Search Results - "Makijarvi, P"

Towards the conceptual design of the ITER real-time plasma control system by Winter, A., Makijarvi, P., Simrock, S., Snipes, J.A., Wallander, A., Zabeo, L.

“…•We describe the main control areas and interfaces for the ITER real-time plasma control system and the current state of their design.•An overview is given for…”
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Data archiving system implementation in ITER's CODAC Core System by Castro, R., Abadie, L., Makushok, Y., Ruiz, M., Sanz, D., Vega, J., Faig, J., Román-Pérez, G., Simrock, S., Makijarvi, P.

“…•Implementation of ITER's data archiving solution.•Integration of the solution into CODAC Core System.•Data archiving structure.•High efficient data…”
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ITER Fast Plant System Controller prototype based on PXIe platform by Ruiz, M., Vega, J., Castro, R., Sanz, D., López, J.M., de Arcas, G., Barrera, E., Nieto, J., Gonçalves, B., Sousa, J., Carvalho, B., Utzel, N., Makijarvi, P.

“…► Implementation of Fast Plant System Controller (FPSC) for ITER CODAC. ► Efficient data acquisition and data movement using EPICS. ► Performance of PCIe…”
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ITER fast plant system controller prototype based on ATCA platform by Gonçalves, B., Sousa, J., Carvalho, B.B., Batista, .A., Neto, A., Santos, B., Duarte, A., Valcárcel, D., Alves, D., Correia, M., Rodrigues, A.P., Carvalho, P.F., Ruiz, M., Vega, J., Castro, R., López, J.M., Utzel, N., Makijarvi, P.

“…The ITER fast plan system controllers (FPSC) are based on embedded technologies. The FPSCs [1] will be devoted to data acquisition tasks (sampling rates>1kSPS)…”
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ITER CODAC Status and Implementation Plan by Utzel, Nadine, Klotz, W D, Wallander, A, Dave, H, Di Maio, F, Gulati, H K, Hansalia, C, Joonekindt, D, Journeaux, J Y, Mahajan, K, Makijarvi, P, Scibile, L, Stepanov, D, Yonekawa, I

“…CODAC (Control, Data Access and Communication) is the central control system responsible for operating the ITER device. CODAC interfaces to more than 160 plant…”
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Baseline Architecture of ITER Control System by Wallander, A., Di Maio, F., Journeaux, J.-Y, Klotz, W.-D, Makijarvi, P., Yonekawa, I.

“…The control system of ITER consists of thousands of computers processing hundreds of thousands of signals. The control system, being the primary tool for…”
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ITER prototype fast plant system controller by Gonçalves, B., Sousa, J., Carvalho, B.B., Rodrigues, A.P., Correia, M., Batista, A., Vega, J., Ruiz, M., López, J.M., Castro, R., Wallander, A., Utzel, N., Makijarvi, P., Simrock, S., Neto, A., Alves, D., Valcárcel, D.F., Lousã, P., Piedade, F., Fernandes, L.

“…ITER CODAC Design identified the need for slow and fast control plant systems, based respectively on industrial automation technology with maximum sampling…”
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NetCDF based data archiving system applied to ITER Fast Plant System Control prototype by Castro, R., Vega, J., Ruiz, M., De Arcas, G., Barrera, E., López, J.M., Sanz, D., Gonçalves, B., Santos, B., Utzel, N., Makijarvi, P.

“…► Implementation of a data archiving solution for a Fast Plant System Controller (FPSC) for ITER CODAC. ► Data archiving solution based on scientific NetCDF-4…”
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A GPU-based real time high performance computing service in a fast plant system controller prototype for ITER by Nieto, J., de Arcas, G., Ruiz, M., Vega, J., López, J.M., Barrera, E., Castro, R., D.Sanz, Utzel, N., Makijarvi, P., Zabeo, L.

“…► Implementation of fast plant system controller (FPSC) for ITER CODAC. ► GPU-based real time high performance computing service. ► Performance evaluation with…”
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Integration of the ITER diagnostic plant systems with CODAC by Simrock, S., Barnsley, R., Bertalot, L., Hansalia, C., Klotz, W.D., Makijarvi, P., Reichle, R., Vayakis, G., Yonekawa, I., Walker, C., Wallander, A., Walsh, M., Winter, A.

