L-H threshold database: Status and Plans J.W. Hughes, J. Stillerman, MIT PSFC Y. Martin, CRPP-EPFL P. Gohil, GA D. McDonald, JET-EFDA Meeting of the ITPA.

Slides:

Advertisements

Similar presentations

Distributed Data Processing

Advertisements

Extension of IEA Implementing Agreement on Large Tokamak Facilities Presented to Committee on Energy Research Technologies October 18-19, 2005 Paris, France.

A. Kirk, 21 st IAEA Fusion Energy Conference, Chengdu, China, October 2006 Evolution of the pedestal on MAST and the implications for ELM power loadings.

D. R. Mikkelsen, ITPA Transport & Confinement Topical Group Workshop, Milan October 2008 Validation of ITER Simulation Models ITER requests help.

Yves Martin Centre de Recherches en Physique des Plasmas Association Euratom - Confédération Suisse Ecole Polytechnique Fédérale de Lausanne (EPFL) CH.

1 Databases in ALICE L.Betev LCG Database Deployment and Persistency Workshop Geneva, October 17, 2005.

Information Technology for Construction: Recent Work and Future Directions in W78.

S New Security Developments in DICOM Lawrence Tarbox, Ph.D Chair, DICOM WG 14 (Security) Siemens Corporate Research.

1 By The End of The Workshop, Participants Will Be Able To:  Describe the PDQ methodology  Know when and how PDQ can be used to strengthen quality and.

C Gormezano, S Ide ITPA SSO&EP IEA-LT/ ITPA Collaboration 1 Steady State Operation & Energetic Particles Advanced Scenario need the same development path.

M.E. Fenstermacher - Summary of Progress and Outlook for Work Plan in PEP ITPA WG on RMP ELM Control 4/23/09 11:15 PM 1 PEP ITPA Working Group on RMP ELM.

RISK MANAGEMENT PRESENTATION ASQ- GREATER HOUSTON SECTION 1405 Lila Carden, Ph.D., MBA, PMP University of Houston Instructional Associate Professor

Report on W66 at W69 M. L. Watkins 1 (4) MIT, Cambridge, MA, USA, 11 December 2008 Report on Sixth Joint Workshop (W66) “Implementation of the ITPA Coordinated.

ITPA - IOS st Oct Kyoto E. Joffrin JET programme with the ILW in and relations with the IOS Joint experiments.

Copyright ®xSpring Pte Ltd, All rights reserved Versions DateVersionDescriptionAuthor May First version. Modified from Enterprise edition.NBL.

Lecture slides prepared for “Computer Security: Principles and Practice”, 3/e, by William Stallings and Lawrie Brown, Chapter 5 “Database and Cloud Security”.

ICALEPCS /13/2005 M. Greenwald Visions for Data Management and Remote Collaboration on ITER M. Greenwald, D. Schissel, J. Burruss, T. Fredian, J.

Requirements Review – July 21, Requirements for CMS Patricia McBride July 21, 2005.

H-mode characteristics close to L-H threshold power ITPA T&C and Pedestal meeting, October 09, Princeton Yves Martin 1, M.Greenwald, A.Hubbard, J.Hughes,

CSED Computational Science & Engineering Department CHEMICAL DATABASE SERVICE The Current Service is Well Regarded The CDS has a long and distinguished.

Status and Plans Transport Model Validation in ITER-similar Current-Ramp Plasmas D. R. Mikkelsen, PPPL ITPA Transport & Confinement Workshop San Diego.

3 rd ITPA T&C Meeting, 5-7 Oct WAHPage 1 ITER Integrated Modelling – Status & Plans W.A. Houlberg ITER Organization 3 rd ITPA Transport & Confinement.

9th ITPA Confinement Database and Modelling Topical Physics Group meeting in St. Petersburg 1/5 NF paper on H-mode confinement DB3 Darren McDonald.

V. A. Soukhanovskii NSTX Team XP Review 31 January 2006 Princeton, NJ Supported by Office of Science Divertor heat flux reduction and detachment in lower.

ITPA CDBM Group Meeting, St Petersburg October 2005, update of talk to Pedestal +Transport ITPA groups San Diego September/October 2003, and CDBM in Lisbon.

October Milano Core-Pedestal Energy Confinement. Empirical Scaling Laws and "stiff" profiles. A. Jacchia 1, F. De Luca 2 1 Consiglio Nazionale.

The european ITM Task Force data structure F. Imbeaux.

Users/Historical Data Working Group Update to Coordination Group Butch Lazorchak Library of Congress Chair, U/HDWG September 9, 2014 Coordination.

McGraw-Hill/Irwin © 2008 The McGraw-Hill Companies, All Rights Reserved Chapter 7 Storing Organizational Information - Databases.

Yves Martin Centre de Recherches en Physique des Plasmas Association Euratom - Confédération Suisse Ecole Polytechnique Fédérale de Lausanne (EPFL) CH.

