Abstract:
The primary goal of this work is to introduce possible hardware solutions regarding cryptographic key management and generation, which ensure uniqueness, high security st...Show MoreMetadata
Abstract:
The primary goal of this work is to introduce possible hardware solutions regarding cryptographic key management and generation, which ensure uniqueness, high security standards, and of course applicability in multi-tenancy environments over 5G networks. It is also proposed to design an integrated system that combines elliptic curve key generation, client content encryption, and decryption process with FPGA devices, and a user interface that can be implemented with conventional web implementation methods. This paper will describe a cryptographic key generation system with FPGA that can work on Zynq or ultra-scale devices. Essentially this is a hardware IP block that performs the computation of the scalar multiplication [\boldsymbol{k}]\boldsymbol{P} on any elliptic curve defined in a finite field of characteristic \boldsymbol{p} > \mathbf{3}. Intended as a hardware accelerator embedded in a silicon matrix to ensure highly reliable and yet efficient elliptic curve signature authentication and secure Diffie-Hellman key exchange.
Date of Conference: 02-04 September 2024
Date Added to IEEE Xplore: 24 September 2024
ISBN Information: