专著:
[1]顾华玺,杨银堂,李慧,片上光互连技术[M],北京:科学出版社,ISBN: 9787508856797, 2020年1月.
[2]顾华玺,罗勇,全光接入网架构与技术[M], 北京:清华大学出版社,ISBN:978-7-302-60226-2, 2022年3月.
代表性成果(Selected Publication):
[1] Huaxi Gu*, Jiang Xu, Wei Zhang, A Low-power Fat Tree-based Optical Network-on-Chip for Multiprocessor System-on-Chip, Design, Automation and Test in Europe Conference and Exhibition (DATE), pp.3-8, 2009(Citation 165) [PDF]
[2] Huaxi Gu*, Kwai Hung Mo, Jiang Xu, Wei Zhang, A Low-power Low-cost Optical Router for Optical Networks-on-Chip in Multiprocessor Systems-on-Chip,in Proceedings of IEEE Computer Society Annual Symposium on VLSI (ISVLSI), pp.19-24, 2009 (Best Paper Honorable Mention Award).(Citation 134) [PDF]
[3] Zheng Chen, Huaxi Gu*, Yintang Yang, Dongrui Fan, A Hierarchical Optical Network-on-Chip Using Central-controlled Subnet and Wavelength Assignment , IEEE Journal of Lightwave Technology,(影响因子3.671, 2区期刊)Vol. 32, No. 5, pp930-938, 2014 [PDF]
[4] Ke Chen, H. Gu*; Y. Yang, D. Fan, A Novel Two-layer Passive Optical Interconnection Network for On-Chip Communication, IEEE Journal of Lightwave Technology, vol. 32, issue 9, pp. 1770-1776(影响因子3.671, 2区期刊)2014. [PDF]
[5] Xiaoshan Yu, Huaxi Gu*, Kun Wang, Gang Wu, Enhancing Performance of Cloud Computing Data Center Networks by Hybrid Switching Architecture, IEEE Journal of Lightwave Technology, Vol. 32, No. 10,pp. 1991-1998(影响因子3.671, 2区期刊)2014 [PDF]
[6]Wei Tan, Huaxi Gu*, Yintang Yang, Kun Wang, Xiaolu Wang,Venus: A Low-Latency, Low-Loss 3D hybrid Network-on-Chip for Kilocore Systems,IEEE Journal of Lightwave Technology (影响因子3.671, 2区期刊),Vol. 35, Issue:2, pp.5448-5455,2017.
[7] Kang Wang, Huaxi Gu*, Yintang Yang, and Kun Wang, Optical interconnection network for parallel access to multi-rank memory in future computing systems, Optics Express, Vol.23,Issue:16,pp.20480-20494.2015(影响因子3.307, 2区期刊) [PDF]
[8] Xiaoshan Yu, Huaxi Gu*, Yintang Yang, Kun Wang, RingCube- An Incrementally Scale-out Optical Interconnect for Cloud Computing Data Center, Future Generation Computer Systems,Vol.54,pp.41-51.2016(影响因子2.786, 2区期刊) [PDF]
[9] Zheng Chen, Huaxi Gu*, Yintang Yang, Ke Chen, Low Latency and Energy Efficient Optical Network-on-chip Using Wavelength Assignment, IEEE Photonics Technology Letters, (影响因子2.375, 2区期刊)Vol. 24 , No. 24, pp. 2296 – 2299, 2012. [PDF]
[10] Zhengyu Wang, Huaxi Gu*, Yintang Yang, Bixia Zhang, A Power Allocation Method for TDM based Optical Network on Chip. IEEE Photonics Technology Letters (影响因子2.375, 2区期刊)Vol.25, No.10, pp.973-976. 2013. [PDF]
[11] Xiaolu Wang, Huaxi Gu*, Yintang Yang, Kun Wang, Qinfen Hao, RPNoC: A Ring-Based Packet-Switched Optical Network-on-Chip, IEEE Photonics Technology Letters,(影响因子2.375, 2区期刊) Vol.27, Issue:4, pp.423-426, 2015. [PDF]
[12] Bowen Zhang, Huaxi Gu*, Yintang Yang, Ke Chen, Qinfen Hao, Flyover Architecture for Cluster and TDM Based Optical Network-on-chip, IEEE Photonics Technology Letters, Vol.26, No.24, pp2422-2425 (影响因子2.375, 2区期刊)2014. [PDF]
[13]Huaxi Gu*, Ke Chen, Yintang Yang, Zheng Chen, Bowen Zhang, MRONoC: A Low Latency and Energy Efficient On Chip Optical Interconnect Architecture, IEEE Photonics Journal, Vol.9, No.1, 2017(影响因子2.291,2区期刊)[PDF]
[14]Yue Wang, Huaxi Gu*, Kang Wang, Yintang Yang, and Kun Wang, Low-Power Low-Latency Optical Network Architecture for Memory Access Communication, IEEE/OSA J. Optical Communications and Networking(JOCN),Vol.8, No.10, pp.757-764(影响因子2.261,2区期刊)[PDF]
[15]Wei Tan, Huaxi Gu*, Yintang Yang, Meaad Fadhel, Bowen Zhang, Network condition-aware communication mechanism for circuit-switched optical networks-on-chips, IEEE/OSA J. Optical Communications and Networking(JOCN),Vol.8, No.10, pp.813-821,2016(影响因子2.261,2区期刊)[PDF]
[16]Bowen Zhang, Huaxi Gu*, Kun Wang, Yintang Yang, and Wei Tan, “Low Polling Time TDM ONoC With Direction-Based Wavelength Assignment”, IEEE/OSA J. Optical Communications and Networking(JOCN), Vol.9, No.6, pp.479-488, 2017.(影响因子2.261,2区期刊)[PDF]
[17]Huaxi Gu*, Zhengyu Wang, Boweng Zhang, Yintang Yang, Kun Wang. Time-division-multiplexing–wavelength-division-multiplexing-based architecture for ONoC[J]. IEEE/OSA J. Optical Communications and Networking(JOCN), Vol.9, No. 5, 2017. (影响因子2.261,2区期刊)
[18]Xiaoshan Yu, Hong Xu, Huaxi Gu*, THOR: A Server-level Hybrid Switching Data Center Network with Heterogeneous Topologies, Proceedings of the ACM Turing 50th Celebration Conference – China, 2017 (Best Paper Award)
已录用:
[1] Wenting Wei, Huaxi Gu*, Kun Wang, Jianjia Li, Xuan Zhang, Ning Wang, Multi-dimensional Resource Allocation in Distributed Data Centers using Deep Reinforcement Learning,IEEE Transactions on Network and Service Management, early access, DOI: 10.1109/TNSM.2022.3213575. (中科院二区)
[2] Yong Liu, Huaxi Gu*, Zhaoxing Zhou and Ning Wang, “RSLB: Robust and Scalable Load Balancing in Software-Defined Data Center Networks,” in IEEE Transactions on Network and Service Management, 2022, doi: 10.1109/TNSM.2022.3192133, early access.(中科院二区)
[3] Moeen AL-Makhlafi, Huaxi Gu, Ahlam Almuaalemi, Eiad Almekhlafi, and Musbahu M. Adam. RibsNet: A Scalable, High-Performance, and Cost-Effective Two-Layer Based Cloud Data Center Network Architecture, IEEE Transactions on Network and Service Management, early access, DOI: 10.1109/TNSM.2022.3218127. (中科院二区)
[4] Wenting Wei, Liying Fu, Huaxi Gu, Yan Zhang, Tao Zou, Chao Wang, Ning Wang,GRL-PS: Graph embedding-based DRL approach for adaptive path selection, IEEE Transactions on Network and Service Management, early access, DOI 10.1109/TNSM.2023.3240396.(中科院二区)
2022
[1] Wenting Wei, Huaxi Gu*, Wenshuai Deng,Zhe Xiao, Xinming Ren, ABL-TC: A Lightweight Design for Network Traffic Classification Empowered by Deep Learning, Neurocomputing(中科院二区), 489 (2022): 333–344.