ITPA Expert Group Meetings, October 2002, Cadarache, France STATUS and PLANS for the ITPA PROFILE DATABASE C M Roach, M Walters EURATOM/UKAEA Fusion Association,

1 Plasma Rotation and Momentum Confinement – DB ITPA - 1 October 2007 by Peter de Vries Plasma Rotation and Momentum Confinement Studies at JET P.C. de.

M.E. Fenstermacher - 2nd Inter-Mtg Conf Call, PEP ITPA WG on RMP ELM Control 8/31/09 18:05 1 PEP ITPA Working Group on RMP ELM Control: 2 nd Inter-Meeting.

Planned Theory Contributions to the FY’2011 Joint Research Target on Pedestal Research R. J. Hawryluk Thanks to the Pedestal Working Group: C-S Chang,

Organisation of the Beatenberg Trigger Workshop Ricardo Gonçalo Higgs WG Meeting - 22 Jan.09.

Introduction of 9th ITPA Meeting, Divertor & SOL and PEDESTAL Jiansheng Hu

E. Doyle (Chair), V. Mukhovatov (Co-chair) for the ITPA Transport Physics Group 2nd IEA Large Tokamak Workshop on Implementation of the ITPA Coordinated.

Integrated Operation Scenarios ITPA Remaining duties ITPA CC meeting & IEA/ITPA JE planning meeting –12 – 14 (15) December 2011, Cadarache –Ide, Sips and.

1/5 D. C. McDonald et al, Status of the ITPA paper “Recent progress of the ITPA global H-mode confinement and pedestal databases”, Kyoto, 18-20th Apr 2005.

Hysteresis in the L-H-L transition, D C McDonald, ITPA, Princeton 20091/22 Hysterics in the L-H transition D C McDonald.

Effect of low aspect ratio data on H-mode confinement.

ITPA Topical Group on MHD, Control, and Disruptions Summary of 5th meeting, Nov. 8-10, 2004 Presented by Ted Strait Workshop on MHD Mode Control Princeton,

TPB Structure St.. Petersburg NEXT STEPS IN PROCESS Approach identified participants to ensure they are willing/able to participate Section coordinators.

DISCUSSION OF ISSUES, OPPORTUNITIES AND CONCLUSIONS FOR ROTATION AND MOMENTUM TRANSPORT SESSIONS 10th ITPA Transport Physics and CDBM TG Meetings Princeton.

TRANSP for core particle transport studies M. Maslov.

ITPA CDBM/Transport Group Meeting, May 2007, Lausanne 1 C M Roach Euratom/UKAEA Fusion Association, Culham Science Centre, Abingdon, Oxon, OX14 3DB, UK.

SUMMARY OF 4th IPTA TRANSPORT AND ITB PHYSICS TG MEETING St. Petersburg, Russia, April 8-11, 2003 Presented by E.J. Doyle for the TG Note: this summary.

1A FAST EXCELLENCE THROUGH FACILITATION Gary Rush The FAST Process MGR Consulting

L-H threshold database: Status and Plans J.W. Hughes, J. Stillerman, MIT PSFC Y. Martin, CRPP-EPFL P. Gohil, GA D. McDonald, JET-EFDA ITPA Transport &

Copyright (c) 2014 Pearson Education, Inc. Introduction to DBMS.

M. Greenwald, et al., APS-DPP 2006 Density Peaking At Low Collisionality on Alcator C-Mod APS-DPP Meeting Philadelphia, 10/31/2006 M. Greenwald, D. Ernst,

Status of H-mode confinement Database by K. Thomsen  The International Global H-mode Confinement Database: Storage and Distribution Fusion Engineering.

SMK – APS ‘06 1 NSTX Addresses Transport & Turbulence Issues Critical to Both Basic Toroidal Confinement and Future Devices NSTX offers a novel view into.

Status of H-mode confinement Database by K. Thomsen St. Petersburg, April 2003  Data Server Information  Progress in Data Documentation  Content of.

LoDestro, ITPA CDBM, Lausanne, May 7--10, 2007 p 1 Corsica free-boundary scenario and controller studies for ITER 12th ITPA Confinement Database and Modelling.

1 Peter de Vries – ITPA T meeting Culham – March 2010 P.C. de Vries 1,2, T.W. Versloot 1, A. Salmi 3, M-D. Hua 4, D.H. Howell 2, C. Giroud 2, V. Parail.

Level 1-2 Trigger Data Base development Current status and overview Myron Campbell, Alexei Varganov, Stephen Miller University of Michigan August 17, 2000.

IVOA Interop, Beijing, China, May IVOA Data Access Layer Working Group Sessions Doug Tody (NRAO/NVO ) Markus Dolensky (ESO/EuroVO) Data Access Layer.