“…ITER requires extensive diagnostic systems in order to meet the requirements for machine operation, protection, plasma control and physics studies. The…”
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Evaluation of the ATCA fast controller standard for ITER diagnostics by Simrock, S., Bertalot, L., Cheon, M., Hansalia, C., Joonekindt, D., Jablonski, G., Kawano, Y., Klotz, W.-D., Kondoh, T., Kozak, T., Makijarvi, P., Makowski, D., Napieralski, A., Orlikowski, M., Park, M., Petrov, S., Piotrowski, A., Predki, P., Semenov, I., Shelukhin, D., Udintsev, V., Vayakis, G., Wallander, A., Walsh, M., Wu, S., Yang, S.Q., Yonekawa, I.

“…ITER project's long time span and the nature of the instrumentation and control (I&C) procurement procedures for the Plant Systems require that the ITER…”
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High-Performance Image Acquisition and Processing System with MTCA.4 by Makowski, D., Mielczarek, A., Perek, P., Jablonski, G., Orlikowski, M., Sakowicz, B., Napieralski, A., Makijarvi, P., Simrock, S., Martin, V.

“…Fast evolution of high-performance cameras in recent years has made them promising tools for observing transient and fast events in large-scale scientific…”
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IEEE 1588 Time Synchronization Board in MTCA.4 Form Factor by Jablonski, G., Makowski, D., Mielczarek, A., Orlikowski, M., Perek, P., Napieralski, A., Makijarvi, P., Simrock, S.

“…Distributed data acquisition and control systems in large-scale scientific experiments, like e.g. ITER, require time synchronization with nanosecond precision…”
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Instrumentation and control standardization in the ITER project by Journeaux, J.Y., Joonekindt, D., Klotz, W.D., Mäkijärvi, P., Wallander, A., Yonekawa, I.

“…The ITER instrumentation and control (I&C) system is the term encompassing all hardware and software required to operate ITER. It has two levels of hierarchy:…”
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Implementation of Intelligent Data Acquisition Systems for Fusion Experiments Using EPICS and FlexRIO Technology by Sanz, D., Ruiz, M., Castro, R., Vega, J., Lopez, J. M., Barrera, E., Utzel, N., Makijarvi, P.

“…Currently, the hardware devices and software tools used in data acquisition (DAQ) systems for diagnostics in fusion experiments are not standardized…”
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Baseline architecture of ITER control system by Wallander, A, Di Maio, F, Journeaux, J.-Y, Klotz, W.-D, Makijarvi, P, Yonekawa, I

“…The control system of ITER consists of thousands of computers processing hundreds of thousands of signals. The control system, being the primary tool for…”
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CODAC systems arrangement and connectivity by Gulati, Hitesh Kumar, Beltran, David, Kuehn, Ingo, Kotamaki, Miikka, Makijarvi, Petri, Wallander, Anders

“…•The CODAC system is a distributed system and scattered in many buildings connected with cables. Building construction for ITER project is just started so…”
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Software Quality Assurance activities of ITER CODAC by Pande, Sopan, DiMaio, Franck, Kim, Changseung, Kim, Joohan, Klotz, Wolf-Dieter, Makijarvi, Petri, Stepanov, Denis, Wallander, Anders

“…► Comprehensive and consistent software engineering and quality assurance of CODAC. ► Applicable to all CODAC software projects executed by ITER DAs and…”
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ITER prototype fast plant system controller based on ATCA platform by Goncalves, B., Sousa, J., Carvalho, B. B., Batista, A., Neto, A., Santos, B., Duarte, A., Valcarcel, D., Alves, D., Correia, M., Rodrigues, A. P., Carvalho, P. F., Fortunato, J., Carvalho, P. J., Ruiz, M., Vega, J., Castro, R., Lopez, J. M., Utzel, N., Makijarvi, P., Leong, C., Bexiga, V., Teixeira, I. C., Teixeira, J. P., Barbalace, A., Lousa, P., Godinho, J., Mota, P.

“…The ITER Fast Plant System Controllers (FPSC) are based on embedded technologies and will be devoted to both data acquisition tasks (sampling rates >;1 kSPS)…”
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High-performance image acquisition and processing system with MTCA.4 by Makowski, D., Mielczarek, A., Perek, P., Jablonski, G., Orlikowski, M., Napieralski, A., Makijarvi, P., Simrock, S., Martin, V.

“…Fast evolution of high-performance cameras in recent years has made them promising tools for observing transient and fast events in large-scale scientific…”
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