[2] Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, and Peng Li, “The Fast Control Plane for Flexible and Scalable Optical Interconnects,” Optics Express, 2022, 30(3): 3316-3328.(中科院二区)
[3] Xinglong Diao, Huaxi Gu*, Xiaoshan Yu, Liang Qin and Changyun Luo. Flex: A Flowlet-Level Load Balancing Based on Load-Adaptive Timeout in DCN, Future Generation Computer Systems, 2022, 130: 219-230.(中科院二区)
[4] 王佳辉,魏雯婷*,王领,顾华玺,光片上网络中基于NSGA-II的多目标映射方法研究[J].电子学报, 2022, 50(10): 2372.
[5] Bowen. Zhang, Huaxi. Gu*, Kun. Wang and Yintang. Yang, “A Novel CONV Acceleration Strategy Based on Logical PE Set Segmentation for Row Stationary Dataflow,” IEEE Transactions on Computers, 2021, 71(6): 1466-1478. (CCF推荐 A类期刊,中科院二区)
[6] Wenting Wei, Ruying Yang, Huaxi Gu*, Weike Zhao, Chen Chen and Shaohua Wan, “Multi-Objective Optimization for Resource Allocation in Vehicular Cloud Computing Networks,”IEEE Transactions on Intelligent Transportation Systems, 2022, vol. 23, no. 12, pp. 25536-25545. (中科院一区)
2021
[1] Wenting Wei, Huaxi Gu*, Baochun Li, Congestion Control: A Renaissance with Machine Learning, IEEE Network, Volume: 35, Issue: 4, July/August 2021. (中科院一区)
[2] Xingming Ren, Huaxi Gu*, Wenting Wei. Tree-RNN: Tree structural recurrent neural network for network traffic classification[J]. Expert Systems with Applications, 2021, 167: 114363.(中科院一区)
[3] Jiayu Liu, Huaxi Gu*, Wenting Wei, Ziqi Chen, Yawen Chen, An Efficient Shortest Path Algorithm for Content-Based Routing On 2-D Mesh Accelerator Networks, Future Generation Computer Systems, 2021, 114:519-530. (中科院二区)
[4] Fadhel M, Gu H*, Wei W. DORR: A DOR-Based Non-Blocking Optical Router for 3D Photonic Network-on-Chips[J]. IEICE TRANSACTIONS on Information and Systems, 2021, 104(5): 688-696.
[5] Xiaoshan Yu, Huaxi Gu*, Shuo Li, Yunfeng Lu. A Fast Circuit Scheduling Scheme for Optical Data Center Networks[J]. IEEE Photonics Technology Letters, 2021, 33(11): 561-564.
[6] Lijing Zhu, Huaxi Gu*, Yintang Yang, Yawen Chen. Making path selection faster: a routing algorithm for ONoC[J]. Optics Express, 2021, 29(7): 10221-10235. (中科院二区)
[7] Yong Liu, Huaxi Gu*, KunWang, Xiaoshan Yu, Yunhao Wang. An adaptive failure recovery mechanism based on asymmetric routing for data center networks[J]. The Journal of Supercomputing, 2021, 77: 2103-2123.
[8] Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, and Peng Li, “X-NEST: A Scalable, Flexible, and High-Performance Network Architecture for Distributed Machine Learning,” in Journal of Lightwave Technology, vol. 39, no. 13, pp. 4247-4254, 2021 (中科院一区)
[9] Yong Liu, Huaxi Gu*, Fulong Yan, Nicola Calabretta. Highly-Efficient Switch Migration for Controller Load Balancing in Elastic Optical Inter-Datacenter Networks[J]. IEEE Journal on Selected Areas in Communications,vol. 39, no. 9, pp. 2748-2761, 2021 (CCF推荐 A类期刊,中科院一区)
[10] Yong Liu, Huaxi Gu*, Ning Wang. HPSTOS: High-Performance and Scalable Traffic Optimization Strategy for Mixed Flows in Data Center Networks[J]. IEEE Transactions on Cloud Computing, 2021. doi: 10.1109/TCC.2021.3063469. (中科院二区)
[11] Danyang Zheng; Huaxi Gu*; Wenting Wei; Chengzong Peng; Xiaojun Cao, Network Service Chaining and Embedding with Provable Bounds, IEEE Internet of Things Journal, Volume: 8, Issue: 9, 2021. (中科院一区)
[12] Fadhel M, Huang L, Gu H*. Universal Method for Constructing Fault-Tolerant Optical Routers Using RRW[J]. Wireless Communications and Mobile Computing, 2021, 2021.
2020
[1] Yong Liu, Huaxi Gu*, Kun Wang, Xiaoshan Yu, Yunhao Wang An adaptive failure recovery mechanism based on asymmetric routing for data center networks, Journal of supercomputing, June 2020. (SCI index: 000537380000001)
[2] Shangqi Ma, Huaxi Gu*, Hao Lan, Xiaoshan Yu, Kun Wang, RSS: a relay-based schedule scheme for optical data center network. Photonic Network Communications 39(1): 70-77 (2020) (SCI index: 000495192100001)
[3] Wenting Wei, Huaxi Gu*, Achille Pattavina, Jiru Wang, Yi Zeng, Optimizing energy and spectrum efficiency of virtual optical network embedding in elastic optical networks, Optical Switching and Networking, Vol. 37, No. 100568, May 2020. (SCI index: 000536810400001)
[4] AL-MAKHLAFI, M., GU, H*., YU, X. and LU, Y., 2020. P-Cube: A New Two-Layer Topology for Data Center Networks Exploiting Dual-Port Servers. IEICE Transactions on Communications, Vol.E103-B, No.9, pp., Sep. 2020. (Doi.org/10.1587/transcom.2019EBP3219)
[5] Lei Huang, Huaxi Gu*, Yonghui Tian, Ting Zhao, Universal Method for Constructing the On-Chip Optical Router with Wavelength Routing Technology, IEEE/OSA Journal of Lightwave Technology, Volume: 38, Issue: 15, 2020. (Doi.10.1109/JLT.2020.2986237) (中科院二区)
[6] Hui Li, Feiyang Liu, Huaxi Gu*, Zhuqin Chu, Xiaochun Ye, A Reliability-Aware Joint Design Method of Application Mapping and Wavelength Assignment for WDM-Based Silicon Photonic Interconnects on Chip, IEEE Access 8: 73457-73474 (2020) (SCI index: 000530830800003)
[7] 刁兴龙, 余晓杉, 刘勇, 黄狄涛, 顾华玺*.数据中心Clos网络负载均衡方案:问题、进展与展望. 计算机学报. 2020年第43卷第12期.(EI检索,复合影响因子:5.567,综合影响因子:3.272)
[8] WentingWei, KunWang, KexinWang, Huaxi Gu*, HongShen, Multi-resource balance optimization for virtual machine placement in cloud data centers, Computers & Electrical Engineering, Volume 88, 106866, December 2020.
