Oracle Exadata X82 Datasheet
A: No. The product is Exadata X8M-2. The “82” likely arises from combining “X8” and “2-socket.” Search for “Exadata X8M-2 datasheet” for official documentation.
The Exadata X8-2 is available in various configurations, with the Quarter Rack serving as the base unit for scalability. The architecture is bifurcated into Database Servers (Compute Nodes) and Storage Servers (Storage Cells), interconnected by a high-speed, low-latency RDMA Network fabric.
The Oracle Exadata X8M (Database Machine X8-2) is Oracle’s eighth-generation Exadata system, introduced in late 2019. It represents a major architectural leap by integrating Intel Optane Persistent Memory (PMEM) and 100Gb/s Remote Direct Memory Access (RDMA) over Converged Ethernet (RoCE) to reduce storage latency from ~1ms to sub-20µs. The system targets mission-critical OLTP, real-time analytics, and mixed workloads.
Note: “X82” does not exist. The closest model is the X8-2 (two-socket database servers) or X8M-8 (eight-socket).
The Oracle Exadata X8-2 delivers a balanced mix of compute, flash, disk, and networking. Its hallmark features—Smart Scan offload, PMEM for redo acceleration, and 100Gb RoCE fabric—make it a formidable platform for mission-critical Oracle workloads. While newer generations exist, the X8-2 continues to provide enterprise-grade performance and reliability.
For exact configuration options and official support timelines, consult Oracle’s Hardware Support Policies or your Oracle representative.
Oracle Exadata X8-2 is an engineered system designed to deliver high performance for Oracle Database workloads, including OLTP, Data Warehousing, and mixed consolidation. It features a scale-out architecture with database servers, intelligent storage servers, and high-speed networking. Database Server Specifications
Each X8-2 database server is a 1U rack-mount server optimized for compute-intensive tasks. www.spectra.com Processors: Two 24-core Intel® Xeon® Platinum 8260 processors (2.4 GHz). 384 GB DDR4 RAM (standard), expandable up to
4 x 1.2 TB hot-swappable boot drives (hard disks), expandable to 8 drives. Networking: Internal Fabric: 2 x InfiniBand 4X QDR (40 Gb/s) ports. Client/Backup: 10/25 GbE (SFP+/SFP28) or 10GBASE-T options.
Management: 1 x 1 GbE administration port and 1 x 1 GbE ILOM port. Storage Server Options
The X8-2 introduced three distinct storage server types to balance performance and cost. High Capacity (HC):
Includes 12 x 14 TB SAS disk drives (168 TB raw) and 4 x Flash Accelerator F640 NVMe PCIe cards (25.6 TB raw flash). Extreme Flash (EF): oracle exadata x82 datasheet
Contains only flash storage for the highest I/O performance. Extended (XT):
Designed for low-cost, long-term data retention with 12 x 14 TB SAS disks and no flash. Key Performance Features Exadata Database Machine X8M-2 - Oracle
The Oracle Exadata X8 series represents a significant leap in database performance, integrating specialized hardware with intelligent software to optimize Oracle Database workloads. The generation is split into the standard X8-2 (InfiniBand-based) and the X8M-2 (introducing RDMA over Converged Ethernet, or RoCE). 1. Core Hardware Specifications
Both the X8-2 and X8M-2 utilize powerful 2-socket database servers designed for high-density compute.
Processors: 2 x Intel® Xeon® Platinum 8260 Processors (24 cores each, 48 cores total per server).
Memory: Standard 384 GB RAM, expandable up to 1.5 TB per database server. Internal Storage: 4 x 1.2 TB hot-swappable boot drives. Networking: X8-2: Uses 40 Gb/s InfiniBand for the internal fabric. X8M-2: Uses 100 Gb/s RoCE (RDMA over Converged Ethernet). 2. Storage Server Options
Exadata offers three storage server tiers to balance performance and cost. Storage Tier Components per Server Extreme Flash (EF) 8 x 6.4 TB NVMe Flash Drives (51.2 TB raw) Ultra-low latency, high-IOPS workloads. High Capacity (HC) 12 x 14 TB SAS Disks + 4 x 6.4 TB Flash Cards Balanced performance and massive capacity. Extended (XT) 12 x 14 TB SAS Disks (No Flash) Low-cost storage for cold or historical data. Exadata Database Machine X8M-2 - Oracle
The Oracle Exadata Database Machine X8-2 is an enterprise-grade database platform engineered to deliver extreme performance, scalability, and availability for all Oracle Database workloads. By integrating high-performance compute, scale-out storage, and a low-latency network fabric, the X8-2 provides a pre-configured and pre-tested environment optimized for both Online Transaction Processing (OLTP) and Data Warehousing (DW) applications. Core Hardware Specifications
The X8-2 utilizes a powerful two-socket architecture for its database servers, featuring significant enhancements over previous generations in terms of processing power and local storage capacity.
