01

Pure Performance

Our architecture is based on zero-cost abstractions. We have eliminated Garbage Collector pauses and memory vulnerabilities entirely, guaranteeing bare-metal IOPS saturation and uncompromising stability for petabyte-scale datasets.

02

Engineering Meritocracy

We reject corporate bureaucracy. Process management is delegated entirely to AI agents. This allows our elite team of engineers to focus exclusively on what matters most: bare-metal architecture and solving the hardest cryptographic challenges.

03

Mathematical Privacy

We consciously reject industry illusions of security, like “Screenshot Verification.” If a vendor can boot your machine, they have your encryption keys. We do not—we guarantee true Zero-Knowledge at the fundamental cryptographic level.

Deep Dive

Technology Under the Hood

Split-Key Architecture

Encryption keys are generated client-side and never leave your infrastructure in plaintext. We process your data, but we are physically and mathematically incapable of reading it.

Entropy Watchdog

Passive backups are dead weight. Our agent calculates the Shannon Entropy of disk writes in real-time. A spike above 7.8 immediately trips the circuit breaker, protecting your last known good state from ransomware.

Vigil: Security Engine

We scan metadata and artifacts (Sidecar Hashes) for vulnerabilities (CVEs) and malware without ever decrypting the main payload. We detect threats retroactively, warning you before you restore a compromised system.

Liquid Data & Smart BMR

We eliminate the “Restore Tax.” StateWarden allows instant mounting of recovery points as local iSCSI targets and injects drivers for seamless Bare Metal Recovery on completely dissimilar hardware.

Post-Quantum Cryptography

Beyond strict mTLS, we utilize a proprietary “Controlled Entropy” engine. Every payload is encrypted with a unique, ephemeral AES key. Even if quantum computers break TLS, your data remains mathematically impenetrable.

Hardware-Bound Configuration

Stolen config files are useless. Our configs is encrypted using a key derived straight from the physical hardware. Server theft does not compromise your infrastructure.

Reject the black boxes. Choose sovereignty.

StateWarden is the ultimate answer to the flaws of legacy backup providers. We have built a digital fortress that protects your data against any attack vector, securing it under EU jurisdiction.

The European Edge

Sovereignty & Jurisdiction

The European Fortress

StateWarden isn’t just technology; it’s a legal fortress. The entire system is strictly designed, developed, and hosted within the borders of the European Union

True GDPR Native

Privacy is not just a company policy—it is enforced by the laws of physics and our architecture. We forge the principles of GDPR directly into hard code.

Immune to US Cloud Act

We do not rely on the infrastructure of external tech giants (No AWS, Azure, or GCP). We own the metal, legally insulating your data from the extraterritorial reach of foreign nations.

100% Proprietary Code

Zero reliance on closed-source, third-party binaries that could harbor backdoors. We maintain absolute control over every compiled byte in our ecosystem.

Ecology in Programming: Performance means a smaller carbon footprint.

We rejected legacy technologies in favor of modern Rust. Thanks to direct hardware access and I/O optimization (skipping free space at the MFT level in Windows and LVM in Linux), StateWarden executes the same operations at a fraction of the CPU time. Our software is ruthless against threats, but maximally friendly to the environment.

Ecology in programming

Due to the different design of programming languages, the same task in different programming languages consumes different amounts of CPU time and therefore energy. Software efficiency means not only more efficient and safer functioning of applications but also a smaller carbon footprint. We are proud that our approach to software development also contributes to reducing our customers’ energy consumption and carbon footprint. 

 

Carbon footprint by software language

From the Paper: Normalized global results for Energy, Time, and Memory.