[9] Danyang Zheng; Huaxi Gu*; Wenting Wei; Chengzong Peng; Xiaojun Cao, Network Service Chaining and Embedding with Provable Bounds, IEEE Internet of Things Journal. doi: 10.1109/JIOT.2020.3038617
[10] Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, and Krishnendu Chakrabarty “Lotus: A New Topology for Large-scale Distributed Machine Learning”, ACM Journal on Emerging Technologies in Computing Systems, Article 7 (October 2020).
[11] Youhe Jiang, Huaxi Gu*, Yunfeng Lu, Xiaoshan Yu, 2D-HRA: Two-Dimensional Hierarchical Ring-based All-reduce Algorithm in Large-Scale Distributed Machine Learning, IEEE Access, vol.8, pp. 183488-183494, 2020.
2019
[1] Wenting Wei, Huaxi Gu*, Kun Wang, Xiaoshan Yu, and Xuanzhang Liu, Improving Cloud-Based IoT Services through Virtual Network Embedding in Elastic Optical Inter-DC Networks, IEEE Internet of Things Journal, vol. 6, no. 1, pp. 986–996, Feb. 2019. DOI :10.1109/JIOT.2018.2866504. (DOI: 10.1109/JIOT.2018.2866504), (影响因子9.515,一区期刊,SCI indexed,000459709500084)
[2] Peibo Xie, Huaxi Gu*, Kun Wang, Xiaoshan Yu, Shangqi Ma, Mesh-of-Torus: A New Topology for Server-Centric Data Center Networks, The Journal of Supercomputing, 75(1): 255-271, 2019. (SCI)
[3] Jiaxiang Li, Huaxi Gu*, Shixiong Qi, Haoran Wang,and Kang Wang, ALPHA: A Hybrid Topology for Memory-centric Network, IEICE Electronics Express, 16(4): 20181108-20181108, 2019. (SCI)
[4] Zhuangzhuang Liu, Huaxi Gu*, Kun Wang, Bowen Zhang, Kang Wang, A Novel Laser Source Supply Scheme for Optical Network on Chip, IEEE ACCESS, 7: 25872-25877,2019. (DOI:10.1109/ACCESS.2019.2899662) (影响因子3.557,2区期刊)
[5] Wenting Wei, Kun Wang, Gu Ban, Keming Feng, Xuan Wang and Huaxi Gu*, Topological Consistency-based Virtual Network Embedding in Elastic Optical Networks, IEICE Transactions on Information and Systems, Vol.E102-D, No.6, Jun. 2019. DOI: 10.1587/transinf.2019EDL8003 (SCI)
[6] Xiaoshan Yu, Huaxi Gu*, Kun Wang, Shangqi Ma, PETASCALE: A Scalable Buffer-less All-Optical Network for Cloud Computing Data Cente. IEEE Access, 7: 42596 – 42608, 2019. (DOI: 10.1109/ACCESS.2019.2905354)(影响因子3.557,2区期刊)
[7] Yi Zeng, Huaxi Gu*, Wenting Wei and Yantao Guo, Deep-Full-Range: a Deep Learning Based Network Encrypted Traffic Classification and Intrusion Detection Framework. IEEE Access, 7: 45182-45190, 2019. doi: 10.1109/ACCESS.2019.2908225.(影响因子3.557,2区期刊)
[8] Wenting Wei, Huaxi Gu*, Wanyun Lu, Tong Zhou and Xuanzhang Liu, Energy Efficient Virtual Machine Placement with An Improved Ant Colony Optimization over Data Center Networks. IEEE Access, 7: 60617-60625, 2019.(影响因子3.557,2区期刊)
[9] Kun Wang, Shixiong Qi, Zheng Chen, Yintang Yang, Huaxi Gu*, SMONoC: Optical Network-on-Chip Using a Statistical Multiplexing Strategy, Optical Switching and Networking, 34: 1-9 ,2019.(SCI)
[10] Xiaolu Wang, Huaxi Gu*, Yintang Yang, and Kun Wang, A Group-Based Laser Power Supply Scheme for Photonic Network on Chip. IEEE Photonics Journal, 11(3): 1-14, 2019. (影响因子2.729,3区期刊)
[11] Zhuqin Chu, Hui Li, Huaxi Gu*, Xiaochun Ye, Wavelength assignment method based on ACO to reduce crosstalk for ring-based optical Network-on-Chip. Microprocessors and Microsystems,Volume 71, 2019,102849.(SCI)
[12] Tao Liu, Huaxi Gu*, Yue Wang, and Wei Zou, An optimized low-power optical memory access network for kilocore systems[J]. IEICE TRANSACTIONS on Information and Systems, 102(5): 1085-1088, 2019.(SCI)
[13] Jiarui Zhao, Hui LI, Huaxi Gu*, Xinglong Diao, Model-based Platform for Design Space Exploration in Single-microring-based Silicon Photonic Interconnects on Chip, Optics communications, 453: 124375, 2019. (SCI).
[14] Yunfeng Lu and Huaxi Gu*, Flexible and Scalable Optical Interconnects for Data Centers: Trends and Challenges, IEEE Communications Magazine, 57 (10): 27-33, 2019. (影响因子10.356,一区期刊)
[15] Yintang Yang, Ke Chen, Huaxi Gu*, Bowen Zhang and Lijing Zhu, TAONoC: A Regular Passive Optical Network on Chip Architecture Based on Comb Switches, IEEE Transactions on Very Large Scale Integration(VLSI) Systems, vol. 27, no. 4, pp. 954-963, April 2019. (SCI indexed, 000462444000019)
2018
[1]Nan Su, Huaxi Gu*, Kun Wang, Xiaoshan Yu, Bowen Zhang, A highly efficient dynamic router for application-oriented network on chip, The Journal of Supercomputing, Vol.74, Issue:7, pp.2905-2915, 2018. (SCI indexed, 000437753700001)
[2]Yonghui Li, Kun Wang, Huaxi Gu*, Yintang Yang, Nan Su, Yawen Chen, Haibo Zhang, A joint optimization method for NoC topology generation, The Journal of Supercomputing, Vol.74, Issue:7, pp.2916-2934, 2018.
[3]Lijing Zhu, Kun Wang*, Duan Zhou, Liangkai Liu, Huaxi Gu, An Optimization Algorithm to Build Low Congestion Multi-Ring Topology for Optical Network-on-Chip, The IEICE Transactions on Information and Systems, Vol.E101-D, No.7, pp.1835-1842, 2018.(SCI indexed: 000391010100003)
[4]Xiaoshan Yu, Hong Xu*, Huaxi Gu*, and Hao Lan, THOR: a scalable hybrid switching architecture for data centers, IEEE Transactions on Communications, 2018, 66(10): 4653- 4665, (DOI: 10.1109/TCOMM.2018.2831200) (SCI indexed, 000447853900022)(中科院二区)
[5]Xi Wang, Huaxi Gu*, Kun Wang, Xiaoshan Yu, Shangqi Ma, MNDM: MEMS-based N-Dimensional Modular Hybrid Data Center Network, Optics Communications,Vol.427, pp.163-169, 2018. (SCI indexed, 000441174200026)
[6]Chao Tang, Huaxi Gu*, and Kun Wang, Waffle: A new photonic plasmonic router for optical network on chip, IEICE Transactions on Information and Systems, Vol.E101-D, No.9, pp.2401-2403, 2018.(SCI indexed, 000443273900024)
[7]Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, Kun Wang, NEST: Towards Extreme Scale Computing Systems, IEICE Trans.on Information and Systems, Vol.E101-D, No.11, 2018. (SCI indexed, 000448774200028)
[8]Rong Cao, Yintang Yang, Huaxi Gu*, Lei Huang, A Thermal-Aware Power Allocation Method for Optical Network-On-Chip, IEEE ACCESS, Vol.6, Issue:1, pp.61176-61183, 2018.(DOI:10.1109/ACCESS.2018.2875404)(影响因子2.43,2区期刊)
[9]Yunfeng Lu, Huaxi Gu*, Krishnendu Chakrabarty, and Yintang Yang, H2OEIN: A Hierarchical Hybrid Optical/Electrical Interconnection Network for Exascale Computing Systems, IEEE Transactions on multi-scale computing system, vol.4, issue.4, pp.722-733, 2018.
