This page compares the OpenMetal Bare Metal Medium v5 against the AWS i4i.8xlarge, the closest EC2 instance by RAM and NVMe storage profile. The comparison is structural: tenancy model, billing
Tag: Comparison
Q: How does the OpenMetal Medium v5 compare to the Medium v4? Switching from the Medium v4 to the Medium v5 brings 113% more L3 cache per socket (48 MB
Q: What is the difference between the Intel Xeon Silver 4510 and the Intel Xeon 6505P? The Xeon 6505P (Granite Rapids, Intel 3 process) more than doubles the L3 cache
This page compares the OpenMetal Bare Metal Dedicated Server XXL v4 with the AWS x2idn.32xlarge and x2idn.metal — the closest AWS equivalents by RAM profile for high-memory, NVMe-accelerated workloads. Both
Q: What is the difference between the OpenMetal XL v4 and XXL v4? The OpenMetal XL v4 and XXL v4 share the same processor — dual Intel Xeon Gold 6530
Q: How does the OpenMetal XXL v4 compare to the AWS x2idn instance? The OpenMetal XXL v4 and AWS x2idn.32xlarge are both 2TB RAM platforms, but differ fundamentally in tenancy
OpenMetal offers two XL v4 bare metal configurations with the same chassis, the same 1TB DDR5 RAM, the same 25.6TB NVMe storage, and the same network tier — but fundamentally
Q: XL v4 vs XL v4 High Frequency: which OpenMetal bare metal server should I choose? Choose the XL v4 High Frequency when your workload’s critical path is serial —
Q: How does the OpenMetal XL v4 compare to AWS i4i instances? The OpenMetal XL v4 provides 64 dedicated physical cores, 1TB of persistent DDR5 RAM, and 25.6TB of persistent
This page compares the OpenMetal Bare Metal Dedicated Server XL v4 with the AWS i4i.metal — the closest AWS equivalent by RAM and NVMe storage profile. Both offer approximately 1TB
Q: What is the difference between the OpenMetal Medium v4 and Medium v4 TDX Edition? The Medium v4 TDX Edition is the same physical server as the standard Medium v4,
Q: How does the OpenMetal Medium v4 TDX Edition compare to the Large v4 TDX Edition? Both the Medium v4 and Large v4 TDX Editions run Intel TDX with 1
Q: How does the OpenMetal Medium v4 compare to AWS m7i instances? The Medium v4 provides 24 dedicated physical cores, 256 GB DDR5, and 6.4 TB persistent local NVMe on
Q: How does the OpenMetal Medium v4 compare to the Large v4 bare metal server? The Medium v4 and Large v4 share the same chassis and dual boot drive design
Q: How does the Medium v4 Hosted Private Cloud compare to the Large v4 cluster? The Medium v4 cluster provides 72 cores, 768 GB RAM, and 19.2 TB raw NVMe
This page compares the OpenMetal Medium v4 bare metal server against the AWS m7i instance family, the closest match by general-purpose Intel Xeon spec profile. The comparison is structural, not
Q: What is the difference between the OpenMetal Storage Medium v4 and Storage Large v4? Both servers share the same chassis, CPU, memory, and network configuration, but differ in drive
This page compares the OpenMetal Large v4 bare metal server against the AWS i4i instance family, the closest match by storage-optimized spec profile. The comparison is structural, not just price-vs-price:
Q: What is the difference between the OpenMetal Large v3 and Large v4 bare metal servers? The Large v4 replaces the Large v3 with a 40% higher base clock, 18%
Q: What is the difference between Intel TDX and SGX on OpenMetal servers? TDX isolates entire virtual machines at the hardware level, while SGX protects specific application code and data
Q: How does the OpenMetal Large v4 compare to AWS i4i instances? The Large v4 provides 32 dedicated physical cores, 512 GB DDR5, and 12.8 TB persistent NVMe on single-tenant
Q: How does OpenMetal’s Hosted Private Cloud compare to VMware for virtualization? OpenMetal’s Hosted Private Cloud runs OpenStack and Ceph on dedicated bare metal with zero licensing costs, replacing VMware’s