Yes, both NetScaler VPX or MPX appliances support High Availability (HA) configurations.
NetScaler VPX and MPX servers are not redundant, unless configured in HA mode with a partner. As part of your back up and recovery strategy, it is highly recommended to deploy an HA environment when using NetScaler VPX or MPX appliances.
It is also important to provide redundancy for other hardware and software components. For example, power supplies and local disk drives may not have redundancy. A failure in these components may result in data loss.
Yes, this feature is known as NetScaler Gateway™ and is included in all editions. For more information regarding this feature please visit Citrix website: http://support.citrix.com/proddocs/topic/netscaler-getting-started-map-93/ns-hrdwre-ns-editions-con.html
Load balancing traffic has become a key aspect of many customer implementations as it distributes application requests and loads over multiple servers. It also provides a number of benefits to the overall topology including:
- Security. Logical isolation of the application servers is created or traffic requests denied based on IP protocols and port numbers.
- High-availability. Content is replicated to a pool, or group of servers, guaranteeing its availability to hosts.
- Scalability. Additional servers can be added as demand increases, enabling the load balancer to distribute the workload over the additional servers.
- Efficiency. Workloads are dynamically distributed when load balancing is configured. For example, resources like CPUs can be used in a more efficient ways.
Two types of load balancing schemes can be used within the SoftLayer cloud:
- Local Load balancing. SoftLayer load balances traffic among two or more servers by using industry-standard techniques, such as round robin, lowest latency, and least connections. The embedded service is enabled and managed directly through the SoftLayer Control portal. The features of the local load balancer are relatively basic and simple; customers do have the option of using another vendor’s, such as NetScaler, load balancer.
- Citrix NetScaler VPX. NetScaler VPX load balances traffic between servers in SoftLayer data centers through Citrix’s cloud rendering engine. It is also possible to do a custom install using an infrastructure owned by the customer (i.e., virtual servers, bare metal servers). Click here to learn more about NetScaler VPX.
Citrix NetScaler is an application delivery controller that makes applications five times better by accelerating performance, ensuring application availability and protection and substantially lowering operational costs. We offer NetScaler on the VPX platform. Choose the best Citrix NetScaler edition that meets your application requirements, and deploy it on the right dedicated system for your performance needs. Cost effectively deploy the same L4 load balancing, L7 traffic management, TCP and SSL offload, content caching and compression and web application firewall functionality used by the largest websites in the world. To learn more about Citrix Netscaler, refer to the NetScaler page on the Citrix website.
Yes. Both IPv6 and IPv4 are supported on the SoftLayer public network.
Yes, the NetScaler is the only SoftLayer load balancing product that extends into the private network.
Yes, the Use Source IP (USIP) parameter can be set to "YES" within the NetScaler Advanced Management Interface to allow reporting of the client's source IP instead of that of the NetScaler.
Enabling the USIP address mode on the appliance adds flexibility to the appliance to use the client IP address, available in the IP header, when communicating to the server. By enabling this mode, the appliance opens server connections with the client IP address and also factors the client IP address in connection reuse. Therefore, this mode facilitates limited reuse per client based on client IP address.
The NetScaler MPX 11515, 11520, 11530, 11540, 11542. Please contact Sales for pricing information and to order.
Port 3010, for synchronization and command propagation. UDP Port 3003, to exchange heartbeat packets.