XDAS FX-Series – Modular Host Design
Based on your needs and budget, select from 8Gb/s or 16Gb/s Fibre Channel, 1Gb/s or 10Gb/s iSCSI (either SFP+ or RJ-45), or 12G or 6Gb/s SAS host interfaces. The wide choices allows for great flexiblity in this product line. A company on a budget can start off with cheaper gigabit technology and later when they are able to afford faster technology they can swap modules for Fibre or 10G iSCSI. Host interface modules can be easily swapped and upgraded, making the new XDAS FX more future-proof than any of our prior DAS products.
Opening the server storage bottleneck
12Gb/s Serial Attached SCSI (SAS) technology enables a new performance, class of storage tiering that spans servers with solid state drives to hyperscale datacenter scale-out architectures. The interface doubles the data transfer rate of 6Gb/s SAS solutions, allowing SAS infrastructures to deliver bandwidth that exceeds that of PCI Express� 3.0 with a single host bus adapter (HBA).
12Gb/s SAS enterprise-proven solutions provide the connectivity, scalability, performance and manageability required for the most demanding enterprise storage applications. The products are designed to help customers maximize storage performance for I/O-intensive applications, web cloud datacenters and virtualized servers.
High Speed Performance and Flexible Scalability
Discover new standards of storage performance with up to 1.3M IOPs and 5,500 Mbps throughput. XDAS FX systems are excellent platforms for database and VDI applications thanks to ample computing power, and their massive bandwidth serves to enhance media editing and surveying jobs, freeing you from bottlenecks. When looking to expand storage, up to an extra 360 drives can be connected easily using appropriate JBOD enclosures.
High-Availability SAN Delivers Great Price/Performance
Data availability is critical to any business operation. XDAS FX-Series features high availability hardware design with redundant, hot-swappable components, such as RAID controllers, power supplies and cooling fans, to eliminate single point of failure. RAID protection ensures data accessibility during drive failure. In the event of a power outage, CacheSafe technology will automatically leverage power of the Battery Backup Unit (BBU) to safeguard cached data by writing it to the flash module for permanent retention.
Intuitive and Easy Management
Storage management should be simple. The XDAS FX-Series storage solution includes a comprehensive management software suite, SANWatch, to centrally manage multiple D-Series subsystems over a standard TCP/IP network. Status and event information summary can be viewed on the portal window. Necessary functions to configure, manage and monitor the D-Series are only a few clicks away. Besides providing all firmware features through a user-friendly GUI, SANWatch also supports script-based configuration of multiple XDAS subsystems simultaneously. Automatic critical event notifications can be customized to suit the most critical storage environment. SANWatch will guide users through initializing, configuring and maintaining the system every step of the way.
High Energy Efficiency
Contributing to environmental sustainability, the XDAS FX-Series storage solution enables energy cost-savings while maintaining performance. It is equipped with power saving designs such as high-efficiency power supplies, dynamic cooling mechanism and intelligent multi-level drive spin-down technology.
Dual redundant controllers
Default 16GB DDR4 Single Controller, 32GB DDR4 Dual Controller (2x8GB per controller)
Upgradeable with 16GB and 32GB modules / 128GB max
Cache Backup Techniques
Super Capacitor + Flash module
Maximum Drive of Numbers
Drive Advanced Features
S.M.A.R.T. support/ Automatic bad-sector reassignment/ Dedicated bandwidth to each connected drive
Availability and Reliability
Redundant, hot-swappable hardware modules/ CacheSafe technology/ Multi-pathing support/ Device mapper support
Various event notification methods including email and SNMP trap.
Windows Server 2008/ 2008 R2/ 2012/ 2012 R2/ 2016 (including Hyper-V), RedHat Enterprise Linux, SUSE Linux Enterprise, Sun Solaris, Mac OS X, HP-UX, IBM AIX, VMware, Citrix XenServer, OpenStack Cinder
Weight (Without HDDs)
SSD Cache leverages the high speed and low latency of solid state drives in delivering faster read performance where it counts most – in high demand, vital data that must be accessed frequently. The feature helps users to better cope with high I/O loads and growing storage capacity requirements while dramatically boosting performance. SSD Cache presents particularly attractive advantages in read traffic-intensive environments, for example online transaction processing (OLTP) and email (Microsoft Exchange).
Proprietary SSD Cache technology allows up to four SSDs per controller to be used as a high speed cache, with sizes of up to 3.2TB. This large cache capacity offers ample room for essential data and applications, which can be allocated to the SSD Cache pool. In terms of IOPS, SSD Cache runs up to 16 times faster than systems without SSD Cache in tests, and further reduces response time by as much as 88% in the same test.
In business-critical environments, users require strong protection for their valuable data sets. To help users protect data in the most efficient way, local replication leverages the power of XDAS storage systems to provide snapshot and volume copy/mirror capabilities. With space-saving snapshot copies, users can easily restore files or rollback data as necessary. With the full data copies, users can quickly restore service when a RAID-protected volume fatally fails.
|Included Local Replication|
|Snapshot||Snapshot images per source volume: 64
Snapshot images per system: 1024
|Volume Copy||Source volumes per system: 16|
|Replication pairs per source volume: 4|
|Replication pairs per system: 64|
|Advanced Local Replicaition Option|
|Snapshot||Snapshot images per source volume: 256
Snapshot images per system: 4096
|Volume Copy||Source volumes per system: 32|
|Replication pairs per source volume: 8|
|Replication pairs per system: 256|
|Instantly take point-in-time data images and use them as granular recovery points
while consuming minimum disk space and performance by storing only data changes
|Split and re-sync mirroring between source and copy as business needs require;
flexibly leverage independent copies of production data for secondary applications
Remote Replication Option
Remote replication leverages the power of storage systems to copy data between storage pools or systems in IP or FC SAN at different sites. When source data fails due to system malfunction or accidents, users can leverage the disk-based remote copy to restart service in minutes. If users would like to transfer responsibility back to the source, it can be quickly synced with the remote copy for only differentials. To further ensure the integrity of the remote data, remote replication allows users to protect the remote copy with snapshot technology. Granular snapshot images can help restore the corrupt remote copy in seconds when it is required to resume business service.
|Minimized unplanned downtime||Reduce recovery time after system failures; intact data copies at remote sites can be immediately used to support applications|
|Synchronous and asynchronous options for IP and FC SAN; users can split and
re-sync the mirroring between source and copy as needed and take snapshots
for remote data to enhance protection
|Achieve enterprise-class protection at affordable price points; companies with tight budgets do not need to compromise on data protection|
|Data compression||Leverage data compression for asynchronous remote replication for increased
Automated Storage Tiering
By enabling users to flexibly assign applications to four available tiers distinguished by different drive types and RAID levels, automated storage tiering provides an architecture that fully leverages the advantages of different storage media, including SSDs for high-performance data storage. With automated storage tiering, users can greatly optimize storage performance and increase ROI. As part of automated storage tiering, data is migrated between tiers based on data usage patterns and user-configured policies. With tiering implemented on the sub-volume level, data can be moved in a highly granular fashion. Data migration achieves efficient distribution of data, and ensures that SSDs and other high-performance drives have the necessary storage space to deal with mission-critical applications.
|By assigning applications to different tiers consisting of different drive types and RAID levels, users can easily meet wide variety of service level requirements|
|SSDs are used most efficiently in an automated storage tiering architecture to optimize performance by up to 150% at no additional costs compared to a non-tiered configuration|
|Automated features help IT managers spend much less time on assigning applications to storage media and migrating data|
Aberdeen brings an industry leading 5 Year Warranty to the table with every fully configured AberNAS rackmount server. Our custom configured rackmounts and along with our pre-configured Stirling line of servers and AberNAS network appliances come with a 5 Year Warranty standard unlike of some other companies’ 1 or 3 year warranties. Take advantage of the speed, storage and security of the AberNAS by Aberdeen.
Aberdeen offers a 30 day trial assessment program on completely configured servers and/or storage. We are so confident that once you try one of our custom configured rackmount servers you will not only be completely satisfied with the evaluation unit but will choose Aberdeen to fulfill all your future rackmount server needs.