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Hirofumi TOMITA (Dr. Eng)
Hirofumi_TOMITA
Birth: 1969, October, 21th
Current Position:
RIKEN/Advanced Institute for Computational Science
Computational Climate Science Research Team
Team Leader
e-mail: htomita-at-riken-dot-jp

Curriculum Vitae


  • Apr. 1988 - Mar. 1994: Department of aeronautics and astronautics, The University of Tokyo
  • Apr. 1994 - Mar. 1996: Master course of aeronautics and astronautics, Graduate school of engineering, The University of Tokyo
  • Apr. 1996 - Mar. 1999: Doctor course of aeronautics and astronautics, Graduate school of engineering, The University of Tokyo

Employment


  • Apr. 1999 - Mar. 2002: Post Doctor Researcher, Frontier Research System for Global Change
  • Apr. 2002 - Mar. 2007: Researcher, Frontier Research Center for Global Change
  • Apr. 2007 - Mar. 2009: Senior Scientist, Frontier Research Center for Global Change
  • Apr. 2009 - Dec. 2010: Senior Scientist, Research Institute of Global Change, JAMSTEC
  • Jan 2011 - present: Team Leader, RIKEN/Advanced Institute for Computational Science, Computational Climate Science Research Team


Award


  1. Masaki Satoh and Hirofumi TOMITA, The 2006th gakkai-award from the Meteorological Society of Japan,“Development of global cloud resolving model using a quisi-homogenious grid and simulation of cloud clusters in the tropics by the model”
  2. Hirofumi TOMITA, The 2005th ryumon-award from Japan Society of Fluid Mechanics,“Development of Nonhydrostatic Atmospheric General Circulation Model using an Icosahedral Grid”

Inside award:

  1. FY2001 Frontier Award from Frontier Research System for Global Change,“Outstanding research accomplishment”
  2. FY2004 Frontier Award from Frontier Research Center for Global Change,“Outstanding research accomplishment”
  3. FY2004JAMSTEC業績表彰 : Research & Development award,“Development of Global cloud resolving model”


