Jintao Meng (孟金涛)

• High Performance Computing

• Parallel Graph Algorithms

• Performance Optimization and Tuning

• CV

• Title: Highly Scalable De Novo Genome Assembly

• Research Proposal（开题报告）

• Mid-term Report（中期报告）

• PH.D dissertation

• Scalable Graph Analysis Algorithms
  This project investigates generalized high performance graph computing support for various of graph algorithms such as BFS, List Ranking, PageRank, Semi-clustering, Personalized PageRank, Simrank etc. Resource-efficient datacenters based on the insight: The Computer as a Network.
  [News] March. 2016: Presentation on graph related applications: 中文Slides (4MB)
  [News] Nov. 2013: Presentation and discussion about current graph computing libraries: 图计算中文Slides (4MB)
  [News] Nov. 2012: Our first paper describing asynchronous parallel computing model for graph computing is accepted by NPC'12. Slides
  
  

• Scalable Genome Assembler
  This project investigates highly scalable assemblers for massive sequencing data with millions of cores. SWAP-Assembler and SWAP-Assembler 2 (SWAP2 for short) is developed for this goal, experimental results show that SWAP2 scales up to 131,072 cores on 4 Tarabytes data from 1000 human genome dataset using only 2 minutes, which is faster than several other parallel assemblers, such as HipMer, ABySS, Ray, and PASHA. Results also show that SWAP-Assembler and SWAP2 can generate good quality contigs with N50 size and low error rate on Yanhuang dataset.
  [News] Jan. 2015: SWAP-Assembler 2 is open sourced: Local or Sourceforge
  [News] Feb. 2013: SWAP-Assembler published in BMC Bioinformatics [slides].
  
  
  

• Huaipeng Zhang, Nhut-Minh Ho, Yigit Polat Dogukan, Peng Chen, Mohamed Wahib, Truong Thao Nguyen, Jintao Meng, Rick Siow Mong Goh, Satoshi Matsuoka, Tao Luo, Weng-Fai Wong, Simeuro: A Hybrid CPU-GPU Parallel Simulator for Neuromorphic Computing Chips, IEEE Transactions on Parallel and Distributed Systems, 2023 (IF=4.18, JCR Q1)
• Tao Shen, Fuxu Liu, Zechen Wang, Jinyuan Sun, Yifan Bu, Jintao Meng, Weihua Chen, Yuguang Mu, Weifeng Li, Guoping Zhao, Sheng Wang, Yanjie Wei, Liangzhen Zheng, zPoseScore model for accurate and robust protein-ligand docking pose scoring in CASP15, PROTEINS: Structure, Function, and Bioinformatics (IF=4.088, JCR Q2, CASP 15 invited paper, rank 2 on protein-ligand complexes prediction) [Paper]


• Lingqi Zhang, Mohamed Wahib,Peng Chen, Jintao Meng, Xiao Wang, Toshio Endo, Satoshi Matsuoka, PERKS: a Locality-Optimized Execution Model for Iterative Memory-bound GPU Applications, 37th ACM International Conference on Supercomputing (ICS 2023), June 2023, Orlando, USA （CCF B）
  
• Lingqi Zhang, Mohamed Wahib, Peng Chen, Jintao Meng, Xiao Wang, Toshio Endo, Satoshi Matsuoka, Revisiting Temporal Blocking Stencil Optimizations, 37th ACM International Conference on Supercomputing (ICS 2023), June 2023, Orlando, USA （CCF B）
  
• Lingqi Zhang, Mohamed Wahib,Peng Chen, Jintao Meng, Xiao Wang, Toshio Endo, Satoshi Matsuoka, Exploiting Scratchpad Memory for Deep Temporal Blocking, The 15th Workshop on General Purpose Processing Using GPU (GPGPU 2023), Feb 2023, MONTREAL, CANADA.
  
• Jintao Meng, Peng Chen, Mohamed Wahib, Mingjun Yang, Liangzhen Zheng, Yanjie Wei, Shengzhong Feng, Wei Liu, Boosting the predictive performance with aqueous solubility dataset curation, Nature Scientific Data, 2022, 9(1): 1-13 (IF=6.101, JCR Q1) [Paper]


• Jintao Meng, Chen Zhuang, Peng Chen, Mohamed Wahib, Bertil Schmidt, Xiao Wang, Haidong Lan, Dou Wu, Minwen Deng, Yanjie Wei, Shengzhong Feng, Automatic Generation of High-Performance Convolution Kernels on ARM CPUs for Deep Learning, IEEE Transactions on Parallel and Distributed Systems, 2022, 33(11): 2885-2899 (IF 4.18, JCR Q1) [Paper]


• Ju Zhen, Huiling Zhang, Jintao Meng, etc, nGIA: A novel Greedy Incremental Alignment based algorithm for gene sequence clustering, Future Generation Computer Systems, 2022 (IF=7.187, JCR Q1)
  
• Liangzhen Zheng, Jintao Meng, etc, Improving protein–ligand docking and screening accuracies by incorporating a scoring function correction term, Briefings in Bioinformatics, 2022, 23(3) (IF=11.6, JCR Q1)
  
