Workshop on Machine availability and dependability for post LS1 LHC

Thursday 28 Nov 2013, 08:30 → 19:00 Europe/Zurich

874-1-11 (CERN)

Goal:

Following the initial work of the RSWG (reliability Sub Working Group) before LHC startup, many equipment teams are now revisiting their dependability calculations in light of the operational experience of the past 4 years and future upgrades and improvements of the systems. The main goal of this (CERN internal) workshop is to provide a forum for exchange and advertisement of the ongoing work as well as to discuss and guarantee the coherence of ongoing and future efforts. With the focus of LHC exploitation increasingly shifting towards machine availability, an attempt to quantify the impact of ongoing improvements and their effect on integrated luminosity in the post LS1 and HL-LHC era will be made. In addition the status and future needs for tools and methodologies to reliably track and quantify the dependability of equipment systems will be addressed.


Organizers:

Andrea APOLLONIO,
Christophe MUGNIER,
Laurette PONCE,
Benjamin TODD,
Jan UYTHOVEN,
Jorg WENNIGER,
Daniel WOLLMANN,
Markus ZERLAUTH

Editor of Workshop Summary:

Benjamin TODD,
Laurette PONCE,
Andrea APOLLONIO

Workshop Secretaries:

Armelle RUYS
Mariane CATALLON
 

 

 

proceedings dws_proceedings_final_1v0.pdf

summary dws_summary_final_1v1.pdf

INTRODUCTION

Convener: Dr Markus Zerlauth (CERN)

1 Welcome address

Speaker: Frederick Bordry (CERN)

2 Motivation and goals of Workshop

Speaker: Dr Benjamin Todd (CERN)

Slides dws_introduction_1v1.pptx

3 Dependability calculations prior to 2008 and operational experience during first LHC run

This presentation recalls the initial work done by the Reliability Working Group to assess the safety of the LHC machine protection system before its first operation. This study also provided numbers of machine availability for the systems studied. The initial estimate is compared with the LHC fault statistics presented at the different workshops across all systems. The importance of such studies and the role of the Availability Working Group for operation after LS1 are described.

Speaker: Dr Jan Uythoven (CERN)

Slides Dependability_calc_before_2008_-_Avail_workshop_CERN.pdf Dependability_calc_before_2008_-_Avail_workshop_CERN.pptx

summary Abstract_JU_avail_workshop.docx Abstract_JU_avail_workshop.pdf

ONGOING IMPROVEMENTS FOR INCREASING THE AVAILABILITY FOR THE LHC

Convener: Dr Jan Uythoven (CERN)

4 Cryogenics

The LHC accelerator being based on superconducting devices, the availability of it’s cryogenic system is crucial for it’s global performance. From the beginning, monitoring our availability has been part of our standard practices, allowing for continuous progress. After briefly describing pre-LS1 facts and tools, we will describe what is being done during LS1 in perspective of restart conditions and performance post-LS1. We will present a specific focus on rotating machinery and logging methodology.

Speakers: Eric Jean-Francois Duret (CERN), Mr Serge Claudet (CERN)

Slides LHCCryo_AV_Nov13_R0.pdf LHCCryo_AV_Nov13_R0.ppt

5 Power converters

From the powering side, the biggest risk to LHC availability is the current FGC2 implementation, and its sensitivity to radiation. If we run as we are, we will likely abort almost every mission prematurely due to FGC2 failure. A next generation FGClite is being designed to replace the FGC2 in areas which are exposed to radiation. Of some 1600 Power Converter Controllers installed at CERN around 1100 will be replaced with FGClite. This presentation will outline the predicted performance of the FGClite in the post-LS1 era. It will outline the manner in the challenges are being addressed, and the implementation chosen for FGClite. Past and future performance comparison will be done.

Speaker: Slawosz Uznanski (CERN)

Slides EPC_post-LS1_LHC_Uznanski_3v1.pdf EPC_post-LS1_LHC_Uznanski_3v1.pptx

10:15 Coffee Break

6 LHC Beam dumping system

Speaker: Roberto Filippini (Unknown)

Slides CERN-availability-workshop-LBDS_v2-281113.pdf CERN-availability-workshop-LBDS_v2-281113.pptx

7 Magnet protection and interlocks

Speaker: Stephane Gabourin (CERN)

Slides WS_-_Interlocks_Availability-Dependability_28-11-13_2.pdf WS_-_Interlocks_Availability-Dependability_28-11-13_2.pptx

8 Availability of LHC Beam Instrumentation Systems

The presentation will follow-up from the MPP Workshop in Annecy and cover reliability issues for BI systems at the LHC. Emphasis will be put on the interlocked systems (BLMs and SR6 BPMs) which have a direct impact on the beam permits while a general overview for other critical systems with lessons learn during LHC run #1 will be given.

Speaker: Mr Lars Jensen (CERN)

Slides LHC_availability_work-shop_for_BI.pdf LHC_availability_work-shop_for_BI.pptx

9 RF/Damper

Speaker: Pierre Maesen (CERN)

Slides LHCAvailabilityRF2013.pdf LHCAvailabilityRF2013.pptx

12:30 Lunch Break

METHODS TO IMPROVE AVAILABILITY

Convener: Dr Jorg Wenninger (CERN)

10 Operational availability – injector chain

Speaker: Karel Cornelis (CERN)

Slides SPS_availability.pptx

11 Operational availability - Optimizing LHC

Speaker: Laurette Ponce (CERN)

Slides OperationalAvailability.pdf OperationalAvailability.ppt

12 LHC Availability Tracking Past and Future

The LHC Availability Working Group has been looking into methods of exploiting machine and system availability metrics to optimise LHC physics production. This presentation outlines the key methods that have been identified for individually tracking equipment and machine availability in the 2010-12 period, from this the concept of an LHC Cardiogram has been produced, showing key availability information derived from operational logbooks, machine data and equipment experts. An extension of this method for capturing LHC availability information is outlined, called the LHC Systems Availability Tracker. This system will provide standardised availability metrics and profiles for equipment, and will provide the complete requirements, and proof of concept, for availability tracking which may be used in an integrated asset and event management tool. The proposed implementation and basic exploitation of the LSAT is shown. A road-map is given for; the AWG, the proposed implementation of the LSAT tool and links to the Maintenance Management Project.

Speaker: Dr Benjamin Todd (CERN)

notes lsat_cardiogram_0v3.pdf lsat_corrected_0v6.pdf

Slides dws_awg_1v2.pptx

13 MMP Project – available methods and tools to support LHC operation post LS1

Speaker: Christophe Mugnier (CERN)

Slides 1332829-V1-AvailabilityWS2013.pdf 1332829-V1-AvailabilityWS2013.pptx

16:00 Coffee Break

14 Potentials of Petri nets for Availability Modeling and Analysis

•Introduction •Dependability Modeling (Methods, Aspects) •Analysis and Prediction (Method and predictable parameters) •Tool: REALIST (Software Tool) •Large and Complex Systems (possibilities to deal with large systems) •Application Examples (from different applications in industry) •Summary & Conclusions

Speaker: Dr Peter ZEILER

Slides 131128_CERN_TPE-Workshop_Zeiler.pdf 131128_CERN_TPE-Workshop_Zeiler.pptx

15 Availability predictions for post LS1 operation and HL-LHC

Speaker: Andrea Apollonio (Vienna University of Technology (AT))

Slides AVAILABILITY_WS_28112013_AA.pdf AVAILABILITY_WS_28112013_AA.pptx

16 Summary and Discussion

Speaker: ALL