Break Away from the Standard.
Cerulean represents the first structural innovation in symmetric encryption in over 30 years, replacing the static & archaic architecture of the standard (AES) with a fundamentally dynamic framework – enabling unbounded security while materially reducing power consumption.
The Status Quo’s Pain Points:
Rising Energy & Compute Costs
Using less electricity than the standard encryption option (AES), Ceruleant can help you lower your energy bill and positively impact your business’s bottom line.
Scalability Concerns
The inflexible, step-by-step, round-by-round, core design of AES is an outdated limitation. Ceruleant can be optimized to fit the unique needs of your business with the ability to secure relevant size volumes of data on a single key.
Single Platform Risk & a Fixed Security Ceiling
If Quantum Computing ever solves AES, the world will need a new solution. Ceruleant is not constrained to the same boundaries, offering a broader security ceiling than only 128-bit cryptography.
Environmental Impact of Digital Encryption
AES is significantly increasing the world’s energy consumption with its fixed, inflexible implementation, compounded by the recent, increased need for data centers and subsequent encryption demands.
Ceruleant can help the global environment by flexibly scaling to individual needs without sacrificing security. If you have a small device that transmits data, Ceruleant’s efficient encryption can save battery power. If you’re transmitting significant amounts of data, Ceruleant can service that – increasing security with fewer computational steps, saving exponential amounts of energy.
The Current Carbon Footprint
Cryptography is responsible for greater than one megaton of CO2 annually.
Current advancements in energy efficiency are hitting their boundaries, making green cryptography vital for further reducing energy use in systems and devices.
Ceruleant addresses these challenges by offering a flexible and scalable post-quantum encryption algorithm that improves energy efficiency and performance.
| AES | Ceruleant | |
| Free and Open Source |  |  |
| Proprietary |  | |
| Post-Quantum Security | | |
| Reduced Power Consumption | | |
| Increased Security | | |
| Large Volume Line-Speed Encryption | | |