A member of…


  • Japan Society of Fluid Mechanics
  • The Meteorological Society of Japan

Other activities

  • 2011文部科学省アプリケーション作業部会取りまとめ役
  • 平成24年度文部科学省今後のHPCI計画推進のあり方に関する検討作業部会・委員


Paper list


Paper

  1. Noda, A. T., Oouchi, K., Satoh, M., Tomita, H., 2012: Quantitative assessment of diurnal variation of tropical convection simulated by a global nonhydrostatic model without cumulus parameterization. J. Clim., accepted.
  2. Yoshizaki, M., Yasunaga, K., Iga, S.-I., Satoh, M., Nasuno, T., Noda, A. T., Tomita, H., 2012: Why do super clusters and Madden Julian Oscillation exist over the equatorial region? SOLA, 8, 33-36, doi:10.2151/sola.2012-009.
  3. Satoh, M, Oouchi, K,Nasuno, T, Taniguchi, H, Yamada, Y, Tomita, H., Kodama, C, Kinter III, J, Achuthavarier, D., Manganello, J., Cash, B., Jung, T., Palmer, T., Wedi, N., 2011: The Intra-Seasonal Oscillation and its control of tropical cyclones simulated by high-resolution global atmospheric models, Clim. Dyn., accepted, DOI 10.1007/s00382-011-1235-6
  4. Kinter III, J. L., B. Cash, D. Achuthavarier, J. Adams, E. Altshuler, P. Dirmeyer, B. Doty, B. Huang, L. Marx, J. Manganello, C. Stan, T. Wakefield, E. Jin, T. Palmer, M. Hamrud, T. Jung, M. Miller, P. Towers, N. Wedi, M. Satoh, H. Tomita, C. Kodama, T. Nasuno, K. Oouchi, Y. Yamada, H. Taniguchi, P. Andrews, T. Baer, M. Ezell, C. Halloy, D. John, B. Loftis, R. Mohr, and K. Wong, 2011: Revolutionizing Climate Modeling - Project Athena: A Multi-Institutional, International Collaboration. Bull. Am. Meteorol. Soc., submitted.
  5. Yamada, Y., K. Oouchi, M. Satoh, A.T. Noda and H.Tomita, 2011: Sensitivity of tropical cyclones to large-scale environment in a global non-hydrostatic model with explicit cloud microphysics. Nova Science Publishers, Inc., (Eds. K. Oouchi and H. Fudeyasu), accepted.
  6. Oouchi, K., Hiroshi Taniguchi, Tomoe Nasuno, Masaki Satoh, Hirofumi Tomita, Yohei Yamada, Mikiko Ikeda, Ryuichi Shirooka, Hiroyuki Yamada, Kunio Yoneyama, 2011: A prototype quasi real-time intra-seasonal forecasting of tropical convection over the warm pool region: a new challenge of global cloud-system-resolving model for a field campaign. Nova Science Publishers, Inc., (Eds. K. Oouchi and H. Fudeyasu), accepted.
  7. Noda, A. T., Oouchi, K., Satoh, M., Tomita, H., 2011: Quantitative Assessment on Diurnal Variation of Tropical Convection Simulated by a Global Nonhydrostatic Model with Explicit Cloud Processes. J. Clim., submitted.
  8. Dirmeyer, P. A., Cash, B. A.,Kinter III, J. L., Jung, T., Marx, L., Satoh, M., Stan, C., Tomita, H., Towers, P., Wedi, N., Achuthavarier, D., Adams, J. M., Altshuler, E. L., Huang, B., Jin, E. K., and Manganello, J., 2011: Simulating the diurnal cycle of rainfall in global climate models: Resolution versus parameterization. Clim. Dyn., accepted, DOI10.1007/s00382-011-1127-9.
  9. Satoh, M., Iga, S., Tomita, H., Tsushima, Y., 2011: Response of upper clouds due to global warming tested by a global atmospheric model with explicit cloud processes. J. Climate, accepted.
  10. Niwa,Y., Tomita, H., Satoh,M., Imasu,R., 2011: A Three-Dimensional Icosahedral Grid Advection Scheme Preserving monotonicity and Consistency with Continuity for Atmospheric Tracer Transport. J. Meteor. Soc. Japan, 89, accepted.
  11. Iga, S., Tomita, H., Tsushima, Y., Satoh, M., 2011: Sensitivity of upper tropospheric ice clouds and their impacts on the Hadley circulation using a global cloud-system resolving model. J. Clim., 24, 2666-2679. doi: 10.1175/2010JCLI3472.1
  12. Emanuel, K., K. Oouchi, M. Satoh, H. Tomita and Y. Yamada, 2010 : Comparison of Explicitly Simulated and Downscaled Tropical Cyclone Activity in a High-Resolution Global Climate Model, J. Adv. Model. Earth Syst., Vol. 2, Art. #9, 9 pp., doi:10.3894/JAMES.2010.2.9
  13. Yamada, Y., K. Oouchi, M. Satoh, H. Tomita and W. Yanase, 2010: Projection of changes in tropical cyclone activity and cloud height due to greenhouse warming: global cloud-system-resolving approach. Geophys. Res. Lett., 37, L07709, doi:10.1029/2010GL042518.
