期刊论文

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 128) [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 99) [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] 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]

[7] 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]

[8] 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]

[9] 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]

[10] 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]

[11] 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]

[12]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]

[13]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]

[14]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]

[15]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]

[16]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)

[17]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)

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

[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.

[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)

[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)

[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.

[6]System Level Modeling and Performance Evaluation of Multistage Optical Network on Chips (MONoCs),Luying Bai,Huaxi Gu*, Yawen Chen, Haibo Zhang, Yintang Yang, Xinyao Xu,Photonic Network Communications,Vol.34, Issue:1,pp. 25–33, 2017

[7]Energy-Aware on-chip virtual machine placement for cloud-supported cyber-physical systems ,Xuanzhang Liu,Huaxi Gu*, Haibo Zhang, Feiyang Liu, Yawen Chen,Xiaoshan Yu ,Microprocessors and Microsystems,Vol. 52, pp.427-437, 2017

ACCEPTED
[1]Tao Jiang, Huaxi Gu, Kun Wang, Xiaoshan Yu, Yunfeng Lu, BHyberCube: a MapReduce aware heterogeneous architecture for data center,ComSIS Journal

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(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)

[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 (EI indexed, 20164703032292)

[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((影响因子1.245,EI indexed 20162102422773).

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)

[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)

[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)

[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)

[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, HuaxiGu, 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, HuaxiGu, 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, HuaxiGu, 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].HuaxiGu, 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].HuaxiGu, 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].HuaxiGu, 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].HuaxiGu, 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].HuaxiGu, 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].HuaxiGu, 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].HuaxiGu, 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 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 Title
Abbreviated Journal Title
ISSN
Impact 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 Title
Abbreviated Journal Title
ISSN
Impact 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 Title
Abbreviated Journal Title
ISSN
Impact 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 Title
Abbreviated Journal Title
ISSN
Impact 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