Huawei OceanStor Pacific is a data-center-level, intelligent, distributed storage series with superb scale-out and elastic scaling capabilities. It uses system software to organize local storage resources of storage nodes into distributed storage pools. It provides upper-layer applications with distributed file/object/HDFS/block storage services as well as a wide range of service functions and value-added features.
Adopts a fully symmetric distributed architecture and supports hardware node scale-out for linear expansion of system capacity and performance, eliminating the need for complex resource planning.
Enables three unstructured data storage services (file, object, and HDFS) to seamlessly interwork with each other, allowing a copy of data to be shared and accessed by all these services.
Uses an ultra-high density design to minimize the footprint, an ultra-large capacity design to store more data with fewer devices, and an ultra-high performance design to help customers stay ahead of the game with the use of all-flash storage.
Multi-protocol interworking for unstructured data, industry-leading performance, and intelligent management improve the efficiency in processing diverse data.
Solution-, system-, device-, and I/O-level reliability mechanisms ensure smooth processing of complex workloads.
The hardware, algorithm, architecture, solution, and business model are optimized to reduce the cost of mass data storage.
It is a high-density, all-flash distributed storage system. Each 5 U chassis houses a maximum of 8 storage nodes using all NVMe SSDs. It offers outstanding performance, capacity, and scalability to support performance-intensive unstructured data workloads.
It is an all-flash distributed storage system that houses 1 node per 2 U chassis. It offers outstanding performance and a flexible choice of component configurations to meet the access requirements of various structured and unstructured data workloads.
It is a high-density, large-capacity distributed storage system that houses 120 disks per 5 U chassis. It offers superb cost-effectiveness and scalability and supports large-scale unstructured data workloads.
It is a distributed storage system that houses 1 node per 4 U chassis. It offers a high capacity density and a flexible choice of component configurations to meet the access requirements of various structured and unstructured data workloads.
It is a distributed storage system that houses 1 node per 2 U chassis. It offers multiple device types and a flexible choice of component configurations to meet the access requirements of various structured and unstructured data workloads.