Andrea Portaluri scite author profile

Andrea Portaluri

4Publications

6Citation Statements Received

29Citation Statements Given

How they've been cited

How they cite others

Affiliations

Polytechnic University of Turin, ETH Zurich, Bioengineering (Switzerland)

Publications

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Exploring the Impact of Soft Errors on the Reliability of Real-Time Embedded Operating Systems

et al. 2022

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The continuous scaling of electronic components has led to the development of high-performance microprocessors that are suitable even for safety-critical applications where radiation-induced errors such as Single Event Effects (SEEs) can have a significant impact on the performance and reliability of the system. This work is dedicated to investigating the reliability of systems based on programmable hardware and Real-time operating Systems (RTOS) in the presence of architectural faults induced by soft errors in the configuration memory of the programmable hardware. We performed a proton radiation test campaigned at PSI radiation facility to identify the fault model affecting the configuration memory of Xilinx Zynq-7020 reconfigurable AP-Soc Device. The identified fault model in terms of SEU and MBU clusters has been used to evaluate the impact of proton-induced faults on applications running within FreeRTOS on a Microblaze soft processor. A Single Event Multiple Upset fault model resulting from a proton test is presented, focusing on characteristics such as shape, size, and frequency of observed cluster of errors. We conduct two fault injection campaigns and analyze the results to assess the effect of cluster size on system reliability. Moreover, we discuss software exceptions caused by faults that can affect the hardware structure of the soft processor.

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SEU Evaluation of Hardened-by-Replication Software in RISC- V Soft Processor

Sio

Azimi

Portaluri

et al. 2021

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A comparative radiation analysis of reconfigurable memory technologies: FinFET versus bulk CMOS

Azimi

Sio

Portaluri

et al. 2022

Microelectronics Reliability

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Mechanically stirred single‐stage column for continuous gelation of colloidal systems

Zaccone

Portaluri

et al. 2008

AIChE Journal

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in Wiley InterScience (www.interscience.wiley.com).A continuous and fast gelation unit, referred to as a single-stage mechanically agitated gelation column has been proposed to perform gelation of colloidal systems. A fluorinated polymer latex, MFA 1 , has been used. The column is initially filled with a coagulant solution at a concentration that fully destabilizes the colloid. Under agitation, the colloid is fed continuously to the discharging region of the agitator blades where it forms flocs of gel by mixing with the coagulant. If the density of the colloidal particles is larger than that of water, the flocs settle downward to the bottom of the column and flow out of the unit for further treatment or direct applications. Timescale analysis of the phenomena involved in the column has been carried out to understand the complex interplay between gelation and mixing. Various gelation regimes have been identified, which can interpret the observed gelation behavior in the column.

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