2017
[1]Huaxi Gu*, Ke Chen, Yintang Yang, Zheng Chen, Bowen Zhang, MRONoC: A Low Latency and Energy Efficient On Chip Optical Interconnect Architecture, IEEE Photonics Journal, Vol.9, No.1, 2017(影响因子2.291,2区期刊)(SCI indexed, 000395464000001)
[2]Nan Su, Kun Wang, Xiaoshan Yu, Huaxi Gu*, Yantao Guo and Jiayi Chen,BARR: Congestion aware scheduling algorithm for Network-on-Chip Router,IEICE Electronics Express, Vol.14, No. 3, 2017.(SCI indexed, 000397320900017)
[3]Huaxi Gu*, Zhengyu Wang, Boweng Zhang, Yintang Yang, Kun Wang. Time-division-multiplexing–wavelength-division-multiplexing-based architecture for ONoC[J]. IEEE/OSA J. Optical Communications and Networking(JOCN), Vol.9, No. 5, 2017. (影响因子2.261,2区期刊)(SCI indexed, 000401412300002)
[4]Bowen Zhang, Huaxi Gu*, Kun Wang, Yintang Yang, and Wei Tan, “Low Polling Time TDM ONoC With Direction-Based Wavelength Assignment”, IEEE/OSA J. Optical Communications and Networking(JOCN), Vol.9, No.6, pp.479-488, 2017. (影响因子2.261,2区期刊)(SCI indexed, 000404041200004)
[5]Zheng Wang, Huaxi Gu*, Yawen Chen, Yintang Yang, Kun Wang, “3D network-on-chip design for embedded ubiquitous computing systems”[J]. Journal of Systems Architecture, Journal of Systems ArchitectureVol.76, pp. 39–46, 2017. (SCI indexed, 000403636900004)
[6]Luying Bai, Huaxi Gu*, Yawen Chen, Haibo Zhang, Yintang Yang, Xinyao Xu,System Level Modeling and Performance Evaluation of Multistage Optical Network on Chips (MONoCs),Photonic Network Communications, Vol.34, Issue:1, pp. 25–33, 2017. (SCI indexed, 000406206700003)
[7]Xuanzhang Liu, Huaxi Gu*, Haibo Zhang, Feiyang Liu, Yawen Chen, Xiaoshan Yu ,Energy-Aware on-chip virtual machine placement for cloud-supported cyber-physical systems ,Microprocessors and Microsystems, Vol. 52, pp.427-437, 2017.(SCI indexed, 000407984000037)
[8]Tao Jiang, Huaxi Gu*, Kun Wang, Xiaoshan Yu, Yunfeng Lu, BHyberCube: a MapReduce aware heterogeneous architecture for data center, Computer Science and Information Systems (ComSIS Journal), Vol. 14, No. 3, pp. 611-627,2017.(SCI indexed, 000413777600006)
[9]Wei Tan, Huaxi Gu*, Yintang Yang, Kun Wang, Xiaolu Wang,Venus: A Low-Latency, Low-Loss 3D hybrid Network-on-Chip for Kilocore Systems,IEEE Journal of Lightwave Technology ,Vol. 35, Issue:2, pp.5448-5455,2017.(影响因子3.671, 2区期刊)(SCI indexed, 000418769500022)
2016
[1]Xiaoshan Yu, Huaxi Gu*, Yintang Yang, Kun Wang, RingCube- An Incrementally Scale-out Optical Interconnect for Cloud Computing Data Center, Future Generation Computer Systems,Vol.54,pp.41-51.2016(影响因子2.43,2区期刊)(SCI indexed,000368383200003)
[2]Yue Wang, Huaxi Gu*, Kang Wang, Yintang Yang, and Kun Wang, Low-Power Low-Latency Optical Network Architecture for Memory Access Communication, IEEE/OSA J. Optical Communications and Networking(JOCN),Vol.8, No.10, pp.757-764,2016.(影响因子2.261,2区期刊)(SCI indexed, 000386235700005)
[3]Wei Tan, Huaxi Gu*, Yintang Yang, Meaad Fadhel, Bowen Zhang, Network condition-aware communication mechanism for circuit-switched optical networks-on-chips, IEEE/OSA J. Optical Communications and Networking(JOCN),Vol.8, No.10, pp.813-821(影响因子2.261,2区期刊)(SCI indexed, 000386235700010)
[4]Kexin Zhu, Huaxi Gu*, Yintang Yang, Wei Tan, Bowen Zhang, A 3D multilayer optical network on chip based on mesh topology, Photonic Nework Communications, Vol.32, No.2, pp.293-299, 2016(SCI indexed, 000385197500018)
[5] Zheng Wang, Huaxi Gu*, Yintang Yang, Haibo Zhang, Yawen Chen, An Adaptive Partition-based Multicast Routing Scheme for Mesh-based Networks-on-Chip, Computers & Electrical Engineering(Elsevier), Vol.51, pp.235-251,2016(SCI indexed, 000379558300018)
[6] Xiuhua Li, Huaxi Gu*, Ke Chen, Liang Song, Qingfen Hao, STorus: A New Topology for Optical Network-on-Chip, Optical Switching and Networking(Elsevier), Vol.22, pp.77-85,2016(EI indexed,20162302472262)
[7] Bowen Zhang, Huaxi Gu*, Wei Tan, Xiaolu Wang, Liang Song, Qinfen Hao, A Non-Blocking Wavelength Routing ONoC Based on Two-Dimension Bus Architecture, Microelectronics Journal(Elsevier), Vol.54, pp.59-66, 2016(SCI indexed, 000381591100008)
[8] Rong Cao, Kun Wang, Huaxi Gu*, Bowen Zhang, Xiaoshan Yu, A crosstalk-aware wavelength assignment method for optical network-on-chip, IEICE Electronics Express, Vol.13, No.18,2016(EI indexed,20164002875369, SCI indexed 000388364800016)
[9] Xuesong Wang, Huaxi Gu*, Kun Wang, Yintang Yang, Lei Huang, Universal method for designing non-blocking multicast-supported on chip optical router,IEICE Electronics Express, Vol.13, No.17, 2016(EI indexed, 000384918000010)
[10] Ruying Yang, Kun Wang, Bo Wang, Wenting Wei, Xuanzhang Liu, Yantao Guo, Huaxi Gu*, Resource and load aware mapping algorithm for elastic optical network, IEICE Electronics Express, Vol.13, No.14,2016(SCI indexed, 000381574500012)
[11] Junhui Wang, Huaxi Gu*, Kang Wang, Yintang Yang, Kun Wang, DRTL: a Heat-balanced Deadlock-free Routing Algorithm for 3D Topology Network-on-Chip, Microprocessors and Microsystems, Vol.45, pp.95-104, 2016(Elsevier)(SCI indexed,000382592100009)
[12]Lei Huang, Kun Wang, Shixiong Qi, Huaxi Gu* and Yintang Yang, Panzer: A 6×6 photonic router for Optical Network, IEICE Electronics Express, Vol.13, No.21,2016. (EI indexed, 20164703032292, SCI indexed, 000391010100003)
[13] Xiaolu Wang, Huaxi Gu*, Yintang Yang, Kun Wang, Qinfen Hao, A Highly Scalable Optical Network-on-chip with Small Network Diameter and Deadlock Freedom, IEEE Transactions on Very Large Scale Integration Systems, Vol.24, No.12, pp.3424-3436,2016.((影响因子1.245, EI indexed 20162102422773).
