AWAN in Brief

The Six Core Features

1) Accelerated Multi-Path Transport

AWAN revolutionizes network performance by inverse-multiplexing multiple ISP links in parallel using MPTCP and SD-WAN technology, effectively eliminating traditional WAN bottlenecks and unlocking unprecedented throughput capabilities.

Multi-Path Architecture

Breaking Through Gigabit Barriers

AWAN gateways aggregate multiple gigabit-class links—such as several 2.5 Gbps channels—into a single unified transport, raising per-device throughput toward 100 Gbps. This pre-aggregation overcomes sub-gigabit choke points at Internet servers.

The architecture forms a fully distributed mesh (Asymmetric WAN / Multi-WAN / Multi-LAN) so traffic from any branch can traverse multiple independent paths simultaneously. Packets to the same destination are split across several links, dramatically boosting throughput and resiliency.

100

Gbps Capacity

Per-device throughput potential

10x

Speed Increase

Over traditional WAN speeds

The Multi-Path Advantage

Using multiple parallel paths allows the payload to reach its destination more quickly than relying on a single route.

By splitting traffic over many paths, AWAN dramatically accelerates bulk transfers. Aggregate link speeds combining Satellite + 4G/5G + Fiber + Wi-Fi can exceed traditional WAN speeds by orders of magnitude, transforming network performance.

Hybrid Networks

2) Hybrid Network Utilization

Diverse-Link Bonding

Bonds satellite, 4G/5G cellular, fiber optics, and Wi-Fi into one unified WAN pipe. Each device simultaneously uses all available carriers, maximizing throughput and cost-efficiency.

Unlimited Parallel Links

No fixed limit on concurrent links. Devices can add new channels on-the-fly to scale capacity virtually indefinitely—growth limited only by link availability.

Beyond-Gigabit Capacity

Summing bandwidths of all bonded links achieves beyond-gigabit end-to-end performance. Combining 100 Mbps Wi-Fi + 1 Gbps fiber + 5 Gbps 5G yields aggregate speeds far above any single link.

3) Zero-Bottleneck Architecture

AWAN's core design eliminates any sub-gigabit bottlenecks by pre-bonding traffic into a high-speed cloud. All edge traffic is sent via bonded links into the AWAN cloud backbone, which operates at full gigabit speeds.

No Single Choke Point

Internet core behaves like a "Gigabit Internet Cloud"—even if individual ISPs cap at 1 Gbps, the aggregate path remains multi-gigabit.

Parallelized Backhaul

Each connection has dedicated parallel channels. Bonding "1 Gbps + 1 Gbps + 100 Mbps" links yields zero-choke arrangement that far outpaces any single path.

End-to-End Throughput

Treats inter-site core as high-capacity mesh. All tunnels stay open and balanced, avoiding packet queues and congestion for low-latency, high-throughput connectivity.

Always-On

4) Resilient Always-On Connectivity

Multi-Link Redundancy

With multiple active links at each site, connectivity survives individual failures. If one link degrades or drops, traffic seamlessly shifts onto remaining paths. AWAN's MPTCP/SD-WAN logic continually monitors link health and reroutes without disrupting sessions, providing uninterrupted "always-on" service.

Multi-Tunnel VPN Failover

Multiple VPN tunnels per site ensure that even if one tunnel endpoint fails, others carry the traffic. This multi-tunnel architecture provides built-in failover and load sharing, keeping sites connected 24×7.

Path Diversity (WAN + LAN)

Spans multiple uplinks and LAN connections simultaneously (Multi-WAN + Multi-LAN), ensuring at least one clear path exists at any time.

Hidden Disruptions

Mesh core re-routes around any outage, so disruptions are hidden from applications and users experience seamless connectivity.

5) Distributed Mesh & Near Lossless Extension

Hybrid-Cloud Mesh Network

Establishes an asymmetric multi-channel mesh that directly interconnects all sites and clouds. Branches communicate over the hybrid network (Internet + private backbone) without hairpinning through a single hub.

Multi-Path Mesh Routing

Every site participates in the distributed mesh, dynamically routing traffic over the optimal path (or multiple paths) to any destination. This decentralized mesh yields high aggregate throughput and low latency between edges.

Edge Network Extension

Devices support multiple LAN interfaces (multi-LAN), extending the enterprise network to branch edges. Branch networks can be securely bridged into the AWAN mesh, seamlessly integrating remote subnets into the hybrid WAN.

Near Lossless Multi-Hops Capability

Proprietary capability to extend transmission via a reinvented repeater / hopping transmission protocol that allows for near lossless speed even after multiple hops, resulting in blindspots and deadzones elimination and coverage extension.

Security

6) Embedded Security & Centralized Control

Multi-Key, Multi-Tunnel Capability, Encryption and Path-separated Security By-Design

AWAN uses layered security with multi-tunnel VPNs and multi-key ciphers. Each additional encryption key exponentially increases cryptographic strength without a throughput penalty. Every additional key increases tunnel security by the factor of the additional bit added, yet performance remains high even with multi-key, multi-tunnel traffic.


