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2020 – today
- 2024
[j31]Erik Hide Sæternes
, Andreas Thune, Alf Birger Rustad, Tor Skeie, Xing Cai:
Automated parameter tuning with accuracy control for efficient reservoir simulations. J. Comput. Sci. 75: 102205 (2024)- [j30]Wu Deng, Xing Cai, Daqing Wu, Yingjie Song, Huiling Chen, Xiaojuan Ran, Xiangbing Zhou, Huimin Zhao:
MOQEA/D: Multi-Objective QEA With Decomposition Mechanism and Excellent Global Search and Its Application. IEEE Trans. Intell. Transp. Syst. 25(9): 12517-12527 (2024) - [c51]Max Xiaohang Zhao, Luk Burchard, Daniel Thilo Schroeder, Johannes Langguth, Xing Cai:
iPuma: High-Performance Sequence Alignment on the Graphcore IPU. ISC 2024: 1-11 - 2023
- [j29]Yingjie Song, Xing Cai, Xiangbing Zhou, Bin Zhang, Huiling Chen, Yuangang Li, Wuquan Deng, Wu Deng:
Dynamic hybrid mechanism-based differential evolution algorithm and its application. Expert Syst. Appl. 213(Part): 118834 (2023) - [j28]Xiangbing Zhou, Xing Cai, Hua Zhang, Zhiheng Zhang, Ting Jin, Huayue Chen, Wu Deng:
Multi-strategy competitive-cooperative co-evolutionary algorithm and its application. Inf. Sci. 635: 328-344 (2023) - [j27]James D. Trotter, Johannes Langguth, Xing Cai:
Targeting performance and user-friendliness: GPU-accelerated finite element computation with automated code generation in FEniCS. Parallel Comput. 118: 103051 (2023) - [j26]Andreas Thune, Sven-Arne Reinemo, Tor Skeie, Xing Cai:
Detailed Modeling of Heterogeneous and Contention-Constrained Point-to-Point MPI Communication. IEEE Trans. Parallel Distributed Syst. 34(5): 1580-1593 (2023) - 2022
- [j25]James D. Trotter, Xing Cai, Simon W. Funke:
On Memory Traffic and Optimisations for Low-order Finite Element Assembly Algorithms on Multi-core CPUs. ACM Trans. Math. Softw. 48(2): 19:1-19:31 (2022) - [c50]Wenping Bu, Zhilin Ding, Shaoyi Li, Shuling Feng, Xing Cai:
Optimization of intelligent charging control strategy for collaborative response of electric vehicle based on PSO. ICISCAE 2022: 671-674 - [c49]Zhilin Ding, Wenping Bu, Shaoyi Li, Renbo Xu, Shuling Feng, Xing Cai:
Comparative analysis of stochastic vehicle-loads charging model concerning randomized characteristic based on particle swarm optimization. ICISCAE 2022: 675-678 - [c48]Li Liu, Xing Cai, Ge Li, Thomas H. Li:
DKNAS: A Practical Deep Keypoint Extraction Framework Based on Neural Architecture Search. ICRA 2022: 5643-5649 - 2021
- [j24]Xing Cai, Huimin Zhao, Shifan Shang, Yongquan Zhou, Wu Deng, Huayue Chen, Wuquan Deng:
An improved quantum-inspired cooperative co-evolution algorithm with muli-strategy and its application. Expert Syst. Appl. 171: 114629 (2021) - [j23]Wu Deng, Shifan Shang, Xing Cai, Huimin Zhao, Yongquan Zhou, Huayue Chen, Wuquan Deng:
Quantum differential evolution with cooperative coevolution framework and hybrid mutation strategy for large scale optimization. Knowl. Based Syst. 224: 107080 (2021) - [j22]Wu Deng, Shifan Shang, Xing Cai, Huimin Zhao, Yingjie Song, Junjie Xu:
An improved differential evolution algorithm and its application in optimization problem. Soft Comput. 25(7): 5277-5298 (2021) - [c47]Junsuo Qu, Xing Cai, Haonan Shi:
Research on Improved Multi-Sensor Data Fusion Algorithm Based on D-S Evidence Theory. AIPR 2021: 486-493 - [c46]Luk Burchard, Xing Cai, Johannes Langguth:
iPUG for Multiple Graphcore IPUs: Optimizing Performance and Scalability of Parallel Breadth-First Search. HiPC 2021: 162-171 - [i6]Jérémie Lagravière, Johannes Langguth, Martina Prugger, Phuong Hoai Ha, Xing Cai:
