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Publication search results
found 85 matches
- 2024
- Wonyoung Lee, Mincheol Kang, Soontae Kim:
Highly VM-Scalable SSD in Cloud Storage Systems. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 43(1): 113-126 (2024) - Lizhou Liu, Zhaotian Yan, Bin Xu, Pengcheng Zhang, Changsong Cai, Huazhong Yang:
A Highly Scalable Integrated Voltage Equalizer Based on Parallel-Transformers for High-Voltage Energy Storage Systems. IEEE Trans. Ind. Electron. 71(1): 595-603 (2024) - 2023
- Kazutoshi Kobayashi:
Scalable Highly Integrated Quantum Bit Error Correction System by Classical Electronics. ASICON 2023: 1 - Ricky Sun, Jamie Chen:
Design of Highly Scalable Graph Database Systems without Exponential Performance Degradation. BiDEDE@SIGMOD 2023: 4:1-4:6 - Olaf Schulz, Alvaro Moscoso-Mártir, Jeremy Witzens, Stephan Pachnicke:
Highly Scalable WDM Nonlinear Frequency Division Multiplexed Transmission System using Spectral Overlap. OFC 2023: 1-3 - 2022
- Ruben Heradio, David Fernández-Amorós, José A. Galindo, David Benavides, Don S. Batory:
Uniform and scalable sampling of highly configurable systems. Empir. Softw. Eng. 27(2): 44 (2022) - Ruben Heradio, David Fernández-Amorós, José A. Galindo, David Benavides, Don S. Batory:
Correction to: Uniform and scalable sampling of highly configurable systems. Empir. Softw. Eng. 27(2): 57 (2022) - Mojtaba Barzegari, Liesbet Geris:
Highly scalable numerical simulation of coupled reaction-Diffusion systems with moving interfaces. Int. J. High Perform. Comput. Appl. 36(2): 198-213 (2022) - Zhenyu Xu, Thomas Mauldin, Qing Yang, Tao Wei:
Highly Scalable Runtime Countermeasure Against Microprobing Attacks on Die-to-Die Interconnections in System-in-Package. FPGA 2022: 154 - Reepa Saha, Sahaj Anilbhai Patel, Abidin Yildirim, S. Abdollah Mirbozorgi:
Toward a Highly Scalable Smart System for Small Animal Body Sensing and Tracking using an Inductive Multi-Resonator Array. ISCAS 2022: 600-604 - David Fernández-Amorós, Ruben Heradio, Christoph Mayr-Dorn, Alexander Egyed:
Scalable Sampling of Highly-Configurable Systems: Generating Random Instances of the Linux Kernel. ASE 2022: 89:1-89:12 - Jaeyong Jeong, Seong Kwang Kim, Jongmin Kim, Dae-Myeong Geum, Jisung Lee, Seung-Young Park, Sanghyeon Kim:
3D stackable cryogenic InGaAs HEMTs for heterogeneous and monolithic 3D integrated highly scalable quantum computing systems. VLSI Technology and Circuits 2022: 328-329 - 2021
- Pablo Ouro, Unai Lopez-Novoa, Martyn F. Guest:
On the performance of a highly-scalable Computational Fluid Dynamics code on AMD, ARM and Intel processor-based HPC systems. Comput. Phys. Commun. 269: 108105 (2021) - Jianbo Dong, Shaochuang Wang, Fei Feng, Zheng Cao, Heng Pan, Lingbo Tang, Pengcheng Li, Hao Li, Qianyuan Ran, Yiqun Guo, Shanyuan Gao, Xin Long, Jie Zhang, Yong Li, Zhisheng Xia, Liuyihan Song, Yingya Zhang, Pan Pan, Guohui Wang, Xiaowei Jiang:
ACCL: Architecting Highly Scalable Distributed Training Systems With Highly Efficient Collective Communication Library. IEEE Micro 41(5): 85-92 (2021) - Hongjun Zhang, Heng Zhang, Libo Zhang, Yanjun Wu:
FastUDP: a highly scalable user-level UDP framework in multi-core systems for fast packet I/O. J. Supercomput. 77(5): 5148-5175 (2021) - 2020
- Ken Figueredo, Dale Seed, Vanja Subotic:
Preparing for Highly Scalable and Replicable IoT Systems. IEEE Internet Things Mag. 3(3): 94-98 (2020) - Ivica Draganjac, Tamara Petrovic, Damjan Miklic, Zdenko Kovacic, Juraj Orsulic:
Highly-scalable traffic management of autonomous industrial transportation systems. Robotics Comput. Integr. Manuf. 63: 101915 (2020) - Khanh N. Dang, Akram Ben Ahmed, Yuichi Okuyama, Abderazek Ben Abdallah:
Scalable Design Methodology and Online Algorithm for TSV-Cluster Defects Recovery in Highly Reliable 3D-NoC Systems. IEEE Trans. Emerg. Top. Comput. 8(3): 577-590 (2020) - Mojtaba Barzegari, Liesbet Geris:
Highly scalable numerical simulation of coupled reaction-diffusion systems with moving interfaces. CoRR abs/2008.11057 (2020) - Nick Brown, Jonathan Mark Bull, Iain Bethune:
A highly scalable approach to solving linear systems using two-stage multisplitting. CoRR abs/2009.12638 (2020) - 2019
- Jeffrey F. Lukman, Huan Ke, Cesar A. Stuardo, Riza O. Suminto, Daniar Heri Kurniawan, Dikaimin Simon, Satria Priambada, Chen Tian, Feng Ye, Tanakorn Leesatapornwongsa, Aarti Gupta, Shan Lu, Haryadi S. Gunawi:
FlyMC: Highly Scalable Testing of Complex Interleavings in Distributed Systems. EuroSys 2019: 20:1-20:16 - Hitoshi Mitake, Hiroshi Yamada, Tatsuo Nakajima:
A Highly Scalable Index Structure for Multicore In-Memory Database Systems. IDC 2019: 210-217 - Lucas Benedicic, Felipe A. Cruz, Alberto Madonna, Kean Mariotti:
Sarus: Highly Scalable Docker Containers for HPC Systems. ISC Workshops 2019: 46-60 - 2018
- Huibai Huang, Bin Niu, Shaofei Tang, Shengru Li, Sicheng Zhao, Kai Han, Zuqing Zhu:
Realizing Highly-Available, Scalable, and Protocol-Independent vSDN Slicing With a Distributed Network Hypervisor System. IEEE Access 6: 13513-13522 (2018) - Taikyeong Ted Jeong:
Highly scalable intelligent sensory application and time domain matrix for safety-critical system design. Int. J. Distributed Sens. Networks 14(4) (2018) - Fan Yang, Junbin Kang, Shuai Ma, Jinpeng Huai:
A Highly Non-Volatile Memory Scalable and Efficient File System. ICCD 2018: 431-438 - Xianyan Jia, Shutao Song, Wei He, Yangzihao Wang, Haidong Rong, Feihu Zhou, Liqiang Xie, Zhenyu Guo, Yuanzhou Yang, Liwei Yu, Tiegang Chen, Guangxiao Hu, Shaohuai Shi, Xiaowen Chu:
Highly Scalable Deep Learning Training System with Mixed-Precision: Training ImageNet in Four Minutes. CoRR abs/1807.11205 (2018) - 2017
- Ali Isavudeen, Nicolas Ngan, Eva Dokládalová, Mohamed Akil:
Highly Scalable Monitoring System on Chip for Multi-Stream Auto-Adaptable Vision System. RACS 2017: 249-254 - 2016
- Andrew V. Terekhov:
A highly scalable parallel algorithm for solving Toeplitz tridiagonal systems of linear equations. J. Parallel Distributed Comput. 87: 102-108 (2016) - Eduardo Munera Sánchez, Jose-Luis Poza-Luján, Juan-Luis Posadas-Yagüe, José-Enrique Simó-Ten, Francisco Blanes:
Smart Resource Integration on ROS-Based Systems: Highly Decoupled Resources for a Modular and Scalable Robot Development. DCAI 2016: 331-338
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