  14. Noda, A. T., K. Oouchi, M Satoh, H. Tomita, S. Iga, and Y. Tsushima, 2009: Importance of the subgrid-scale turbulent moist process: Cloud distribution in global cloud-resolving simulations. Atmos. Res., doi:10.1016/j.atmosres.2009.05.007
  15. Oouchi, K., A.T. Noda, M. Satoh, H. Miura, H. Tomita. T. Nasuno, S. Iga (2009): A simulated preconditioning of typhoon genesis controlled by a boreal summer Madden-Julian Oscillation event in a global cloud-system-resolving model. SOLA, Vol. 5, 065-068, doi:10.2151/sola.2009-017.
  16. Tomita, H (2009) : Analysis of spurious surface temperature at the atmosphere-land interface and a new method to solve the surface energy balance equation. J. Hydrometeorol, 10, 833-844
  17. Suzuki, K., T.Nakajima, M.Satoh, H.Tomita, T.Takemura, T.Y.Nakajima, G.L.Stephens (2008) : Global cloud-resolving simulation of aerosol effect on warm clouds Geophys. Res. Lett., 35, L19817,doi:10.1029/2008GL035449
  18. Tomita, H. (2008a) : A stretched grid on a sphere by new grid transformation. J.Meteorol.Soc.Japan, 86A, 107-119
  19. Tomita, H. (2008b) : New micorphysics with five and six categories with diagnostic generation of cloud ice. J.Meteorol.Soc.Japan, 86A, 121-142.
  20. Tomita, H., K.Goto, and M.Satoh(2008) : A new approach of atmospheric general circulation model --- Global cloud resolving model NICAM and its computational performance --- SIAM J. Sci. Comput. 30, 2755-2776.
  21. Nasuno, T., H. Tomita, S.Iga, H.Miura, M.Satoh(2007) : Convectively coupled equatorial waves simulated on an aquaplanet in a global nonhydrostatic experiment. J.Atmos.Sci., 65, 1246-1265.
  22. Iga, S., Y. Tsushima, H. Tomita, and M.Satoh (2007) : Climatology of a nonhydrostatic global model with explicit cloud processes. Geophys. Res. Lett., 34, L22814, doi:10.1029/2007GL031048.
  23. Satoh, M., T. Matsuno,T., H. Tomita, H. Miura, T. Nasuno, S. Iga (2008) : Nonhydrostatic Icosahedral Atmospheric Model (NICAM) for global cloud resolving simulations. J. Comput. Phys., 227, 3486-3514
  24. Miura, H., M. Satoh, H. Tomita, A. T. Noda, T. Nasuno, and S.Iga (2007) : A short-duration global cloud-resolving simulation under a realistic land and sea distribution Geophys. Res. Lett., 34, L02804, doi:10.1029/2006GL027448.
  25. Iga, S., H. Tomita, M. Satoh, and K. Goto (2007) : Mountain-wave-like spurious waves due to inconsistency of horizontal and vertical resolution associated with cold fronts. Mon. Wea. Rev.,135, 2629-2641
  26. Nasuno, T., H. Tomita, S. Iga, H. Miura, and M. Satoh (2006) : Multi-scale organization of convection simulated with explicit cloud processes on an aqua planet. J. Atmos. Sci., 64, 1902-1921.
  27. Miura, H., H. Tomita, T. Nasuno, S. Iga, M. Satoh, and T. Matsuno (2005) : A climate sensitivity test using a global cloud resolving model under an aqua planet condition. Geophys. Res. Lett., 32, L19717,doi:10.1029/2005GL023672
  28. Satoh, M., H. Tomita, H. Miura, T. Nasuno, and S. Iga (2005) : Development of a global cloud resolving model - a multi-scale structure of tropocal convections. J. Earth. Sim., 3, 11-19.
  29. Tomita, H., H. Miura, S. Iga, T. Nasuno, and M. Satoh (2005) : A global cloud-resolving simulation: Preliminary results from an aqua planet experiment. Geophys. Res. Lett., 32, L08805, doi:10.1029/2005GL022459.
  30. Tomita, H. and M. Satoh (2004) : A New Dynamical Framework of Nonhydrostatic Global Model Using the Icosahedral Grid. Fluid Dyn. Res., 34, 357-400.
  31. Tomita, H., M. Satoh, and K. Goto (2002) : An Optimization of the Icosahedral Grid Modified by Spring Dynamics. J. Comput. Phys., 183, 307-331
  32. Tomita, H., M. Tsugawa, M. Satoh, and K. Goto(2001) : Shallow Water Model on a Modified Icosahedral Geodesic Grid by Using Spring Dynamics. J. Comput. Phys., 174, 579-613
  33. Tomita, H. and K. Abe (2000) : Numerical simulation of pattern formation in the Benard Marangoni convection. Phys. Fluids, 12, 1389--1400.
  34. Tomita, H. and K. Abe(1999) : Numerical simulation of the Rayleigh-Benard convection of air in a box of a large aspect ratio. Phys. Fluids, 11, 743-745