Status of NSTX/DIII-D/MAST aspect ratio core confinement comparison studies M. Peng, for E.J. Synakowski For the ITPA Transport Physics Working Group Kyota,

Yves Martin Centre de Recherches en Physique des Plasmas Association Euratom - Confédération Suisse Ecole Polytechnique Fédérale de Lausanne (EPFL) CH.

Yves Martin Centre de Recherches en Physique des Plasmas Association Euratom - Confédération Suisse Ecole Polytechnique Fédérale de Lausanne CH

Tuomas Tala 1/16 ITPA TC Meeting, Princeton, USA 5 October – 7 October 2009 T. Tala (JET, DIII-D), W. Solomon (DIII-D, JET, NSTX) and S. Kaye, L.F. Delgado-

Developing Metadata Frameworks for Earth System Education NSDL 2003 Annual Meeting October 14, 2003 Katy Ginger and Karon Kelly DLESE Program Center.

Eric Watz Lumir Research Institute, Inc

Process 4 Hours.

T. Tala (JET, DIII-D), W. Solomon (DIII-D, JET, NSTX), S

CERN Global Network Presentation to ACCU Claudio Parrinello.

Introduction to Team Foundation Server 2010

TC-2 – Power ratio April 2011, San Diego

Joint Experiment IOS-4.1 Aims:

Presentation transcript:

L-H threshold database: Status and Plans J.W. Hughes, J. Stillerman, MIT PSFC Y. Martin, CRPP-EPFL P. Gohil, GA D. McDonald, JET-EFDA Meeting of the ITPA Pedestal and Transport & Confinement Topical Groups Princeton, NJ 6 October 2009

1 L-H threshold database is changing hands, expanding MIT is preparing to administer the L-H threshold database –Server operational and ready for import of existing database –Y. Martin is ready to export –Supported by PSFC computing personnel –Accessible to ITPA participants –Community usage, openness encouraged Reduced role of centralized administration Simple password authentication for ease of access (server will be outside facility firewall) Development of APIs to allow ease of data extraction, insertion for individual users –Nightly backups (kept inside firewall) plus version archiving following publications Two stage development –Existing scalar power threshold database, on an SQL server –Profile data, stored in standardized MDSplus tree structures (analogous to existing profile databases used by Pedestal, DIV/SOL groups)

2 How we got here Transfer first discussed at 10/08 ITPA meeting At same meeting, L-H transition working group was formed, with contacts at many facilities –AUG: F. Ryter –C-Mod: J. Hughes –DIII-D: P. Gohil –JET: Y. Andrews/D. McDonald –JT-60U: K. Kamiya –MAST: H. Meyer/M. Valovic –NSTX: R. Maingi –TCV: Y. Martin –TUMAN-3M: S. Lebedev Generally agreed that a profile database would provide greater physics content for transition studies –Continued discussions among working group members attending spring T&C meeting –General discussion session at the spring pedestal meeting This meeting: Agree on purpose, form of profile database –Input from both experimentalists and modelers is desired

3 A goal-oriented threshold DB DB effort will only be effective if clear goals are established, e.g.: Profile data for reducing the uncertainty in P thresh prediction –Eliminate the “black magic” of hidden variables –In individual devices: Identification of important local parameters as part of global parameter scans –Common threshold conditions across devices with joint experiments defined Profile data for model testing –A potential repository for well-diagnosed discharges –Profile evolution before and across the L-H transition –Turbulence characteristics? Profile data for predictive capabilites (ITER) –Short term: 0D (and some 1D?) approach based on JEX results –Long term: simulations based on validated models

4 Ideas for profile database development Participants in database effort determine composition of profile DB Content driven by priorities, key goals of researchers (see previous slide) Data sets should be sufficient to provide useful profiles, but not so extensive as to discourage participation A possible model is a tiered data set –Tier 1. Global parameters:, B T, I P, etc. (plus d/dt of each) –Tier 2. Essential profiles: n e,i, T e,i, v i , v i  et al. –Tier 3. Profiles requiring analysis: P oh, P aux, j BS et al. –Tier 4. Advanced profile measurements: P rad, n 0, flucts. et al.

5 How to proceed The pedestal profile database is an excellent starting point –Motivation for its development was similar –Much of the work has already been done –Can be merged with existing L-H db parameters Compelling features –Provides a uniform data structure built on MDSplus trees –Upwards compatible with the (core) confinement profile DB –Contains branches for data of varied sophistication:.ZEROD:,.ONED:,.TWOD:,.ONEDTR:,.TWODTR:, etc. –Contains mechanism for timing with respect to plasma events (e.g. L-H transition time, H-L transition time, sawteeth) –.DIV branch provides inputs for SOL/divertor modeling Downside: Trees don’t populate themselves. Work is required of contributors.

6 Suggested plan of attack Build on existing nodes of confinement and pedestal profile trees Identify additional measurements which should be included (discussion among interested parties to follow) Identify a suitable joint experiment to motivate initial deposits into the DB Use DB to facilitate analysis/modeling for ITER research, publications

7 Discussion

8

9

10 Discussion