A Newcomer In The PGAS World - UPC++ vs UPC: A Comparative Study. CoRR abs/2102.03614 (2021) - 2020
- [j21]Chunbiao Zhu, Wei Yan, Xing Cai, Shan Liu, Thomas H. Li, Ge Li:
Neural saliency algorithm guide bi-directional visual perception style transfer. CAAI Trans. Intell. Technol. 5(1): 1-8 (2020) - [j20]James D. Trotter, Johannes Langguth, Xing Cai:
Cache simulation for irregular memory traffic on multi-core CPUs: Case study on performance models for sparse matrix-vector multiplication. J. Parallel Distributed Comput. 144: 189-205 (2020) - [c45]Xing Cai, Lanqing Zhang, Chengyuan Li, Ge Li, Thomas H. Li:
Twinvo: Unsupervised Learning of Monocular Visual Odometry Using Bi-Direction Twin Network. ICME Workshops 2020: 1-6 - [c44]Chengyuan Li, Lanqing Zhang, Xing Cai, Keyao Li, Ge Li, Thomas H. Li:
Towards Loss Balance and Consistent Model in Self-supervised Monocular Depth Estimation. ICTAI 2020: 883-889 - [c43]Xing Cai, Lanqing Zhang, Chengyuan Li, Ge Li, Thomas H. Li:
VONAS: Network Design in Visual Odometry using Neural Architecture Search. ACM Multimedia 2020: 727-735
2010 – 2019
- 2019
- [j19]Jérémie Lagravière, Johannes Langguth, Martina Prugger, Lukas Einkemmer, Phuong Hoai Ha, Xing Cai:
Performance Optimization and Modeling of Fine-Grained Irregular Communication in UPC. Sci. Program. 2019: 6825728:1-6825728:20 (2019) - [c42]Johannes Langguth, Hermenegild Arevalo, Kristian Gregorius Hustad, Xing Cai:
Towards Detailed Real-Time Simulations of Cardiac Arrhythmia. CinC 2019: 1-4 - [c41]Chad Jarvis, Glenn Terje Lines, Johannes Langguth, Kengo Nakajima, Xing Cai:
Combining Algorithmic Rethinking and AVX-512 Intrinsics for Efficient Simulation of Subcellular Calcium Signaling. ICCS (5) 2019: 681-687 - [c40]Chunbiao Zhu, Xing Cai, Kan Huang, Thomas H. Li, Ge Li:
PDNet: Prior-Model Guided Depth-Enhanced Network for Salient Object Detection. ICME 2019: 199-204 - [i5]Jérémie Lagravière, Johannes Langguth, Mohammed Sourouri, Phuong Hoai Ha, Xing Cai:
On the Performance and Energy Efficiency of the PGAS Programming Model on Multicore Architectures. CoRR abs/1912.12700 (2019) - [i4]Jérémie Lagravière, Johannes Langguth, Martina Prugger, Lukas Einkemmer, Phuong Hoai Ha, Xing Cai:
Performance optimization and modeling of fine-grained irregular communication in UPC. CoRR abs/1912.12701 (2019) - 2018
- [c39]Xiaoming Yu, Xing Cai, Zhenqiang Ying, Thomas H. Li, Ge Li:
SingleGAN: Image-to-Image Translation by a Single-Generator Network Using Multiple Generative Adversarial Learning. ACCV (5) 2018: 341-356 - [c38]Johannes Langguth, Xing Cai, Mohammed Sourouri:
Memory Bandwidth Contention: Communication vs Computation Tradeoffs in Supercomputers with Multicore Architectures. ICPADS 2018: 497-506 - [i3]Chunbiao Zhu, Xing Cai, Kan Huang, Thomas H. Li, Ge Li:
PDNet: Prior-model Guided Depth-enhanced Network for Salient Object Detection. CoRR abs/1803.08636 (2018) - [i2]Xiaoming Yu, Xing Cai, Zhenqiang Ying, Thomas H. Li, Ge Li:
SingleGAN: Image-to-Image Translation by a Single-Generator Network using Multiple Generative Adversarial Learning. CoRR abs/1810.04991 (2018) - 2017
- [j18]Mohammed Sourouri, Scott B. Baden, Xing Cai:
Panda: A Compiler Framework for Concurrent CPU + GPU Execution of 3D Stencil Computations on GPU-accelerated Supercomputers. Int. J. Parallel Program. 45(3): 711-729 (2017) - [j17]Johannes Langguth, Qiang Lan, Namit Gaur, Xing Cai:
Accelerating Detailed Tissue-Scale 3D Cardiac Simulations Using Heterogeneous CPU-Xeon Phi Computing. Int. J. Parallel Program. 45(5): 1236-1258 (2017) - [c37]Johannes Langguth, Chad Jarvis, Xing Cai:
Porting Tissue-Scale Cardiac Simulations to the Knights Landing Platform. ISC Workshops 2017: 376-388 - 2016
- [c36]Werner Weber, Alfred Hoess, Jan van Deventer, Frank Oppenheimer, Rolf Ernst, Adam Kostrzewa, Philippe Dore, Thierry Goubier, Haris Isakovic, Norbert Druml, Egon Wuchner, Daniel Schneider, Erwin Schoitsch, Eric Armengaud, Thomas Soderqvist, Massimo Traversone, Sascha Uhrig, Juan-Carlos Perez-Cortes, Sergio Sáez, Juha Kuusela, Mark van Helvoort, Xing Cai, Bjørn Nordmoen, Geir Yngve Paulsen, Hans Petter Dahle, Michael Geissel, Jürgen Salecker, Peter Tummeltshammer:
The EMC2 Project on Embedded Microcontrollers: Technical Progress after Two Years. DSD 2016: 524-531 - [c35]Johannes Langguth, Qiang Lan, Namit Gaur, Xing Cai, Mei Wen, Chunyuan Zhang:
Enabling Tissue-Scale Cardiac Simulations Using Heterogeneous Computing on Tianhe-2. ICPADS 2016: 843-852 - [c34]Jérémie Lagravière, Johannes Langguth, Mohammed Sourouri, Phuong Hoai Ha, Xing Cai:
On the performance and energy efficiency of the PGAS programming model on multicore architectures. HPCS 2016: 800-807 - [c33]Geir Yngve Paulsen, Jonathan Feinberg, Xing Cai, Bjørn Nordmoen, Hans Petter Dahle:
Matlab2cpp: A Matlab-to-C++ code translator. SoSE 2016: 1-5 - 2015
- [j16]Xinnan Dong, Mei Wen, Jun Chai, Xing Cai, Mandan Zhao, Chunyuan Zhang:
Communication-hiding programming for clusters with multi-coprocessor nodes. Concurr. Comput. Pract. Exp. 27(16): 4172-4185 (2015) - [j15]Dafei Huang, Changqing Xun, Nan Wu, Mei Wen, Chunyuan Zhang, Xing Cai, Qianming Yang:
Enabling a Uniform OpenCL Device View for Heterogeneous Platforms. IEICE Trans. Inf. Syst. 98-D(4): 812-823 (2015) - [j14]Jun Chai, Johan Hake, Nan Wu, Mei Wen, Xing Cai, Glenn Terje Lines, Jing Yang, Huayou Su, Chunyuan Zhang, Xiangke Liao:
Towards simulation of subcellular calcium dynamics at nanometre resolution. Int. J. High Perform. Comput. Appl. 29(1): 51-63 (2015) - [j13]Johannes Langguth, Nan Wu, Jun Chai, Xing Cai:
Parallel performance modeling of irregular applications in cell-centered finite volume methods over unstructured tetrahedral meshes. J. Parallel Distributed Comput. 76: 120-131 (2015) - [j12]Johannes Langguth, Mohammed Sourouri, Glenn Terje Lines, Scott B. Baden, Xing Cai:
Scalable Heterogeneous CPU-GPU Computations for Unstructured Tetrahedral Meshes. IEEE Micro 35(4): 6-15 (2015) - [j11]Huayou Su, Xing Cai, Mei Wen, Chunyuan Zhang:
An analytical GPU performance model for 3D stencil computations from the angle of data traffic. J. Supercomput. 71(7): 2433-2453 (2015) - [c32]Mohammed Sourouri, Johannes Langguth, Filippo Spiga, Scott B. Baden, Xing Cai:
CPU+GPU Programming of Stencil Computations for Resource-Efficient Use of GPU Clusters. CSE 2015: 17-26 - [c31]Qiang Lan, Namit Gaur, Johannes Langguth, Xing Cai:
Towards Detailed Tissue-Scale 3D Simulations of Electrical Activity and Calcium Handling in the Human Cardiac Ventricle. ICA3PP (3) 2015: 79-92 - [c30]Ezhilmathi Krishnasamy, Mohammed Sourouri, Xing Cai:
Multi-GPU Implementations of Parallel 3D Sweeping Algorithms with Application to Geological Folding. ICCS 2015: 1494-1503 - 2014
- [j10]Xing Cai, Michael James Tippett, Lei Xie, Jie Bao:
Fast distributed MPC based on active set method. Comput. Chem. Eng. 71: 158-170 (2014) - [j9]Mei Wen, Huayou Su, Wenjie Wei, Nan Wu, Xing Cai, Chunyuan Zhang:
High efficient sedimentary basin simulations on hybrid CPU-GPU clusters. Clust. Comput. 17(2): 359-369 (2014) - [j8]Wei Zhang, Xing Cai, Sverre Holm:
Time-fractional heat equations and negative absolute temperatures. Comput. Math. Appl. 67(1): 164-171 (2014) - [c29]Dafei Huang, Mei Wen, Changqing Xun, Dong Chen, Xing Cai, Yuran Qiao, Nan Wu, Chunyuan Zhang:
Automated Transformation of GPU-Specific OpenCL Kernels Targeting Performance Portability on Multi-Core/Many-Core CPUs. Euro-Par 2014: 210-221 - [c28]Xinnan Dong, Jun Chai, Jing Yang, Mei Wen, Nan Wu, Xing Cai, Chunyuan Zhang, Zhaoyun Chen:
Utilizing Multiple Xeon Phi Coprocessors on One Compute Node. ICA3PP (2) 2014: 68-81 - [c27]Johannes Langguth, Xing Cai:
Heterogeneous CPU-GPU computing for the finite volume method on 3D unstructured meshes. ICPADS 2014: 191-199 - [c26]Mohammed Sourouri, Tor Gillberg, Scott B. Baden, Xing Cai:
Effective multi-GPU communication using multiple CUDA streams and threads. ICPADS 2014: 981-986 - 2013
- [j7]Jun Chai, Mei Wen, Nan Wu, Dafei Huang, Jing Yang, Xing Cai, Chunyuan Zhang, Qianming Yang:
Simulating Cardiac Electrophysiology in the Era of GPU-Cluster Computing. IEICE Trans. Inf. Syst. 96-D(12): 2587-2595 (2013) - [j6]Jun Chai, Huayou Su, Mei Wen, Xing Cai, Nan Wu, Chunyuan Zhang:
Resource-efficient utilization of CPU/GPU-based heterogeneous supercomputers for Bayesian phylogenetic inference. J. Supercomput. 66(1): 364-380 (2013) - [c25]Huayou Su, Nan Wu, Mei Wen, Chunyuan Zhang, Xing Cai:
Performance of Sediment Transport Simulations on NVIDIA's Kepler Architecture. ICCS 2013: 1275-1281 - [c24]Huayou Su, Nan Wu, Mei Wen, Chunyuan Zhang, Xing Cai:
On the GPU-CPU Performance Portability of OpenCL for 3D Stencil Computations. ICPADS 2013: 78-85 - [c23]Johannes Langguth, Nan Wu, Jun Chai, Xing Cai:
On the GPU performance of cell-centered finite volume method over unstructured tetrahedral meshes. IA3@SC 2013: 7:1-7:8 - [c22]Huayou Su, Nan Wu, Mei Wen, Chunyuan Zhang, Xing Cai:
On the GPU Performance of 3D Stencil Computations Implemented in OpenCL. ISC 2013: 125-135 - 2012
- [j5]Didem Unat, Jun Zhou, Yifeng Cui, Scott B. Baden, Xing Cai:
Accelerating a 3D Finite-Difference Earthquake Simulation with a C-to-CUDA Translator. Comput. Sci. Eng. 14(3): 48-59 (2012) - [c21]Mei Wen, Huayou Su, Wenjie Wei, Nan Wu, Xing Cai, Chunyuan Zhang:
Using 1000+ GPUs and 10000+ CPUs for Sedimentary Basin Simulations. CLUSTER 2012: 27-35 - [c20]Tor Gillberg, Mohammed Sourouri, Xing Cai:
A New Parallel 3D Front Propagation Algorithm for Fast Simulation of Geological folds. ICCS 2012: 947-955 - 2011
- [c19]Didem Unat, Xing Cai, Scott B. Baden:
Mint: realizing CUDA performance in 3D stencil methods with annotated C. ICS 2011: 214-224 - [c18]Wenjie Wei, Omar al-Khayat, Xing Cai:
An OpenMP-enabled parallel simulator for particle transport in fluid flows. ICCS 2011: 1475-1484 - 2010
- [c17]Stuart R. Clark, Wenjie Wei, Xing Cai:
Numerical Analysis of a Dual-Sediment Transport Model Applied to Lake Okeechobee, Florida. ISPDC 2010: 189-194 - [p1]Anders Logg, Hans Petter Langtangen, Xing Cai:
Past and Future Perspectives on Scientific Software. Simula Research Laboratory 2010: 321-362 - [i1]Jon K. Nilsen, Xing Cai, Bjorn Hoyland, Hans Petter Langtangen:
Simplifying Parallelization of Scientific Codes by a Function-Centric Approach in Python. CoRR abs/1002.0705 (2010)