[14] Zheng Wang, Huaxi Gu*, Yawen Chen, Yintang Yang, Kun Wang, 3D network-on-chip design for embedded ubiquitous computing systems, Journal of Systems Architecture, vol. 76, pp. 39-46, 2016.
2015
[1]Kang Wang, Huaxi Gu*, Yintang Yang, and Kun Wang, Optical interconnection network for parallel access to multi-rank memory in future computing systems, Optics Express, Vol.23,Issue:16,pp.20480-20494.2015(SCI indexed,000361036400025,影响因子3.307,EI indexed,20160701920700)(中科院二区)
[2].Naijun Zheng,Huaxi Gu*,Xin Huang,Xiaokang Chen,CSquare: A New Kilo-Core-Oriented Topology,Microprocessors and Microsystems,Vol.39,Issue:4-5,pp.313-320.2015(SCI indexed,000356756200009,影响因子:0.430,EI indexed ,20151700777063)
[3].Kun Wang, Lijuan Zhao, Huaxi Gu* , Xiaoshan Yu,Gang Wu ,Jinke Cai. ADON: A Scalable AWG-based Topology for Datacenter Optical Network. Optical and Quantum Electronics.Vol.47,Issue:3,pp.1-14.2015(SCI indexed, 000360091100015,影响因子0.984, EI indexed,20150800550760)
[4].Gang Wu, Huaxi Gu*, Kun Wang, Yantao Guo. A Scalable AWG-based Data Center Network for Cloud Computing. Optical Switching and Networking,Vol.16, pp.46-51, April 2015 (SCI indexed,000350523000004,影响因子1.071, EI indexed,20150500470976)
[5]Xiaolu Wang, Huaxi Gu*, Yintang Yang, Kun Wang, Qinfen Hao, RPNoC: A Ring-Based Packet-Switched Optical Network-on-Chip.IEEE Photonics Technology Letters,Vol.27,Issue:4,pp.423-426.2015.(SCI indexed,000349111700009,影响因子2.375, EI indexed,20150700507560)
2014
[1]Bowen Zhang, Huaxi Gu*, Yintang Yang, Ke Chen, Qinfen Hao ,”Flyover Architecture for Cluster and TDM Based Optical Network-on-chip”,IEEE Photonics Technology Letters, Vol.26, No.24, pp.2422-2425,2014.(SCI indexed:000345520800002,EI indexed:20144900288889)
[2]Huafeng Sun, Huaxi Gu*, Yintang Yang,Jian Zhu . A hybrid architecture for three-dimensional many-core chips.IEICE Electronics Express,vol.11,no.22, 2014.(SCI indexed:000346400600002,EI indexed:201448254553)
[3]Min Li, Huaxi Gu*, Yingtang Yang and Kun Wang, “A 3D topology Based-on Partial Overlapped Clusters for NoC”, IEICE Electronics Express, vol. 11, no. 19, 2014.(SCI indexed:000344926500015,EI indexed:201442106660)
[4]Kang Wang, Huaxi Gu*, Yingtang Yang, Ke Chen and Kun Wang, “On the Design of A 3D Optical Interconnected Memory System”, IEICE Electronics Express, vol. 11, no. 19, 2014.(SCI indexed:000344926500004,EI indexed:201442106650)
[5]Xiaoshan Yu, Huaxi Gu*, Kun Wang, Gang Wu, Enhancing Performance of Cloud Computing Data Center Networks by Hybrid Switching Architecture, IEEE Journal of Lightwave Technology, Vol. 32, No. 10, pp. 1991-1998,2014.(SCI indexed:000336315600001,EI indexed:20142217758842)(中科院二区)
[6]Ke Chen, H. Gu,; Y. Yang, D. Fan, “A Novel Two-layer Passive Optical Interconnection Network for On-Chip Communication”, IEEE Journal of Lightwave Technology, Vol.32, No.9,pp. 1770-1776,2014.(SCI indexed:000334741300004,EI indexed:20141717614161)(中科院二区)
[7]Zheng Chen, Huaxi Gu*, Yintang Yang, Dongrui Fan, A Hierarchical Optical Network-on-Chip Using Central-controlled Subnet and Wavelength Assignment, IEEE Journal of Lightwave Technology, Vol. 32, No. 5, pp930-938, Mar., 2014.(SCI indexed:
000330129500008,EI indexed:20140617278205)(中科院二区)
[8]Huaxi Gu*, Kai Gao, Zhengyu Wang, Yintang Yang, and Xiaoshan Yu, “New Path-Setup Method for Optical Network-on-Chip,” ETRI Journal, vol. 36, no. 3, June. 2014, pp. 367-373.(SCI indexed:000337119800005,EI indexed:20142517830339)
[9]Huaxi Gu*, Zheng Chen, Yintang Yang, Hui Ding, RONoC: A Reconfigurable Architecture for Application-specific Optical Network-on-chip, IEICE Transactions on Information and Systems, Vol.E97-D, No.1, pp.142-145, Jan., 2014.(SCI indexed:000330553700015,EI indexed:20140317197318)
[10]Guohai Zheng, Huaxi Gu*, Jian Zhu, Design and Implementation of a NoC Router Supporting Multicast, IEICE Electronics Express,Vol.11, No.2, 2014.(SCI indexed:000333894100001,EI indexed:20140717320484)
[11]Na Zhang, Huaxi Gu*, Yintang Yang, Dongrui Fan: QBNoC: QoS-aware bufferless NoC architecture. Microelectronics Journal 45(6): 751-758 2014.(SCI indexed:000337553900024,EI indexed:20142117750073)
[12]Zheng Chen, Huaxi Gu*, Yintang Yang, Luying Bai, Hui Li, A Power Efficient and Compact Optical Interconnect for Network-on-Chip, IEEE computer architecture letters, Vol.13, No.1,.pp5-8.(SCI indexed:000344987900002,EI indexed:IP52582368)
2013
[1].Na Zhang, Huaxi Gu*, Yintang Yang, Zheng Chen, Ke Chen, A bufferless optical network-on-chip router. IEICE Electronics Express, Vol.10, No.21, 2013.(SCI indexed:000328511000009,EI indexed:20134717000059)
[2].Li Hui, Gu Huaxi*, Yang Yintang, Yu Xiaoshan, A hybrid packet-circuit switched router for optical network on chip. Computers and Electrical Engineering, Vol.39, No.7, pp.2197-2206, 2013. (SCI indexed 000326661600021,EI indexed:20134316875517)
[3].Ding Hui, Gu Huaxi*, Yang Yintang, Fan Dongrui, 3D Networks-on-Chip mapping targeting minimum signal TSVs. IEICE Electronics Express, Vol.10, No.18, 2013. (SCI indexed:000326194900004,EI indexed:20134016797299 )
[4].Ruoyan Liu, Huaxi Gu*, Xiaoshan Yu, Xiumei Nian, Distributed Flow Scheduling in Energy-Aware Data Center Networks. IEEE Communication Letters. Vol.17, No.4, pp.801-804. 2013.(SCI indexed:000318702000045,EI indexed:20132016325245)
[5].Zhengyu Wang, Huaxi Gu*, Yintang Yang, Bixia Zhang, A Power Allocation Method for TDM based Optical Network on Chip. IEEE Photonics Technology Letters. Vol.25, No.10, pp.973-976. 2013.(SCI indexed:000319019400007,EI indexed:20132116358731)
[6].Li Hui, Gu Huaxi*, Yang Yintang, Zhu Zhangming, Impact of thermal effect on reliability in optical Network-on-Chip. Optik-International Journal for Light and Electron Optics. Vol.124, No.20, pp.4172-4176. 2013.(SCI indexed:000325445100022, EI indexed:IP52475790)
[7].Junhui Wang, Huaxi Gu*, Yintang Yang, Kun Wang. Energy and Buffer Aware Adaptive Routing Algorithm for Network-on-Chip. Microelectronics Journal, Vol.44, No.2, pp.137-144, 2013(SCI indexed:000315473100009,EI indexed: 20130515972639)
[8].Zhi Deng, Huaxi Gu*, Yintang Yang, Hua You, Energy and traffic balance aware mapping algorithm for
Network-on-Chip, IEICE Trans.on Information and Systems,Vol.96, No.3, pp.719-722,2013. (SCI indexed:000320214300039,EI indexed:20132216386494)
[9].Luying Bai, Huaxi Gu*, Yintang Yang and Xiaoshan Yu, “A WDM multi-waveguide low blocking architecture for ONoC”, ELSEVIER Optics & Laser Technology, Vol. 47, pp. 355-360, 2013.(EI indexed:20124715685981
SCI index:00313775200057)
2012
[1].Zheng Chen, Huaxi Gu*, Yintang Yang, Ke Chen, “Low Latency and Energy Efficient Optical Network-on-chip Using Wavelength Assignment”, IEEE Photonics Technology Letters, Vol. 24 ,No.24,pp.2296-2299,2012. (SCI:000312022900005)
