TCP Accelerator Network Appliance

SpeedUpPilot

As a LAN device, SpeedUpPilot TCP Accelerator Network Appliance runs in-between WAN connection of server or client computers. It accelerates TCP packet traffic of sender computers over 400% up to 1 Gbit throughput.

In the congested network (oversubscription) to which it is connected, it dynamically accelerates TCP traffic and significantly improves “cost per bit” based on network performance degradation effects such as packet drop, loss and jitter. It provides fast TCP connections and maintains maximum bandwidth performance for companies that demand high-speed and fast web page load connectivity such as SME-companies, entertainment businesses, architecture and mapping companies, online gaming, bank branches, schools, hospitals, hotels, government agency, municipalities, media and advertising companies.

When it runs on the transmit Tx (sender) server side, it speeds up the upload traffic of the server. When it runs on both Tx (sender) server and Rx (destination) client side, it mutually accelerates the upload traffic of both (sender) server and (destination) client.

SpeedUpPilot System Architecture

Improves bandwidth performance of servers running with Linux or Windows operating system up to 1 Gbps and maintains at maximum. It achieves the highest TCP speed efficiency on network traffic by using maximum bandwidth.

TCP Dynamic Acceleration Solutions Speed Test

SpeedUpPilot TCP Accelerator Network Appliance solution enhances and accelerates TCP traffic with the following performance results;

  • Shortens the time to reach the current bandwidth using the maximum level of bandwidth,
  • Maintains existing bandwidth and improve TCP transport speed,
  • Adapts to changes in existing bandwidth,
  • Prevents packet loss in congested networks,
  • Elimination of congestion in congested networks,
  • Saves on upgrade/renewal costs of IT systems and increases the number of concurrent users in self host and small & medium enterprise systems,
  • Reduces web page load times for media and e-commerce sites, increases the number of concurrent users,
  • Accelerates data transfer including high-resolution video streaming, graphics, image files, where network traffic optimization systems fail to work well. Improves data loss, time and line cost losses due to network outages,
  • Copper, fiber, wireless, hybrid (3G/4G/5G or 802.11), works in LAYER 4 of OSI Stack on all communications mediums,
  • It does not use buffering for user applications like real-time video conferencing, gaming etc. Therefore, it does not create additional delay.