What Are the Differences Between OBS, EVS, and SFS?
Table 1 compares OBS, EVS, and SFS.
|
Dimension |
OBS |
EVS |
SFS |
|---|---|---|---|
|
Concept |
OBS provides massive, secure, reliable, and cost-effective data storage for users to store data of any type and size. |
EVS provides scalable block storage that features high reliability, high performance, and robust specifications for ECSs to meet service requirements in different scenarios. An EVS disk is similar to a hard disk on a PC. |
SFS provides on-demand high-performance file storage, which can be shared by multiple ECSs. SFS is similar to a remote directory for a Windows or Linux machine. |
|
Data storage logic |
Stores objects. Files can be stored directly to OBS. The files automatically generate corresponding system metadata. You can also customize the metadata if needed. |
Stores binary data and cannot store files directly. To store files on an EVS disk, you need to format the file system first. |
Stores files. Data is sorted and displayed in files and folders. |
|
Access mode |
You can access OBS over the Internet or using Direct Connect. Just specify the bucket address and use a transmission protocol, for example, HTTP or HTTPS. |
EVS disks need to be attached to an ECS or BMS and initialized before they can be used and accessed by your applications. |
SFS systems need to be mounted to an ECS or BMS and then they can be accessed using NFS or CIFS protocols. A network address must be specified or mapped to a local directory for access. |
|
Application scenario |
Big data analysis, static website hosting, online video on demand (VoD), gene sequencing, and intelligent video surveillance |
HPC, enterprise core cluster applications, enterprise application systems, and development and testing
NOTE:
HPC: High-speed and high-IOPS storage is required, such as industrial design and energy exploration. |
High-performance computing (HPC), media processing, file sharing, content management, and web services
NOTE:
HPC: High bandwidth is required for shared file storage, such as gene sequencing and image rendering. |
|
Capacity |
Exabytes |
Terabytes |
Petabytes |
|
Latency |
Milliseconds |
1 to 2 ms |
3 to 10 ms |
|
IOPS/TPS |
Tens of millions |
128,000 for a single disk |
10,000 for a single file system |
|
Bandwidth |
TB/s |
MB/s |
GB/s |
|
Data sharing supported |
Yes |
Yes |
Yes |
|
Remote access supported |
Yes |
No |
Yes |
|
Online editing supported |
No |
Yes |
Yes |
|
Used independently |
Yes |
No |
Yes |
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