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Garland Technology Provides Added Resiliency for High Speed Networks with New EdgeSafe™: 100G Bypass Modular Network TAP

November 6, 2019

BUFFALO, N.Y., Nov. 5, 2019 / Garland Technology, a leading provider of network test access point (TAP) and packet broker solutions, today announced the release of the EdgeSafe: 100G Bypass Modular Network TAP, that addresses the evolving security threats of high network speeds, especially in strict regulatory environments.

"With today's organizations facing many network concerns, we want to enable SecOp teams with the tools to improve overall network resiliency and reliability," states Jerry Dillard, CTO/Co-Founder, Garland Technology, who developed bypass technology. "Having the ability to take your appliance offline without interrupting traffic for sandboxing, updates, maintenance, and troubleshooting is quickly becoming industry best practice."

SUMMARY AND HIGHLIGHTS OF PRODUCT

EdgeSafe: 100G Bypass Modular Network TAP: Garland Technology's new 100G modular bypass TAP works with inline security tools. The volume of multiprotocol traffic is continuously increasing, so this device is designed to support any network with a 100G infrastructure and its tools.

This Bypass TAP not only provides complete network visibility by passing all live wire data to inline security tools, but also features failsafe and heartbeat technology to monitor the tool's health, providing the ability to manage your inline tool any time without having to take down the network or impact business availability for maintenance or upgrades.

The continuous release of new products reflects the ongoing momentum Garland Technology is delivering to their customers worldwide.

 

For full press release, please visit: http://www.prnewswire.com/news-releases/garland-technology-provides-added-resiliency-for-high-speed-networks-with-new-edgesafe-100g-bypass-modular-network-tap-300951622.html?tc=eml_cleartime

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Heartbeats Packets Inside the Bypass TAP

If the inline security tool goes off-line, the TAP will bypass the tool and automatically keep the link flowing. The Bypass TAP does this by sending heartbeat packets to the inline security tool. As long as the inline security tool is on-line, the heartbeat packets will be returned to the TAP, and the link traffic will continue to flow through the inline security tool.

If the heartbeat packets are not returned to the TAP (indicating that the inline security tool has gone off-line), the TAP will automatically 'bypass' the inline security tool and keep the link traffic flowing. The TAP also removes the heartbeat packets before sending the network traffic back onto the critical link.

While the TAP is in bypass mode, it continues to send heartbeat packets out to the inline security tool so that once the tool is back on-line, it will begin returning the heartbeat packets back to the TAP indicating that the tool is ready to go back to work. The TAP will then direct the network traffic back through the inline security tool along with the heartbeat packets placing the tool back inline.

Some of you may have noticed a flaw in the logic behind this solution!  You say, “What if the TAP should fail because it is also in-line? Then the link will also fail!” The TAP would now be considered a point of failure. That is a good catch – but in our blog on Bypass vs. Failsafe, I explained that if a TAP were to fail or lose power, it must provide failsafe protection to the link it is attached to. So our network TAP will go into Failsafe mode keeping the link flowing.

Glossary

  1. Single point of failure: a risk to an IT network if one part of the system brings down a larger part of the entire system.

  2. Heartbeat packet: a soft detection technology that monitors the health of inline appliances. Read the heartbeat packet blog here.

  3. Critical link: the connection between two or more network devices or appliances that if the connection fails then the network is disrupted.

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