In this paper, the authors present parity-based fault detection architecture of the S-box for designing high performance fault detection structures of the advanced encryption standard. Instead of using look-up tables for the S-box and its parity prediction, logical gate implementations based on the composite field are utilized. After analyzing the error propagation for injected single faults, the authors modify the original S-box and suggest fault detection architecture for the S-box. Using the closed formulations for the predicted parity bits, the authors propose a parity-based fault detection scheme for reaching the maximum fault coverage. Moreover, the overhead costs, including space complexity and time delay of our modified S-box and th...
The Sub Bytes (S-boxes) is the only non-linear transformation in the encryption of the Advanced Encr...
Since standardization in 2001, the Advanced Encryption Standard has been the subject of many researc...
Concurrent fault detection for hardware implementations of the Advanced Encryption Standard (AES) ma...
In this paper, the authors present parity-based fault detection architecture of the S-box for design...
Fault detection schemes for the Advanced Encryption Standard are aimed at detecting the internal and...
The high level of security and the fast hardware and software implementations of the Advanced Encryp...
The faults that accidently or maliciously occur in the hardware implementations of the Advanced Encr...
In this paper, we present the parity prediction approach of the S-Box for designing high performance...
The Advanced Encryption Standard, which is used extensively for secure communications, has been acce...
In this paper, we present a lightweight concurrent fault detection scheme for the AES. The selection...
The use of an appropriate fault detection scheme for hardware implementation of the Advanced Encrypt...
Concurrent fault detection for a hardware implementation of the Advanced Encryption Standard (AES) i...
The Advanced Encryption Standard (AES) has been lately accepted as the symmetric cryptography standa...
The Sub Bytes (S-boxes) is the only non-linear transformation in the encryption of the Advanced Encr...
Since standardization in 2001, the Advanced Encryption Standard has been the subject of many researc...
Concurrent fault detection for hardware implementations of the Advanced Encryption Standard (AES) ma...
In this paper, the authors present parity-based fault detection architecture of the S-box for design...
Fault detection schemes for the Advanced Encryption Standard are aimed at detecting the internal and...
The high level of security and the fast hardware and software implementations of the Advanced Encryp...
The faults that accidently or maliciously occur in the hardware implementations of the Advanced Encr...
In this paper, we present the parity prediction approach of the S-Box for designing high performance...
The Advanced Encryption Standard, which is used extensively for secure communications, has been acce...
In this paper, we present a lightweight concurrent fault detection scheme for the AES. The selection...
The use of an appropriate fault detection scheme for hardware implementation of the Advanced Encrypt...
Concurrent fault detection for a hardware implementation of the Advanced Encryption Standard (AES) i...
The Advanced Encryption Standard (AES) has been lately accepted as the symmetric cryptography standa...
The Sub Bytes (S-boxes) is the only non-linear transformation in the encryption of the Advanced Encr...
Since standardization in 2001, the Advanced Encryption Standard has been the subject of many researc...
Concurrent fault detection for hardware implementations of the Advanced Encryption Standard (AES) ma...