Database Servers: Each server is powered by two 24-core Intel Xeon Platinum 8260 processors (2.4 GHz).
Memory: Standard configuration starts at 384 GB DDR4 RAM, expandable up to 1.5 TB per server. A: No
Local Storage: Features four 1.2 TB hot-swappable boot drives, a 100% increase over prior generations to better support consolidated virtual machine environments.
Internal Networking: Uses a 40 Gb/second (QDR) InfiniBand network to connect all internal components with high bandwidth and low latency. Storage Server Configurations
The Exadata X8-2 employs a scale-out storage architecture with three distinct server types to meet varying capacity and performance requirements. Exadata - Database Platform - Oracle
The Oracle Exadata X8-2, launched in April 2019, is an engineered system designed for maximum database performance, featuring Intel Xeon 8260 processors, improved storage, and enhanced Smart Scan technology. It provides up to 60% higher I/O throughput than previous models and includes specialized storage options to support varied enterprise workloads. For more details, visit Oracle's datasheet
What are the performance improvements of Exadata X8-2 over previous generations? I want to see a performance comparison table What are the key components of the Exadata X8-2 oracle exadata database machine x8-2
Lena’s hands were trembling. Not from fear, but from the weight of a single piece of paper.
It was the original Oracle Exadata X8-2 datasheet, printed on heavy, heat-resistant stock. In the year 2147, paper was a relic. Data sheets were neural streams. But this one had survived a solar flare that had wiped the central archives.
“Talk to me, old ghost,” she whispered, flattening the creased page under a cracked magnifier.
The specs were absurdly ancient. Intel Xeon processors. 25GB per second read bandwidth. 288GB of memory per server.
Her crewmate, Jax, laughed from the reactor core. “That’s your treasure? That’s a museum fossil. My wristwatch has more compute.”
“You don’t understand,” Lena said, tracing a footnote with her finger. “Look at the storage section. ‘Eighteen 6.4TB NVMe flash cards. 4.2 million IOPS.’” Note: “X82” does not exist
Jax stopped laughing. “That’s… pathetic. A drone has a petabyte.”
“Exactly,” Lena said. “It’s pathetic now. But read the fine print: ‘Maximum database throughput: 6.4 terabytes per second.’”
Outside their salvage shuttle, the derelict colony ship Oracle’s Ark drifted silently. Two weeks ago, it had been swallowed by a quantum fog—a data-eating virus that turned solid-state memory into static. Every modern ship that tried to rescue it had died. Their AI cores fried. Their exabyte drives reduced to white noise.
But the X8-2? It ran on brute force. Parallel hardware. Direct memory access. No quantum entanglement, no fragile AI handshakes.
“The virus expects a modern architecture,” Lena murmured. “But this old Exadata doesn’t speak the virus’s language. It speaks SCSI commands and raw flash blocks. It’s immune because it’s too stupid to infect.”
She slid the datasheet into the ship’s log. “Plot a course. We’re going to board the Ark, rip out the old X8-2 storage server from the cargo bay, and boot it cold.”
“That thing hasn’t run in sixty years,” Jax warned.
Lena smiled, tapping the datasheet’s header: “Oracle Exadata X8-2. Extreme performance. Mission-critical reliability. Designed to run forever.”
“Let’s find out if Oracle was lying.”
Epilogue: They found the X8-2 buried under a century of dust. Lena connected a portable battery. The fans screamed like a jet engine. The green lights blinked once, twice, then held steady.
The virus hit the old machine—and bounced.
The datasheet, frayed and yellowed, had been right. Sometimes the old giants don’t roar. They just keep grinding, one I/O at a time, long after the stars go cold.