The Inventec C805DG7 is engineered to deliver exceptional compute density and flexibility in a compact 2U dual-node design. Powered by 5th Gen AMD EPYC™ processors, each node operates independently, offering powerful multi-core performance and optimized energy efficiency. This architecture is ideal for organizations seeking to maximize rack utilization and reduce total cost of ownership while maintaining high performance across demanding AI, HPC, and enterprise workloads. With dual-node integration, the C805DG7 enables better fault isolation and resource flexibility, ensuring that workloads can continue seamlessly even when maintenance or failures occur in one node.
High-Performance Architecture with Flexible Expansion
The C805DG7 is designed to deliver balanced performance for compute-intensive workloads with support for 3DS RDIMM memory running up to 6400 MT/s. The enhanced memory bandwidth allows faster data handling and improves overall CPU responsiveness, ensuring smooth coordination between compute and acceleration tasks. Each node supports one FHFL single-slot GPU, providing the flexibility to boost targeted workloads such as AI inference, scientific visualization, or data analytics. With up to eight E1.S drives per node, the system enables fast, low-latency access to critical datasets for demanding applications. Featuring a high-efficiency air-cooling design and optional liquid cooling support, the C805DG7 ensures stable operation and thermal performance even in high-density data center environments.
Optimized for Space-Constrained, Scalable Deployments
The C805DG7 adopts a 2U 2-node design that maximizes rack density while maintaining outstanding compute efficiency. Its dual-node architecture enables independent operation and fault isolation, making it ideal for microservice and containerized environments where workload flexibility and uptime are critical. This design enhances scalability for horizontally distributed deployments and reduces total cost of ownership through improved power utilization and rack space efficiency. By delivering more compute capacity within a compact footprint, the C805DG7 is particularly suited to space-constrained data centers and edge locations that demand both resilience and cost-efficient scalability.