Selected proceeding of international conference

  1. Tomita, H.., M. Satoh, H. Miura and Y. Niwa: Current status of nonhydrostatic modeling at NICAM, ECMWF Workshop on Non-hydrostatic Modelling, page 171-182, ECMWF, 2011
  2. Tomita, H., T.Nasuno, and M. Satoh : A Stretched Icosahedral Grid for the Global Cloud Resolving Model. In G.Winter, A.Ecer, J.Periaux, N.Satofuka, and P.Fox, editors, Parallel Computational Fluid Dynamics, Multidisciplinary Applications, chapter 7. Mesh strategies, pages 171-182. Elsevier, 2005
  3. Tomita, H., K. Goto, and M. Satoh : A Comparison Study of Computational Performace between a Spectral Transform Model and a Gridpoint Model. In B. Chetverushkin, A. Ecer, J. Periqux, N. Satofuka, and P. Fox, editors, Parallel Computational Fluid Dynamics, Advanced Numerical Methods, Software and Applications, chapter 6. Environment and Ecology Problems, pages 333-340. Elsevier, 2004.
  4. Tomita, H., M. Satoh, and K. Goto : Development of a Nonhydrostatic General Circulation Model Using an Icosahedral Grid. In K. Matsuno, A. Ecer, J. Periaux, and N. Satofuka, editors, Parallel Computational Fluid Dynamics, New Frontiers and Multi-Disciplinary Applications, chapter 2. Earth and Space Global Simulations and Earth Simulator. Elsevier, 2002.
  5. Goto, K., H. Tomita, and M. Satoh : Computational Performance of the Dynamical Part of a Next Generation Climate Model Using an Icosahedral Grid on the Earth Simulator. In K. Matsuno, A. Ecer, J. Periaux, and N. Satofuka, editors, Parallel Computational Fluid Dynamics, New Frontiers and Multi-Disciplinary Applications, chapter 2. Earth and Space Global Simulations and Earth Simulator, pages 63-69. Elsevier, 2003.

