中经云率先在全球范围内提出超融合的光磁混合存储架构,首次将蓝光存储介质应用在冷数据存储领域,通过对冷热数据在不同介质间的智能分配,实现了冷数据的大规模、安全、高效、持久、低成本、低能耗存储。
CEI Cloud first put forward hyper-converged optical-magnetic hybrid recording architecture in the world, first applied blue-ray storage medium in cold data storage field, and achieved large-scale, safe, high-efficient, durable, low-cost and low-energy storage of cold data through intelligent allocation of cold and hot data in different mediums.
创新的光磁混合存储体系架构
Innovative Optical-Magnetic Hybrid Recording Architecture
超融合的光磁混合存储体系架构包含了逻辑计算集群、磁介质存储集群和大型光存储阵列。基于磁介质的缓存系统可大幅度提高整个系统瞬时的数据吞吐量,基于光介质的冷数据存储可以在很大程度上降低数据长期存储的开销,通过对两种介质的融合,取长补短,实现优秀的数据存储方案。
Hyper-converged optical-magnetic hybrid recording architecture comprises logic computing cluster, magnetic medium storage cluster and large optical storage array. Magnetic medium-based caching system can greatly improve the instantaneous data throughout of the complete system; optical medium-based cold data storage system can greatly lower long-term data storage cost. Through the integration of the two mediums, an excellent data storage scheme is achieved through making good for deficiency.
模块化光存储阵列机
Modularized Optical Storage Array Processor
光存储阵列机是针对冷数据大规模存储开发的数据中心级别的产品,可应对极端复杂电磁环境,比传统基于磁介质存储方式降低80%能耗,单机容量高达3PB。
Optical storage array processor is a data center level product developed aiming at mass storage of cold data. It is applicable to extremely complex electromagnetic environment, and can lower 8% energy consumption in comparison to magnetic medium-based storage mode. Unit capacity can maximally reach 3PB.
随着科技的不断发展,未来光存储介质的容量将会大幅度提高。这种以光介质为核心,磁电介质为辅助的数据存储解决方案,将成为未来大数据时代海量冷数据安全存储的避风港。
With the development of technology, the capacity of optical recording medium will be greatly improved. The data storage solution centered on optical medium and assisted by magneto-electricity medium will become the safe storage haven of mass cold data in the future period of big data.
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