L. Bolzani scite author profile

Test of peripheral modules has not yet been deeply investigated by the research community. When embedded in a system on a chip, peripheral cores introduce new issues for post-production testing. A peripheral core embedded in a SoC requires a test set able to properly perform two different tasks: configure the device in different operation modes and properly exercise it. In this paper an automatic approach able to generate test sets for peripheral cores embedded in a SoC is described. The presented approach is based on an evolutionary algorithm that exploits high-level simulation and gathers coverage metrics information to produce the test sets. The method compares favorably with results obtained by hand.

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A Hybrid Approach to Fault Detection and Correction in SoCs

Bernardi

Bolzani

Reorda

2007

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Extended Fault Detection Techniques for Systems-on-Chip

Bernardi

Bolzani

Reorda

2007

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The adoption of Systems-on-Chip (SoCs) in different types of applications represents an attracting solution. However, the high integration level of SoCs increases the sensitivity to transient faults and consequently introduces some reliability concerns. Several solutions have been proposed to attack this issue, mainly intended to face faults in the processor or in the memory.In this paper, we propose a solution to detect transient faults affecting data transmitted between the microprocessor and the communication peripherals embedded in a SoC. This solution combines some modifications of the source code at high level with the introduction of an Infrastructure IP (I-IP) to increase the dependability of the SoC.

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A Transmission Power Self-Optimization Technique for Wireless Sensor Networks

Lavratti

Ceratti

Prestes

et al. 2012

ISRN Communications and Networking

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Wireless sensor networks (WSNs) are generally used to monitor hazardous events in inaccessible areas. Thus, on one hand, it is preferable to assure the adoption of the minimum transmission power in order to extend as much as possible the WSNs lifetime. On the other hand, it is crucial to guarantee that the transmitted data is correctly received by the other nodes. Thus, trading off power optimization and reliability insurance has become one of the most important concerns when dealing with modern systems based on WSN. In this context, we present a transmission power self-optimization (TPSO) technique for WSNs. The TPSO technique consists of an algorithm able to guarantee the connectivity as well as an equally high quality of service (QoS), concentrating on the WSNs efficiency (Ef), while optimizing the transmission power necessary for data communication. Thus, the main idea behind the proposed approach is to trade off WSNs Ef against energy consumption in an environment with inherent noise. Experimental results with different types of noise and electromagnetic interference (EMI) have been explored in order to demonstrate the effectiveness of the TPSO technique.

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L. Bolzani

A new hybrid fault detection technique for systems-on-a-chip

An Automated Methodology for Cogeneration of Test Blocks for Peripheral Cores

A Hybrid Approach to Fault Detection and Correction in SoCs

Extended Fault Detection Techniques for Systems-on-Chip

A Transmission Power Self-Optimization Technique for Wireless Sensor Networks

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