期刊论文/专著

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)

2023

[1] 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[J]. IEEE Transactions on Network and Service Management, 2023.(中科院2区,已录用)

2022

[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[J]. IEEE Transactions on Network and Service Management, 2022, 20(2):1817 – 1829.(中科院2区)

[2] AL-Makhlafi Moeen, Huaxi Gu*, Ahlam Almuaalemi, Eiad Almekhlafi, Musbahu M Adam. RibsNet: A Scalable, High-Performance, and Cost-Effective Two-Layer Based Cloud Data Center Network Architecture[J]. IEEE Transactions on Network and Service Management, 2022, 20(2): 1676-1690.(中科院2区)

[3] 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): 2372-2380.(核心期刊)

[4] Yong Liu, Huaxi Gu*, Zhaoxing Zhou, Ning Wang. RSLB: Robust and Scalable Load Balancing in Software-Defined Data Center Networks[J]. IEEE Transactions on Network and Service Management, 2022, 19(4): 4706-4720.(中科院2区)

[5] Wenting Wei, Huaxi Gu*, Wenshuai Deng,Zhe Xiao, Xinming Ren. ABL-TC: A Lightweight Design for Network Traffic Classification Empowered by Deep Learning[J]. Neurocomputing, 489 (2022): 333–344.(中科院2区)

[6] Xinglong Diao, Huaxi Gu*, Xiaoshan Yu, Liang Qin and Changyun Luo. Flex: A Flowlet-Level Load Balancing Based on Load-Adaptive Timeout in DCN[J]. Future Generation Computer Systems, 2022, 130: 219-230.(中科院2区)

[7] Yue Wang, Huaxi Gu*, Yonghui Tian, Lei Huang, Kang Wang. A Scalable Low-Power Optical Chip: Realization and Static Loss Analysis[J]. IEEE Photonics Technology Letters, 2022, 34(9): 463-466.(中科院3区)

[8] Zhuangzhuang Liu, Huaxi Gu*, Bowen Zhang, Canran Shi. An Efficient Dataflow Mapping Method for Convolutional Neural Networks[J]. Neural Processing Letters, 2022, 54(2): 1075-1090.(中科院4区)

[9] Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, and Peng Li. The Fast Control Plane for Flexible and Scalable Optical Interconnects[J]. Optics Express, 2022, 30(3): 3316-3328.(中科院2区)

[10] Kang Wang, Huaxi Gu*, Yintang Yang, Kun Wang, Yue Wang. Impact of Application Characteristics on Laser Energy Fluctuation in Integrated Photonic Switching Systems[J]. IEEE Photonics Journal, 2022, 15(1): 1-12.(中科院4区)

2021

[1] Wenting Wei, Ruying Yang, Huaxi Gu*, Weike Zhao, Chen Chen, Shaohua Wan. Multi-objective optimization for resource allocation in vehicular cloud computing networks[J]. IEEE Transactions on Intelligent Transportation Systems, 2021, 23(12): 25536-25545.(中科院1区)

[2] Bowen Zhang, Huaxi Gu*, Kun Wang and Yintang Yang. A Novel CONV Acceleration Strategy Based on Logical PE Set Segmentation for Row Stationary Dataflow[J]. IEEE Transactions on Computers, 2021, 71(6): 1466-1478. (中科院2区)

[3] Lijing Zhu, Huaxi Gu*, Xiaoshan Yu, Wenhao Sun. AMLR: An Adaptive Multi-Level Routing Algorithm for Dragonfly Network[J]. IEEE Communications Letters, 2021, 25(11): 3533-3536.(中科院3区)

[4] Meaad Fadhel, Lei Huang, Huaxi Gu*. Universal Method for Constructing Fault-Tolerant Optical Routers Using RRW[J]. Wireless Communications and Mobile Computing, 2021, 2021: 1-15.(中科院4区)

[5] Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, and Peng Li. X-NEST: A scalable, flexible, and high-performance network architecture for distributed machine learning[J]. Journal of Lightwave Technology, 2021, 39(13): 4247-4254. (中科院2区)

[6] Meaad Fadhel, Huaxi Gu*, Wenting Wei. 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.(中科院4区)

[7] 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. (中科院3区)

[8] 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1区)

[9] 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2区)

[10] 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, 2021, 39(9): 2748-2761. (中科院1区)

[11] 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, 10(4): 2649-2663.(中科院2区)

