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2020 – today
- 2024
[c50]Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Maddegedara Lalith:
Low-Ordered Orthogonal Voxel Finite Element with INT8 Tensor Cores for GPU-Based Explicit Elastic Wave Propagation Analysis. ICCS (3) 2024: 257-271- [c49]Tsuyoshi Ichimura, Kohei Fujita, Ryota Kusakabe, Hiroyuki Fujiwara, Muneo Hori, Maddegedara Lalith:
Development of an Estimation Method for the Seismic Motion Reproducibility of a Three-Dimensional Ground Structure Model by Combining Surface-Observed Seismic Motion and Three-Dimensional Seismic Motion Analysis. ICCS (3) 2024: 272-287 - [i4]Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Maddegedara Lalith:
Low-ordered Orthogonal Voxel Finite Element with INT8 Tensor Cores for GPU-based Explicit Elastic Wave Propagation Analysis. CoRR abs/2404.13683 (2024) - [i3]Tsuyoshi Ichimura, Kohei Fujita, Ryota Kusakabe, Hiroyuki Fujiwara, Muneo Hori, Maddegedara Lalith:
Development of an Estimation Method for the Seismic Motion Reproducibility of a Three-dimensional Ground Structure Model by combining Surface-observed Seismic Motion and Three-dimensional Seismic Motion Analysis. CoRR abs/2404.17754 (2024) - [i2]Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Lalith Maddegedara, Jack C. Wells, Alan Gray, Ian Karlin, John Linford:
Heterogeneous computing in a strongly-connected CPU-GPU environment: fast multiple time-evolution equation-based modeling accelerated using data-driven approach. CoRR abs/2409.20380 (2024) - 2023
- [j11]Kohei Fujita
, Takuma Yamaguchi, Yuma Kikuchi, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
Calculation of cross-correlation function accelerated by TensorFloat-32 Tensor Core operations on NVIDIA's Ampere and Hopper GPUs. J. Comput. Sci. 68: 101986 (2023) - [c48]Sota Murakami, Kohei Fujita, Tsuyoshi Ichimura, Takane Hori, Muneo Hori, Maddegedara Lalith, Naonori Ueda:
Development of 3D Viscoelastic Crustal Deformation Analysis Solver with Data-Driven Method on GPU. ICCS (2) 2023: 423-437 - [c47]M. A. K. M. Dharmasiri, Maddegedara Lalith, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori:
A Novel Implicit Stress Integration Algorithm and its Verification Using von Mises and Drucker Prager Plasticity. ICCMS 2023: 63-71 - 2022
- [j10]Ryota Kusakabe, Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Lalith Wijerathne:
Scalable large-scale multi-physics earthquake simulation on multiple GPUs with stabilization. J. Comput. Sci. 61: 101619 (2022) - [c46]Tsuyoshi Ichimura, Kohei Fujita, Kentaro Koyama, Ryota Kusakabe, Yuma Kikuchi, Takane Hori, Muneo Hori, Lalith Maddegedara, Noriyuki Ohi, Tatsuo Nishiki, Hikaru Inoue, Kazuo Minami, Seiya Nishizawa, Miwako Tsuji, Naonori Ueda:
152K-computer-node parallel scalable implicit solver for dynamic nonlinear earthquake simulation. HPC Asia 2022: 18-29 - [c45]Yuma Kikuchi, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
Calculation of Cross-correlation Function Accelerated by Tensor Cores with TensorFloat-32 Precision on Ampere GPU. ICCS (1) 2022: 277-290 - [c44]Tsuyoshi Ichimura, Kohei Fujita, Ryota Kusakabe, Kentaro Koyama, Sota Murakami, Yuma Kikuchi, Takane Hori, Muneo Hori, Hikaru Inoue, Takafumi Nose, Takahiro Kawashima, Maddegedara Lalith:
Extreme Scale Earthquake Simulation with Uncertainty Quantification. SC 2022: 4:1-4:11 - [c43]Kohei Fujita, Sota Murakami, Tsuyoshi Ichimura, Takane Hori, Muneo Hori, Maddegedara Lalith, Naonori Ueda:
