Oracle Exadata X82 Datasheet _verified_ (DIRECT ›)

This deep dive article breaks down the comprehensive technical layout found within the official , reviewing its compute architecture, specialized storage server tiers, networking fabric, and breakthrough co-engineered software. Core Compute Architecture: The Database Servers

Two 16-core Intel Xeon 4214 processors for running Exadata Storage Server software. 2. Extreme Flash (EF) Storage Servers oracle exadata x82 datasheet

| Metric | Value | |--------|-------| | Max power consumption | ~12.5 kW (full rack with all PMEM+flash) | | Heat output | ~42,500 BTU/hr | | Input voltage | 200–240 V AC, 32A (single phase) | | Operating temp | 10–35°C | This deep dive article breaks down the comprehensive

Exadata X8M-2 storage servers are offered in two distinct configurations tailored to different workload profiles: Extreme Flash (EF) and High Capacity (HC). Feature / Component High Capacity (HC) Storage Server Extreme Flash (EF) Storage Server Balanced capacity and high performance Maximum IOPS, low latency, all-flash Persistent Memory 1.5 TB NVMe PMEM 1.5 TB NVMe PMEM Smart Flash Cache 25.6 TB NVMe Flash Fully allocated as primary flash storage Capacity Drives 12 x 14 TB 7.2K RPM Helium SAS HDDs 8 x 6.4 TB NVMe Flash Drives (additional) Raw Capacity Per Server 168 TB HDD + 25.6 TB Flash 51.2 TB All-Flash NVMe Extreme Flash (EF) Storage Servers | Metric |

The X8-2 uses a leaf-spine topology with low-latency Ethernet.

The evolution of database workloads has placed unprecedented demands on underlying hardware infrastructure. Modern enterprises require systems that can handle mixed workloads—high-concurrency OLTP transactions and complex analytical queries—simultaneously. Traditional server architectures often struggle with this duality due to I/O bottlenecks and CPU contention.