[12] Wenting Wei, Huaxi Gu*, Baochun Li. Congestion control: A renaissance with machine learning[J]. IEEE Network, 2021, 35(4): 262-269. (中科院2区)

[13] Yong Liu, Huaxi Gu*, KangWang, 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. (中科院3区)

[14] Jiayu Liu(2015届本科生,本科毕设成果), Huaxi Gu*, Wenting Wei, Ziqi Chen, Yawen Chen. An Efficient Shortest Path Algorithm for Content-Based Routing On 2-D Mesh Accelerator Networks[J]. Future Generation Computer Systems, 2021, 114:519-530. (中科院2区)

[15] Danyang Zheng, Huaxi Gu*, Wenting Wei, Chengzong Peng, Xiaojun Cao.Network service chaining and embedding with provable bounds[J]. IEEE Internet of Things Journal, 2020, 8(9): 7140-7151. (中科院1区)

2020

[1] Shangqi Ma, Huaxi Gu*, Hao Lan, Xiaoshan Yu, Kun Wang. Rss: a relay-based schedule scheme for optical data center network[J]. Photonic Network Communications, 2020, 39: 70-77.(中科院4区)

[2] Wenting Wei, Huaxi Gu*, Achille Pattavina, Jiru Wang, Yi Zeng. Optimizing energy and spectrum efficiency of virtual optical network embedding in elastic optical networks[J]. Optical Switching and Networking, 2020, 37: 100568.(中科院3区)

[3] 刁兴龙, 余晓杉, 刘勇, 等. 数据中心 Clos 网络负载均衡方案: 问题, 进展与展望[J]. 计算机学报, 2020, 43(12): 2241-2258.

[4] Moeen Al-Makhlafi, Huaxi Gu*, Xiaoshan Yu, Yunfeng Lu. P-Cube: A New Two-Layer Topology for Data Center Networks Exploiting Dual-Port Servers[J]. IEICE Transactions on Communications, 2020, 103(9): 940-950.(中科院4区)

[5] Lei Huang, Huaxi Gu*, Yonghui Tian, Ting Zhao. Universal method for constructing the on-chip optical router with wavelength routing technology[J]. Journal of Lightwave Technology, 2020, 38(15): 3815-3821.(中科院2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[J]. IEEE Access, 2020, 8: 73457-73474.

[7] WentingWei, KunWang*, KexinWang, HuaxiGu, HongShen. Multi-resource balance optimization for virtual machine placement in cloud data centers[J]. Computers & Electrical Engineering, 2020, 88: 106866.(中科院3区)

[8] Yunfeng Lu, Huaxi Gu*, Xiaoshan Yu, and Krishnendu Chakrabarty. Lotus: A new topology for large-scale distributed machine learning[J]. ACM Journal on Emerging Technologies in Computing Systems (JETC), 2020, 17(1): 1-21.(中科院4区)

[9] Youhe Jiang(2021届本科生,2017级本科生), Huaxi Gu*, Yunfeng Lu, Xiaoshan Yu. 2D-HRA: Two-Dimensional Hierarchical Ring-based All-reduce Algorithm in Large-Scale Distributed Machine Learning.IEEE Access, 2020, 8: 183488-183494.

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 indexedIP52475790)

[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 TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.038
Journal of Optical EngineeringOPT ENG0091-32860.88
Optics & Laser TechnologyOPT LASER TECHNOL0030-39921.365
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26920.912
IEEE Communication LettersIEEE COMMUN LETT1089-77981.16
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30031.349
Computers and Electrical EngineeringCOMPUT ELECTR ENG0045-79060.928
IEICE Electron. ExpressIEICE ELECTRON EXPR1349-25430.268
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40260.524
Journal of Telecommunication SystemsTELECOMMUN SYST1018-48641.027
IEICE Trans. on Information and SystemsIEICE T INF SYST1745-13610.218
Optics CommunicationsOPT COMMUN0030-40181.438
IEEE Computer Architecture LettersIEEE CAL1556-60560.852
IEEE Journal of Lightwave TechnologyIEEE JLT0733-87242.555

