We tested dedicated traffic shapers on a T3 Internet link at 45 Mbps. Vendors usually offer multiple iterations of a product that use the same engine and interface but operate at different speeds. You can buy an inexpensive shaper for a 128-Kbps link, or an expensive unit that can handle 200 Mbps. We graded traffic shapers on their bandwidth-management, reporting, management-interface and protocol-recognition capabilities and price.
We invited Allot Communications, Lightspeed Systems, NetReality, Packeteer, Radware and Sitara Networks to participate in our tests. Only NetReality declined, and we later learned that it had been acquired by Allot.
If you see a VoIP implementation in your future, take note: Because VoIP packets can take separate paths and arrive for reassembly out of order, quality depends on reducing latency--throwing more bandwidth at the problem won't help. A packet shaper can make a difference here by ensuring voice packets don't get lost.
Reporting is the first component you'll employ--even before you start shaping traffic. Job 1 is identifying bandwidth hogs that are trumping more mission-critical and latency-sensitive protocols. With good reporting, you see the most active protocols over time and the most active servers and clients. This is important: You can't effectively shape traffic if you can't identify the source of the troubles. Is Web traffic slowing down your network, or do you have just a few greedy users?