HyperIP by NetEx Blog

Solving WAN Challenges of Workload Mobility Using HyperIP

Posted by Marketing

IBM released a whitepaper on Leveraging the Cloud to transform Test and Development. As companies implement software in the cloud on an on-premise platforms for workload sharing, challenges emerge in the movement of that workload between the customer premise and the offsite destination of that data. Does development become hindered if I move that workload offsite or does it have to be in my LAN? Can I move it offsite so workload mobility, flexible system and software configuration, and continuous provisioning be leveraged as a cost effective solution? IBM’s Smart Cloud solution and HyperIP’s WAN Acceleration Virtual Appliance ensures that customers can leverage workload mobility over the WAN, without suffering the performance problems caused by the WAN.
Customers leverage many techniques for moving the workload between the test/dev environment and the customer’s developers. vMotion, Live Migration, FTP, RSYNC, TSM, ProtecTier, etc. All of these applications require the workload to traverse the WAN. TCP/IP has limitations on the movement of big data. HyperIP removes those limitations to significantly improve performance of workload mobility, in excess of 10-12x faster by providing a WAN Acceleration technology that removes packet loss, latency, and out-of-order packets from task. HyperIP then implements block-level data reduction algorithms to significantly reduce the time to move that workload to or from the cloud hosting facility. This all translates to cost effective network transfers and connectivity.

For more information on HyperIP and to request a trial, go to http://www.netex.com .

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Continuation of TSM 6.3 Replication testing over HyperIP

Posted by Marketing

We recently had an opportunity to test IBM Tivoli Storage Manager (TSM) release 6.3 replication in our HyperIP lab. IBM just released this feature as part of their TSM 6.3 release in November. As stated in our previous Blog entry about TSM Backup testing, http://www.netex.com/blog/?p=175, it is important to first determine the overall limits of the native application before WAN acceleration.

Our test configuration included two HyperIP WAN Optimization virtual appliances, two windows servers running TSM 6.3, and a distance simulator for the WAN. The WAN simulator has the ability to inject packet loss, network latency, and other network conditions over various bandwidths that can degrade replication performance.

Like many other applications, replication is designed for the datacenter – to – datacenter movement of corporate data. Most replication applications perform very well when moving data over short distances, or in a metro environment. Customers running TSM Replication, in many cases, will need the remote site to be extended over the WAN, to an internal DR site, DR Service Provider, or Cloud Storage Provider. Any time distance is needed, network conditions such as latency and packet loss can significantly degrade application performance and become a huge impact on the throughput and application efficiency.

In our lab when latency and packet loss is experienced TSM native replication performance slowed by over 80% due to the typical inefficiencies of the TCP transport and not necessarily the fault of the TSM application. When HyperIP was added to the configuration, TSM Replication was able to achieve throughput equivalent to native performance and no delay. In fact HyperIP was able to help TSM Replication achieve near native line speeds at distances represented by 40 ms RTT, 80 ms RTT, 320 ms RTT all the way up to a 1 second RTT. TSM Replication over HyperIP proved to perform quite well at any distance, even with a significant amount of packet loss. In some cases HyperIP will accelerate TSM Replication by 6X. If 2:1 compression is possible then the TSM acceleration with HyperIP may approach 12X. Check it out for yourself. Download HyperIP by clicking on the big orange box above.

Want more information about TSM performance with HyperIP? Send an email to info@netex.com.

Links to our Product information and Best Practices are found here:
HyperIP product info: http://www.netex.com/hyperip
TSM Best Practices with HyperIP: http://www.netex.com/index.php/download_file/view/301
Become a HyperIP reseller: http://www.netex.com/partners/register
IBM PartnerWorld Link: HyperIP Virtual WAN Optimization
IBM Tivoli Storage Blog Link: NetEx HyperIP Accelerates TSM Replication

 

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HyperIP Series – You Asked About TSM Testing with HyperIP..

Posted by DaveHuhne

We recently had an opportunity to test IBM Tivoli Storage Manager (TSM) Client to a TSM Server in our HyperIP lab. When doing any kind of application verification or performance testing it is important to first determine the overall limits of the native application with and without WAN acceleration.

Lab testing in an emulated environment is a good way to test applications because you can mimic certain network topologies and characteristics. In our case the HyperIP lab consists of two HyperIP WAN Optimization virtual appliances, two windows servers, and a distance simulator for the WAN. The simulator has the ability to inject packet loss, network latency and other network conditions over various bandwidths that can degrade application performance.

The main objective with any test is to try to validate whether the HyperIP can accelerate the application over various distances with varying latency and packet loss scenarios. Every application has its own performance characteristics and limitations. The same is true for WAN networks. They are about as unique as fingerprints.

Like many backup applications TSM was designed for the data center and performs very well when moving data short distances. Since we are truly becoming a global society is it important to be able to move data over longer distances which is clearly a requirement of cloud storage environments.

With the case of IBM TSM, we started off testing with a simple delay of 10 ms round trip time (RTT). At this relatively short distance TSM slowed by 80% compared to its native performance. This is typical application degradation due primarily to the inefficiencies of the TCP transport and not necessarily the fault of the TSM application. When HyperIP was added to the configuration, the TSM application was able to achieve throughput equivalent to native performance and no delay. In fact HyperIP was able to help TSM achieve near native performance rates at distances represented by 40 ms RTT, 80 ms RTT, 320 ms RTT all the way up to a 1 second RTT. This is a testament to how well TSM and HyperIP interoperate together.

Many applications have internal limitations such as outstanding operations, queue size, or queue depth that artificially restrict the application’s ability to maximize throughput. That was certainly not the case with TSM. TSM can certainly pump data over the network when it is not encumbered with TCP performance issues. When operating TSM with HyperIP, the two combined can sustain the same throughput rates whether running across town, across the ocean, or around the world. That was very impressive. TSM over HyperIP brings LAN-like performance to WAN-based remote backups.

 

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On the Road to a Cloudy World

Posted by Marketing

Recently we wrote about WAN optimizers becoming indispensable for cloud applications like backup/replication and disaster recovery.

In the past year we’ve watched a significant number of companies emerge to provide cloud services for a variety of applications that vary in scope and nature. More and more cloud users expect quick storage access from their mission critical data from remote networking architectures, including the ability to replicate and restore data when needed. This is not always possible because of the same network issues that can slow down recovery of secondary data: bandwidth restrictions, network latency, jitter, packet loss, bit errors, poor line quality and network errors.

Yes, clouds offer many benefits, including a theoretically limitless capacity and scalability, elimination of hardware acquisition and infrastructure expansion costs, the ability to budget for future growth, even the conversion of capital expenses into operating expenses. But for cloud applications to reach their true potential, they need to deal with network latency to deliver on throughput and performance. This is especially true for bandwidth intensive applications. In other words, data needs to be at the right time and right place for clouds to be effective.

We’d like to hear from companies using cloud services on their existing IP networks that are willing to evaluate HyperIP in their environment. You will see firsthand the performance improvements delivered by HyperIP that are compelling to your business.

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