Data transmission costs can be a serious issue for companies, regardless of their
size. Neverfail Low Bandwidth Module (LBM), a data compression tool, greatly reduces
the bandwidth usage between two servers, thereby limiting networking costs. What's
more, Neverfail LBM can be implemented in both LAN and WAN environments, saving
time and resources that would otherwise be required to support disparate networks.
Neverfail Low Bandwidth Module reduces data volume by as much as 66%, helping
to drive significant cost reductions for efficient disaster recovery.
Neverfail Heartbeat — Enabling True High Availability
At the core of the Neverfail LBM solution is Neverfail Heartbeat.
This powerful technology enables the replication of data from the active to the
passive server, providing a high availability solution for
disaster recovery, business continuity
and continuous data protection.
In addition, Neverfail Heartbeat provides a unique architecture for true high availability.
Most clustering solutions only address certain types of failures. Other back-up and replication offerings focus only on recovering
hardware and data failures from a primary server. In contrast, the Neverfail Heartbeat architecture is unique in providing:
- The first high availability solution to
focus on the entire application environment, regardless of the type or source of disruption
- Automatic switchover that keeps users seamlessly connected, with no need for them to restart applications after failback
Easy to afford and easy to use
Neverfail LBM solutions:
- Reduce the requirement for costly, increased bandwidth
- Lower total cost of ownership for networking
- Substantially enhance data protection
- Optimize switchover times, performance and data throughput
- Eliminate costly external third-party products
- Improve application response time on congested WAN links
- Minimize the impact on your production network
Consider the advantages of low-cost, optimized data transmissions with Neverfail
LBM for efficient high availability and disaster recovery.
