Experience 25x Goodput Improvement with TCP M-AT

TCP M-Adaptive Transmission (TCP M-AT) significantly enhances network performance. Compared to existing protocols like TCP Cubic and Google TCP BBR v3, TCP M-AT offers a remarkable 25x increase in throughput/ goodput. This leads to faster data transfer rates and more efficient use of network resources, ultimately improving user experience and reducing operational costs.

📊 Goodput Comparison Table (in Mbps)


Test Component
Specification / Description
Operating SystemLinux (Kernel version 6.14.6)
Network TypeMobile Hotspot (High-latency, real-world wireless environment)
CCA TestedTCP Cubic, TCP BBR, TCP M-Adaptive Transmission (TCP M-AT)
Measured MetricAverage Throughput (KB/s)
Packet Loss / NoiseReal-world, variable wireless interference (uncontrolled)
Test MethodologyUpload/download throughput tests using identical system setup
 
Congestion Control AlgorithmAverage Throughput (KB/s)
TCP Cubic20 KB/s
TCP BBR30 KB/s
TCP M-AT

500 KB/s

 SIMULATION-BASED TESTING:
Network EnvironmentTCP M-ATGoogle TCP BBR v3TCP CubicImprovement Over BBRImprovement Over Cubic
LTE (10% packet loss)9.5 Mbps6 Mbps1.2 Mbps~58%~692%
5G (5% packet loss)28–30 Mbps20 Mbps3 Mbps~40–50%~833–900%
LEO Satellite (5% loss)27 Mbps18 Mbps2.5 Mbps~50%~980%

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A high-resolution photograph depicting a bustling data center, showcasing servers and networking equipment, symbolizing cloud computing environments where TCP M-AT enhances data transfer speeds and reliability.
Cloud Computing Optimization
TCP M-AT significantly improves data transfer rates in cloud environments, reducing latency and enhancing the performance of cloud-based applications and services.
A visually compelling image of a 5G cell tower with smartphones connecting, illustrating the high-speed connectivity and low latency benefits that TCP M-AT brings to 5G networks.
Enhanced 5G Network Performance
By optimizing data transmission over 5G networks, TCP M-AT ensures faster download and upload speeds, providing a seamless user experience for mobile applications.
An artistic rendering of various IoT devices (sensors, smart home appliances, industrial equipment) communicating wirelessly, highlighting the role of TCP M-AT in enabling efficient IoT data transmission.
IoT Data Transmission Efficiency
TCP M-AT facilitates reliable and efficient data transmission for IoT devices, enabling real-time monitoring and control in smart homes, industrial automation, and more.
A satellite dish pointed towards the sky, with a digital overlay showing data packets being transmitted, representing the use of TCP M-AT in satellite communication for improved bandwidth utilization.
Satellite Communication Enhancement
TCP M-AT optimizes bandwidth usage in satellite communication, ensuring stable and high-speed data transfer for remote locations and maritime applications.