Scalable Finite-Element Viscoelastic Crustal Deformation Analysis Accelerated with Data-Driven Method. ScalAH@SC 2022: 18-25 - [c42]Ryota Kusakabe, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Maddegedara Lalith:
GPU-Accelerated Sparse Matrix Vector Product based on Element-by-Element Method for Unstructured FEM using OpenACC. WACCPD@SC 2022: 52-61 - 2021
- [j9]Kohei Fujita, Kentaro Koyama, Kazuo Minami, Hikaru Inoue, Seiya Nishizawa, Miwako Tsuji, Tatsuo Nishiki, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
High-fidelity nonlinear low-order unstructured implicit finite-element seismic simulation of important structures by accelerated element-by-element method. J. Comput. Sci. 49: 101277 (2021) - [j8]Amit Gill, Lalith Maddegedara, Sebastian Poledna, Muneo Hori, Kohei Fujita, Tsuyoshi Ichimura:
High-Performance Computing Implementations of Agent-Based Economic Models for Realizing 1: 1 Scale Simulations of Large Economies. IEEE Trans. Parallel Distributed Syst. 32(8): 2101-2114 (2021) - [c41]Ryota Kusakabe, Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Lalith Wijerathne:
Large-Scale Stabilized Multi-physics Earthquake Simulation for Digital Twin. ICCS (2) 2021: 3-15 - [c40]Tsuyoshi Ichimura, Kohei Fujita, Kentaro Koyama, Yuma Kikuchi, Ryota Kusakabe, Kazuo Minami, Hikaru Inoue, Seiya Nishizawa, Miwako Tsuji, Tatsuo Nishiki, Muneo Hori, Lalith Maddegedara, Naonori Ueda:
Fast scalable implicit solver with convergence of equation-based modeling and data-driven learning: earthquake city simulation on low-order unstructured finite element. PASC 2021: 12:1-12:12 - [c39]Kohei Fujita, Yuma Kikuchi, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara, Naonori Ueda:
GPU Porting of Scalable Implicit Solver with Green's Function-Based Neural Networks by OpenACC. WACCPD@SC 2021: 73-91 - [c38]Amit Gill, Maddegedara Lalith, Yoshiki Ogawa, Hideyuki O.-tani, Tsuyoshi Ichimura, Kohei Fujita, Filippo Gatti, Muneo Hori:
Seamless Simulations of Earthquake Disasters and Economy at 1: 1 scale Utilizing Big-data. WI/IAT (Workshop/Special Session) 2021: 101-108 - 2020
- [j7]Kohei Fujita, Masashi Horikoshi, Tsuyoshi Ichimura, Larry Meadows, Kengo Nakajima, Muneo Hori, Lalith Maddegedara:
Development of element-by-element kernel algorithms in unstructured finite-element solvers for many-core wide-SIMD CPUs: Application to earthquake simulation. J. Comput. Sci. 45: 101174 (2020) - [c37]Tsuyoshi Ichimura, Kohei Fujita, Takuma Yamaguchi, Muneo Hori, Lalith Wijerathne, Naonori Ueda:
Fast Multi-Step Optimization with Deep Learning for Data-Centric Supercomputing. HP3C 2020: 7-13 - [c36]Takuma Yamaguchi, Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Lalith Wijerathne, Naonori Ueda:
Data-Driven Approach to Inversion Analysis of Three-Dimensional Inner Soil Structure via Wave Propagation Analysis. ICCS (3) 2020: 3-17 - [c35]Sota Murakami, Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Maddegedara Lalith, Muneo Hori:
Data Assimilation in Volcano Deformation Using Fast Finite Element Analysis with High Fidelity Model. ICCS (3) 2020: 18-31 - [c34]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Akira Naruse, Jack C. Wells, Christopher Zimmer, Tjerk P. Straatsma, Muneo Hori, Lalith Maddegedara, Naonori Ueda:
Low-Order Finite Element Solver with Small Matrix-Matrix Multiplication Accelerated by AI-Specific Hardware for Crustal Deformation Computation. PASC 2020: 16:1-16:11 - [c33]Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Lalith Maddegedara, Naonori Ueda, Yuma Kikuchi:
