Results 1 – 30 of 44 I diritti facoltativi e la prescrizione [Reprint] by Ferruccio Bolchini and a great selection of related Reti logiche: Carlo Brandolese, Fabio. Reti logiche: Bolchini Brandolese Salice Sciuto: Books – Reti Logiche A (It) – Polimi – First Semester, C. Bolchini ([Various ( Updated – 13 Jan 09]) Architettura dei Calcolatori (It) – Polimi – First Semester,
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From the same university I received, inthe Laurea Triennale degree in Computer Engineering equivalent to Bachelor’s degreewith a thesis on evolvable hardware, and the Laurea Specialistica degree in Computer Engineering equivalent to Master of Science degree with a work on self-adaptive operating systems, in In logichs meanwhile, I attended the Alta Scuola Politecnica ASPworking on a multidisciplinary project related to energy efficiency and renewable energy for intelligent and sustainable buildings.
InI spent 3 months logice a visiting Ph. In the case you want to know something more about me, you can download my CV short or complete.
Below you can find a brief description of my research interests, the people I mainly work with and the list of my publications. Indeed dependability has become a first-class citizen in the most recent years, and not only a strict requirement for critical-application scenarios, due to the increased susceptibility of the devices to hard and soft faults caused by a harsh technology scaling, variability of the manufacturing process and to the expositions of devices to radiations and noise fluctuations.
Radiations, in particular, are the cause of transient faults and they also accelerate the aging process electronic devices are commonly subject to.
Matteo Carminati’s home page
These radiation effects are particularly frequent in the space and thus have been taken into account mainly for space-related application scenarios, however within the present technological scenario, radiations an issue also at ground level, for the general application scenarios.
Therefore, when adopting the COTS-based design approach for the realization of modern electronic systems, also considering their pervasiveness, reliability has become one of the main issues, together with performance.
A third crucial aspect in the design phase is power consumption, thanks to the shared awareness of the need for electronic devices to be less energy-hungry. Our interest is devoted to the dependability characteristics of the final system, to be tuned with respect to the other two aspects; the overall goal is to investigate models, methods and tools to support the specification, development and analysis of systems with a tunable level of dependability, based on the requirements and the run-time environment.
At first, the focus will be on the reliability and performance aspects, leaving the power issue for future consideration. Several are the fields of application of such a methodology: In the latter cases, the system can adapt its working conditions and expose a robust behavior with possibly limited performance, or the other way around.
During the research period, some of these applications will be further investigated, in order to prove the validity and the efficiency of the proposed approach. The design of dependable embedded systems, as technology scales and transient faults emerge as a key issue, poses yet new challenges, especially as the complexity of the devices increases and core- or platform-based methodologies are adopted, thus logichs Commercial Llgiche COTS components that not necessarily expose reliable properties.
In this scenario, several activities have been carried out in these years, aimed at investigating reliability issues and developing techniques, methods and methodologies to pursue fault detection and tolerance properties in the digital devices.
The aim of this project is to build a computing system able to adapt its behaviour to its status and to the surrounding environment, logivhe.
This is possible by implementing the Observe-Decide-Act approach.
The Linux kernel is the starting point, while the desire is to build a brand new operating system from scratch. Evolvable Hardware is a highly multidisciplinary field concerning the creation or the adaptation of physical circuits through evolutionary strategies aiming at improving the circuits behavior with respect to a given specification. The key elements in EHW are the evolutionary algorithms used and the programmable devices over which the logiceh are deployed.
This multidisciplinary deti is focused on the identification, design and integration of technical solutions for buildings, aiming in particular at the minimization of energy consumption and the optimization of the use of Renewable Energy Sources.
Antonio Miele @ DEIB
The final aim is to develop an expert tool to allow the design and the integration of technical solutions for lighting, heating and cooling, etc, with an eye to safety, standard compliance and law provision aspects. HERA Hardware Evolution over Reconfigurable Architectures Evolvable Hardware is a highly multidisciplinary field concerning the creation or the adaptation of physical circuits through evolutionary strategies aiming at improving the circuits behavior with respect to a given specification.
BuildSmart Energy Efficiency and Renewable Energy for Intelligent and Sustainable Buildings This multidisciplinary project is focused on the identification, design and integration of technical solutions for buildings, aiming in particular at the minimization of energy consumption and the optimization of the use of Renewable Energy Sources.