影响因子(2013):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.176
Journal of Optical EngineeringOPT ENG0091-32860.958
Optics & Laser TechnologyOPT LASER TECHNOL0030-39921.649
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26920.924
IEEE Communication LettersIEEE COMMUN LETT1089-77981.463
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30031.6
Computers and Electrical EngineeringCOMPUT ELECTR ENG0045-79060.992
IEICE Electron. ExpressIEICE ELECTRON EXPR1349-25430.391
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40260.769
Journal of Telecommunication SystemsTELECOMMUN SYST1018-48641.163
IEICE Trans. on Information and SystemsIEICE T INF SYST1745-13610.191
Optics CommunicationsOPT COMMUN0030-40181.542
Optical and Quantum ElectronicsOQE0306-89191.078
IEEE Computer Architecture LettersIEEE CAL1556-60561
IEEE Journal of Lightwave TechnologyIEEE JLT0733-87242.862

影响因子(2014):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.11
Journal of Optical EngineeringOPT ENG0091-32860.954
Optics & Laser TechnologyOPT LASER TECHNOL0030-39921.647
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26920.836
IEEE Communication LettersIEEE COMMUN LETT1089-77981.268
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30031.551
Computers and Electrical EngineeringCOMPUT ELECTR ENG0045-79060.817
IEICE Electron. ExpressIEICE ELECTRON EXPR1349-25430.32
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40260.677
Journal of Telecommunication SystemsTELECOMMUN SYST1018-48640.705
IEICE Trans. on Information and SystemsIEICE T INF SYST1745-13610.213
Optics CommunicationsOPT COMMUN0030-40181.449
Optical and Quantum ElectronicsOQE0306-89190.987
IEEE Computer Architecture LettersIEEE CAL1556-60560.677
IEEE Journal of Lightwave TechnologyIEEE JLT0733-87242.965
Future Generation Computer SystemsFUTURE GENER COMP SY0167-739X2.786
Optics ExpressOPT EXPRESS1094-40873.488

影响因子(2015):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11351.945
Journal of Optical EngineeringOPT ENG0091-32860.984
Optics & Laser TechnologyOPT LASER TECHNOL0030-39921.879
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26920.876
IEEE Communication LettersIEEE COMMUN LETT1089-77981.291
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30031.345
Computers and Electrical EngineeringCOMPUT ELECTR ENG0045-79061.084
IEICE Electron. ExpressIEICE ELECTRON EXPR1349-25430.344
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40260.742
Journal of Telecommunication SystemsTELECOMMUN SYST1018-48640.822
IEICE Trans. on Information and SystemsIEICE T INF SYST1745-13610.226
Optics CommunicationsOPT COMMUN0030-40181.48
Optical and Quantum ElectronicsOQE0306-89191.29
IEEE Computer Architecture LettersIEEE CAL1556-60560.465
IEEE Journal of Lightwave TechnologyIEEE JLT0733-87242.567
Future Generation Computer SystemsFUTURE GENER COMP SY0167-739X2.43
Optics ExpressOPT EXPRESS1094-40873.148
IEEE Transactions on Very Large Scale Integration SystemsIEEE T VLSI SYST1063-82101.245

影响因子(2016):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.375
Journal of Optical EngineeringOPT ENG0091-32861.082
Optics & Laser TechnologyOPT LASER TECHNOL0030-39922.109
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26921.163
IEEE Communication LettersIEEE COMMUN LETT1089-77981.988
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30031.738
Computers and Electrical EngineeringCOMPUT ELECTR ENG0045-79061.57
IEICE Electron. ExpressIEICE ELECTRON EXPR1349-25430.456
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40260.835
Journal of Telecommunication SystemsTELECOMMUN SYST1018-48641.542
IEICE Trans. on Information and SystemsIEICE T INF SYST1745-13610.411
Optics CommunicationsOPT COMMUN0030-40181.588
IEEE Computer Architecture LettersIEEE CAL1556-60561.397
IEEE Journal of Lightwave TechnologyIEEE JLT0733-87243.671
Optics CommunicationsOPT COMMUN0030-40181.588
Optical and Quantum ElectronicsOQE0306-89191.055
Future Generation Computer SystemsFUTURE GENER COMP SY0167-739X3.997
Optics ExpressOPT EXPRESS1094-40873.307
IEEE Transactions on Very Large Scale Integration SystemsIEEE T VLSI SYST1063-82101.698
IEEE Photonics JournalIEEE PHOTONICS J1943-06552.291
IEEE/OSA J. Optical Communications and NetworkingJ OPT COMMUN NETW1943-06202.261