Report

  1. 富田浩文(2010) : 次世代スーパーコンピューターでの気候シミュレーションー全球雲解像モデルを使った本格研究の幕開けー, 日本の科学者, vol. 45,No.12
  2. 富田浩文(2006)正20面体準一様格子を用いた非静力学大気大循環モデルの開発(竜門受賞記念解説)、ながれ、25、181-186
  3. 富田浩文、後藤浩二、佐藤正樹. (2004) :次世代型全球雲解像モデルを目指して. 乱流研究の異分野融合と新たな創成, 九州大学応用力学研究所, 研究集会報告 15ME-S5, 196-202.
  4. 加藤輝之、熊谷幸浩、佐藤正樹、富田浩文、余偉明、本田有機、安永数明、佐藤正樹(2004)第5回非静力学モデリング短期数値予報国際ワークショップ参加報告.、天気, 51,169-174
  5. 佐藤正樹、三浦裕亮、小峯賢治、肖鋒、北内英章、松村崇行、津川元彦、田中幸夫、室井ちあし、富田浩文(2004)球面上の偏微分方程式解についての2004年国際ワークショップ報告、天気、52、129-137
  6. 室井ちあし・里村雄彦・余偉明・佐藤正樹・富田浩文・那須野智江・石田純一(2002) 第4回非静力学モデリング短期数値予報国際ワークショップ参加報告. 天気, 49, 221-225
  7. 佐藤正樹, 富田浩文, 津川元彦 (2002) : 非静力全球モデルの開発, 月刊海洋「メソスケール気象現象の数値シミュレーション-非静力学数値モデルの課題と展望-」, 34, 101-106
  8. 佐藤正樹, 富田浩文, 津川元彦, 肖鋒 (2001) : 地球フロンティアにおける次世代大気大循環モデルの開発,「ながれ」, 20, 37-46


Presentation ( as the 1st author )


(International conference and workshop )