[2].Bixia Zhang, Huaxi Gu*, Yintang Yang, Kun Wang, Zhengyu Wang, Thermal and competition aware mapping for 3D network-on-chip, IEICE Electronics Express, vol.9, no.19, pp.1510-1515, Oct. 2012.(SCI indexed, 000309958400003,EI indexed:20124715687039)
[3].Junhui Wang, Huaxi Gu* and Yintang Yang, “Cluster Mesh: A Topology for Three-Dimensional Network-on-Chip”, IEICE Electronics Express, Vol.9, No. 15, pp. 1254-1259, 2012, (SCI indexed, 000307535900005,EI indexed, 20123415368407).
[4].Luying Bai, Huaxi Gu*, Yintang Yang and Kun Wang, “A crosstalk aware routing algorithm for Benes ONoC”, IEICE Electronics Express, Vol.9, No. 12, pp. 1069-1074,2012.(SCI indexed, 000305956300010, EI indexed, 20122915254602)
[5].Xiaoshan Yu, Huaxi Gu*, Yingtang Yang, Luying Bai and Hua You, “A multi-wavelength communication strategy for 2D-mesh Network-on-Chip”, IEICE Electron. Express, Vol. 9, No. 7, pp.706-711, 2012.(SCIindexed, 000304416700017,EI indexed 20123115301301)
[6].Feiyang Liu, Huaxi Gu*, and Yintang Yang, DTBR: A dynamic thermal-balance routing algorithm for Network-on-Chip, Computers and Electrical Engineering, Vol. 38, No. 2, pp.270-281,2012.(SCIindexed,000303094900008 EI indexed, 20121114857883)
[7].PeiboXie, Huaxi Gu*, Yuan Liu, Xiangbin Wu, Hua You and Dong Liu, A virtual hierarchical optical mesh based data center network, IEICE Electron. Express, Vol. 9, No. 3, pp.172-178, 2012.(SCI indexed, 000303250300010, EI indexed, EI 20120814787783)
[8].Zhengyu Wang, Huaxi Gu*, Yintang Yang, Yonghui Li, Ring based Optical Network-on-Chip, Optics Communications, Vol.285, No. 6, pp1010-1016, 2012.(SCI indexed, 000301159800029 EI indexed, 20120314701849)
2011及以前
[1].Huaxi Gu*, Jiang Xu, Kun Wang, Mo Kwai Hung, Mo Kwai Hung, A New Distributed Congestion Control Mechanism For Networks On Chip, Journal of Telecommunication Systems, Vol. 44, No.3-4, pp. 321-331,2010. (SCI indexed, 000279690400012, EI indexed, 20103013097839)
[2].Huaxi Gu*, Shiqing Wang, Yintang Yang, Jiang Xu, Design of Butterfly Fat tree Optical Network on Chip, Journal of Optical Engineering, Vol. 49, No. 9, 2010.(SCI indexed, 000282370400026, EI indexed, 20103713231232)
[3].Yonghui, Li and Huaxi, Gu*, Fault Tolerant Routing Algorithm Based on the Artificial Potential Field Model in Network-on-Chip. Applied Mathematics and Computation, Volume 217, Issue 7, 1 December 2010, pp. 3226-3235 (SCI indexed, 000283442400031. EI indexed, 20104413343018)
[4].Huaxi Gu*, Jiezhang, Kun Wang, Zengji Liu,Guochang Kang, Enhanced Fault Tolerant Routing Algorithms Using a Concept of “Balanced Ring”,Journal of Systems Architecture, Vol. 53, Issue 12, December 2007, pp. 902-912(SCI indexed, IDS Number:223FB,EI indexed, 073710813510)
[5].Huaxi Gu*, ZhiliangQiu,Zengji Liu,Guochang Kang, Kun Wang et al. Choice of Inner Switching Mechanisms in Terabit Router, Lecture Notes in Computer Science, Vol. 3420, No.1, pp. 826–833, 2005. (SCI indexed, IDS Number:BCF66,EI indexed, 05389367355)
[6].Huaxi Gu*, Jiezhang, Zengji Liu, Routing in Hexagonal Networks under A Corner-based Addressing Scheme, IEICE Transactions on Information and Systems,Vol. E89-D, No.5,2006, pp.1755-1758(SCI indexed IDS Number: 046QV,EI indexed, 06229903891)
[7].Huaxi Gu*, Zengji Liu, ZhiliangQiu,et al, Routing in XD networks: A Novel Interconnection Networks, Chinese Journal of Electronics, Vol.14, No.4, pp661-665, 2005.(SCIindexed, IDS Number:037FU,EI indexed, 05449448365)
[8].Huaxi Gu*, Zengji Liu, Jungang Yang, Guochang Kang et al. Building a Terabit Router with XD Networks, Lecture Notes in Computer Science, Asia-Pacific Computer Systems Architecture Conference 2005 Vol. 3740, No.1, pp. 520-528, 2005. (SCI indexed, IDS Number: BDN76EI indexed, 06209884208)
影响因子(2011):
IEEE Photonics Technology Letters:2.191 | Journal of Optical Engineering :0.959 |
Optics & Laser Technology:1.515 | ELSEVIER Microelectronics Journal:0.6 |
IEEE Communication Letters:0.982 |
Applied Mathematics and Computation :1.317 |
Computers and Electrical Engineering:0.837 | IEICE Electron. Express:0.46 |
ELSEVIER Optik-International Journal for Light and Electron Optics:0.51 | Journal of Telecommunication Systems:0.689 |
IEICE Trans. on Information and Systems:0.178 | Optics Communications:1.486 |
影响因子(2012):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.038 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 0.88 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 1.365 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 0.912 |
IEEE Communication Letters | IEEE COMMUN LETT | 1089-7798 | 1.16 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 1.349 |
Computers and Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 0.928 |
IEICE Electron. Express | IEICE ELECTRON EXPR | 1349-2543 | 0.268 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 0.524 |
Journal of Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 1.027 |
IEICE Trans. on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.218 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.438 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 0.852 |
IEEE Journal of Lightwave Technology | IEEE JLT | 0733-8724 | 2.555 |
影响因子(2013):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.176 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 0.958 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 1.649 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 0.924 |
IEEE Communication Letters | IEEE COMMUN LETT | 1089-7798 | 1.463 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 1.6 |
Computers and Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 0.992 |
IEICE Electron. Express | IEICE ELECTRON EXPR | 1349-2543 | 0.391 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 0.769 |
Journal of Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 1.163 |
IEICE Trans. on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.191 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.542 |
Optical and Quantum Electronics | OQE | 0306-8919 | 1.078 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 1 |
IEEE Journal of Lightwave Technology | IEEE JLT | 0733-8724 | 2.862 |
影响因子(2014):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.11 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 0.954 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 1.647 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 0.836 |
IEEE Communication Letters | IEEE COMMUN LETT | 1089-7798 | 1.268 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 1.551 |
