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2020 – today
- 2024
[c54]Preet Derasari
, Guru Venkataramani:
EPIC: Efficient and Proactive Instruction-level Cyberdefense. ACM Great Lakes Symposium on VLSI 2024: 409-414- [c53]Kailash Gogineni, Sai Santosh Dayapule, Juan Gómez-Luna, Karthikeya Gogineni, Peng Wei, Tian Lan, Mohammad Sadrosadati, Onur Mutlu, Guru Venkataramani:
SwiftRL: Towards Efficient Reinforcement Learning on Real Processing-In-Memory Systems. ISPASS 2024: 217-229 - [i18]Kailash Gogineni, Sai Santosh Dayapule, Juan Gómez-Luna, Karthikeya Gogineni, Peng Wei, Tian Lan, Mohammad Sadrosadati, Onur Mutlu, Guru Venkataramani:
SwiftRL: Towards Efficient Reinforcement Learning on Real Processing-In-Memory Systems. CoRR abs/2405.03967 (2024) - 2023
- [j20]Guru Venkataramani:
Special Issue on Security and Privacy-Preserving Execution Environments. IEEE Micro 43(5): 6-7 (2023) - [c52]Preet Derasari, Kailash Gogineni, Guru Venkataramani:
Mayalok: A Cyber-Deception Hardware Using Runtime Instruction Infusion. ASAP 2023: 33-40 - [c51]Kailash Gogineni, Yongsheng Mei, Tian Lan, Peng Wei, Guru Venkataramani:
AccMER: Accelerating Multi-Agent Experience Replay with Cache Locality-Aware Prioritization. ASAP 2023: 205-212 - [c50]Yongsheng Mei, Hanhan Zhou, Tian Lan, Guru Venkataramani, Peng Wei:
MAC-PO: Multi-Agent Experience Replay via Collective Priority Optimization. AAMAS 2023: 466-475 - [c49]Preet Derasari, Kailash Gogineni, Guru Venkataramani:
MAYAVI: A Cyber-Deception Hardware for Memory Load-Stores. ACM Great Lakes Symposium on VLSI 2023: 563-568 - [c48]Yongsheng Mei, Guru Venkataramani, Tian Lan:
Exploiting Partial Common Information Microstructure for Multi-modal Brain Tumor Segmentation. ML4MHD 2023: 64-85 - [c47]Hanhan Zhou, Tian Lan, Guru Venkataramani, Wenbo Ding:
Every Parameter Matters: Ensuring the Convergence of Federated Learning with Dynamic Heterogeneous Models Reduction. NeurIPS 2023 - [i17]Yongsheng Mei, Tian Lan, Guru Venkataramani:
Exploiting Partial Common Information Microstructure for Multi-Modal Brain Tumor Segmentation. CoRR abs/2302.02521 (2023) - [i16]Kailash Gogineni, Peng Wei, Tian Lan, Guru Venkataramani:
Scalability Bottlenecks in Multi-Agent Reinforcement Learning Systems. CoRR abs/2302.05007 (2023) - [i15]Yongsheng Mei, Hanhan Zhou, Tian Lan, Guru Venkataramani, Peng Wei:
MAC-PO: Multi-Agent Experience Replay via Collective Priority Optimization. CoRR abs/2302.10418 (2023) - [i14]Kailash Gogineni, Peng Wei, Tian Lan, Guru Venkataramani:
Towards Efficient Multi-Agent Learning Systems. CoRR abs/2305.13411 (2023) - [i13]Kailash Gogineni, Yongsheng Mei, Peng Wei, Tian Lan, Guru Venkataramani:
AccMER: Accelerating Multi-Agent Experience Replay with Cache Locality-aware Prioritization. CoRR abs/2306.00187 (2023) - [i12]Hanhan Zhou, Tian Lan, Guru Venkataramani, Wenbo Ding:
Every Parameter Matters: Ensuring the Convergence of Federated Learning with Dynamic Heterogeneous Models Reduction. CoRR abs/2310.08670 (2023) - 2022
- [c46]Hongyu Fang, Milos Doroslovacki, Guru Venkataramani:
SC-K9: A Self-synchronizing Framework to Counter Micro-architectural Side Channels. ASP-DAC 2022: 11-18 - [c45]Kailash Gogineni, Yongsheng Mei, Guru Venkataramani, Tian Lan:
Verify-Pro: A Framework for Server Authentication Using Communication Protocol Dialects. MILCOM 2022: 450-457 - [c44]Kailash Gogineni, Preet Derasari, Guru Venkataramani:
Foreseer: Efficiently Forecasting Malware Event Series with Long Short-Term Memory. SEED 2022: 97-108 - [i11]Hanhan Zhou, Tian Lan, Guru Venkataramani, Wenbo Ding:
On the Convergence of Heterogeneous Federated Learning with Arbitrary Adaptive Online Model Pruning. CoRR abs/2201.11803 (2022) - [i10]Kailash Gogineni, Yongsheng Mei, Guru Venkataramani, Tian Lan:
A Framework for Server Authentication using Communication Protocol Dialects. CoRR abs/2202.00500 (2022) - 2021
- [j19]Hongyu Fang, Sai Santosh Dayapule, Fan Yao, Milos Doroslovacki, Guru Venkataramani:
Defeating Cache Timing Channels with Hardware Prefetchers. IEEE Des. Test 38(3): 7-14 (2021) - [c43]Yongsheng Mei, Kailash Gogineni, Tian Lan, Guru Venkataramani:
MPD: Moving Target Defense Through Communication Protocol Dialects. SecureComm (1) 2021: 100-119 - [i9]Hongfa Xue, Yongsheng Mei, Kailash Gogineni, Guru Venkataramani, Tian Lan:
Integrated Reasoning Engine for Pointer-related Code Clone Detection. CoRR abs/2105.11933 (2021) - [i8]Yongsheng Mei, Kailash Gogineni, Tian Lan, Guru Venkataramani:
MPD: Moving Target Defense through Communication Protocol Dialects. CoRR abs/2110.03798 (2021) - [i7]Hanhan Zhou, Tian Lan, Guru Venkataramani:
PT-VTON: an Image-Based Virtual Try-On Network with Progressive Pose Attention Transfer. CoRR abs/2111.12167 (2021) - [i6]Sai Santosh Dayapule, Kathy Nguyen, Gregory Kahl, Suresh Subramaniam, Guru Venkataramani:
Popcorns-Pro: A Cooperative Network-Server Approach for Data Center Energy Optimization. CoRR abs/2111.15502 (2021) - 2020
- [j18]Yurong Chen, Hongfa Xue, Tian Lan, Guru Venkataramani:
CHOP: Bypassing runtime bounds checking through convex hull Optimization. Comput. Secur. 90: 101708 (2020) - [j17]Hongyu Fang, Sai Santosh Dayapule, Fan Yao, Milos Doroslovacki, Guru Venkataramani:
Cache-Zoomer: On-demand High-resolution Cache Monitoring for Security. J. Hardw. Syst. Secur. 4(3): 180-195 (2020) - [c42]Hongyu Fang, Milos Doroslovacki, Guru Venkataramani:
Reuse-trap: Re-purposing Cache Reuse Distance to Defend against Side Channel Leakage. DAC 2020: 1-6 - [c41]Min Tian, Arun Vishwanath, Guru Venkataramani, Suresh Subramaniam:
SpinSmart: Exploring Optimal Server Fan Speeds to Improve Overall System Energy Consumption. e-Energy 2020: 474-481 - [c40]Hongfa Xue, Yongsheng Mei, Kailash Gogineni, Guru Venkataramani, Tian Lan:
Twin-Finder: Integrated Reasoning Engine for Pointer-Related Code Clone Detection. IWSC 2020: 1-7 - [c39]Preet Derasari, Siva Koppineedi, Guru Venkataramani:
Can Hardware Performance Counters Detect Adversarial Inputs? MWSCAS 2020: 945-948
2010 – 2019
- 2019
- [j16]Hongfa Xue, Shaowen Sun, Guru Venkataramani, Tian Lan:
Machine Learning-Based Analysis of Program Binaries: A Comprehensive Study. IEEE Access 7: 65889-65912 (2019) - [j15]Hongyu Fang, Sai Santosh Dayapule, Fan Yao, Milos Doroslovacki, Guru Venkataramani:
PrODACT: Prefetch-Obfuscator to Defend Against Cache Timing Channels. Int. J. Parallel Program. 47(4): 571-594 (2019) - [j14]Fan Yao, Milos Doroslovacki, Guru Venkataramani:
Covert Timing Channels Exploiting Cache Coherence Hardware: Characterization and Defense. Int. J. Parallel Program. 47(4): 595-620 (2019) - [j13]Fan Yao, Hongyu Fang, Milos Doroslovacki, Guru Venkataramani:
