Fully modular designed for hyper-converged application.
Multiple node modules configured on demand, easy and flexible re-configure on CPU computing and storage capacity.
Maximum support 4U 8-nodes with16pcs Xeon processors or 72-disk high-density storage mode.
Perfectly compatible with multiple hyper-converged software,provide an integrated solution.
Suitable for high-end enterprises, data centers, HPC and cloud computing and other application.
Modular Design , Configure on Demand
COTT-MPS408 adopts a fully modular design, including multiple module units such as chassis, computing module, balance module, storage module, power module, fan module, I/O, CMC centralized management, and network. Match different modules as needed to achieve a variety of combinations, quickly and flexibly deploy services, and easily realize rapid customization of IT infrastructure. And unified management through a minimalist interface effectively reduces the overall TCO.
High Performance and Density
The whole system supports 16 Intel® Xeon® Scalable series processors, and single node supports “2PCIe + 2HDDs” pure computing node module.
Single node can be flexibly matched with “4HDDs” or “3PCIe” pure computing node module.
Maximum 5 PCIe slots per node, providing multiple network interface options, providing flexible network structure for applications.
The hardware system use load balancing design, that PCIe expansion devices can be evenly deployed under two CPUs to achieve the ultimate optimization of application performance.
The COTT-MPS408 power supply and heat dissipation system use redundant design and intelligent temperature control to ensure energy-saving and stable operation of the system.
The multi-node modular design allows the HC408 to easily integrate multiple nodes and is suitable for rapid delivery of large-scale data centers.
Easy Maintenance and High Reliability
Unique hard drive drawer design and rail reinforcement technology, System supports total 72 large-capacity drivers, through two 36-HDD storage nodes，each 36 hard drives are deployed in a separate module. The power supply and hard disk controller are connected through the tank chain structure, and the system can keep running stably when the HDDs module is independently drawn out. Hot-swap maintenance can be performed without pulling out the server，These technologies have greatly improved maintainability. reduced disk resonance effects, and optimized overall heat dissipation.
◎ Supports 2x 2.5 “SAS / SATA hot-swappable hard drives in front of a single node
◎ Supports 4×2.5 “SAS / SATA hot-swap hard drives in front of a single node
◎ PCIe is not supported in the front panel, and 8 PCIe are supported in the rear I/O board
◎ Hot-swap hard drives are not supported in front of a single node
◎ 3x PCIe in front panel and 8 PCIe in rear I/O board