AegisSAN Q500-F200 pages
AegisSAN Q500
Zero downtime optimized throughput for Mid-range and SMB
Dual Active controller for high availability
Fully redundant and hot-swappable design
16G/8G FC & 10GbE/GbE iSCSI interface
Expandable over Peta-Byte capacity
SSD Caching, up to x18 performance gain
QiSOE 2.0, up to x1.6 IOPS
Fast Rebuild, > 50% less rebuilding time
80 Plus Gold PSU, > 92% power eciency
AegisSAN Q500 Highlights:
Optimized Performance
Simplied Management
AegisSAN Q500 are optimized for demanding
high-throughput applications. It can deliver more
than 6,000MB/s for throughput requirements.
Qsan innovated USB LCM can avoid data leakage
in data centers and lower IT management eort.
With QiSOE 2.0, it can deliver up to x1.6 IOPS for
both iSCSI and Fibre Channel especially for small
block size applications.
Java-based QCentral – a centralized management
software to quick access all Qsan storage units
plus intuitive user interface, makes storage
management easier.
Designed for Availability
Maximized for Scalability
Hardware RIAD, dual active controller design, battery
backup module for cache, plus fully redundant &
modular hardware components to make sure
no-single-point-of-failure possibilities.
Connecting with dual path, fully redundant & hot
swappable design expansion unit J300Q, AegisSAN
Q500 can scale up to 256 drives for more than 1PB
capacities.
Multi-path and load-balancing design to ensure
non-stop service with host server.
With Thin Provisioning, it is exible to add SAS or
SATA drives when they are actually needed.
Benets to IT Applications
Better Power Eciency
Snapshots and Remote Replications to protect your
data and simplify disaster recovery.
New Fast Rebuild solution can reduce more that
50% RAID5/6 rebuilding time.
AegisSAN Q500 is equipped with 80 Plus Gold
power supplies to achieve greater than 92% energy
eciency as well as peak reduction and improved
power quality.
Up to 2.4TB, SSD Caching can boost at most x18
performance gain.
Inbuilt with Intel low-power processor (14W) to
balance the performance and power consumption.