Leveraging Cache Management Hardware for Practical Defense Against Cache Timing Channel Attacks. IEEE Micro 39(4): 8-16 (2019) - [j12]Hongfa Xue, Yurong Chen, Guru Venkataramani, Tian Lan:
AMASS: Automated Software Mass Customization via Feature Identification and Tailoring. EAI Endorsed Trans. Security Safety 6(20): e4 (2019) - [j11]Fan Yao, Jingxin Wu, Guru Venkataramani, Suresh Subramaniam:
TS-BatPro: Improving Energy Efficiency in Data Centers by Leveraging Temporal-Spatial Batching. IEEE Trans. Green Commun. Netw. 3(1): 236-249 (2019) - [c38]Sai Santosh Dayapule, Fan Yao, Guru Venkataramani:
PowerStar: Improving Power Efficiency in Heterogenous Processors for Bursty Workloads with Approximate Computing. CloudCom 2019: 175-182 - [c37]Hongyu Fang, Milos Doroslovacki, Guru Venkataramani:
EraseMe: A Defense Mechanism against Information Leakage exploiting GPU Memory. ACM Great Lakes Symposium on VLSI 2019: 319-322 - [c36]Fan Yao, Hongyu Fang, Milos Doroslovacki, Guru Venkataramani:
COTSknight: Practical Defense against Cache Timing Channel Attacks using Cache Monitoring and Partitioning Technologies. HOST 2019: 121-130 - [c35]Hongyu Fang, Fan Yao, Milos Doroslovacki, Guru Venkataramani:
Negative Correlation, Non-linear Filtering, and Discovering of Repetitiveness for Cache Timing Channel Detection. ICASSP 2019: 2522-2526 - [c34]Fan Yao, Kathy Ngyugen, Sai Santosh Dayapule, Jingxin Wu, Bingqian Lu, Suresh Subramaniam, Guru Venkataramani:
HolDCSim: A Holistic Simulator for Data Centers. IISWC 2019: 239-242 - [c33]Yurong Chen, Tian Lan, Guru Venkataramani:
CustomPro: Network Protocol Customization Through Cross-Host Feature Analysis. SecureComm (2) 2019: 67-85 - [c32]Hongfa Xue, Yurong Chen, Guru Venkataramani, Tian Lan:
Hecate: Automated Customization of Program and Communication Features to Reduce Attack Surfaces. SecureComm (2) 2019: 305-319 - [i5]Fan Yao, Guru Venkataramani:
Architecting Non-Volatile Main Memory to Guard Against Persistence-based Attacks. CoRR abs/1902.03518 (2019) - [i4]Fan Yao, Hongyu Fang, Milos Doroslovacki, Guru Venkataramani:
Towards a Better Indicator for Cache Timing Channels. CoRR abs/1902.04711 (2019) - [i3]Yurong Chen, Hongfa Xue, Tian Lan, Guru Venkataramani:
CHOP: Bypassing Runtime Bounds Checking Through Convex Hull OPtimization. CoRR abs/1907.04241 (2019) - [i2]Fan Yao, Kathy Ngyugen, Sai Santosh Dayapule, Jingxin Wu, Bingqian Liu, Suresh Subramaniam, Guru Venkataramani:
HolDCSim: A Holistic Simulator for Data Centers. CoRR abs/1909.13548 (2019) - [i1]Hongfa Xue, Guru Venkataramani, Tian Lan:
Twin-Finder: Integrated Reasoning Engine for Pointer-related Code Clone Detection. CoRR abs/1911.00561 (2019) - 2018
- [c31]Hongyu Fang, Sai Santosh Dayapule, Fan Yao, Milos Doroslovacki, Guru Venkataramani:
A Noise-resilient Detection Method against Advanced Cache Timing Channel Attack. ACSSC 2018: 237-241 - [c30]Hongfa Xue, Yurong Chen, Guru Venkataramani, Tian Lan, Guang Jin, Jason H. Li:
MORPH: Enhancing System Security through Interactive Customization of Application and Communication Protocol Features. CCS 2018: 2315-2317 - [c29]Hongyu Fang, Sai Santosh Dayapule, Fan Yao, Milos Doroslovacki, Guru Venkataramani:
