About Us

1. Company

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OmegaSafe is the trading name of OMEGASAFE SOLUTIONS LTD, a small startup incorporated in 2026 and registered in England and Wales under company number 16986258.

Our registered office and correspondence address is:

OMEGASAFE SOLUTIONS LTD
483 Green Lanes
London
N13 4BS
United Kingdom

Contact us through the most relevant channel:

• Product questions, issues and feedback: support@omega-safe.com
• Professional services enquiries: sales@omega-safe.com. See Services — 3. Enquiries.

We aim to respond within 24h.

We are passionate about our invention: the OmegaSafe encryption method and system. It is formally described in UK Patent Publication GB2637041, Application Number GB2400210.7, under the title Method and System for Non-Algorithmic Encryption. US Patent Application No. 19/694,722 was also filed for the invention.

The current product direction is to build practical software around that idea: command-line tooling, cloud-backed coordination, directory synchronization, desktop applications, self-hosted deployments, and future communications tooling. See Roadmap — 1. Roadmap Plan for the published roadmap direction.

We are also open to other opportunities where clients need high-quality software. OmegaSafe exists because we care about the encryption method, but the same engineering standards apply to broader software delivery work.

2. Core product

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The idea behind the OmegaSafe encryption method and system evolved from curiosity and a long-running hobby for over 13 years. At the beginning, it was an experiment for personal use, without obvious practical commercial applications.

During that work, and while pushing the boundaries further and further, it became apparent that there may be a narrow path toward an absolutely random, pattern-free cipher that remains fast and practical. That is when we decided to commercialise the invention.

For the technical details, see Encryption Method.

3. Motivation behind OmegaSafe

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Computing power is advancing quickly. AI capability is accelerating with recursive self-improvement (RSI) predicted for the end of 2028. Quantum computing is moving from theory into long-term security planning. It’s a matter of time when self-improving AI will be put on the latest cutting edge quantum computers. At the same time, cybercrime has become industrialised, and both private and public-sector surveillance capabilities continue to grow.

In that environment, privacy cannot depend only on the assumption that code-breaking will remain too expensive, too slow, or too impractical. Some data needs to remain confidential for years or decades, and encrypted information captured today may still be valuable to an attacker in the future.

OmegaSafe was created to address that problem.

Our starting point is encryption designed for long-term confidentiality: protection that does not rely only on making attacks computationally expensive, but on removing exploitable structure from the encrypted data under the documented model.

But strong encryption alone is not enough. For security to be adopted, it has to fit real workflows. People and organisations should not have to choose between privacy and convenience, or between strong protection and practical daily use.

OmegaSafe’s goal is to move from high-assurance encryption into practical adoption: storage, synchronisation, transfer, collaboration, and communications that protect data by default.

We are building toward a model where strong privacy becomes a normal part of digital infrastructure, not a specialist feature reserved for governments, large enterprises, or security experts.

For more background on the mission and the founder’s reasoning, read Why I Founded OmegaSafe.

4. How we write software

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• Every line of code is verified by a human senior software engineer.
• Security and privacy are top concerns in every design, implementation, review, and delivery decision.
• We set smart defaults, but empower users through clear configurability.
• We aim for full or near-100% automated test coverage to:
  • verify the expected functionality and lock it in deterministic test
  • protect the software from breaking on maintenance like dependencies upgrades
• We aim to use modern, secure, and well-supported approaches.
• We don’t reinvent the wheel. If we can use existing robust baselines or foundations like Docker Hardened Images - we do.
• We aim for high maintainability, full or near-full documentation coverage, high resilience, full automation, and hands-off solutions where appropriate.
• We separate concerns clearly and avoid building silos or tightly coupled systems.
• We do not sign off work as finished when the quality does not meet our standards.
• We communicate clearly and provide frequent progress updates.
• We stay polite and constructive, including when difficult tradeoffs need to be discussed.
• We want clients either to be happy with our deliverables, or to forget they even have them because they work flawlessly without interruption.
• We address concerns directly and remain flexible enough to change course when the optimum business benefit requires it.
• We are transparent from the start of the work to the end.
• Technology is a means, not the goal. Results matter, so we use whatever technology is needed to achieve the best result that meets client expectations.

Yes, we do AI.

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We use AI under human supervision, guided by our own custom instructions and engineering standards, to deliver the best possible outcomes in the shortest practical time. High quality remains our top concern: AI can accelerate delivery, but it does not replace senior engineering review, accountability, or sign-off.

We always disable training on our data where provider controls allow it. If a customer has reservations about particular AI companies, or a preference for others, we are willing to use whichever major AI provider the customer prefers, as long as that provider also meets our security, privacy, reliability, and quality standards.