2000 – 2009
- 2009
- [c16]Pan Li, Wenjie Wei, Xing Cai, Christian Soeller, Mark B. Cannell, Arun V. Holden:
Evolution of Intracellular Ca2+ Waves from about 10, 000 RyR Clusters: Towards Solving a Computationally Daunting Task. FIMH 2009: 11-20 - 2008
- [e1]Xing Cai, T.-C. Jim Yeh:
Quantitative Information Fusion for Hydrological Sciences. Studies in Computational Intelligence 79, Springer 2008, ISBN 978-3-540-75383-4 [contents] - 2007
- [j4]Kent-André Mardal, Bjørn Fredrik Nielsen, Xing Cai, Aslak Tveito:
An order optimal solver for the discretized bidomain equations. Numer. Linear Algebra Appl. 14(2): 83-98 (2007) - [j3]Xing Cai, Bjørn Fredrik Nielsen, Aslak Tveito:
A note on the efficiency of the conjugate gradient method for a class of time-dependent problems. Numer. Linear Algebra Appl. 14(5): 459-467 (2007) - 2006
- [c15]Hans Petter Langtangen, Xing Cai:
On the Efficiency of Python for High-Performance Computing: A Case Study Involving Stencil Updates for Partial Differential Equations. HPSC 2006: 337-357 - [c14]Xing Cai, Hans Petter Langtangen:
Software Tools for Parallel CFD Applications: Minisymposium Abstract. PARA 2006: 665 - [c13]Xing Cai, Hans Petter Langtangen:
Making Hybrid Tsunami Simulators in a Parallel Software Framework. PARA 2006: 686-693 - 2005
- [j2]Xing Cai, Hans Petter Langtangen, Halvard Moe:
On the performance of the Python programming language for serial and parallel scientific computations. Sci. Program. 13(1): 31-56 (2005) - [c12]Osamu Tatebe, Laurence Tianruo Yang, H. Martin Bücker, Xing Cai:
Message from the Chairs. ICPP Workshops 2005: 80 - [c11]Xing Cai, Geir Kleivstul Pedersen, Hans Petter Langtangen, Sylfest Glimsdal:
Parallel Simulation of Tsunamis Using a Hybrid Software Approach. PARCO 2005: 383-390 - 2004
- [j1]Masha Sosonkina, Yousef Saad, Xing Cai:
Using the parallel algebraic recursive multilevel solver in modern physical applications. Future Gener. Comput. Syst. 20(3): 489-500 (2004) - [c10]Xing Cai:
Improving the Performance of Large-Scale Unstructured PDE Applications. PARA 2004: 699-708 - 2003
- [c9]Xing Cai, Masha Sosonkina:
A Numerical Study of Some Parallel Algebraic Preconditioners. IPDPS 2003: 258 - [c8]Xing Cai, Glenn Terje Lines, Aslak Tveito:
Parallel Solution of the Bidomain Equations with High Resolutions. PARCO 2003: 837-844 - 2002
- [c7]Xing Cai, Yousef Saad, Masha Sosonkina:
Parallel Iterative Methods in Modern Physical Applications. International Conference on Computational Science (2) 2002: 345-354 - [c6]Xing Cai, Glenn Terje Lines:
Enabling Numerical and Software Technologies for Studying the Electrical Activity in Human Heart. PARA 2002: 3-17 - 2001
- [c5]Xing Cai, Åsmund Ødegård:
On the Performance of PC Clusters in Solving Partial Differential Equations. PP 2001 - 2000
- [c4]Xing Cai, Åsmund Ødegård:
Parallel Simulation of 3D Nonlinear Acoustic Fields on a Linux-cluster. CLUSTER 2000: 185-192 - [c3]Noureddine Bouhmala, Xing Cai:
Partition of Unstructured Finite Element Meshes by a Multilevel Approach. PARA 2000: 187-195
1990 – 1999
- 1998
- [c2]Xing Cai:
Numerical Simulation of 3D Fully Nonlinear Water Waves on Parallel Computers. PARA 1998: 48-55 - 1997
- [c1]Are Magnus Bruaset, Xing Cai, Hans Petter Langtangen, Aslak Tveito:
Numerical Solution of PDEs on Parallel Computers Utilizing Sequential Simulators. ISCOPE 1997: 161-168
Coauthor Index
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