  1. Tomita, H.: SCALE toward the library of meteorological applications suitable to the future super Toward Global LES, 5th International Workshop on Cloud-Resolving Global Modelling, 13-15th June 2012 (invited)
  2. Tomita, H., Japanese Post-Peta Planning and Feasibility Research, Application, 18th International Exa-scale Software Project, 11-13 April 2012 ( invited )
  3. Tomita, H. : Development of moist-LES model in RIKEN/AICS, The 14th international specialist meeting on the next generation models on climate change and sustainability for advanced high performance computing facilities Hawaii, 12-15 Mar., 2012
  4. Tomita, H. : Present Status of K Computer and activity toward the Exa-Scale Computing, The 14th international specialist meeting on the next generation models on climate change and sustainability for advanced high performance computing facilities Hawaii, 12-15 Mar., 2012
  5. Tomita, H. Research of tropical meteorology and climate using K computer, Singapore-Japan High Performance Computer Workshop, Singapore, 27-28 Feb.2012 (invited)
  6. Tomita, H. : Scale library : toward the global LES, Open Science Conference on WRCP, Denvor, 24-28 Oct. 2011
  7. Tomita, H., : Recent outcomes from NICAM, 6th EU-Japan Workshop on Climate Change Research, Brussels, 10-11 Oct. 2011
  8. Tomita, H. : The current NICAM dynamical core and future plan for its improvement, Computing in Atmospheric Sciences 2011 (CAS2K11), Annecy, Sep. 11-14, 2011 (invited)
  9. Tomita, H.: Recent computational tuning of NICAM toward the Peta- and Exa-Flops computing, The 13th international specialist meeting on the next generation models on climate change and sustainability for advanced high performance computing facilities, Hawaii, 28-30 March, 2011.
  10. Tomita, H. : Climate research in AICS, 1st AICS International Symposium, Kobe, 11-12 Mar. 2011
  11. Tomita, H., Future activities of high performance computing in meteorology using the K-computer, The 14th ECMWF Workshop on High Performance Computing in Meteorology, Reading, 1 -5 Nov. 2010 (invited)
  12. Tomita, H., : Non-hydrostatic modeling with NICAM, The ECMWF Workshop on Non-hydrostatic Modelling, Reading, 8 -10 Nov. 2010 (invited)
  13. Tomita, H., : Alteration of vertical grid in NICAM towards the super-high resolution simulations, The 2010 Workshop on the Solution of Partial Differential Equations on the Sphere, Potsdam, August 24-27, 2010
  14. Tomita, H., M. Satoh, T. Nasuno, S. Iga, A. T. Noda, H. Taniguchi, H. Miura, K. Oouchi, C. Kodama, Y. Yamada , T. Seiki.: Overview of Recent Activities by NICAM Working Team, First International Workshop on Nonhydrostatic Numerical Models, Kyoto, 29 Sep, 1 Oct 2010
  15. Tomita, H. : High resolution activities with NICAM : Overview, The 1st Athena project workshop, Reading, 7-8 June, 2010.
  16. Tomita, H. : Future research plans by NICAM using high performance computing, The 12th international specialist meeting on the next generation models on climate change and sustainability for advanced high performance computing facilities, Tsukuba, 24-26 March, 2010.
  17. Tomita, H., M.Satoh : The impact of Rainfall Sedimentation Scheme on the Meso-scale Cloud System, The 8th International SRNWP-Workshop on Non-Hydrostatic Modeling, Bad Orb, 26-28 Oct. 2009.
  18. Tomita, H. , Y. Niwa, and M.Satoh : Further improvement of NICAM dynamical core toward the PETAFLOPS computing, The 2009 Workshop on the Solution of Partial Differential Equations on the Sphere , SantaFe, 27-30 Apr. 2009.
  19. Tomita, H. and NICAM team : Further development and improvement of NICAM toward the PETAFLOPS computing era, The 11th International specialist meeting on the next generation models on climate change and sustainability for advanced high performance computing facilities, OakRidge, 16-18 Mar 2009.
  20. Tomita, H. : Recent progress and activity of global cloud resolving simulation by NICAM, CMMAP 2009 team meeting, ,New York Jan 6-8 2009.
  21. Tomita, H., M. Satoh, and NICAM working team : Current status of Nonhydrostatic icosahedral atmospheric model, AOGS 2008 meeting, Busan, 16-20 June.
  22. Tomita, H., M. Satoh, and NICAM working team : Nonhydrostatic ICosahedral Atmospheric Model (NICAM) , The KAKUSHIN Workshop 2007 ---Workshop of the inovative climate modeling , Kyoto, 4-5 Dec.
  23. Tomita, H., M. Satoh, and NICAM working team : Nonhydrostatic ICosahedral Atmospheric Model (NICAM): Its physical and computational performance in global cloud resolving simulations The 2007 Workshop on the Solution of Partial Differential Equations on the Sphere , Exeter, U.K., 24th-27th Sep.
  24. Tomita, H. : Computational techniques for super-high resolution atmospheric general circulation model on the massively parallel super-computer High Performance Computing Asia 2007 conference , Seoul, 10th-12th Sep., 2007. (invited)
