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Kiminori Matsuzaki
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2020 – today
- 2024
- [j21]Hongtao Zhang, Kiminori Matsuzaki, Shinichi Yoshida:
Assessing Brain-Like Characteristics of DNNs With Spatiotemporal Features: A Study Based on the Müller-Lyer Illusion. IEEE Access 12: 147192-147208 (2024) - [j20]Lucien Troillet, Kiminori Matsuzaki:
Evaluating the Influence of Imperfect Information in Geister Using DREAM Trained Agents. IEEE Trans. Games 16(3): 598-610 (2024) - [c38]Kiminori Matsuzaki, Shunsuke Terauchi:
Yet More Optimistic Temporal Difference Learning for Game Mini2048. CoG 2024: 1-8 - 2023
- [c37]Chuanfa Li, Lucien Troillet, Kiminori Matsuzaki:
Complete DouDizhu Agents: Bid Learning from Pretrained Cardplay. CoG 2023: 1-4 - [c36]Shunsuke Terauchi, Takaharu Kubota, Kiminori Matsuzaki:
Using Strongly Solved Mini2048 to Analyze Players with N-tuple Networks. TAAI (2) 2023: 165-178 - 2022
- [j19]Hideya Iwasaki, Kento Emoto, Akimasa Morihata, Kiminori Matsuzaki, Zhenjiang Hu:
Fregel: a functional domain-specific language for vertex-centric large-scale graph processing. J. Funct. Program. 32: e4 (2022) - [c35]Wang Weikai, Kiminori Matsuzaki:
Improving DNN-based 2048 Players with Global Embedding. CoG 2022: 628-631 - [c34]Runa Kubota, Lucien Troillet, Kiminori Matsuzaki:
Three Player Otrio will be Strongly Solved. TAAI 2022: 30-35 - [c33]Shota Watanabe, Kiminori Matsuzaki:
Enhancement of CNN-based 2048 Player with Monte-Carlo Tree Search. TAAI 2022: 48-53 - 2021
- [j18]Kiminori Matsuzaki:
Developing Value Networks for Game 2048 with Reinforcement Learning. J. Inf. Process. 29: 336-346 (2021) - [c32]Lucien Troillet, Kiminori Matsuzaki:
Analyzing simplified Geister using DREAM. CoG 2021: 1-8
2010 – 2019
- 2019
- [j17]Naoki Kondo, Kiminori Matsuzaki:
Playing Game 2048 with Deep Convolutional Neural Networks Trained by Supervised Learning. J. Inf. Process. 27: 340-347 (2019) - [c31]Kiminori Matsuzaki:
A Further Investigation of Neural Network Players for Game 2048. ACG 2019: 53-65 - 2018
- [j16]Kiminori Matsuzaki, Naoki Kitamura:
Do evaluation functions really improve Monte-Carlo tree search? J. Int. Comput. Games Assoc. 40(3): 294-304 (2018) - [j15]Izumi Asakura, Hidehiko Masuhara, Takuya Matsumoto, Kiminori Matsuzaki:
Identification and Elimination of the Overhead of Accelerate with a Super-resolution Application. J. Inf. Process. 26: 48-53 (2018) - [c30]Shigeyuki Sato, Wei Hao, Kiminori Matsuzaki:
Parallelization of XPath Queries Using Modern XQuery Processors. ADBIS (Short Papers and Workshops) 2018: 54-62 - [c29]Akimasa Morihata, Kento Emoto, Kiminori Matsuzaki, Zhenjiang Hu, Hideya Iwasaki:
Optimizing Declarative Parallel Distributed Graph Processing by Using Constraint Solvers. FLOPS 2018: 166-181 - [c28]Kiminori Matsuzaki, Madoka Teramura:
Interpreting Neural-Network Players for Game 2048. TAAI 2018: 136-141 - [c27]Kiminori Matsuzaki:
Empirical Analysis of PUCT Algorithm with Evaluation Functions of Different Quality. TAAI 2018: 142-147 - [i2]Shigeyuki Sato, Wei Hao, Kiminori Matsuzaki:
Parallelization of XPath Queries using Modern XQuery Processors. CoRR abs/1806.07728 (2018) - 2017
- [j14]Kiminori Matsuzaki:
Functional Models of Hadoop MapReduce with Application to Scan. Int. J. Parallel Program. 45(2): 362-381 (2017) - [j13]Takuya Matsumoto, Kiminori Matsuzaki:
Evaluation of Libraries for Parallel Computing in Haskell - A Case Study with a Super-resolution Application. J. Inf. Process. 25: 308-316 (2017) - [j12]Reina Miyazaki, Kiminori Matsuzaki, Shigeyuki Sato:
A Generator of Hadoop MapReduce Programs that Manipulate One-dimensional Arrays. J. Inf. Process. 25: 841-851 (2017) - [j11]Kazuhiko Kakehi, Kiminori Matsuzaki, Kento Emoto:
Efficient Parallel Tree Reductions on Distributed Memory Environments. Scalable Comput. Pract. Exp. 18(1): 1-15 (2017) - [j10]Kiminori Matsuzaki:
Efficient Implementation of Tree Skeletons on Distributed-Memory Parallel Computers. Scalable Comput. Pract. Exp. 18(1): 17-34 (2017) - [c26]Kiminori Matsuzaki:
Developing a 2048 Player with Backward Temporal Coherence Learning and Restart. ACG 2017: 176-187 - 2016
- [j9]Kiminori Matsuzaki, Reina Miyazaki:
Parallel Tree Accumulations on MapReduce. Int. J. Parallel Program. 44(3): 466-485 (2016) - [j8]Shigeyuki Sato, Kiminori Matsuzaki:
A Generic Implementation of Tree Skeletons. Int. J. Parallel Program. 44(3): 686-707 (2016) - [j7]Wei Hao, Kiminori Matsuzaki:
A Partial-tree-based Approach for XPath Query on Large XML Trees. J. Inf. Process. 24(2): 425-438 (2016) - [c25]Kazuto Oka, Kiminori Matsuzaki:
Systematic Selection of N-Tuple Networks for 2048. Computers and Games 2016: 81-92 - [c24]Onofre Coll Ruiz, Kiminori Matsuzaki, Shigeyuki Sato:
s6raph: vertex-centric graph processing framework with functional interface. FHPC@ICFP 2016: 58-64 - [c23]Kento Emoto, Kiminori Matsuzaki, Zhenjiang Hu, Akimasa Morihata, Hideya Iwasaki:
Think like a vertex, behave like a function! a functional DSL for vertex-centric big graph processing. ICFP 2016: 200-213 - [c22]Kiminori Matsuzaki:
Systematic selection of N-tuple networks with consideration of interinfluence for game 2048. TAAI 2016: 186-193 - 2015
- [j6]Akimasa Morihata, Kiminori Matsuzaki:
Parallel Tree Contraction with Fewer Types of Primitive Contraction Operations and Its Application to Trees of Unbounded Degree. Inf. Media Technol. 10(1): 17-25 (2015) - 2014
- [j5]Kento Emoto, Kiminori Matsuzaki:
An Automatic Fusion Mechanism for Variable-Length List Skeletons in SkeTo. Int. J. Parallel Program. 42(4): 546-563 (2014) - [j4]Yu Liu, Kento Emoto, Kiminori Matsuzaki, Zhenjiang Hu:
Accumulative Computation on MapReduce. Inf. Media Technol. 9(1): 73-82 (2014) - [j3]Takayuki Kawamura, Kiminori Matsuzaki:
Dividing Huge XML Trees Using the m-bridge Technique over One-to-one Corresponding Binary Trees. Inf. Media Technol. 9(3): 251-261 (2014) - [i1]Ryoma Sin'ya, Kiminori Matsuzaki, Masataka Sassa:
Simultaneous Finite Automata: An Efficient Data-Parallel Model for Regular Expression Matching. CoRR abs/1405.0562 (2014) - 2013
- [c21]Joeffrey Legaux, Zhenjiang Hu, Frédéric Loulergue, Kiminori Matsuzaki, Julien Tesson:
Programming with BSP Homomorphisms. Euro-Par 2013: 446-457 - [c20]Ryoma Sin'ya, Kiminori Matsuzaki, Masataka Sassa:
Simultaneous Finite Automata: An Efficient Data-Parallel Model for Regular Expression Matching. ICPP 2013: 220-229 - 2011
- [c19]Yu Liu, Zhenjiang Hu, Kiminori Matsuzaki:
Towards Systematic Parallel Programming over MapReduce. Euro-Par (2) 2011: 39-50 - [c18]Akimasa Morihata, Kiminori Matsuzaki:
Balanced trees inhabiting functional parallel programming. ICFP 2011: 117-128 - [c17]Akimasa Morihata, Kiminori Matsuzaki:
A Practical Tree Contraction Algorithm for Parallel Skeletons on Trees of Unbounded Degree. ICCS 2011: 7-16 - 2010
- [c16]Kento Emoto, Zhenjiang Hu, Kazuhiko Kakehi, Kiminori Matsuzaki, Masato Takeichi:
Generators-of-Generators Library with Optimization Capabilities in Fortress. Euro-Par (2) 2010: 26-37 - [c15]Akimasa Morihata, Kiminori Matsuzaki:
Automatic Parallelization of Recursive Functions Using Quantifier Elimination. FLOPS 2010: 321-336 - [c14]Louis Gesbert, Zhenjiang Hu, Frédéric Loulergue, Kiminori Matsuzaki, Julien Tesson:
Systematic Development of Correct Bulk Synchronous Parallel Programs. PDCAT 2010: 334-340
2000 – 2009
- 2009
- [c13]Kiminori Matsuzaki, Kento Emoto:
Implementing Fusion-Equipped Parallel Skeletons by Expression Templates. IFL 2009: 72-89 - [c12]Akimasa Morihata, Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
The third homomorphism theorem on trees: downward & upward lead to divide-and-conquer. POPL 2009: 177-185 - 2008
- [c11]Akimasa Morihata, Kiminori Matsuzaki, Masato Takeichi:
Write it recursively: a generic framework for optimal path queries. ICFP 2008: 169-178 - 2007
- [c10]Kento Emoto, Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Domain-Specific Optimization Strategy for Skeleton Programs. Euro-Par 2007: 705-714 - [c9]Kazuhiko Kakehi, Kiminori Matsuzaki, Kento Emoto:
Efficient Parallel Tree Reductions on Distributed Memory Environments. International Conference on Computational Science (2) 2007: 601-608 - [c8]Kiminori Matsuzaki:
Efficient Implementation of Tree Accumulations on Distributed-Memory Parallel Computers. International Conference on Computational Science (2) 2007: 609-616 - [c7]Kazutaka Morita, Akimasa Morihata, Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Automatic inversion generates divide-and-conquer parallel programs. PLDI 2007: 146-155 - 2006
- [j2]Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Parallel skeletons for manipulating general trees. Parallel Comput. 32(7-8): 590-603 (2006) - [c6]Kento Emoto, Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Surrounding Theorem: Developing Parallel Programs for Matrix-Convolutions. Euro-Par 2006: 605-614 - [c5]Kiminori Matsuzaki, Hideya Iwasaki, Kento Emoto, Zhenjiang Hu:
A library of constructive skeletons for sequential style of parallel programming. Infoscale 2006: 13 - [c4]Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Towards automatic parallelization of tree reductions in dynamic programming. SPAA 2006: 39-48 - 2005
- [j1]Kiminori Matsuzaki, Zhenjiang Hu, Kazuhiko Kakehi, Masato Takeichi:
Systematic Derivation of Tree Contraction Algorithms. Parallel Process. Lett. 15(3): 321-336 (2005) - 2004
- [c3]Kiminori Matsuzaki, Kazuhiko Kakehi, Hideya Iwasaki, Zhenjiang Hu, Yoshiki Akashi:
A Fusion-Embedded Skeleton Library. Euro-Par 2004: 644-653 - 2003
- [c2]Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Parallelization with Tree Skeletons. Euro-Par 2003: 789-798 - 2002
- [c1]Kiminori Matsuzaki, Zhenjiang Hu, Masato Takeichi:
Implementation of Parallel Tree Skeletons on Distributed Systems. APLAS 2002: 258-271
Coauthor Index
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last updated on 2024-11-07 21:34 CET by the dblp team
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