ICALEPCS2013 - List of Authors (Bond, P.M.)

Paper

Title

Page

Using Web Syndication for Flexible Remote Monitoring

825

O. Pinazza
INFN-Bologna, Bologna, Italy
A. Augustinus, P.M. Bond, P.Ch. Chochula, M. Lechman, P. Rosinský
CERN, Geneva, Switzerland
A.N. Kurepin
RAS/INR, Moscow, Russia

With the experience gained in the first years of running the ALICE apparatus we have identified the need of collecting and aggregating different data to be displayed to the user in a simplified, personalized and clear way. The data comes from different sources in several formats, can contain data, text, pictures or can simply be a link to an extended content. This paper will describe the idea to design a light and flexible infrastructure, to aggregate information produced in different systems and offer them to the readers. In this model, a reader is presented with the information relevant to him, without being obliged to browse through different systems. The project consists of data production, collection and syndication, and is being developed in parallel with more traditional monitoring interfaces, with the aim of offering the ALICE users an alternative and convenient way to stay updated about their preferred systems even when they are far from the experiment.

Poster TUPPC108 [1.301 MB]

THPPC015

Managing Infrastructure in the ALICE Detector Control System

1122

M. Lechman, A. Augustinus, P.M. Bond, P.Ch. Chochula, A.N. Kurepin, O. Pinazza, P. Rosinský
CERN, Geneva, Switzerland
A.N. Kurepin
RAS/INR, Moscow, Russia
O. Pinazza
INFN-Bologna, Bologna, Italy

The main role of the ALICE Detector Control System (DCS) is to ensure safe and efficient operation of one of the large high energy physics experiments at CERN. The DCS design is based on the commercial SCADA software package WinCC Open Architecture. The system includes over 270 VME and power supply crates, 1200 network devices, over 1,000,000 monitored parameters as well as numerous pieces of front-end and readout electronics. This paper summarizes the computer infrastructure of the DCS as well as the hardware and software components that are used by WinCC OA for communication with electronics devices. The evolution of these components and experience gained from the first years of their production use are also described. We also present tools for the monitoring of the DCS infrastructure and supporting its administration together with plans for their improvement during the first long technical stop in LHC operation.

Poster THPPC015 [1.627 MB]

Paper	Title	Page
TUPPC108	Using Web Syndication for Flexible Remote Monitoring	825
	O. Pinazza INFN-Bologna, Bologna, Italy A. Augustinus, P.M. Bond, P.Ch. Chochula, M. Lechman, P. Rosinský CERN, Geneva, Switzerland A.N. Kurepin RAS/INR, Moscow, Russia
	With the experience gained in the first years of running the ALICE apparatus we have identified the need of collecting and aggregating different data to be displayed to the user in a simplified, personalized and clear way. The data comes from different sources in several formats, can contain data, text, pictures or can simply be a link to an extended content. This paper will describe the idea to design a light and flexible infrastructure, to aggregate information produced in different systems and offer them to the readers. In this model, a reader is presented with the information relevant to him, without being obliged to browse through different systems. The project consists of data production, collection and syndication, and is being developed in parallel with more traditional monitoring interfaces, with the aim of offering the ALICE users an alternative and convenient way to stay updated about their preferred systems even when they are far from the experiment.
	Poster TUPPC108 [1.301 MB]

THPPC015	Managing Infrastructure in the ALICE Detector Control System	1122
	M. Lechman, A. Augustinus, P.M. Bond, P.Ch. Chochula, A.N. Kurepin, O. Pinazza, P. Rosinský CERN, Geneva, Switzerland A.N. Kurepin RAS/INR, Moscow, Russia O. Pinazza INFN-Bologna, Bologna, Italy
	The main role of the ALICE Detector Control System (DCS) is to ensure safe and efficient operation of one of the large high energy physics experiments at CERN. The DCS design is based on the commercial SCADA software package WinCC Open Architecture. The system includes over 270 VME and power supply crates, 1200 network devices, over 1,000,000 monitored parameters as well as numerous pieces of front-end and readout electronics. This paper summarizes the computer infrastructure of the DCS as well as the hardware and software components that are used by WinCC OA for communication with electronics devices. The evolution of these components and experience gained from the first years of their production use are also described. We also present tools for the monitoring of the DCS infrastructure and supporting its administration together with plans for their improvement during the first long technical stop in LHC operation.
	Poster THPPC015 [1.627 MB]