影响因子(2017):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.446
Journal of Optical EngineeringOPT ENG0091-32860.993
Optics & Laser TechnologyOPT LASER TECHNOL0030-39922.503
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26921.322
IEEE Communications LettersIEEE COMMUN LETT1089-77982.723
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30032.300
COMPUTERS & ELECTRICAL ENGINEERINGCOMPUT ELECTR ENG0045-79061.747
IEICE Electronics ExpressIEICE ELECTRON EXPR1349-25430.475
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40261.191
Telecommunication SystemsTELECOMMUN SYST1018-48641.527
IEICE Transactions on Information and SystemsIEICE T INF SYST1745-13610.500
Optics CommunicationsOPT COMMUN0030-40181.887
IEEE Computer Architecture LettersIEEE CAL1556-60561.521
Journal of Lightwave TechnologyJ LIGHTWAVE TECHNOL0733-87243.652
Optics CommunicationsOPT COMMUN0030-40181.887
Optical and Quantum ElectronicsOPT QUANT ELECTRON0306-89191.168
Future Generation Computer Systems-The International Journal of eScienceFUTURE GENER COMP SY0167-739X4.639
OPTICS EXPRESSOPT EXPRESS1094-40873.356
IEEE TRANSACTIONS ON VERY LARGE SCALE INTEGRATION (VLSI) SYSTEMSIEEE T VLSI SYST1063-82101.744
IEEE Photonics JournalIEEE PHOTONICS J1943-06552.627
IEEE/OSA Journal of Optical Communications and NetworkingJ OPT COMMUN NETW1943-06202.742

影响因子(2018):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Internet of Things Journal
IEEE INTERNET THINGS
2327-4662
9.515
Future Generation Computer Systems-The International Journal of eScienceFUTURE GENER COMP SY0167-739X5.768
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.553
Journal of Lightwave TechnologyJ LIGHTWAVE TECHNOL0733-87244.162
IEEE Photonics JournalIEEE PHOTONICS J1943-06552.729
IEEE/OSA Journal of Optical Communications and NetworkingJ OPT COMMUN NETW1943-06203.093
OPTICS EXPRESSOPT EXPRESS1094-40873.561
IEEE Access
IEEE ACCESS
2169-3536
4.098
IEEE Transactions on Communications
IEEE T COMMUN
0090-6778
5.690
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30033.092
Nano Communication Networks
NANO COMMUN NETW
1878-7789
2.250
Optics CommunicationsOPT COMMUN0030-40181.961
IEEE Communications LettersIEEE COMMUN LETT1089-77983.457
Optics & Laser TechnologyOPT LASER TECHNOL0030-39923.319
Computers & Electrical Engineering
COMPUT ELECTR ENG0045-79062.189
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
IEEE T VLSI SYST1063-82101.946
Journal of Supercomputing
J SUPERCOMPUT
0920-8542
2.157
Telecommunication SystemsTELECOMMUN SYST1018-48641.707
IEEE Computer Architecture LettersIEEE CAL1556-60561.149
Photonic Network Communications
PHOTONIC NETW COMMUN
1387-974X
1.328
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40261.914
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26921.284
Optical and Quantum ElectronicsOPT QUANT ELECTRON0306-89191.547
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 ExpressIEICE ELECTRON EXPR1349-25430.586
IEICE Transactions on Information and SystemsIEICE T INF SYST1745-13610.576
Journal of Optical EngineeringOPT ENG0091-32861.209
Computer Science and Information Systems
COMPUT SCI INF SYST
1820-0214
0.620