Prefetch-guard: Leveraging hardware prefetches to defend against cache timing channels. HOST 2018: 187-190 - [c28]Fan Yao, Milos Doroslovacki, Guru Venkataramani:
Are Coherence Protocol States Vulnerable to Information Leakage? HPCA 2018: 168-179 - [c27]Bingqian Lu, Sai Santosh Dayapule, Fan Yao, Jingxin Wu, Guru Venkataramani, Suresh Subramaniam:
PopCorns: Power Optimization Using a Cooperative Network-Server Approach for Data Centers. ICCCN 2018: 1-9 - [c26]Arkaprava Basu, Joseph L. Greathouse, Guru Venkataramani, Ján Veselý:
Interference from GPU System Service Requests. IISWC 2018: 179-190 - [c25]Hongfa Xue, Guru Venkataramani, Tian Lan:
Clone-hunter: accelerated bound checks elimination via binary code clone detection. MAPL@PLDI 2018: 11-19 - 2017
- [c24]Fan Yao, Jingxin Wu, Suresh Subramaniam, Guru Venkataramani:
WASP: Workload Adaptive Energy-Latency Optimization in Server Farms Using Server Low-Power States. CLOUD 2017: 171-178 - [c23]Yurong Chen, Tian Lan, Guru Venkataramani:
DamGate: Dynamic Adaptive Multi-feature Gating in Program Binaries. FEAST@CCS 2017: 23-29 - [c22]Fan Yao, Yongbo Li, Yurong Chen, Hongfa Xue, Tian Lan, Guru Venkataramani:
StatSym: Vulnerable Path Discovery through Statistics-Guided Symbolic Execution. DSN 2017: 109-120 - [c21]Fan Yao, Jingxin Wu, Guru Venkataramani, Suresh Subramaniam:
TS-Bat: Leveraging Temporal-Spatial Batching for Data Center Energy Optimization. GLOBECOM 2017: 1-6 - [c20]Fan Yao, Guru Venkataramani, Milos Doroslovacki:
Covert Timing Channels Exploiting Non-Uniform Memory Access based Architectures. ACM Great Lakes Symposium on VLSI 2017: 155-160 - [c19]Yongbo Li, Yurong Chen, Tian Lan, Guru Venkataramani:
MobiQoR: Pushing the Envelope of Mobile Edge Computing Via Quality-of-Result Optimization. ICDCS 2017: 1261-1270 - [c18]Hongfa Xue, Yurong Chen, Fan Yao, Yongbo Li, Tian Lan, Guru Venkataramani:
SIMBER: Eliminating Redundant Memory Bound Checks via Statistical Inference. SEC 2017: 413-426 - [c17]Murugappan Alagappan, Jeyavijayan Rajendran, Milos Doroslovacki, Guru Venkataramani:
DFS covert channels on multi-core platforms. VLSI-SoC 2017: 1-6 - 2016
- [j10]Jie Chen, Guru Venkataramani:
enDebug: A hardware-software framework for automated energy debugging. J. Parallel Distributed Comput. 96: 121-133 (2016) - [j9]Guru Venkataramani, Jie Chen, Milos Doroslovacki:
Detecting Hardware Covert Timing Channels. IEEE Micro 36(5): 17-27 (2016) - [j8]Yongbo Li, Fan Yao, Tian Lan, Guru Venkataramani:
SARRE: Semantics-Aware Rule Recommendation and Enforcement for Event Paths on Android. IEEE Trans. Inf. Forensics Secur. 11(12): 2748-2762 (2016) - 2015
- [j7]Jie Chen, Guru Venkataramani:
A Hardware-Software Cooperative Approach for Application Energy Profiling. IEEE Comput. Archit. Lett. 14(1): 5-8 (2015) - [c16]Fan Yao, Jingxin Wu, Guru Venkataramani, Suresh Subramaniam:
A Dual Delay Timer Strategy for Optimizing Server Farm Energy. CloudCom 2015: 258-265 - [c15]Yongbo Li, Fan Yao, Tian Lan, Guru Venkataramani:
POSTER: Semantics-Aware Rule Recommendation and Enforcement for Event Paths. SecureComm 2015: 572-576 - 2014
- [j6]Jie Chen, Guru Venkataramani, H. Howie Huang:
Exploring Dynamic Redundancy to Resuscitate Faulty PCM Blocks. ACM J. Emerg. Technol. Comput. Syst. 10(4): 31:1-31:23 (2014) - [c14]Fan Yao, Jingxin Wu, Guru Venkataramani, Suresh Subramaniam:
