Plus, YOU get to manage the traffic flow from which connections and in what quantities, depending on its type or destination.



Operating systems of end-user devices can only use one connection at a time. With a device that is placed, this single connection will be able to communicate with more than one internet connection.

The device that is placed in the end-user's premise will act as a router, making the only connection of the end-user device:

  • Can distribute to different internet connections by dividing it into packages
  • It can communicate at higher speed with servers or proxies on the Internet that support multiple connections.
  • It can use different technologies such as Wireless, 4G/5G, Cable, Fiber, xDSL at the same time.

The end user's ability to use multiple connections at the same time increases redundancy against a possible interruption and increases the available connection speed.

Few servers on the Internet support multi-connection. With a proxy interface, these servers become multi-connection support.

Like the device in the end user's premise, this software acts as a router:

  • It will be able to consolidate the requests that may come from the service provider's multiple internet connections and forward them to a single connection of the servers.
  • It will ensure that the data to be sent from single-link servers to clients is distributed over multiple connections.
  • SThe server will be able to access the internet by using all the connections of the hosting service provider at the same time, instead of a single connection to the internet.

Supporting multiple connections on servers provides redundancy of the server so that it can transmit data to clients faster.

In order for all servers on the Internet to be presented to end users with multiple connections, special devices that operate on very high-speed traffic are needed at service providers.

The service provider is the bridge of traffic between the end user and the servers on the internet. In order support multiple connections of traffic between both users and servers, it is necessary to create as many internet addresses as the number of connections for each device, and network traffic packets between these addresses need to be managed and routed. These operations can be done with FPGA devices that have both multiple 100GbE connections and purpose-built processors.

  • FPGA devices have up to 800GbE connectivity
  • They have second generation high bandwidth memories (HBM2)
  • The processors can be reprogrammed as needed.

Because the processors of FPGA devices can work specifically for the purpose, they reduce the hardware requirement and can run 1000 times faster than conventional processors (CPU) and reduce operating costs.

As a service provider, you can decide and manage through which connections and in what quantities the traffic will flow, depending on the type or destination of your customers' traffic.

Depending on the traffic on their own networks, muXer.net allows Internet Service Providers to instantly change the traffic distribution via the application programming interfaces (API) defined on the devices at the customer locations:

  • Possibility to manage user device
  • Directing traffic through other internet providers
  • Flow statistics
  • Routing management

Managing traffic at the customer location is critical in preventing unexpected peak traffic, efficient use of locally hosted content delivery network caches, and most importantly optimizing the internet outbound schedule.

Research and Development

muXer.net is a product of R&D.

muXer.net, was born out of a R&D project that was developed with funding from a public research institution. muXer.net emerged as a result of the development process of a 2-year R&D project for the development of multipath TCP-based, service provider-supported internet access device software that can simultaneously use different network technologies for end-user devices, provide dynamic load sharing, high-speed and uninterrupted internet service. Upon completion of the project, the resulting product is available to you as muXer.net Important phases of the R&D project included:

  • Academic Literature Review
  • Relevant academic literature was searched and extensive market research/analysis was carried out.

  • Conceptual Design
  • The conceptual design of the product was created during the R&D stages and the requirements of the components were defined.

  • Continuous Development
  • Following the R&D project, muXer.net is continuously developed in line with the needs and its functions are increased.

  • Data Security Restrictions and Validations
  • Security was defined during the design phase of muXer.net and is one of the main focus points in its working principle.

  • Network Traffic Load Simulations
  • Simulations have been developed and overload scenarios have been tested to verify that muXer.net running at Internet Service Providers can operate under high traffic volumes in these environments.

  • Continuous Automated Tests
  • By using automatic test software, every stage of development is systematically tested, ensuring continuous and error-free operation of the system.

muXer.net, by coding the Multipath TCP v1 infrastructure recommended by the Internet Engineering Task Force (IETF) , implemented the ATSSS specification defined by the Third Generation Partnership Project (3GPP), which consists of seven telecom standards development organizations, and based its platform on this robust technological infrastructure, adding value-added functionality to its customers.



It is our aim to provide critical communication infrastructure, tools and services that offer added value and creativity to ensure the communication of today and tomorrow.


Our customers are our priority and we offer the best service, attitude, respect and courtesy.

We create the necessary environment for our employees to achieve perfectionism in all their activities.

We become stakeholders of developments that will increase the quality of life of our society.

We use our resources in ways that are effective and beneficial.


We work to fuel personal and economic development by removing communication inequalities and barriers in the society we serve with technological tools and infrastructures.


Contact Us


Sorbett OÜ Harju maakond, Tallinn, Kesklinna linnaosa, Sakala tn 7-2, 10141, Estonia