  25. Tomita, H., S.Iga, Y.Tsushima, M.Satoh : The global cloud resolving NICAM : model introduction and cloud feedback test from the viewpoint of the radiation-convection equillibrium. CFMIP/ENSEMBLES Workshop on assessment of cloud and water vapour feedback processes in GCMs , Paris, 11th-13th April, 2007.
  26. Tomita, H., T.Nasuno, H.Miura, S.Iga, A.Noda, Y.Tsushima, M.Satoh : Several global cloud resolving simulations by NICAM on the Earth Simulator, EGU general assembly 2007, , Viena, 15 -20 April, 2007. (invited)
  27. Tomita, H., T.Nasuno, H.Miura, S.Iga, A.Noda, Y.Tsushima, M.Satoh : What can we find by the global cloud resolving model? AGU Fall meeting, , San Francisco, USA, 11 -15 Dec. 2006.
  28. Tomita, H., H.Miura, S.Iga, T.Nasuno, A.Noda, M.Satoh : Global cloud resolving simultations by NICAM AGU Fall meeting, , San Francisco, USA, 11 -15 Dec. 2006. (invited)
  29. Tomita, H. : Numerical algorithms of NICAM (Nonhydrostatic Icosahedral Atmospheric Model Joint Workshop between Chinese and Japanese Young Modelers , Beijin, China, 28 -29 Aug. 2006. (invited)
  30. Tomita, H., H. Miura, T. Nasuno, S.Iga, and M.Satoh.: Super-High resolution atmospheric simulations by the icosahedral grid model NICAM Non-Hydrostatic Model. The 2006 Workshop on the Solution of Partial Differential Equations on the Sphere , Montery, CA USA, 29 -29 Jun. 2006.
  31. Tomita, H., H. Miura, T. Nasuno, S.Iga, and M.Satoh : A Global Cloud-Resolving Simulation by the Icosahedral Non-Hydrostatic Model. The 6th International SRNWP-Workshop on Non-Hydrostatic Modelling, Bad Orb, German, 31 Oct.-2 Nov. 2005.
  32. Tomita, H., S. Iga, H. Miura, T. Nasuno, and M. Satoh : A global cloud-resolving simulation on an aqua planet. European Geosciences Union General Assembly, Vienna, 24-29 April 2005. (invited)
  33. Tomita, H., H. Miura, S. Iga, T. Nasuno, and M. Satoh : A cloud-resolving aqua planet experiment. Aqua Planet Experiment Workshop, The University of Reading, UK, 20-22 April 2005.
  34. Tomita, H., S.Iga, H. Miura, T. Nasuno, and M. Satoh: A Next-Generation Atmospheric General Circulation Modeling. Third Japan-EU Workshop on Climate Change Research, Yokohama, 20-21 Jan. 2005.
  35. Tomita, H. and M. Satoh: The global nonhydrostatic model NICAM : numerics and performance of its dynamical core.ECMWF seminar, Reading, UK, 6-10 Sep. 2004. (invited)
  36. Tomita, H., M. Satoh, T. Nasuno, and S. Iga : A stretched icosahedral grid : Toward the global cloud resolving model. The 2004 workshop on the solution of partial differential equations on the sphere, Yokohama, Japan, 20-23 Jul. 2004.
  37. Tomita, H., T.Nasuno, and M. Satoh : A Stretched Icosahedral Grid for the Global Cloud Resolving Model. Parallel Computational Fluid Dynamics 2004, Gran Canaria, Spain, 24-27 May 2004.
  38. Tomita, H., M. Satoh, and T. Nasuno : Development of the Global Cloud Resolving Model Using the Icosahedral Grid. The 6th International Workshop on Next Generation Climate Models f or Advanced High Performance Computing Facilities, Honolulu, USA, 25-27 Feb. 2004.
  39. Tomita, H., M. Satoh, and K. Goto : A nonhydrostatic global model on the icosahedral grid system. General Assembly of the International Union of Geodesy and Geophysics, Sapporo, Japan, 30 Jun.-11 Jul. 2003.
  40. Tomita, H., K. Goto, and M. Satoh : A Comparison Study of Computational Performace between a Spectral Transform Model and a Gridpoint Model. Parallel Computational Fluid Dynamics 2003, Moscow, Russia, 13-15 May 2003.
  41. Tomita, H., M. Satoh, and K. Goto : A new nonhydrostatic dynamical core on the icosahedral grid. The 5th International Workshop on Next Generation Climate Models for Advanced High Performance Computing Facilities, Rome, Italy, 3-5 Mar. 2003.
  42. Tomita, H., M.Satoh, and K. Goto : Development of global nonhydrostatic model using icosahedral grid. The 2002 Workshop on the Solution of Partial Differential Equations on the Sphere, Toronto, Canada, 12-15 Aug. 2001.
  43. Tomita, H., M. Satoh, and K. Goto : Development of a Nonhydrostatic General Circulation Model Using an Icosahedral Grid. Parallel Computational Fluid Dynamics 2002, Kansai Science City, Japan, 2002.
  44. Tomita, H., M. Satoh, and K. Goto : Global non-hydrostatic model using icosahedral grid. The international workshop on the next-generation climate model, Hyougo, Japan, 4-8 Mar. 2002.
  45. Tomita, H., M.Tsugawa, M. Satoh, and K. Goto : Development of Dynamical Core on a Modified Icosahedral Grid. The 3rd International Workshop on Next Generation Climate Models for Advanced High Performance Computing Facilities, Tokyo, Japan, 28-30 Mar. 2001.
  46. Tomita, H., M.Tsugawa, M.Satoh, and K. Goto : A modified icosahedral grid by using spring dynamics. The 2001 Workshop on the Solution of Partial Differential Equations on the Sphere, Motreal, Canada, 15-18 May 2001.
  47. Tomita, H. and K. Abe. Numerical simulation of thermal convection in vertical shear flow. The 10th International Sessions of the 34th Aircraft Symposium, Tottori, Japan, 16-18 Oct 1996.