Computers and Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 0.817 |
IEICE Electron. Express | IEICE ELECTRON EXPR | 1349-2543 | 0.32 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 0.677 |
Journal of Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 0.705 |
IEICE Trans. on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.213 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.449 |
Optical and Quantum Electronics | OQE | 0306-8919 | 0.987 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 0.677 |
IEEE Journal of Lightwave Technology | IEEE JLT | 0733-8724 | 2.965 |
Future Generation Computer Systems | FUTURE GENER COMP SY | 0167-739X | 2.786 |
Optics Express | OPT EXPRESS | 1094-4087 | 3.488 |
影响因子(2015):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 1.945 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 0.984 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 1.879 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 0.876 |
IEEE Communication Letters | IEEE COMMUN LETT | 1089-7798 | 1.291 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 1.345 |
Computers and Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 1.084 |
IEICE Electron. Express | IEICE ELECTRON EXPR | 1349-2543 | 0.344 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 0.742 |
Journal of Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 0.822 |
IEICE Trans. on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.226 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.48 |
Optical and Quantum Electronics | OQE | 0306-8919 | 1.29 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 0.465 |
IEEE Journal of Lightwave Technology | IEEE JLT | 0733-8724 | 2.567 |
Future Generation Computer Systems | FUTURE GENER COMP SY | 0167-739X | 2.43 |
Optics Express | OPT EXPRESS | 1094-4087 | 3.148 |
IEEE Transactions on Very Large Scale Integration Systems | IEEE T VLSI SYST | 1063-8210 | 1.245 |
影响因子(2016):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.375 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 1.082 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 2.109 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 1.163 |
IEEE Communication Letters | IEEE COMMUN LETT | 1089-7798 | 1.988 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 1.738 |
Computers and Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 1.57 |
IEICE Electron. Express | IEICE ELECTRON EXPR | 1349-2543 | 0.456 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 0.835 |
Journal of Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 1.542 |
IEICE Trans. on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.411 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.588 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 1.397 |
IEEE Journal of Lightwave Technology | IEEE JLT | 0733-8724 | 3.671 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.588 |
Optical and Quantum Electronics | OQE | 0306-8919 | 1.055 |
Future Generation Computer Systems | FUTURE GENER COMP SY | 0167-739X | 3.997 |
Optics Express | OPT EXPRESS | 1094-4087 | 3.307 |
IEEE Transactions on Very Large Scale Integration Systems | IEEE T VLSI SYST | 1063-8210 | 1.698 |
IEEE Photonics Journal | IEEE PHOTONICS J | 1943-0655 | 2.291 |
IEEE/OSA J. Optical Communications and Networking | J OPT COMMUN NETW | 1943-0620 | 2.261 |
影响因子(2017):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.446 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 0.993 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 2.503 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 1.322 |
IEEE Communications Letters | IEEE COMMUN LETT | 1089-7798 | 2.723 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 2.300 |
COMPUTERS & ELECTRICAL ENGINEERING | COMPUT ELECTR ENG | 0045-7906 | 1.747 |
IEICE Electronics Express | IEICE ELECTRON EXPR | 1349-2543 | 0.475 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 1.191 |
Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 1.527 |
IEICE Transactions on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.500 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.887 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 1.521 |
Journal of Lightwave Technology | J LIGHTWAVE TECHNOL | 0733-8724 | 3.652 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.887 |
Optical and Quantum Electronics | OPT QUANT ELECTRON | 0306-8919 | 1.168 |
Future Generation Computer Systems-The International Journal of eScience | FUTURE GENER COMP SY | 0167-739X | 4.639 |
OPTICS EXPRESS | OPT EXPRESS | 1094-4087 | 3.356 |
IEEE TRANSACTIONS ON VERY LARGE SCALE INTEGRATION (VLSI) SYSTEMS | IEEE T VLSI SYST | 1063-8210 | 1.744 |
IEEE Photonics Journal | IEEE PHOTONICS J | 1943-0655 | 2.627 |
IEEE/OSA Journal of Optical Communications and Networking | J OPT COMMUN NETW | 1943-0620 | 2.742 |
影响因子(2018):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Internet of Things Journal | IEEE INTERNET THINGS | 2327-4662 | 9.515 |
Future Generation Computer Systems-The International Journal of eScience | FUTURE GENER COMP SY | 0167-739X | 5.768 |
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.553 |
Journal of Lightwave Technology | J LIGHTWAVE TECHNOL | 0733-8724 | 4.162 |
IEEE Photonics Journal | IEEE PHOTONICS J | 1943-0655 | 2.729 |
IEEE/OSA Journal of Optical Communications and Networking | J OPT COMMUN NETW | 1943-0620 | 3.093 |
OPTICS EXPRESS | OPT EXPRESS | 1094-4087 | 3.561 |
IEEE Access | IEEE ACCESS | 2169-3536 | 4.098 |
IEEE Transactions on Communications | IEEE T COMMUN | 0090-6778 | 5.690 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 3.092 |
Nano Communication Networks | NANO COMMUN NETW | 1878-7789 | 2.250 |
Optics Communications | OPT COMMUN | 0030-4018 | 1.961 |
IEEE Communications Letters | IEEE COMMUN LETT | 1089-7798 | 3.457 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 3.319 |
Computers & Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 2.189 |
IEEE Transactions on Very Large Scale Integration (VLSI) Systems | IEEE T VLSI SYST | 1063-8210 | 1.946 |
Journal of Supercomputing | J SUPERCOMPUT | 0920-8542 | 2.157 |
Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 1.707 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 1.149 |
Photonic Network Communications | PHOTONIC NETW COMMUN | 1387-974X | 1.328 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 1.914 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 1.284 |
Optical and Quantum Electronics | OPT QUANT ELECTRON | 0306-8919 | 1.547 |
Optical Switching and Networking | OPT SWITCH NETW | 1573-4277 | 1.353 |
Microprocessors and Microsystems | MICROPROCESS MICROSY | 0141-9331 | 1.045 |