A comparative analysis of data center network architectures. ICC 2014: 3106-3111 - [c13]Jie Chen, Guru Venkataramani:
An algorithm for detecting contention-based covert timing channels on shared hardware. HASP@ISCA 2014: 1:1-1:8 - [c12]Jie Chen, Guru Venkataramani:
CC-Hunter: Uncovering Covert Timing Channels on Shared Processor Hardware. MICRO 2014: 216-228 - 2013
- [c11]Jie Chen, Fan Yao, Guru Venkataramani:
Watts-inside: A hardware-software cooperative approach for Multicore Power Debugging. ICCD 2013: 335-342 - [c10]Fan Yao, Jie Chen, Guru Venkataramani:
JOP-alarm: Detecting jump-oriented programming-based anomalies in applications. ICCD 2013: 467-470 - 2012
- [j5]Jie Chen, Guru Venkataramani, Gabriel Parmer:
The Need for Power Debugging in the Multi-Core Environment. IEEE Comput. Archit. Lett. 11(2): 57-60 (2012) - [j4]Ioannis Doudalis, James A. Clause, Guru Venkataramani, Milos Prvulovic, Alessandro Orso:
Effective and Efficient Memory Protection Using Dynamic Tainting. IEEE Trans. Computers 61(1): 87-100 (2012) - [c9]Jie Chen, Guru Venkataramani, H. Howie Huang:
RePRAM: Re-cycling PRAM faulty blocks for extended lifetime. DSN 2012: 1-12 - [c8]Qi Wang, Jiguo Song, Gabriel Parmer, Andrew Sweeney, Guru Venkataramani:
Increasing Memory Utilization with Transient Memory Scheduling. RTSS 2012: 248-259 - 2011
- [j3]Jie Chen, Ron Chi-Lung Chiang, H. Howie Huang, Guru Venkataramani:
Energy-aware writes to non-volatile main memory. ACM SIGOPS Oper. Syst. Rev. 45(3): 48-52 (2011) - [j2]Guru Venkataramani, Christopher J. Hughes, Sanjeev Kumar, Milos Prvulovic:
DeFT: Design space exploration for on-the-fly detection of coherence misses. ACM Trans. Archit. Code Optim. 8(2): 8:1-8:27 (2011) - [c7]Jie Chen, Zachary Winter, Guru Venkataramani, H. Howie Huang:
rPRAM: Exploring Redundancy Techniques to Improve Lifetime of PCM-based Main Memory. PACT 2011: 201-202 - [c6]Jungju Oh, Christopher J. Hughes, Guru Venkataramani, Milos Prvulovic:
LIME: a framework for debugging load imbalance in multi-threaded execution. ICSE 2011: 201-210 - [c5]Jie Chen, Ron Chi-Lung Chiang, H. Howie Huang, Guru Venkataramani:
Energy-aware writes to non-volatile main memory. HotPower@SOSP 2011: 6:1-6:5
2000 – 2009
- 2009
- [j1]Guru Venkataramani, Ioannis Doudalis, Yan Solihin, Milos Prvulovic:
MemTracker: An accelerator for memory debugging and monitoring. ACM Trans. Archit. Code Optim. 6(2): 5:1-5:33 (2009) - 2008
- [c4]Guru Venkataramani, Ioannis Doudalis, Yan Solihin, Milos Prvulovic:
FlexiTaint: A programmable accelerator for dynamic taint propagation. HPCA 2008: 173-184 - 2007
- [c3]Guru Venkataramani, Brandyn Roemer, Yan Solihin, Milos Prvulovic:
MemTracker: Efficient and Programmable Support for Memory Access Monitoring and Debugging. HPCA 2007: 273-284 - 2006
- [c2]Jianli Shen, Guru Venkataramani, Milos Prvulovic:
Tradeoffs in fine-grained heap memory protection. ASID 2006: 52-57 - [c1]Mazen Kharbutli, Xiaowei Jiang, Yan Solihin, Guru Venkataramani, Milos Prvulovic:
Comprehensively and efficiently protecting the heap. ASPLOS 2006: 207-218
Coauthor Index
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last updated on 2024-10-07 22:20 CEST by the dblp team
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