Platforms for Connected & Autonomous Systems
Enterprise tools born from our expertise in embedded Linux, secure networking, and fleet orchestration. From custom Linux images to autonomous swarm coordination.
EmbedForge
EmbedForge is our enterprise platform for embedded Linux development, designed to simplify the creation of custom Yocto and Buildroot images at scale.
Engineering teams gain access to thousands of pre-integrated OpenEmbedded layers, can securely connect private repositories, and manage custom configurations in a reproducible manner. The platform unifies build logs, artifacts, and metadata in one place, enabling reliable distribution and traceability.
This allows hardware and software teams to focus on product development rather than managing complex build environments.
Get Started with EmbedForgeKubernetes-Based Build Orchestration
Scalable build infrastructure with a web-based UI for configuration. No need to manage your own build servers.
Pre-Integrated OpenEmbedded Layers
Access thousands of pre-integrated layers, connect private repositories, and manage custom configurations reproducibly.
Containers on Embedded Linux
Define and include Podman containers at build time, deploying containerized applications consistently on embedded and industrial hardware.
Security & Compliance
Automated CVE analysis, security scanning, and compliance-ready outputs including SBOMs and reports.
Automated Testing
QEMU-based image testing and validation integrated into your build pipeline for reliable releases.
Centralized Artifact Storage
Unified build logs, artifacts, and metadata in one place. Reliable distribution and full traceability of images, SDKs, and packages.
OnyxMesh
As AI moves from the cloud to the edge, autonomous machines need a new way to communicate. OnyxMesh is our open-source decentralized mesh network with post-quantum cryptography, built for AI-powered vehicles, drones, and robots that need to coordinate in swarms without any central server or cloud dependency.
Any type of data flows natively over the mesh: sensor telemetry, live video streaming, real-time audio, commands, and control signals. All encrypted end-to-end, all peer-to-peer. On top, a skill orchestration layer lets AI-driven machines advertise what they can do, negotiate roles, and self-organize into missions with zero human intervention.
One protocol, one binary, everything built in: mesh networking, pub/sub messaging, reliable streams, and end-to-end encryption. Written in Go with a minimal footprint, it runs on anything from a Raspberry Pi to a full server. We are looking for partners to run proof-of-concept deployments in real operational scenarios.
Run a PoC with UsDecentralized Mesh
Every node discovers peers, routes data, and shares capabilities autonomously. No base stations, no cloud, no centralized coordinator.
Post-Quantum Cryptography
ML-DSA-65 signatures and ML-KEM-768 key exchange. End-to-end encryption on every data stream, resistant to quantum computing attacks.
Multi-Modal Data Streams
Sensor telemetry, live video, real-time audio, commands, and control signals flow natively over the mesh. All peer-to-peer.
Skill Orchestration
Machines advertise capabilities, negotiate roles, and self-organize into missions. Automatic reassignment on node failure.
Single Binary Runtime
One protocol, one binary. Mesh networking, pub/sub messaging, reliable streams, and encryption all built in. Written in Go.
Hardware-Agnostic
Minimal footprint, runs on anything from a Raspberry Pi 3B+ to a full compute server. WiFi 802.11s mesh or containerized testbeds.
Ready to Build Future-Ready Systems?
Let's discuss how TechnoSec can help you design, build, and operate secure, scalable technology solutions.