A Fast Scalable Iterative Implicit Solver with Green's function-based Neural Networks. ScalA@SC 2020: 61-68
2010 – 2019
- 2019
- [j6]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
Acceleration of unstructured implicit low-order finite-element earthquake simulation using OpenACC on Pascal GPUs. Int. J. High Perform. Comput. Netw. 13(1): 3-18 (2019) - [c32]Kohei Fujita, Masashi Horikoshi, Tsuyoshi Ichimura, Larry Meadows, Kengo Nakajima, Muneo Hori, Lalith Maddegedara:
Development of Element-by-Element Kernel Algorithms in Unstructured Implicit Low-Order Finite-Element Earthquake Simulation for Many-Core Wide-SIMD CPUs. ICCS (1) 2019: 267-280 - [c31]Ryota Kusakabe, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Wijerathne:
A Fast 3D Finite-Element Solver for Large-Scale Seismic Soil Liquefaction Analysis. ICCS (2) 2019: 349-362 - [c30]Takuma Yamaguchi, Tsuyoshi Ichimura, Kohei Fujita, Muneo Hori, Lalith Wijerathne:
Heuristic Optimization with CPU-GPU Heterogeneous Wave Computing for Estimating Three-Dimensional Inner Structure. ICCS (2) 2019: 389-401 - [c29]Lalith Maddegedara, Amit Gill, Sebastian Poledna, Muneo Hori, Hikaru Inoue, Tomoyuki Noda, Toda Koyo, Tsuyoshi Ichimura:
Distributed Memory Parallel Implementation of Agent-Based Economic Models. ICCS (2) 2019: 419-433 - [c28]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Akira Naruse, Lalith Maddegedara, Muneo Hori:
GPU Implementation of a Sophisticated Implicit Low-Order Finite Element Solver with FP21-32-64 Computation Using OpenACC. WACCPD@SC 2019: 3-24 - 2018
- [b1]Muneo Hori:
Introduction to Computational Earthquake Engineering, 3rd Edition. WorldScientific 2018, ISBN 9781786344519, pp. 1-452 - [c27]Kohei Fujita, Keisuke Katsushima, Tsuyoshi Ichimura, Masashi Horikoshi, Kengo Nakajima, Muneo Hori, Lalith Maddegedara:
Wave Propagation Simulation of Complex Multi-Material Problems with Fast Low-Order Unstructured Finite-Element Meshing and Analysis. HPC Asia 2018: 24-35 - [c26]Atsushi Yoshiyuki, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Wijerathne:
Development of Scalable Three-Dimensional Elasto-Plastic Nonlinear Wave Propagation Analysis Method for Earthquake Damage Estimation of Soft Grounds. ICCS (2) 2018: 3-16 - [c25]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Anne Glerum, Ylona van Dinther, Takane Hori, Olaf Schenk, Muneo Hori, Lalith Wijerathne:
Viscoelastic Crustal Deformation Computation Method with Reduced Random Memory Accesses for GPU-Based Computers. ICCS (2) 2018: 31-43 - [c24]Keisuke Katsushima, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
Development of Octree-Based High-Quality Mesh Generation Method for Biomedical Simulation. ICCS (2) 2018: 354-367 - [c23]Tsuyoshi Ichimura, Kohei Fujita, Masashi Horikoshi, Larry Meadows, Kengo Nakajima, Takuma Yamaguchi, Kentaro Koyama, Hikaru Inoue, Akira Naruse, Keisuke Katsushima, Muneo Hori, Lalith Maddegedara:
A Fast Scalable Implicit Solver with Concentrated Computation for Nonlinear Time-Evolution Problems on Low-Order Unstructured Finite Elements. IPDPS 2018: 620-629 - [c22]Tsuyoshi Ichimura, Kohei Fujita, Takuma Yamaguchi, Akira Naruse, Jack C. Wells, Thomas C. Schulthess, Tjerk P. Straatsma, Christopher Zimmer, Maxime Martinasso, Kengo Nakajima, Muneo Hori, Lalith Maddegedara:
A fast scalable implicit solver for nonlinear time-evolution earthquake city problem on low-ordered unstructured finite elements with artificial intelligence and transprecision computing. SC 2018: 49:1-49:11 - 2017
