Conclusion
Publishable conclusion
The Indian government is conducting demonstration experiments on PQC. They want to launch a digital currency, CBDC, that uses blockchain and implements advanced end-to-end security.
Among these, CBDC-R (for retail) involves large-scale transactions between individuals.
However, it was announced that multiple side channel attacks had occurred against PQC.
Article: https://bharatsmartchain.com/posts/pqc01
We believe there is a need for optimal means to ensure the security of this transaction.
We believe that we can meet advanced requirements that other projects have not yet achieved.
The key to making PQC more secure and operating CBDC is the GNA chip currently being developed by GNA.
We use Am241, which is highly safe.
It takes advantage of its excellent properties as a true random number generator, as alpha decay of the atomic nucleus is completely random while maintaining quantum mechanical parity symmetry. These systems are capable of generating natural, non-artificial random numbers based on quantum principles, and can generate up to 70 trillion different random numbers per second. Random numbers are disposable, making it possible to provide extremely high security with quantum resistance. This allows everyone to see the future of quantum cryptography.
*Incidentally, NIST recommends transitioning from pseudorandom numbers to true random numbers.
Check out the video explaining the GNA chip.
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