FAS9000 Unified hybrid flash storage. Dual controllers having Global cache of 1024GB. Scale out architecture. 1440 drive support per HA pair. FC ,FCoE ,iSCSI ,NFS, pNFS, CIFS/SMB.
Other Specifications Download Specification | |
---|---|
Usable Capacity Of SAN System | 250 TB |
Type Of Drive | SSD |
Minimum Number Of Front End Ports | 16 No. |
Minimum Number Of Back End Ports | 8 No. |
Minimum No. Of 10Gbps ISCSI Ports | 8 |
No Of Controllers Available In SAN System | 2 |
Total Configurable Global Cache Per Controller | 512 GB |
Drive Slot Scalability | 900 No. |
No Of Drive Slots Populated In The SAN System | 96 No. |
RAID Option | RAID 6 |
"Broad Specification Of Enterprise SAN Storage System : The Storage Systems Should Be Enterprise Class Storage System And Capacity Should Be Supplied Using SSD/ Flash Drives/SAS/NL SAS, In A Single Storage Array. The Storage Should Support Multiple Industry-standard RAID Levels Like RAID 5, RAID 6 Or Equivalent. The Storage Architecture Should Allow Creation Of Single Large Pool Of Disks Which Are Spanning Across Available Back End SAS Ports In Order To Wide Stripe Data Across All Available Controllers. The Storage Should Be Configured With Minimum 4 Nos. Of 10G Or Higher ISCSI/replication Ports, Rest Of The Ports Should Be 16G FC. Storage System Should Have Multiple Global Hot Spares. Minimum One Hot Spare Drive Should Be Provided For Every 50 Drives Over And Above The Proposed Capacity .The Storage System Should Be Offered With Global Cache Scalable Upto Minimum 2 TB, I.e. Entire Cache Shall Be Available To All LUNs/devices Across All Controllers As A Single Unit. Entire Cache Shall Be Dynamically Used For Read And Write Operations. (Total Cache Means Sum Of The Cache Memory Supported By All The Storage Controllers In The Storage. Cache Memory Of Any Other Device Will Not Be Considered To Calculate Cache Of The Storage). The Storage System Must Be Supplied With Hardware SAN Controller Based Data-at-rest-encryption And Internal Key Management Solution. The Storage Should Be With No Single Point Of Failure (SPOF). All The Components Should Be Redundant And Hot Swappable Including Power Supply, Back Plane, Fans, Batteries Etc. The Proposed Storage Must Support Non-disruptive Replacement Of Hardware Components. Architecture Shall Support Isolation Of Failed Components Automatically Without Rebooting/failing The Entire Controller For Sub-component Failures Like CPU/cores, Cache DIMM, Ports Etc The Storage Must Provide Non-disruptive Firmware/micro Code Upgrade, Device Reallocation And Configuration Changes. Storage Architecture Shall Allow New Microcode/Firmware To Be Effective Without Any Need Of Controller Reboot. The Storage System Shall Be Truly Symmetric Active-active Architecture, Providing Automatic Load Balancing Of I/O's Across All The Supplied Controllers, Paths And Seamlessly Balance The Load As Additional Pairs Of Controllers Are Added. Storage Array Cache Should Be Globally Shared And Mirrored Across Controllers That Are In Different Controller Pairs, And Not Just Across Controllers Within The Same Pair At All Times (during Normal Operations And During Any Controller Failures). The Storage Should Support Minimum 16 Point In Time Copy Of Single Source Device. License For Local Protection Should Be Bundled. Proposed Array Shall Support Synchronous Replication In Active-Active Mode Within Metro Distances. The Array Should Allow Read And Write Simultaneously At Both Sides Of The Metro Sites For The Same LUN. The Replication Solution Should Support Up To 24000 Volume / LUN Pairs For Remote Replication In Sync, Async Or Concurrent Sync And Async Topologies The Replication Solution Must Support Three-way Remote Replication In Both Concurrent And Cascaded Configuration For Zero-data-loss. It Should Be Possible To Change The Mode From Concurrent To Cascade Or Vice Versa " | In-compliance with the specifications |
SAN Switch | Not Available |
Hardware Form Factor Of SAN Switch | NA RU |
No Of SAN Switch Provided With The Sorage System | NA No. |
If Available, Type Of SAN Switch (@ 16 Gbps FC) | NA |
No Of Active Ports In The SAN Switch | NA No. |
Additional Capacity (Compatible With Main Usable Capacity Of SAN) | No |
If Yes, Additional Capacity Added | NA TB |
Type Of Drive Used To Achieve Additional Capacity | NA |
No. Of Drive Used To Achieve Additional Capacity | NA No. |
Capacity Of Each Drive To Achieve Additional Capacity | NA GB |
Protocols Supported By The Storage From Day 1 | FC, ISCSI, FCOE, CIFS, NFS |
Operating System Platforms And Clustering Supported By The Storage From Day 1 | Windows Server 2008/2012 (Enterprise Edition, SUN Solaris, HP-UX, IBM AIX, Enterprise LINUX etc. |
Support For NAS (Unified Storage) | Yes |
Deduplication | Yes |
Inline Compression | Yes |
Compatibility With Other Storage For The Purpose Of Replication | No |
Remote Replication And 3 Way DR Capability | Yes |
Operating Temp. Range | 5 to 45 Degree C |
Storage Temp. Range | 5 to 45 Degree C |
Operating Humidity (Rh) | 8 to 90 % |
Storage Humidity (Rh) | 8 to 90 % |
BIS Registration Under CRS Of MeiTY | Yes |
BIS Registration No ( Shall Be Furnished When Demanded By The Buyer) | To be shared on user request |
Storage System Is Compliance With Ipv 6 | Yes |
Standby Power Consumption Of System | 6219 BTU at 200V Watt |
Max Power Consumption Of System | 6505 BTU at 200V Watt |
Other International Certification | Yes |
If Yes, Type Of Certification & Certification No (Shall Be Furnished When Demanded By Buyer) | ISO |
Scope Of Supply | It includes installation, icommissioning & integration togather with all necessary software to make the system fully functional as intended. |
Warranty | 5 Year |
Hardware Form Factor Of SAN System | 16U RU |
Type Of Drive | SSD |
Capacity Of Drive | 3.8TB TB |
Deduplication /Inline Compression | Yes |