Secure Private Core

All inter-site traffic traverses the AWAN Cloud, a secure private backbone providing end-to-end confidentiality through encrypted tunnels and isolating enterprise traffic from public Internet exposure.

Real-Time Monitoring

A real-time Network Management System (NMS) continuously monitors security and performance on the private core, ensuring visibility and control.

Centralized Orchestration

1

Device Registration

Devices are registered and managed centrally via the AWAN Control Center (ACC) and AWAN SaaS portal.

2

Auto-Connection

New devices run an installation script to auto-connect to the AWAN cloud seamlessly.

3

Remote Provisioning

SaaS handles remote provisioning, updates, and patches automatically.

4

Single Pane Control

Full security and policy control embedded in the fabric, exposed through a single pane for network-wide visibility and configuration.

Transform Your Network Performance

Unprecedented Speed

Multi-path aggregation delivers beyond-gigabit performance using existing infrastructure.

Enterprise Security

Multi-key encryption and secure private backbone protect your data end-to-end.

Always-On Reliability

Multi-link redundancy ensures uninterrupted connectivity even during failures.

Global Mesh Network

Distributed architecture connects all sites with optimal routing and low latency.

AWAN embeds full security and policy control in the network fabric while providing centralized orchestration. Experience the future of enterprise networking with zero-bottleneck architecture, hybrid network utilization, and resilient always-on connectivity.

Let's Connect


PROPRIETARY TECHNOLOGYPROPRIETARY PROTOCOL

AWAN Novel Architecture

(Warning: The Deep Technical Dive)

Intelligent Network Multiplexing with Packet-Level Inverse Multiplexing


AWAN performs network multiplexing through a clever built-in packet-level inverse-multiplexing across heterogeneous links.

PROPRIETARY TECHNOLOGYPROPRIETARY PROTOCOL

Unique Core Architecture

Combines multiple WAN and multi-LAN networks

Intelligent asymmetric routing at the virtual layer

Breaks data into intelligently sized packets

Continuously and dynamically checks all channel conditions

Distributes packets across multiple concurrent channels

Releases right-sized packets in calculated timing windows

Operates on both uplink and downlink

Enables all-active multi-links with dynamic backhauling

Enables hybrid cloud utilization

Enables multi-keyed, multi-tunneled secure transmission

Enables multiple repeats / hops of links with near lossless of speed

PROPRIETARY TECHNOLOGYPROPRIETARY PROTOCOL

Dynamic Multi-Channel Distribution

Packets released at calculated timing intervals

Channel allocation is dynamic, not fixed

Faster channels receive more packets

Slower channels receive proportionally fewer packets

Within a defined time window, packet volume scales according to channel capacity.


No Fixed Session-to-Channel Binding

  • Not 1 user → 1 channel
  • Not 1 session → 1 tunnel
  • Sessions are not path-locked
  • Packets from multiple sources are interleaved
  • Data packets from other sources exist between packets
PROPRIETARY TECHNOLOGYPROPRIETARY PROTOCOL

Arrival & Timing Control

Sequential order preserved

Fast and slow channels operate concurrently

Propagation speed is constant

Channel differences lie in bandwidth and pulse characteristics

No Central Aggregation Dependency

  • No reliance on paired controller aggregation
  • No fixed assembler bottleneck
  • No label switching
  • No carrier-imposed topology
PROPRIETARY TECHNOLOGYPROPRIETARY PROTOCOL

Hopping Intelligence: Reinvented Multi-Hop Transmission Protocol

AWAN redesigns relay behavior at the transmission layer.

Relay nodes operate as coordinated transport elements, not passive repeaters.

Corridor-wide session control

Progressive segment forwarding

Coordinated relay timing

Multi-path per relay node

Localized degradation containment

Result:

  • Bounded latency growth
  • Structurally stable throughput across extended hops
  • No cascade failure under partial degradation

Detailed protocol mechanisms remain proprietary. Validated under controlled conditions.

AWAN Main Features

AWAN is a patented cloud-first connectivity orchestration fabric designed to improve execution reliability in distributed environments.

Intelligent Network Bonding

Uses multi-network spectrums simultaneously

Cross-Link Aggregation

Aggregates heterogeneous multi-links

Dynamic Distribution

Distributes traffic dynamically under load

Continuity Maintained

Maintains continuity during degradation

No Single Point of Failure

Avoids single points of failure

Near Lossless Hop/Repeater

Unique protocol allowing multiple link hops with very minimal effect on performance

Secure and Sovereign

Data privacy by design of transmission

Information on this website is provided for general informational purposes only. Product capabilities, performance statements, use cases and illustrations may vary according to deployment conditions and do not constitute warranties, guarantees or binding commitments. All services are subject to technical assessment and separate written agreements.

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