International audienceRe-using embedded resources for implementing built-in self test mechanisms allows test cost reduction. In this paper we demonstrate how to implement cost-efficient built-in self test functions from the AES cryptoalgorithm hardware implementation in a secure system. Self-test of the proposed implementation is also presented. A statistical test suite and fault-simulation are used for evaluating the efficiency of the corresponding cryptocore as pseudo-random test pattern generator; an analytical approach demonstrates the low probability of aliasing when used for test response compaction
This paper presents a new effective Built-In Self Test (BIST) scheme that achieves 100% fault covera...
Scan chain-based attacks are side-channel attacks focusing on one of the most significant features o...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...
This paper presents the design of a Built-in-self-Test (BIST) implemented Advanced Encryption Standa...
International audienceThis paper describes a generic BIST strategy for devices implementing symmetri...
PosterCryptographic devices have to be fully testable in order to ensure proper functionalities. The...
The technological development is enabling the production of increasingly complex electronic systems....
Testing VLSI circuits is a complex task that requires enormous amounts of resources. To decrease tes...
In this paper we propose an on-line self-test architecture for hardware implementations of Advanced ...
A new BIST scheme suitable for on-chip testing of non-volatile memories and based on signature analy...
Efficient Built-In Self-Test (BIST) solutions for certain cryptographic applications have been known...
This article presents a secure mutual testing strategy for System-on-Chips (SoCs) that implement cry...
HAL is a multi-disciplinary open access archive for the deposit and dissemination of sci-entific res...
In recent years, the rapid expansion of the consumer electronics market have resulted in a tremendou...
Chip functionality testing can greatly benefit from a Built In Self-Test (BIST). The Self-Test Using...
This paper presents a new effective Built-In Self Test (BIST) scheme that achieves 100% fault covera...
Scan chain-based attacks are side-channel attacks focusing on one of the most significant features o...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...
This paper presents the design of a Built-in-self-Test (BIST) implemented Advanced Encryption Standa...
International audienceThis paper describes a generic BIST strategy for devices implementing symmetri...
PosterCryptographic devices have to be fully testable in order to ensure proper functionalities. The...
The technological development is enabling the production of increasingly complex electronic systems....
Testing VLSI circuits is a complex task that requires enormous amounts of resources. To decrease tes...
In this paper we propose an on-line self-test architecture for hardware implementations of Advanced ...
A new BIST scheme suitable for on-chip testing of non-volatile memories and based on signature analy...
Efficient Built-In Self-Test (BIST) solutions for certain cryptographic applications have been known...
This article presents a secure mutual testing strategy for System-on-Chips (SoCs) that implement cry...
HAL is a multi-disciplinary open access archive for the deposit and dissemination of sci-entific res...
In recent years, the rapid expansion of the consumer electronics market have resulted in a tremendou...
Chip functionality testing can greatly benefit from a Built In Self-Test (BIST). The Self-Test Using...
This paper presents a new effective Built-In Self Test (BIST) scheme that achieves 100% fault covera...
Scan chain-based attacks are side-channel attacks focusing on one of the most significant features o...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...