Cisco UCS S3260 M5 디자인 매뉴얼 - 페이지 28

{카테고리_이름} Cisco UCS S3260 M5에 대한 디자인 매뉴얼을 온라인으로 검색하거나 PDF를 다운로드하세요. Cisco UCS S3260 M5 35 페이지. Server with cloudian hyperstore object storage

Design Criteria

fragments which are stored on 6 different nodes, and the object can be decoded and read so long as any 4 of

those 6 fragments are available.

Erasure coding requires less storage overhead (the amount of storage required for data redundancy) and results

in somewhat longer request latency than replication. Erasure coding is best suited to large objects over a low

latency network.

Regardless of whether you use replication or erasure coding, if your Cloudian HyperStore system spans multiple

datacenters, for each storage policy you can also choose how data is allocated across your datacenters — for

example, you could have a storage policy that for each S3 object, store 3 replicas of the object in each of your

datacenters; and a second storage policy that erasure codes objects and stores them in just one particular

datacenter.

Supported Erasure Coding Configurations

Cloudian HyperStore supports EC, replicated EC, and distributed EC configurations.



This configuration requires a minimum 6 nodes across a single Data Centers (DC). This supports the

minimum data and parity fragments of (4+2) where 2 is the parity. Table 3 lists the default EC configuration

and the default number of nodes for a single DC.

Cloudian also supports 5 nodes EC as a custom policy – EC3+2.

Default EC Configuration and Default Number of Nodes

Nodes in the DC

4+2

6+2

8+2