In a world that’s increasingly dependent on online connectivity, speed is more than just a luxury — it’s a necessity.
From cloud-based applications and video streaming to 5G networks and satellite internet, the demand for faster and more efficient data transmission has never been higher. Yet, despite all the advances in networking technology, a large percentage of available internet bandwidth often goes unused due to the limitations of traditional congestion control algorithms.
The Problem: Bandwidth Waste in Today’s Networks
Legacy TCP algorithms like TCP CUBIC and Google TCP BBR were significant improvements in their time, but they still struggle in complex, dynamic networks — such as mobile, 5G, IoT, and satellite environments.
In many cases, they leave between 40% to 70% of available bandwidth unused due to overly conservative transmission behavior or poor adaptation to network errors and variability.
The Solution: TCP M‑Adaptive Transmission (TCP M‑AT)
TCP M‑AT is designed to unlock the full potential of modern networks.
It dynamically adjusts its sending rate based on real-time network feedback, maximizing throughput while maintaining stability and fairness across users.
By doing so, TCP M‑AT enables networks to operate much closer to their true capacity — delivering faster speeds and a better user experience.
Real-World Performance Metrics
We’ve tested TCP M‑AT extensively in simulated and real-world network environments, and the results are impressive.
| Network Environment | TCP M‑AT Throughput | Improvement Over Google TCP BBR v3 | Improvement Over TCP CUBIC |
|---|---|---|---|
| 4G/LTE Mobile Networks | 9–10 Mbps | ~60% Higher | ~700% Higher |
| 5G Networks | 30 Mbps | ~50% Higher | ~375% Higher |
| Satellite Internet (LEO) | 28–30 Mbps | ~50% Higher | ~1000% Higher |
What Does This Mean for Users?
✓ Faster downloads and uploads
✓ Seamless video streaming even on wireless networks
✓ Better performance for cloud-based applications
✓ Reliable data transmission in high-error environments (satellite, mobile)
✓ Efficient bandwidth utilization, reducing network congestion
Why It Matters for the Future of Networking
As 5G continues to roll out and as we move closer to the era of 6G networks, the need for smarter congestion control becomes even more critical.
Research suggests that next-generation networks will face increasingly diverse traffic patterns, ultra-low latency requirements, and massive device connectivity (IoT). TCP M‑AT is built with these challenges in mind.
By dramatically improving throughput and goodput across different network types — without requiring client-side changes — TCP M‑AT represents a future-proof solution ready to power the next evolution of the internet.
Final Thoughts
TCP M‑AT is not just about raw speed — it’s about efficiency, adaptability, and fairness.
It’s a technology that helps networks do more with what they already have, unlocking performance that was previously lost due to outdated assumptions in legacy algorithms.
We’re excited about the possibilities this opens up — for users, for service providers, and for the future of global connectivity.
Stay connected with us as we continue to explore partnerships and deployments that bring faster, fairer internet to everyone, everywhere.
This is next-generation networking — and we’re just getting started.