- [c21]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Takane Hori, Muneo Hori, Lalith Wijerathne:
Fast Finite Element Analysis Method Using Multiple GPUs for Crustal Deformation and its Application to Stochastic Inversion Analysis with Geometry Uncertainty. ICCS 2017: 765-775 - [c20]Leonel Aguilar Melgar, Lalith Maddegedara, Tsuyoshi Ichimura, Muneo Hori:
On the performance and scalability of an HPC enhanced Multi Agent System based evacuation simulator. ICCS 2017: 937-947 - [c19]Kohei Fujita, Tsuyoshi Ichimura, Kentaro Koyama, Hikaru Inoue, Muneo Hori, Lalith Maddegedara:
Fast and Scalable Low-Order Implicit Unstructured Finite-Element Solver for Earth's Crust Deformation Problem. PASC 2017: 11:1-11:10 - [c18]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara, Kengo Nakajima:
Implicit Low-Order Unstructured Finite-Element Multiple Simulation Enhanced by Dense Computation Using OpenACC. WACCPD@SC 2017: 42-59 - [i1]Takuma Yamaguchi, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara, Kengo Nakajima:
Implicit Low-Order Unstructured Finite-Element Multiple Simulation Enhanced by Dense Computation using OpenACC. CoRR abs/1710.08679 (2017) - 2016
- [j5]Ryoichiro Agata, Tsuyoshi Ichimura, Kazuro Hirahara, Mamoru Hyodo, Takane Hori, Muneo Hori:
Robust and portable capacity computing method for many finite element analyses of a high-fidelity crustal structure model aimed for coseismic slip estimation. Comput. Geosci. 94: 121-130 (2016) - [c17]Kohei Fujita, Keisuke Katsushima, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
Octree-Based Multiple-Material Parallel Unstructured Mesh Generation Method for Seismic Response Analysis of Soil-Structure Systems. ICCS 2016: 1624-1634 - [c16]Leonel Aguilar Melgar, Lalith Maddegedara, Tsuyoshi Ichimura, Muneo Hori:
Automatic Evacuation Management Using a Multi Agent System and Parallel Meta-Heuristic Search. PRIMA 2016: 387-396 - [c15]Kohei Fujita, Takuma Yamaguchi, Tsuyoshi Ichimura, Muneo Hori, Lalith Maddegedara:
Acceleration of Element-by-Element Kernel in Unstructured Implicit Low-Order Finite-Element Earthquake Simulation Using OpenACC on Pascal GPUs. WACCPD@SC 2016: 1-12 - 2015
- [c14]Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Wijerathne Maddegedara Lalith Lakshman, Seizo Tanaka:
Scalable Multicase Urban Earthquake Simulation Method for Stochastic Earthquake Disaster Estimation. ICCS 2015: 1483-1493 - [c13]Ryoichiro Agata, Tsuyoshi Ichimura, Kazuro Hirahara, Mamoru Hyodo, Takane Hori, Chihiro Hashimoto, Muneo Hori:
Numerical Verification Criteria for Coseismic and Postseismic Crustal Deformation Analysis with Large-scale High-fidelity Model. ICCS 2015: 1534-1544 - [c12]Tsuyoshi Ichimura, Kohei Fujita, Pher Errol Balde Quinay, Lalith Maddegedara, Muneo Hori, Seizo Tanaka, Yoshihisa Shizawa, Hiroshi Kobayashi, Kazuo Minami:
Implicit nonlinear wave simulation with 1.08T DOF and 0.270T unstructured finite elements to enhance comprehensive earthquake simulation. SC 2015: 4:1-4:12 - 2014
- [j4]Xinzheng Lu, Bo Han, Muneo Hori, Chen Xiong, Zhen Xu:
A coarse-grained parallel approach for seismic damage simulations of urban areas based on refined models and GPU/CPU cooperative computing. Adv. Eng. Softw. 70: 90-103 (2014) - [c11]Shunsuke Homma, Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, Seckin Citak, Takane Hori:
