The present work assesses the radiation sensitivity of an affordable and performant COTS multicore processor for noncritical avionic applications. The target device is the Epiphany E16G301 multicore manufactured in 65 nm CMOS which integrates 16 processor cores. This device was selected due to its high performance, low power consumption, and affordability, allowing general public accessing to parallel computing. Additionally, the E16G301 is the coprocessor for parallel processing of the Parallella platform, which was considered by NASA researchers for onboard health management of the DragonEye UAS. The evaluation of the device is done using quantitative theory by means of radiation experiments with 14 MeV neutrons to emulate the effects of ...
The present thesis aims at evaluating the SEE static and dynamic sensitivity of three different COTS...
International audienceThis paper presents a benchmarking methodology to analyse the failure mechanis...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
International audienceThe present work assesses the radiation sensitivity of an affordable and perfo...
International audienceThis work evaluates the error-rate of a memorybound application implemented in...
This paper presents a new concept of building a high performance, radiation hardened computer from C...
IEEE Catalog Number: CFP15449-ART (XPLORE) ISBN: 978-1-5090-0232-0 (XPLORE)IEEE Catalog Number: CFP1...
The fast-growing demand for computational capacity has led to the emergence of large-scale systems w...
International audienceThis work evaluates the SEE static and dynamic sensitivityof a single-chip man...
This thesis evaluates the susceptibility to high energy proton irradiation of the NOEL-V soft proces...
Abstract–Graphics Processing Units specifically designed for High Performance Computing applications...
Computing power requirements of space applications, in particular for payload functions, are constan...
In the aerospace industry, commercial-off-the-shelf (COTS) static random access memories (SRAMs) are...
The aim of this work is to evaluate the SEE sensitivity of a multi-core processor having implemented...
The present thesis aims at evaluating the SEE static and dynamic sensitivity of three different COTS...
International audienceThis paper presents a benchmarking methodology to analyse the failure mechanis...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
International audienceThe present work assesses the radiation sensitivity of an affordable and perfo...
International audienceThis work evaluates the error-rate of a memorybound application implemented in...
This paper presents a new concept of building a high performance, radiation hardened computer from C...
IEEE Catalog Number: CFP15449-ART (XPLORE) ISBN: 978-1-5090-0232-0 (XPLORE)IEEE Catalog Number: CFP1...
The fast-growing demand for computational capacity has led to the emergence of large-scale systems w...
International audienceThis work evaluates the SEE static and dynamic sensitivityof a single-chip man...
This thesis evaluates the susceptibility to high energy proton irradiation of the NOEL-V soft proces...
Abstract–Graphics Processing Units specifically designed for High Performance Computing applications...
Computing power requirements of space applications, in particular for payload functions, are constan...
In the aerospace industry, commercial-off-the-shelf (COTS) static random access memories (SRAMs) are...
The aim of this work is to evaluate the SEE sensitivity of a multi-core processor having implemented...
The present thesis aims at evaluating the SEE static and dynamic sensitivity of three different COTS...
International audienceThis paper presents a benchmarking methodology to analyse the failure mechanis...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...