• Huiling Zhang, Ying Huang, Zhendong Bei, Zhen Ju, Jintao Meng, etc, Inter-Residue Distance Prediction From Duet Deep Learning Models, Frontiers in Genetics, 2022, 13 (IF=4.274, JCR Q2)
  
• Haidong Lan, Wenxi Zhu, Qian Qiu, Dou Wu, Honglin Zhu, Jingjing Zhao, Xinghui Fu, Minwen Deng, Jintao Meng*, Efficient Phase-Functioned Real-time Character Control in Mobile Games: A TVM Enabled Approach, in Proceeding of the 45th International Conference on Parallel Processing (ICPP 2022), Bordeaux, France. (Accept rate: 19\%， CCF B)
  
• Liangzhen Zheng, Jintao Meng*, Mingzhi Lin, Rui Lv, Hongxi Cheng, Lixin Zou, Jinyuan Sun, Linxian Li, Ruobing Ren, Sheng Wang, Structure Prediction of the whole Proteome of Monkeypox variants, in Acta Materia Media, 2022.
  
• Jianqiu Ge, Jintao Meng*, Ning Guo, Yanjie Wei, Pavan Balaji, Shengzhong Feng, Counting kmers for biological sequences at large scale, Interdisciplinary Sciences: Computational Life Sciences, 2020, 12(1): 99-108 (IF=4.274, JCR Q2)
  
• Haidong Lan, Jintao Meng*, Christian Hundt*, Bertil Schmidt, Minwen Deng, Xiaoning Wang, Weiguo Liu, Yu Qiao, Shengzhong Feng, FeatherCNN: Fast Inference Computation with TensorGEMM on ARM Architectures, IEEE Transactions on Parallel and Distributed Systems, pp. 580-594, March, 2020. (IF=4.18, JCR Q1) [Paper]


• Jintao Meng, Ning Guo, Jianqiu Ge, Yanjie Wei*, Pavan Balaji, Bingqiang Wang, Scalable Assembly for Massive Genomic Graphs, CCGrid 2017 Scale Challenge finalist, May, 2017. （CCF C）
  
• Jintao Meng, Sangmin Seo, Pavan Balaji, Yanjie Wei, Bingqiang Wang, Shengzhong Feng, SWAP-Assembler 2: Optimization of De Novo Genome Assembler at Extreme Scale, in Proceeding of the 45th International Conference on Parallel Processing (ICPP 2016), Philadelphia, PA, 2016. (Accept rate: 18%) [Paper]


• Jintao Meng, Sangmin Seo, Pavan Balaji, Yanjie Wei, Bingqiang Wang, Shengzhong Feng, SWAP-Assembler 2: Scalable Genome Assembler towards Millions of Cores - Practice and Experience, in ATIP workshop in Supercomputing 2015 (Supercomputing 2015), Austin, 2015 [Poster]


• Jintao Meng, Sangmin Seo, Pavan Balaji, Yanjie Wei, Bingqiang Wang, Shengzhong Feng, SWAP-Assembler 2: Scalable Genome Assembler towards Millions of Cores - Practice and Experience, in 15th IEEE/ACM International Symposium on Cluster, Cloud and Grid Computing (CCGrid'15)-Doctoral Symposium, May, 2015. [pdf]


• Jintao Meng, Guixin Guo, Bingqiang Wang, Yanjie Wei, Jiefeng Cheng, Shenzhong Feng,An Ultra-fast Memory Efficient Parallel List Ranking Algorithm for BSP Based Graph Processing Systems, HPC-China 2014, Guangzhou. [pdf]


• Jintao Meng, Bingqiang Wang, Yanjie Wei, Shengzhong Feng, Pavan Balaji. SWAP-Assembler: Scalable and Efficient Genome Assembly towards Thousands of Cores, BMC Bioinformatics, Vol. 15 Supplement 9, 2014. [pdf]


• Jintao Meng, Bingqiang Wang, Yanjie Wei, Shengzhong Feng, Pavan Balaji. SWAP-Assembler: Scalable and Efficient Genome Assembly towards Thousands of Cores, in 4th annual RECOMB satellite workshop on massively parallel sequencing (RECOMB-seq 2014), April, 2014. [pdf]


• Jintao Meng, Bingqiang Wang, Yanjie Wei, Jiefeng Cheng, Shengzhong Feng, Pavan Balaji. SWAP-Assembler: A Scalable De Bruijn Graph Based Assembler for Massive Genome Data, in 17th annual international conference on research in computational molecular biology (RECOMB 2013), April, 2013. (Poster) [pdf]


• Jintao Meng, Jianrui Yuan, Yanjie Wei, Jiefeng Cheng, Shengzhong Feng, Small World Asynchronous Parallel Model for Genome Assembly, in 9th IFIP International Conference on Network and Parallel Computing (NPC 2012), Sep.6, Gwangju, Korea [pdf]

• Bingqiang Wang
  
• Jiefeng Cheng
  
• Pavan Balaji
  
• Yungang Bao
  

• Chen Zhuang, graduated in 2022, now is a PH.D student in RIKEN.
• Du Wu, graduated in 2023, now is a PH.D student in RIKEN.
• Jiang Chen, master student from June 2021, intern in Tencent AI Lab.
• Cong Ma, master student from June 2022, intern in Tencent AI Lab.