A Physics-based Monte Carlo Earthquake Disaster Simulation Accounting for Uncertainty in Building Structure Parameters. ICCS 2014: 855-865 - [c10]Kohei Fujita, Tsuyoshi Ichimura, Muneo Hori, M. L. L. Wijerathne, Seizo Tanaka:
A Quick Earthquake Disaster Estimation System with Fast Urban Earthquake Simulation and Interactive Visualization. ICCS 2014: 866-876 - [c9]Ryoichiro Agata, Tsuyoshi Ichimura, Kazuro Hirahara, Mamoru Hyodo, Takane Hori, Muneo Hori:
Several Hundred Finite Element Analyses of an Inversion of Earthquake Fault Slip Distribution using a High-fidelity Model of the Crustal Structure. ICCS 2014: 877-887 - [c8]Leonel Enrique Aguilar Melgar, Wijerathne Maddegedara Lalith Lakshman, Muneo Hori, Tsuyoshi Ichimura, Seizo Tanaka:
A Scalable Workbench for Large Urban Area Simulations, Comprised of Resources for Behavioural Models, Interactions and Dynamic Environments. PRIMA 2014: 166-181 - [c7]Tsuyoshi Ichimura, Kohei Fujita, Seizo Tanaka, Muneo Hori, Wijerathne Maddegedara Lalith Lakshman, Yoshihisa Shizawa, Hiroshi Kobayashi:
Physics-Based Urban Earthquake Simulation Enhanced by 10.7 BlnDOF × 30 K Time-Step Unstructured FE Non-Linear Seismic Wave Simulation. SC 2014: 15-26 - 2013
- [j3]M. L. L. Wijerathne, Muneo Hori, Toshikazu Kabeyazawa, Tsuyoshi Ichimura:
Strengthening of Parallel Computation Performance of Integrated Earthquake Simulation. J. Comput. Civ. Eng. 27(5): 570-573 (2013) - [c6]M. L. L. Wijerathne, Leonel Aguilar Melgar, Muneo Hori, Tsuyoshi Ichimura, Seizo Tanaka:
HPC Enhanced Large Urban Area Evacuation Simulations with Vision based Autonomously Navigating Multi Agents. ICCS 2013: 1515-1524 - [c5]Leonel Enrique Aguilar Melgar, Wijerathne Maddegedara Lalith Lakshman, Muneo Hori, Tsuyoshi Ichimura, Seizo Tanaka:
On the Development of an MAS Based Evacuation Simulation System: Autonomous Navigation and Collision Avoidance. PRIMA 2013: 388-395 - 2012
- [c4]M. L. L. Wijerathne, Muneo Hori, Tsuyoshi Ichimura, Seizo Tanaka:
Parallel Scalability Enhancements of Seismic Response and Evacuation Simulations of Integrated Earthquake Simulator. VECPAR 2012: 105-117 - 2011
- [j2]Takuzo Yamashita, Muneo Hori, Koichi Kajiwara:
Petascale Computation for Earthquake Engineering. Comput. Sci. Eng. 13(4): 44-49 (2011) - [c3]Muneo Hori, Tsuyoshi Ichimura, Lalith Wijerathne:
On some recent achievements of earthquake simulation. ICCS 2011: 2344-2353
2000 – 2009
- 2006
- [j1]Masayuki Saeki, Muneo Hori:
Development of an Accurate Positioning System Using Low-Cost L1 GPS Receivers. Comput. Aided Civ. Infrastructure Eng. 21(4): 258-267 (2006) - [c2]Masayuki Saeki, Junya Inoue, Kok-How Khor, Tomohiro Kousaka, Hiroaki Honda, Kenji Oguni, Muneo Hori:
Hierarchical Localization Algorithm Based on Inverse Delaunay Tessellation. EWSN 2006: 180-195 - 2005
- [c1]Ping Zhu, Yozo Fujino, Muneo Hori, Junji Kiyono:
Constructing a physical layer of virtual cities for disaster mitigation. ICAT 2005: 285
Coauthor Index
[c50] [c49] [i4] [i3] [i2] [j11] [c48] [c47] [j10] [c46] [c45] [c44] [c43] [c42] [j9] [j8] [c41] [c40] [c39] [c38] [j7] [c37] [c36] [c35] [c34] [c33] [j6] [c32] [c31] [c30] [c29] [c28] [c27] [c26] [c25] [c24] [c23] [c22] [c21] [c20] [c19] [c18] [i1] [j5] [c17] [c16] [c15] [c14] [c13] [c12] [c11] [c10] [c9] [c8] [c7] [j3] [c6] [c5] [c4] [c3]
Lalith Maddegedara
aka: Maddegedara Lalith
aka: Wijerathne Maddegedara Lalith Lakshman
aka: M. L. L. Wijerathne
aka: Maddegedara Lalith
aka: Wijerathne Maddegedara Lalith Lakshman
aka: M. L. L. Wijerathne
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