影响因子(2019):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Internet of Things Journal
IEEE INTERNET THINGS
2327-4662
9.936
Future Generation Computer Systems-The International Journal of eScienceFUTURE GENER COMP SY0167-739X6.125
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.451
Journal of Lightwave TechnologyJ LIGHTWAVE TECHNOL0733-87244.288
IEEE Photonics JournalIEEE PHOTONICS J1943-06552.833
IEEE/OSA Journal of Optical Communications and NetworkingJ OPT COMMUN NETW1943-06203.425
OPTICS EXPRESSOPT EXPRESS1094-40873.669
IEEE Access
IEEE ACCESS
2169-3536
3.745
IEEE Transactions on Communications
IEEE T COMMUN
0090-6778
5.646
Applied Mathematics and ComputationAPPL MATH COMPUT0096-30033.472
Nano Communication Networks
NANO COMMUN NETW
1878-7789
2.621
Optics CommunicationsOPT COMMUN0030-40182.125
IEEE Communications LettersIEEE COMMUN LETT1089-77983.419
Optics & Laser TechnologyOPT LASER TECHNOL0030-39923.233
Computers & Electrical Engineering
COMPUT ELECTR ENG0045-79062.663
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
IEEE T VLSI SYST1063-82102.037
Journal of Supercomputing
J SUPERCOMPUT
0920-8542
2.469
Telecommunication SystemsTELECOMMUN SYST1018-48641.734
IEEE Computer Architecture LettersIEEE CAL1556-60561.109
Photonic Network Communications
PHOTONIC NETW COMMUN
1387-974X
1.75
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40262.187
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26921.405
Optical and Quantum ElectronicsOPT QUANT ELECTRON0306-89191.842
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 ExpressIEICE ELECTRON EXPR1349-25430.788
IEICE Transactions on Information and SystemsIEICE T INF SYST1745-13610.449
Journal of Optical EngineeringOPT ENG0091-32861.113
Computer Science and Information Systems
COMPUT SCI INF SYST
1820-0214
0.927
Optics LettersOPT LETT0146-95923.714
IEEE Transactions on ComputersIEEE T COMPUT0018-93402.711
IEEE Communications MagazineIEEE COMMUN MAG0163-680411.052
Concurrency and Computation: Practice and ExperienceCONCURR COMP-PRACT E1532-06261.447
Journal of Network and Computer ApplicationsJ NETW COMPUT APPL1084-80455.57
IEEE Transactions on Parallel and Distributed SystemsIEEE T PARALL DISTR1045-92192.6
IEEE Systems JournalIEEE SYST J1932-81843.987

影响因子(2020):

Journal TitleAbbreviated Journal TitleISSNImpact Infactor
IEEE Internet of Things Journal
IEEE INTERNET THINGS
2327-4662
9.471
Future Generation Computer Systems-The International Journal of eScienceFUTURE GENER COMP SY0167-739X7.187
IEEE Photonics Technology LettersIEEE PHOTONIC TECH L1041-11352.468
Journal of Lightwave TechnologyJ LIGHTWAVE TECHNOL0733-87244.142
IEEE Photonics JournalIEEE PHOTONICS J1943-06552.443
IEEE/OSA Journal of Optical Communications and NetworkingJ OPT COMMUN NETW1943-06203.984
OPTICS EXPRESSOPT EXPRESS1094-40873.894
Optics LettersOPT 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 ComputationAPPL MATH COMPUT0096-30034.091
Nano Communication Networks
NANO COMMUN NETW
1878-7789
2.947
Optics CommunicationsOPT COMMUN0030-40182.31
IEEE Communications LettersIEEE COMMUN LETT1089-77983.436
Optics & Laser TechnologyOPT LASER TECHNOL0030-39923.867
Computers & Electrical Engineering
COMPUT ELECTR ENG0045-79063.818
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
IEEE T VLSI SYST1063-82102.312
Journal of Supercomputing
J SUPERCOMPUT
0920-8542
2.474
Telecommunication SystemsTELECOMMUN SYST1018-48642.314
IEEE Computer Architecture LettersIEEE CAL1556-60561.269
Photonic Network Communications
PHOTONIC NETW COMMUN
1387-974X
2.028
ELSEVIER Optik-International Journal
for Light and Electron Optics
OPTIK0030-40262.443
ELSEVIER Microelectronics JournalMICROELECTRON J0026-26921.605
Optical and Quantum ElectronicsOPT QUANT ELECTRON0306-89192.084
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 ExpressIEICE ELECTRON EXPR1349-25430.578
IEICE Transactions on Information and SystemsIEICE T INF SYST1745-13610.559
Journal of Optical EngineeringOPT ENG0091-32861.084
Computer Science and Information Systems
COMPUT SCI INF SYST
1820-0214
1.167
IEEE Transactions on ComputersIEEE T COMPUT0018-93402.663
IEEE Communications MagazineIEEE COMMUN MAG0163-68049.619
Concurrency and Computation: Practice and ExperienceCONCURR COMP-PRACT E1532-06261.447
Journal of Network and Computer ApplicationsJ NETW COMPUT APPL1084-80456.281
IEEE Transactions on Parallel and Distributed SystemsIEEE T PARALL DISTR1045-92192.687
IEEE Systems JournalIEEE SYST J1932-81843.931
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