Journal of Systems Architecture | J SYST ARCHITECT | 1383-7621 | 1.159 |
IEICE Electronics Express | IEICE ELECTRON EXPR | 1349-2543 | 0.586 |
IEICE Transactions on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.576 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 1.209 |
Computer Science and Information Systems | COMPUT SCI INF SYST | 1820-0214 | 0.620 |
影响因子(2019):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Internet of Things Journal | IEEE INTERNET THINGS | 2327-4662 | 9.936 |
Future Generation Computer Systems-The International Journal of eScience | FUTURE GENER COMP SY | 0167-739X | 6.125 |
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.451 |
Journal of Lightwave Technology | J LIGHTWAVE TECHNOL | 0733-8724 | 4.288 |
IEEE Photonics Journal | IEEE PHOTONICS J | 1943-0655 | 2.833 |
IEEE/OSA Journal of Optical Communications and Networking | J OPT COMMUN NETW | 1943-0620 | 3.425 |
OPTICS EXPRESS | OPT EXPRESS | 1094-4087 | 3.669 |
IEEE Access | IEEE ACCESS | 2169-3536 | 3.745 |
IEEE Transactions on Communications | IEEE T COMMUN | 0090-6778 | 5.646 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 3.472 |
Nano Communication Networks | NANO COMMUN NETW | 1878-7789 | 2.621 |
Optics Communications | OPT COMMUN | 0030-4018 | 2.125 |
IEEE Communications Letters | IEEE COMMUN LETT | 1089-7798 | 3.419 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 3.233 |
Computers & Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 2.663 |
IEEE Transactions on Very Large Scale Integration (VLSI) Systems | IEEE T VLSI SYST | 1063-8210 | 2.037 |
Journal of Supercomputing | J SUPERCOMPUT | 0920-8542 | 2.469 |
Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 1.734 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 1.109 |
Photonic Network Communications | PHOTONIC NETW COMMUN | 1387-974X | 1.75 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 2.187 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 1.405 |
Optical and Quantum Electronics | OPT QUANT ELECTRON | 0306-8919 | 1.842 |
Optical Switching and Networking | OPT SWITCH NETW | 1573-4277 | 2.577 |
Microprocessors and Microsystems | MICROPROCESS MICROSY | 0141-9331 | 1.161 |
Journal of Systems Architecture | J SYST ARCHITECT | 1383-7621 | 2.552 |
IEICE Electronics Express | IEICE ELECTRON EXPR | 1349-2543 | 0.788 |
IEICE Transactions on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.449 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 1.113 |
Computer Science and Information Systems | COMPUT SCI INF SYST | 1820-0214 | 0.927 |
Optics Letters | OPT LETT | 0146-9592 | 3.714 |
IEEE Transactions on Computers | IEEE T COMPUT | 0018-9340 | 2.711 |
IEEE Communications Magazine | IEEE COMMUN MAG | 0163-6804 | 11.052 |
Concurrency and Computation: Practice and Experience | CONCURR COMP-PRACT E | 1532-0626 | 1.447 |
Journal of Network and Computer Applications | J NETW COMPUT APPL | 1084-8045 | 5.57 |
IEEE Transactions on Parallel and Distributed Systems | IEEE T PARALL DISTR | 1045-9219 | 2.6 |
IEEE Systems Journal | IEEE SYST J | 1932-8184 | 3.987 |
影响因子(2020):
Journal Title | Abbreviated Journal Title | ISSN | Impact Infactor |
---|---|---|---|
IEEE Internet of Things Journal | IEEE INTERNET THINGS | 2327-4662 | 9.471 |
Future Generation Computer Systems-The International Journal of eScience | FUTURE GENER COMP SY | 0167-739X | 7.187 |
IEEE Photonics Technology Letters | IEEE PHOTONIC TECH L | 1041-1135 | 2.468 |
Journal of Lightwave Technology | J LIGHTWAVE TECHNOL | 0733-8724 | 4.142 |
IEEE Photonics Journal | IEEE PHOTONICS J | 1943-0655 | 2.443 |
IEEE/OSA Journal of Optical Communications and Networking | J OPT COMMUN NETW | 1943-0620 | 3.984 |
OPTICS EXPRESS | OPT EXPRESS | 1094-4087 | 3.894 |
Optics Letters | OPT LETT | 0146-9592 | 3.776 |
IEEE Access | IEEE ACCESS | 2169-3536 | 3.367 |
IEEE Transactions on Communications | IEEE T COMMUN | 0090-6778 | 5.083 |
Applied Mathematics and Computation | APPL MATH COMPUT | 0096-3003 | 4.091 |
Nano Communication Networks | NANO COMMUN NETW | 1878-7789 | 2.947 |
Optics Communications | OPT COMMUN | 0030-4018 | 2.31 |
IEEE Communications Letters | IEEE COMMUN LETT | 1089-7798 | 3.436 |
Optics & Laser Technology | OPT LASER TECHNOL | 0030-3992 | 3.867 |
Computers & Electrical Engineering | COMPUT ELECTR ENG | 0045-7906 | 3.818 |
IEEE Transactions on Very Large Scale Integration (VLSI) Systems | IEEE T VLSI SYST | 1063-8210 | 2.312 |
Journal of Supercomputing | J SUPERCOMPUT | 0920-8542 | 2.474 |
Telecommunication Systems | TELECOMMUN SYST | 1018-4864 | 2.314 |
IEEE Computer Architecture Letters | IEEE CAL | 1556-6056 | 1.269 |
Photonic Network Communications | PHOTONIC NETW COMMUN | 1387-974X | 2.028 |
ELSEVIER Optik-International Journal for Light and Electron Optics | OPTIK | 0030-4026 | 2.443 |
ELSEVIER Microelectronics Journal | MICROELECTRON J | 0026-2692 | 1.605 |
Optical and Quantum Electronics | OPT QUANT ELECTRON | 0306-8919 | 2.084 |
Optical Switching and Networking | OPT SWITCH NETW | 1573-4277 | 2.786 |
Microprocessors and Microsystems | MICROPROCESS MICROSY | 0141-9331 | 1.525 |
Journal of Systems Architecture | J SYST ARCHITECT | 1383-7621 | 3.777 |
IEICE Electronics Express | IEICE ELECTRON EXPR | 1349-2543 | 0.578 |
IEICE Transactions on Information and Systems | IEICE T INF SYST | 1745-1361 | 0.559 |
Journal of Optical Engineering | OPT ENG | 0091-3286 | 1.084 |
Computer Science and Information Systems | COMPUT SCI INF SYST | 1820-0214 | 1.167 |
IEEE Transactions on Computers | IEEE T COMPUT | 0018-9340 | 2.663 |
IEEE Communications Magazine | IEEE COMMUN MAG | 0163-6804 | 9.619 |
Concurrency and Computation: Practice and Experience | CONCURR COMP-PRACT E | 1532-0626 | 1.447 |
Journal of Network and Computer Applications | J NETW COMPUT APPL | 1084-8045 | 6.281 |
IEEE Transactions on Parallel and Distributed Systems | IEEE T PARALL DISTR | 1045-9219 | 2.687 |
IEEE Systems Journal | IEEE SYST J | 1932-8184 | 3.931 |
IEEE Network | IEEE NETWORK | 0890-8044 | 10.693 |
IEEE Journal on Selected Areas in Communications | IEEE J SEL AREA COMM | 0733-8716 | 9.144 |
IEEE/ACM Transactions on Networking | IEEE ACM T NETWORK | 1063-6692 | 3.56 |
IEEE Transactions on Network and Service Management | IEEE TRANS NETW SERV | 1932-4537 | 4.195 |
Neurocomputing | NEUROCOMPUTING | 0925-2312 | 5.719 |
Expert Systems with Applications | EXPERT SYST APPL | 0957-4174 | 6.954 |
IEEE Transactions on Cloud Computing | IEEE T CLOUD COMPUT | 2168-7161 | 5.938 |
IEEE Transactions on Parallel and Distributed Systems | IEEE T PARALL DISTR | 1045-9219 | 2.687 |