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Zaawansowane Systemy Elektroniczne : WILGA zima 2016

Romaniuk R. S.

Elektronika : konstrukcje, technologie, zastosowania

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2016

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Vol. 57, nr 5

35--39

PL

Od dwudziestu lat młodzi uczeni z Instytutu Systemów Elektronicznych Politechniki Warszawskiej organizują dwa razy do roku, jedynie pod niewielką opieką kadry akademickiej, wspomagani patronatem organizacji WEiTI PW, KEiT PAN, SPIE, IEEE, PKOpto SEP, PSF, Sympozjum WILGA na temat zaawansowanych, zintegrowanych, funkcjonalnych systemów elektronicznych, fotonicznych i mechatronicznych, w aspektach badawczych i rozwojowych, teoretycznych i projektowych, technologiczno-materiałowych i konstrukcyjnych, programistycznych i sprzętowych, uruchamiania i testów, oraz aplikacji pilotowych i praktycznych. Aplikacje dotyczą najczęściej, co stało się specjalnością Sympozjum WILGA, inżynierii Internetu, eksperymentów fizyki wielkich energii i astrofizyki, nowej energetyki – w tym fuzji, atomistyki, techniki kosmicznej i satelitarnej, a także telekomunikacji, inteligentnego środowiska municypalnego, oraz biologii i medycyny. XXXVII Sympozjum WILGA było zorganizowane w dniach 29–31 stycznia 2016 r. i zgromadziło kilkudziesięciu młodych uczonych, głownie magistrantów i doktorantów z wymienionych obszarów badawczych. Zaprezentowano kilkadziesiąt referatów technicznych, które będą opublikowane w serii Proc. SPIE łącznie z letnią XXXVIII edycją Sympozjum WILGA, planowaną na dni 30.05–7.06. 2016 r. W artykule omówiono niektóre nurty tematyczne poruszane w czasie sesji sympozjalnych, takie jak projektowanie elektroniki w standardzie przemysłowym MTCA, oraz niektóre przykłady zastosowań w ten sposób projektowanej elektroniki. Artykuł, podsumowując tradycyjnie od wielu lat kolejne znakomite Sympozjum WILGA zorganizowane przez młodych uczonych z Politechniki Warszawskiej, jest także kolejną częścią cyklu prac dotyczących ich udziału w nowatorskich opracowaniach systemów elektronicznych używanych w eksperymentach klasy odkrywczej w kraju i w czołowych laboratoriach badawczych na świecie.

EN

Since twenty years, young researchers form the Institute of Electronic Systems, Warsaw University of Technology, organize two times a year, under only a marginal supervision of the senior faculty members, under the patronage of WEiTI PW, KEiT PAN, SPIE, IEEE, PKOpto SEP and PSF, the WILGA Symposium on advanced, integrated functional electronic, photonic and mechatronic systems. All aspects are considered like: research and development, theory and design, technology-material and construction, software and hardware, commissioning and tests, as well as pilot and practical applications. The applications concern mostly, which turned after several years to be a proud specialization of the WILGA Symposium, Internet engineering, high energy physics experiments, new power industry including fusion, nuclear industry, space and satellite technologies, telecommunications, smart municipal environment, as well as biology and medicine. XXXVII WILGA Symposium was held on 29–31 January 2016 and gathered a few tens of young researchers active in the mentioned research areas. There were presented a few tens of technical papers which will be published in Proc.SPIE together with the accepted articles from the Summer Edition of the WILGA Symposium scheduled for 30.05-07.06.2016. This article is a digest of chosen presentations from WILGA Symposium 2016 Winter Edition. The survey is narrowed to a few chosen and main topical tracks, like electronics and photonics design using industrial standards like MTCA, also particular designs of functional systems using industrial standards. The paper, summarizing traditionally since many years the accomplished WILGA Symposium organized by young researchers from Warsaw University of Technology, is also the following part of a cycle of papers concerning their participation in design of new generations of electronic systems used in discovery experiments in Poland and in leading research laboratories of the world.

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Automated generation of FRU devices inventory records for xTCA devices

Wychowaniak J., Makowski D., Perek P., Napieralski A.

International Journal of Microelectronics and Computer Science

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2011

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Vol. 2, nr 1

6-11

EN

The Advanced Telecommunications Computing Architecture (ATCA) and Micro Telecommunications Computing Architecture (μTCA) standards, intended for high-performance applications, offer an array of features that are compelling from the industry use perspective, like high reliability (99,999%) or hot-swap support. The standards incorporate the Intelligent Platform Management Interface (IPMI) for the purpose o advanced diagnostics and operation control. This standard imposes support for non-volatile Field Replaceable Unit (FRU) information for specific components of an ATCA/μTCA-based system, which would typically include description of a given component. The Electronic Keying (EK) mechanism is capable of using this information for ensuring more reliable cooperation of the components. The FRU Information for the ATCA/μTCA implementation elements may be of sophisticated structure. This paper focuses on a software tool facilitating the process of assembling this information, the goal of which is to make it more effective and less error-prone.

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PCIExpress hot plug mechanism in linux-based ATCA control systems

Piotrowski A., Makowski D.

International Journal of Microelectronics and Computer Science

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2010

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Vol. 1, nr 2

201-204

EN

PCI Express architecture is a widely used communication bus designed for industrial application. Additionally, according to PICMG 3.4 specification it is a part of ATCA architecture. One of the features offered by PCI Express standard is possibility of replacing the system components without shutting down entire system. In this paper, authors present general overview of Hot-Plug implementation in Linux operating system used in ATCA carrier board.

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AMC timing receiver and clock synthesizer module for the LLRF system

Czuba K., Bou Habib S., Sikora D.

International Journal of Microelectronics and Computer Science

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2010

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Vol. 1, nr 2

125-130

EN

The new LLRF system architecture based on the ATCA platform was developed and tested at FLASH. The LLRF system require generation of highly stable clock and trigger signals for high precision data processing and synchronous system operation. This paper describes the conception, design and performance test results of the updated AMC module designed to fulfill the LLRF system timing synchronization needs. This module contains three independent clock synthesizers that are able to generate LVDS clock signals in the range of 10 MHz to 100 MHz. These signals are transmitted over the AMC connector and can be distributed over the entire ATCA crate.The clock synthesizers can be synchronized either by an internal quartz oscillator or an external phase reference signal provided to the board either via the AMC edge connector or via a front panel socket. This assures flexibility when using the board for tests and for the LLRF system operation. Besides clock synthesizers the AMC card contains also an optical receiver suited to convert and decode FLASH timing signals distributed in the FLASH accelerator system.