High-RAM Offshore Dedicated Servers

Database performance is directly correlated with how much of your data fits in memory. A PostgreSQL server with a 100 GB database running on a machine with 128 GB RAM can keep the entire database plus indexes in shared_buffers and the OS page cache, delivering query performance orders of magnitude faster than disk-based access. When your database grows beyond what fits in your current memory, queries slow down dramatically as the database engine fetches data from storage instead of memory.

In-memory data stores like Redis and Memcached are used as caching layers for high-traffic applications, and their capacity is limited entirely by available RAM. A Redis instance with 64 GB of cached data needs a server with at least 80-90 GB RAM (accounting for overhead), and large-scale caching deployments may need 256-512 GB to cache enough data to meaningfully offload your backend database.

Virtualization hosts benefit from high RAM because each virtual machine requires its own memory allocation. A Proxmox or VMware host running 20 virtual machines, each with 8-16 GB RAM, needs 160-320 GB of host memory plus overhead for the hypervisor. Our high-RAM servers provide the memory density to consolidate many VMs onto a single physical host, reducing your infrastructure footprint and management complexity.

All AnubizHost dedicated servers use ECC (Error Correcting Code) memory, and this is especially important for high-RAM configurations. The probability of a memory bit error increases proportionally with the amount of installed RAM — a server with 512 GB has eight times the error probability of a server with 64 GB. Without ECC, these errors can corrupt application data, crash processes, or cause silent data corruption that propagates through your systems undetected.

ECC memory detects and corrects single-bit errors in real-time, transparently to the operating system and applications. Multi-bit errors (which are extremely rare) are detected and reported, allowing the system to halt gracefully rather than silently corrupting data. For workloads that depend on data accuracy — databases, financial calculations, scientific computing, or cryptographic operations — ECC is not optional, it is essential.

Our high-RAM servers use registered ECC (RDIMM) or load-reduced ECC (LRDIMM) memory modules depending on the platform. RDIMM is the standard choice for configurations up to 256 GB, providing excellent performance with minimal latency overhead. LRDIMM enables higher memory densities — up to 512 GB on single-socket platforms — by reducing the electrical load per DIMM slot, allowing more DIMMs per memory channel.

Intel Xeon Scalable processors support up to 4 TB of memory per socket on the latest generation, making them suitable for the most extreme memory requirements. Our Xeon-based high-RAM servers offer 128-512 GB configurations with high memory bandwidth thanks to eight memory channels per processor. These platforms are ideal for memory-intensive workloads that also need strong single-threaded performance.

AMD EPYC processors support up to 4 TB of memory per socket with eight memory channels, matching Intel on memory bandwidth while often offering more cores per dollar. Our EPYC-based high-RAM servers provide excellent value for workloads like virtualization and databases where both memory capacity and core count matter. The EPYC platform's large L3 cache also benefits memory-latency-sensitive workloads.

Dual-socket configurations are available for customers who need the absolute maximum — two processors mean twice the memory channels and twice the maximum memory capacity. A dual-socket AMD EPYC server with 512 GB RAM per socket could theoretically support 1 TB of total memory, though our standard offerings top out at 512 GB. Custom configurations with higher memory are available on request for specialized workloads.

Our 128 GB RAM tier includes AMD EPYC 7313P (16 cores) or Intel Xeon Silver processors, 128 GB DDR4 ECC RDIMM, 2x 1 TB NVMe in RAID 1, and 1 Gbps unmetered bandwidth. This configuration is the entry point for serious database servers, medium-scale Redis/Memcached caching, or virtualization hosts running 10-15 VMs. It handles most workloads that have outgrown 64 GB servers.

The 256 GB RAM tier features AMD EPYC 7443P (24 cores) or Intel Xeon Gold processors, 256 GB DDR4 ECC RDIMM, 4x 1 TB NVMe in RAID 10, and 1 Gbps unmetered bandwidth. This is our most popular high-RAM configuration, suitable for large database servers, extensive caching layers, busy virtualization hosts with 20-30 VMs, or memory-hungry applications like Elasticsearch and Apache Spark.

Our maximum 512 GB RAM configuration uses AMD EPYC 7763 (64 cores) or dual-socket platforms, 512 GB DDR4 ECC LRDIMM, 8x 1 TB NVMe in RAID 10, and 10 Gbps unmetered bandwidth. This is enterprise-grade infrastructure for the most demanding workloads — large-scale databases, massive in-memory caching, dense virtualization with 50+ VMs, or big data processing. All high-RAM configurations include DMCA-ignored policies, IPMI management, and cryptocurrency payment options.