Auvesy's version dog helps monitor Industrial control system programs for the Large Hadron Collider (LHC) at CERN | Automation.com

Auvesy's version dog helps monitor Industrial control system programs for the Large Hadron Collider (LHC) at CERN

Auvesy's version dog helps monitor Industrial control system programs for the Large Hadron Collider (LHC) at CERN

March 27, 2019 - Backing up and monitoring of Industrial control system programs for the Large Hadron Collider (LHC) at CERN near Geneva - the world´s largest particle accelerator - has been entrusted to the data management system versiondog. The European Organization for Nuclear Research uses the system to manage the data of around 500 components, making versiondog one of CERN's standard technologies.

"We have made significant gains in certainty and quality when it comes to data availability in areas where many programmable logic controllers are in use. Implementing versiondog has put us on a new quality level," says Jerónimo Ortolá Vidal, Automation engineer at the Industrial Controls and Safety systems Group of the BeamsDepartment at CERN.

The LHC was commissioned in 2008 to carry out cutting-edge research into particle physics. versiondog from Auvesy provides a manufacturer-independent software solution for backup, version control, and documentation of project data for industrial control systems. It uses standardized workflow and centralized data storage, makes automatic backups and ensures comprehensible documentation of each step in the development process. The SmartCompare function enables detailed program comparison with the same presentation as the system editor. Support is provided for audit trail documentation in accordance with ISO 900x, VDA 6.x, FDA 21 CFR 11, GAMP and GMP.

versiondog has been in use at CERN for a year. There is now a centralized repository wherethe project data of the control systems from Siemens (SIMATIC S7, TIA Portal, WinCC flexible) and Schneider Electric (Unity Pro) is safeguarded and managed. "We want to make all the processes of the control system and their surrounding ancillary equipment homogeneous," says Ortolá. "Our goal is to always have a clear overview of all PLCs and HMIs and all the changes that are made to their control programs. We want to be able to manage all program versions using a standardized procedure, and it is extremely important to us to be able to store and safeguard data centrally."

 

CERN - looking deeply into matter

CERN was founded in 1954 as a research organization for fundamental physics. It is located at Meyrin near Geneva. A remarkable international collaboration, the European Organization for Nuclear Research is now run by 22 member states. With an annual budget of over one billion euros, the Organization receives visits from around 11,000 scientists all over the world who are working on various projects. The main focus of their research is the exploration of the fundamental particles that make up the Universe. Powerful accelerators are used to bring particles to near light speed. The biggest is the LHC (Large HadronCollider).

To reach it, it is first necessary to descend 100 m (328 feet) underground. Then you would need a bicycle if you wanted to follow the 27 km (16.5 mile) circumference of the collider. Doing so, you would pass several thousand electromagnets, some as big as a freight container, masses of cables, gigantic detectors and many computers. All this to do research on the smallest particles in nature. To help answer questions about the origin of the universe. And other questions, such as 'why is there far more matter than antimatter in the universe?' Inside the ring, elementary particles are accelerated by the electromagnets to speeds close to that of light, i.e. in the region of 300,000 km per second. Then they are smashed together at predetermined collision zones. This causes a shower of particles, the trails of which can be traced and analyzed by huge detectors. The Worldwide LHC Computing Grid (WLCG) was developed to handle the enormous quantity of data produced. Dispersed across the globe, this computing and data storage network can deal with data volumes in the order of 30 Petabytes.

The control programs of CERN's auxiliary and utility systems (cryogenics, cooling systems, air conditioning, gas supply, electricity, interlocks, etc.) undergo a continual process of development and modification. The cryogenics have a particularly important role to play here because when the LHC is in operation, the magnets have to be kept at a constant temperature of 1.9 Kelvin (-271 degreesCelsius or -455 Fahrenheit).

Since versiondog has been on the scene, all changes, no matter when they are made, where, or by whom are detected then saved and documented centrally -- plain to see for everyone. All members of staff now go to the same place to access thesamecontrolsoftware.It is backed up regularly and changes made by colleagues can no longer be missed, overwritten or lost by mistake. There are already 10 teams managing around 500 control systems with versiondog. In the near future, around 1,500 components in use at CERN are set to be integrated into the versiondog system.

Management of the various individual processes and control systems is the responsibility of a number of different departments. Within this structure, Ortolá's department provides CERN wide support service. It was with the goal of standardizing processes across departments in mind that the versiondog system was introduced. Staff now have a much clearer picture of processes and their current status. Any and all changes are comprehensible and visible to everyone. And they can be undone if necessary. Furthermore, a backup of all data is performed once aweek.

"Errors made while modifying programs have been reduced to an absolute minimum since we have been using versiondog," explains Ortolá. "Centralized data storage guarantees that we are always working with the latest and most recently approved and released program versions." But if for some reason a system goes down, the latest version is immediately available. What’s more, the system checks that the version running on a control system (the online version) really does correspond to the latest version that was saved on the server (the offline version). Before versiondog, changes could go unnoticed. Regular online-offline comparisons ensure that this can no longer happen. If a discrepancy is detected, the system informs the appropriate administrator by email. All this means that versiondog has led to an improvement in quality and an increase in the level of work process standardization atCERN.

 

Moving Forward

Research and development in a facility such as CERN never comes to an end. Ortolá is continually adapting the versiondog system to the changing needs of the Organization. When he needs support, he gets it directly from the data management specialists at Auvesy. There he can find the help he needs with individual elements of configuration and with broader adaptations of the system to the new conditions.

Did you Enjoy this Article?

Check out our free e-newsletters
to read more great articles.

Subscribe Now

MORE CASE STUDIES

VIEW ALL

RELATED