anonymous hosting providers can sometimes deliver better performance than mainstream providers. We do not run content scanning systems, deep packet inspection, or traffic analysis tools on our network. These systems consume CPU cycles, add latency to network paths, and create bottlenecks during peak traffic periods. By not monitoring your traffic, we eliminate this overhead.

We also do not run customer identity verification systems that consume server resources. No document upload processing, no facial recognition comparison, no address validation API calls. Every CPU cycle and every byte of bandwidth goes toward serving your workload, not toward surveillance infrastructure that slows everything down.

Our infrastructure is purpose-built for performance and privacy. We do not maintain data lakes of customer behavior, do not run analytics on traffic patterns, and do not feed usage data into machine learning models. The hardware runs your workload and nothing else — which is exactly how a hosting provider should operate.

Our VPS instances consistently benchmark above industry averages. Typical Geekbench 5 single-core scores exceed 1,200 points on our AMD EPYC-based plans and 1,100 on Intel Xeon plans. Multi-core performance scales linearly with allocated vCPUs, indicating clean resource isolation without noisy neighbor effects.

Storage benchmarks using fio show sequential read performance of 2,000-3,500 MB/s and sequential write performance of 1,500-3,000 MB/s depending on the plan and storage configuration. Random 4K read IOPS exceed 100,000 on all NVMe plans, which is the metric that matters most for database and application performance.

• CPU: Geekbench 5 single-core 1,100-1,200+
• Storage: Sequential read 2,000-3,500 MB/s (NVMe)
• Storage: Random 4K IOPS 100,000+ (NVMe)
• Network: 1 Gbps guaranteed, 10 Gbps available
• Latency: Sub-1ms within datacenter, 6-80ms to major cities

Beyond the hardware, there are several steps you can take to maximize your server's performance. Enable HTTP/2 or HTTP/3 on your web server for multiplexed connections and header compression. Configure server-level caching with Redis or Memcached to reduce database load. Use a CDN for static assets — many CDN providers accept anonymous signups.

For database-heavy applications, ensure your database server has sufficient RAM to hold the working set in memory. Configure query caching and optimize your schema with proper indexes. On our NVMe storage, database performance is excellent, but proper optimization still makes a significant difference under high load.

Network performance can be optimized by enabling TCP BBR congestion control, which is available in modern Linux kernels and provides significantly better throughput than traditional congestion control algorithms, especially on high-latency paths. Enable TCP Fast Open to reduce connection establishment latency for returning visitors. These kernel-level optimizations are free and take minutes to configure.