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| Part No: | FESBI-612B-1NE34-01-G2 |
| Manufacturer No: | SBI-612B-1NE34-01-G2 |
| Delivery: | In Stock: 7-10 Days |
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The Supermicro SBI-612B-1NE34-01-G2 SuperBlade SuperServer is a high-density blade server platform designed around modular compute nodes that share chassis-level power, cooling, and networking. Each blade node operates independently while fitting into a compact 6U enclosure, supporting workloads that require consistent compute performance, scalable memory bandwidth, and efficient rack utilization. With support for DDR5 memory speeds up to 6400 MT/s and modern Intel Xeon processor architecture, it is suited for clustered computing environments where multiple nodes work in parallel.
Each blade node is built for independent operation while benefiting from the shared SuperBlade chassis design. This structure allows multiple servers to operate side by side, supporting parallel workloads and distributed processing tasks without requiring separate physical servers for each node.
The platform supports DDR5 ECC memory with high-frequency operation up to 6400 MT/s under ideal channel population. A 128GB per node configuration provides a balanced memory footprint suitable for virtualization, analytics, and compute-focused workloads that rely on consistent bandwidth.
The blade design concentrates multiple compute nodes into a single chassis, reducing rack space requirements while maintaining separation between workloads. This approach allows scaling of compute capacity without expanding physical footprint significantly.
The Supermicro SBI-612B-1NE34-01-G2 SuperBlade SuperServer is a high-density blade server platform designed around modular compute nodes that share chassis-level power, cooling, and networking. Each blade node operates independently while fitting into a compact 6U enclosure, supporting workloads that require consistent compute performance, scalable memory bandwidth, and efficient rack utilization. With support for DDR5 memory speeds up to 6400 MT/s and modern Intel Xeon processor architecture, it is suited for clustered computing environments where multiple nodes work in parallel.
Each blade node is built for independent operation while benefiting from the shared SuperBlade chassis design. This structure allows multiple servers to operate side by side, supporting parallel workloads and distributed processing tasks without requiring separate physical servers for each node.
The platform supports DDR5 ECC memory with high-frequency operation up to 6400 MT/s under ideal channel population. A 128GB per node configuration provides a balanced memory footprint suitable for virtualization, analytics, and compute-focused workloads that rely on consistent bandwidth.
The blade design concentrates multiple compute nodes into a single chassis, reducing rack space requirements while maintaining separation between workloads. This approach allows scaling of compute capacity without expanding physical footprint significantly.
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