(Domestic conference and workshop)

  1. 富田浩文: 「京コンピュータでシミュレートされる将来の台風」(特別講演)、PCクラスターシンポジウム、東京、12月9日、2012
  2. 富田浩文:気象・気候・惑星科学共通ライブラリー化の提案---今後のHPCを見据えて--- 、CPSワークショップ、2011年10月6日神戸
  3. 富田浩文: エクサスケール時代の気候モデル、SS研HPCフォーラ,東京、2011年8月25日
  4. 富田浩文: 「全球非静力学大気モデルの計算方法 -最近の動向と今後の方向-」、分野横断型研究会「アルゴリズムによる計算科学の融合と発展」AICS 6階講堂 2011年2月8日
  5. 富田浩文,:エクサフロップス時代の気候モデ、核融合科学研究所一般共同研究「物理シミュレーションにおける数理モデルと数値解析法の研究会」,岐阜県土岐市核融合科学研究所,2011年7月29日.
  6. 富田浩文 :  大気ー陸面インターフェースでのエネルギー収支方程式の解法について,第10回非静力学モデルに関するワークショップ, 名古屋, 11月27日-28日 2008.
  7. 富田浩文: 大気ー陸面モデルでの地表面エネルギー収支の解法における問題とその解決策, 日本気象学会2008年秋季大会, 仙台, 11月19-21日, 2008
  8. 富田浩文: 全球雲解像モデルNICAMにおける高効率計算手法ーペタフロップス時代に向けてー2008年ハイパフォーマンコンピューティングと計算科学シンポジウム, 東京, 1月17日-18日 2008. (招待講演)
  9. 富田浩文:  正20面体大気大循環モデルNICAMにおける並列化手法 第21回数値流体力学シンポジウム, 東京, 12月19日-21日 2007.
  10. 富田浩文, NICAM開発チーム : 全球雲解像モデルNICAMにおける雲微物理過程の開発と検証., 第9回非静力学モデルに関するワークショップ, 京都, 9月13日-14日 2007.
  11. 富田浩文 : 全球雲解像大気モデルNICAMを用いた熱帯対流集団のシミュレーション(招待講演), 第三回「計算科学による新たな知の発見・統合・創出」シンポジウム~PACS-CSシステムと計算科学~, 筑波, 9月3日-4日 2007.
  12. 富田浩文, 那須野智江, 伊賀晋一, 三浦裕亮, 野田暁, 佐藤正樹.: 全球非静力学モデルNICAMにおける数値解法.第20回数値流体力学シンポジウム, 名古屋, 12月18日-20日 2006.
  13. 富田浩文, 三浦裕亮, 伊賀晋一, 那須野智江, 佐藤正樹.: 全球雲解像モデルNICAMによる水惑星実験(2). 日本気象学会2005年春季大会, page D306, 東京, 5月15日-18日 2005.
  14. 富田浩文, 佐藤正樹, 伊賀晋一, 那須野智江, 三浦裕亮. : 全球雲改造モデルNICAMを用いた水惑星実験. 第6回非静力学モデルに関するワークショップ, pages 53--54, 松島, 11月25日-26日 2004.
  15. 富田浩文, 佐藤正樹, 那須野智江, 伊賀晋一, 三浦裕亮.: 全球雲解像モデルNICAMによる水惑星実験(1). 日本気象学会2004年秋季大会, page B116, 福岡, 10月6日-8日 2004.
  16. 富田浩文, 佐藤正樹, 那須野智江. 全球非静力学モデルNICAMへの雲微物理過程の実装. 日本気象学会2004年春季大会, page A110, 東京, 5月16日-19日 2004.
  17. 富田浩文. : 全球雲解像モデルNICAMの開発について. 第5回非静力学モデルに関するワークショップ, pages 11--12, 横浜, 11月25日-26日 2003.
  18. 富田浩文, 後藤浩二, 佐藤正樹.: 次世代型全球雲解像モデルを目指して.(招待講演)応用力学研究所件研究集会「乱流研究の異分野融合と新たなる創成」, pages 196--202, 九州大学応用力学研究所, 12月3日-5日 2003.
  19. 富田浩文, 後藤浩二, 佐藤正樹.: 正二十面体格子全球雲解像モデルNICAMの開発.日本気象学会2003年秋季大会, page A201, 仙台, 10月15日-17日 2003.
  20. 富田浩文, 後藤浩二, 佐藤正樹.: 全球非静力学モデルを用いた温帯低気圧のライフサイクルの高解像度実験. 日本流体力学会年会2003, pages 162--163, 東京, 7月28日-30日 2003.
  21. 富田浩文: 正二十面体格子を用いた全球非静力学モデルの力学フレームワーク. 第4回非静力学モデルに関するワークショップ, pages 29--30, 京都, 11月30日-12月1日 2002.
  22. 富田浩文, 佐藤正樹, 後藤浩二.:正二十面体格子を用いた次世代全球非静力学コアの開発(3).日本気象学会2002年秋季大会, page A357, 札幌, 10月9日-11日 2002.
  23. 富田浩文, 佐藤正樹, 後藤浩二.: 正20面体格子を用いた全球非静力学ダイナミカルコアの開発.日本流体力学会年会2002, pages 66--67, 仙台, 7月23日-25日 2002.
  24. 富田浩文, 佐藤正樹, 後藤浩二.: 正二十面体格子を用いた次世代全球非静力学コアの開発(2).日本気象学会2002年春季大会, page P178, 埼玉, 5月22日-24日 2002.
  25. 富田浩文, 佐藤正樹, 後藤浩二, 津川元彦.: 正二十面体格子を用いた次世代全球非静力学コアの開発. 日本気象学会2001年秋季大会, page D102, 岐阜, 10月10日-12日 2001.
  26. 富田浩文, 津川元彦, 佐藤正樹. 球面一様格子を用いたダイナミカルコアの開発.日本流体力学会年会2001, pages 533--534, 東京, 7月31日-8月2日 2001.
  27. 富田浩文, 津川元彦, 佐藤正樹, 後藤浩二.: 超並列計算機上での次世代大気大循環モデルの力学フレームワーク. 日本気象学会2001年春季大会, page B359, 東京, 5月8日-10日 2001.
  28. 富田浩文, 津川元彦, 佐藤正樹. 高解像度大循環モデルの力学フレームワークの開発(2) --- 次世代気候モデルへ向けて(正20面体測地線格子) ---. 日本気象学会2000年秋季大会, page P338, 京都, 10月18日-20日 2000.
  29. 富田浩文, 津川元彦, 佐藤正樹.: 球面一様格子での浅水波モデルの開発.日本流体力学会年会2000, pages 207--208, 京都, 7月25日-27日 2000.
  30. 富田浩文, 津川元彦, 佐藤正樹.: 高解像度大循環モデルの力学フレームワークの開発 --- 次世代気候モデルへ向けて(正20面体測地線格子) ---. 日本気象学会2000年春季大会, page P225, つくば, 5月24日-26日 2000.
  31. 富田浩文, 阿部寛治.: 表面張力効果を考慮したベナール対流の数値シミュレーション. 平成10年度文部省科学研究費基盤研究(A)シンポジウム, 熱海, 1月21日-22日 1999.
  32. 富田浩文, 阿部寛治.: ベナールマランゴニ系における六角形対流の数値シミュレーション. 第12回数値流体力学シンポジウム, pages 455--456, 東京, 12月21日-23日 1998.
  33. 富田浩文, 阿部寛治.: 鉛直シアー内でのRayleigh-Benard対流の非定常数値実験.第9回数値流体力学シンポジウム, pages 321--322, 東京, 12月20-22, 1995.

Other presentation

  1. 富田浩文:今後のHPC技術の研究開発課題とロードマップの検討状況ならびに意見交換アプリケーション分野、PCクラスターシンポジウム、東京、12月8日、2012年
  2. 富田浩文:パネルディスカッション「今後のHPCについて」モデレータ、第3回 HPCI戦略プログラム合同研究交流会、平成23年10月3日(月)
  3. 富田浩文:パネルディスカッション「将来のスーパーコンピューティングへの挑戦」パネラー、これからのスーパーコンピューティング技術の展開を考える」シンポジウム、平成23年6月



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