Should i use channel bonding

Load balancing usually involves dedicated software or hardware, such as special routers or switches. The load balancing setup for home users includes special networking hardware routers , which are embedded with dedicated balancing software. When you use apps on your devices, information travels to the internet through network sockets — think of them as tubes.

A load balancer works by distributing these sockets across all of the Internet connections you are currently using. In this way, load balancing prevents overloading a single connection, thereby increasing overall performance. So, as long as your apps use lots of sockets, a load balancer does its job and you get faster Internet.

General web browsing and torrenting are the most common scenarios for which load balancing should be sufficient. However, other activities that use only a single network socket to connect to the Internet will not be optimized through load balancing.

For instance, video streaming, VPN connections, and large file transfers are not sped up by a load balancer. As in the case of load balancing, broadband bonding usually requires dedicated hardware, as well as software. Of course, there are also software-only solutions, which give you the same performance and flexibility but are also cost-effective when compared to the solutions that require a hardware element.

As mentioned above, load balancing optimizes Internet traffic per sockets. Channel bonding, on the other hand, goes one step further and optimizes traffic into even smaller chunks of data called network packets.

Broadband bonding makes it possible to spread these individual packets across multiple Internet connections. By splitting all your web traffic at the packet level, even large, single-socket transfers, such as VPN connections, video streaming, and file transfers, can be given a major speed boost!

It is a fast bonding mobile VPN service that runs on the client devices for maximum flexibility. As you bond two channels at, say channel 6, there is now overlap either on channel 1 or channel 11 and the introduction of adjacent channel interference within the spectrum.

As channels are bonded together, the effective bandwidth begins doubling depending on the number of spatial streams being utilized. As stated previously, with As with the discussion of 2. For large deployments with many users and many APs, channel bonding should be looked at very closely, but probably should not be used at all. The need for more spectrum over high throughput is typically more important in these kinds of deployments. In a small-to-medium size deployment with a handful of APs, channel bonding using 40MHz may be an option depending on the deployment and the results of a survey and channel plan.

Each spatial stream can pack a certain amount of data with More transmitters and receivers allow the AP to send independent streams of data. Much like adding additional lanes to a road, multiple spatial streams allow the wireless AP to transmit more data simultaneously. Modulation — This is the addition of data information to an electronic signal. Different types of modulation have varying abilities to cram data into an RF signal. Information can be added to the carrier by varying its amplitude , frequency , phase.

More complex schemes give faster bit rates for the data, but requires better SNR signal measured at the user device to the full potential. In Known as Transmit Beamforming, this is a technique with Efficient steering of individual streams in such a system provides overall gain.

This refers to two different bands, in the case of most of our hardware we are referring to the 2.