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Rujia Wang
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2020 – today
- 2024
- [j11]Mo Zou, Mingzhe Zhang, Rujia Wang, Xian-He Sun, Xiaochun Ye, Dong-Rui Fan, Zhimin Tang:
Skyway: Accelerate Graph Applications with a Dual-Path Architecture and Fine-Grained Data Management. J. Comput. Sci. Technol. 39(4): 871-894 (2024) - [j10]Yuezhi Che, Dazhao Cheng, Xiao Wang, Rujia Wang:
Opca: Enabling Optimistic Concurrent Access for Multiple Users in Oblivious Data Storage. IEEE Trans. Parallel Distributed Syst. 35(11): 1891-1903 (2024) - [c27]Xuchao Zhang, Supriyo Ghosh, Chetan Bansal, Rujia Wang, Minghua Ma, Yu Kang, Saravan Rajmohan:
Automated Root Causing of Cloud Incidents using In-Context Learning with GPT-4. SIGSOFT FSE Companion 2024: 266-277 - [i6]Xuchao Zhang, Supriyo Ghosh, Chetan Bansal, Rujia Wang, Minghua Ma, Yu Kang, Saravan Rajmohan:
Automated Root Causing of Cloud Incidents using In-Context Learning with GPT-4. CoRR abs/2401.13810 (2024) - [i5]Kunal Jain, Anjaly Parayil, Ankur Mallick, Esha Choukse, Xiaoting Qin, Jue Zhang, Íñigo Goiri, Rujia Wang, Chetan Bansal, Victor Rühle, Anoop Kulkarni, Steve Kofsky, Saravan Rajmohan:
Intelligent Router for LLM Workloads: Improving Performance Through Workload-Aware Scheduling. CoRR abs/2408.13510 (2024) - 2023
- [j9]Yiming Liu, Zhengle Wang, Rujia Wang, Jiasi Chen, Hongju Gao:
Flooding-based MobileNet to identify cucumber diseases from leaf images in natural scenes. Comput. Electron. Agric. 213: 108166 (2023) - [c26]Xiaoyang Lu, Rujia Wang, Xian-He Sun:
CARE: A Concurrency-Aware Enhanced Lightweight Cache Management Framework. HPCA 2023: 1208-1220 - [i4]Jiya Su, Peng Jiang, Rujia Wang:
PIMMiner: A High-performance PIM Architecture-aware Graph Mining Framework. CoRR abs/2306.10257 (2023) - 2022
- [j8]Mo Zou, Mingzhe Zhang, Rujia Wang, Xian-He Sun, Xiaochun Ye, Dongrui Fan, Zhimin Tang:
Accelerating Graph Processing With Lightweight Learning-Based Data Reordering. IEEE Comput. Archit. Lett. 21(1): 5-8 (2022) - [c25]Peng Jiang, Yihua Wei, Jiya Su, Rujia Wang, Bo Wu:
SampleMine: A Framework for Applying Random Sampling to Subgraph Pattern Mining through Loop Perforation. PACT 2022: 185-197 - [c24]Bingyu Liu, Rujia Wang, Zhongjie Ba, Shanglin Zhou, Caiwen Ding, Yuan Hong:
Poster: Cryptographic Inferences for Video Deep Neural Networks. CCS 2022: 3395-3397 - [c23]Yuhuan Feng, Yunjie Liu, Hongjuan Wang, Jin Dong, Rujia Wang, Chunpeng Tian:
Image Hide with Invertible Network and Swin Transformer. DMBD (2) 2022: 385-394 - [c22]Yuezhi Che, Rujia Wang:
DNNCloak: Secure DNN Models Against Memory Side-channel Based Reverse Engineering Attacks. ICCD 2022: 89-96 - [c21]Mazen Al-Wadi, Rujia Wang, David Mohaisen, Clayton Hughes, Simon David Hammond, Amro Awad:
Minerva: Rethinking Secure Architectures for the Era of Fabric-Attached Memory Architectures. IPDPS 2022: 258-268 - [c20]Gang Liu, Kenli Li, Zheng Xiao, Rujia Wang:
PS-ORAM: efficient crash consistency support for oblivious RAM on NVM. ISCA 2022: 188-203 - 2021
- [j7]Jiya Su, Linfeng He, Peng Jiang, Rujia Wang:
Exploring PIM Architecture for High-Performance Graph Pattern Mining. IEEE Comput. Archit. Lett. 20(2): 114-117 (2021) - [j6]Bingyu Liu, Shangyu Xie, Yuanzhou Yang, Rujia Wang, Yuan Hong:
Privacy preserving divisible double auction with a hybridized TEE-blockchain system. Cybersecur. 4(1): 37 (2021) - [j5]Feng Zhang, Jiya Su, Weifeng Liu, Bingsheng He, Ruofan Wu, Xiaoyong Du, Rujia Wang:
YuenyeungSpTRSV: A Thread-Level and Warp-Level Fusion Synchronization-Free Sparse Triangular Solve. IEEE Trans. Parallel Distributed Syst. 32(9): 2321-2337 (2021) - [c19]Zhendong Wang, Rujia Wang, Zihang Jiang, Xulong Tang, Shouyi Yin, Yang Hu:
Towards a Secure Integrated Heterogeneous Platform via Cooperative CPU/GPU Encryption. ATS 2021: 115-120 - [c18]Dingyuan Cao, Mingzhe Zhang, Hang Lu, Xiaochun Ye, Dongrui Fan, Yuezhi Che, Rujia Wang:
Streamline Ring ORAM Accesses through Spatial and Temporal Optimization. HPCA 2021: 14-25 - [c17]Xiaoyang Lu, Rujia Wang, Xian-He Sun:
Premier: A Concurrency-Aware Pseudo-Partitioning Framework for Shared Last-Level Cache. ICCD 2021: 391-394 - [c16]Bingyu Liu, Yuanzhou Yang, Rujia Wang, Yuan Hong:
Poster: Privacy Preserving Divisible Double Auction with A Hybridized TEE-Blockchain System. ICDCS 2021: 1144-1145 - [c15]Liang Yan, Mingzhe Zhang, Rujia Wang, Xiaoming Chen, Xingqi Zou, Xiaoyang Lu, Yinhe Han, Xian-He Sun:
CoPIM: A Concurrency-aware PIM Workload Offloading Architecture for Graph Applications. ISLPED 2021: 1-6 - [c14]Yuezhi Che, Gang Liu, Rujia Wang:
Seeds of SEED: Efficient Access Pattern Obfuscation for Untrusted Hybrid Memory System. SEED 2021: 63-69 - [i3]Peng Jiang, Rujia Wang, Bo Wu:
An Efficient Graph Mining System for Large Patterns. CoRR abs/2101.07690 (2021) - 2020
- [j4]Yuezhi Che, Yuanzhou Yang, Amro Awad, Rujia Wang:
A Lightweight Memory Access Pattern Obfuscation Framework for NVM. IEEE Comput. Archit. Lett. 19(2): 163-166 (2020) - [j3]Amro Awad, Rujia Wang:
Guest Editors' Introduction to the Special Issue on Hardware Security. IEEE Trans. Computers 69(11): 1556-1557 (2020) - [c13]Yuezhi Che, Rujia Wang:
Multi-Range Supported Oblivious RAM for Efficient Block Data Retrieval. HPCA 2020: 369-382 - [c12]Xiaoyang Lu, Rujia Wang, Xian-He Sun:
APAC: An Accurate and Adaptive Prefetch Framework with Concurrent Memory Access Analysis. ICCD 2020: 222-229 - [c11]Jiya Su, Feng Zhang, Weifeng Liu, Bingsheng He, Ruofan Wu, Xiaoyong Du, Rujia Wang:
CapelliniSpTRSV: A Thread-Level Synchronization-Free Sparse Triangular Solve on GPUs. ICPP 2020: 2:1-2:11 - [i2]Zhou Ni, Rujia Wang:
Performance Evaluation of Secure Multi-party Computation on Heterogeneous Nodes. CoRR abs/2004.10926 (2020) - [i1]Gang Liu, Kenli Li, Zheng Xiao, Rujia Wang:
EHAP-ORAM: Efficient Hardware-Assisted Persistent ORAM System for Non-volatile Memory. CoRR abs/2011.03669 (2020)
2010 – 2019
- 2019
- [j2]Rujia Wang, Shiping Wu, Wei Chen:
Unified wave equation and numerical simulation of mechanical wave propagation in alloy solidification. Simul. 95(1) (2019) - [c10]Xianwei Zhang, Rujia Wang, Youtao Zhang, Jun Yang:
Boosting chipkill capability under retention-error induced reliability emergency. ASP-DAC 2019: 400-405 - [c9]Liang Liu, Rujia Wang, Youtao Zhang, Jun Yang:
H-ORAM: A Cacheable ORAM Interface for Efficient I/O Accesses. DAC 2019: 33 - [c8]Yuezhi Che, Yuan Hong, Rujia Wang:
Imbalance-Aware Scheduler for Fast and Secure Ring ORAM Data Retrieval. ICCD 2019: 604-612 - [c7]Kazuo Hiekata, Rujia Wang, Taiga Mitsuyuki:
Simulation Model for Project Duration Estimation with Parameters Extraction Method from Accumulated Data. TE 2019: 289-298 - 2018
- [c6]Rujia Wang, Youtao Zhang, Jun Yang:
D-ORAM: Path-ORAM Delegation for Low Execution Interference on Cloud Servers with Untrusted Memory. HPCA 2018: 416-427 - 2017
- [j1]Rujia Wang, Sparsh Mittal, Youtao Zhang, Jun Yang:
Decongest: Accelerating Super-Dense PCM Under Write Disturbance by Hot Page Remapping. IEEE Comput. Archit. Lett. 16(2): 107-110 (2017) - [c5]Rujia Wang, Youtao Zhang, Jun Yang:
Cooperative Path-ORAM for Effective Memory Bandwidth Sharing in Server Settings. HPCA 2017: 325-336 - 2016
- [c4]Rujia Wang, Youtao Zhang, Jun Yang:
ReadDuo: Constructing Reliable MLC Phase Change Memory through Fast and Robust Readout. DSN 2016: 203-214 - 2015
- [c3]Rujia Wang, Lei Jiang, Youtao Zhang, Jun Yang:
SD-PCM: Constructing Reliable Super Dense Phase Change Memory under Write Disturbance. ASPLOS 2015: 19-31 - [c2]Rujia Wang, Lei Jiang, Youtao Zhang, Linzhang Wang, Jun Yang:
Selective restore: an energy efficient read disturbance mitigation scheme for future STT-MRAM. DAC 2015: 21:1-21:6 - [c1]Rujia Wang, Lei Jiang, Youtao Zhang, Linzhang Wang, Jun Yang:
Exploit imbalanced cell writes to mitigate write disturbance in dense phase change memory. DAC 2015: 88:1-88:6
Coauthor Index
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last updated on 2024-10-10 22:18 CEST by the dblp team
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