Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
HP 708687-001 ProLiant DL585 G7 4x AMD Opteron 6376 16-Core 2.30GHz CPU 4U Rack Server
- Model: HP ProLiant DL585 G7
- Form Factor: 4U Rack Server
- Processors: 4x AMD Opteron 6376 16-Core 2.30GHz
- SKU: 708687-001
- Massive core count (64 cores total) for unparalleled parallel processing.
- Ideal for heavy virtualization, HPC, and large-scale data analytics.
- Designed for maximum throughput and density.
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
The HP 708687-001 is a ProLiant DL585 G7 4U Rack Server featuring four AMD Opteron 6376 16-Core 2.30GHz processors. It is designed for extreme multi-threaded performance and high-density computing.
Technical Information
| Model | HP ProLiant DL585 G7 |
| Form Factor | 4U Rack Server |
Additional Specifications
| Processors | 4x AMD Opteron 6376 16-Core 2.30GHz |
| SKU | 708687-001 |
Product Description
The HP ProLiant DL585 G7 server, SKU 708687-001, is a powerhouse designed for the most demanding enterprise workloads. This 4U rack server is configured with an extraordinary four AMD Opteron 6376 processors, each featuring 16 cores running at 2.30GHz, resulting in a total of 64 cores. This configuration is built for extreme parallel processing and high-density computing. This server is engineered to handle massive multi-threaded applications, making it ideal for large-scale virtualization, high-performance computing (HPC), complex simulations, and big data analytics. The DL585 G7 platform provides the scalability and reliability required for mission-critical operations in large data centers. With its unparalleled core count and robust architecture, the HP 708687-001 offers exceptional performance per watt and per rack unit. It represents a top-tier solution for organizations that require the utmost in processing power and density to drive their most intensive computational tasks.
