DESIGN AND IMPLEMENTATION OF HIGH SECURE VLSI BASEDMMHOMOMORPHIC ENCRYPTION
Keywords:
Homomorphic encryption, Large Integer Multiplication, Operand Reduction, VLSI Architecture, S-BoxAbstract
Traditional encryption methods aren't foolproof when used with an intermediate service, such as
a cloud server, since private information may still be leaked. One form of encryption method that may fix privacy
and security problems is homomorphic encryption. In contrast to public key encryption, this one requires three
steps for security: creating a key, encrypting data, and decrypting it. A highly secure MM-fully homomorphic
encryption system based on very large scale integration (VLSI) is designed and implemented in this research.
When compared to current norms, this system will provide superior security while also maximising resource
efficiency. The secrecy and integrity are guaranteed using a completely homomorphic encryption and decryption
approach. The primary goal is to enhance operational speed. At first, S-Box is provided with input bits and a
key. After then, S-Box is used to replace bits. The bits that were replaced are then used in the shifting process.
The MM homomorphic encryption algorithm is now applied to these bits. That is why MM homomorphic
encryption is more secure than the current state of the art.
