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1. Measuring memorization through probabilistic discoverable extraction

Author

Hayes, Jamie, Swanberg, Marika, Chaudhari, Harsh, Yona, Itay, and Shumailov, Ilia

Subjects
Computer Science - Machine Learning
Abstract

Large language models (LLMs) are susceptible to memorizing training data, raising concerns due to the potential extraction of sensitive information. Current methods to measure memorization rates of LLMs, primarily discoverable extraction (Carlini et al., 2022), rely on single-sequence greedy sampling, potentially underestimating the true extent of memorization. This paper introduces a probabilistic relaxation of discoverable extraction that quantifies the probability of extracting a target sequence within a set of generated samples, considering various sampling schemes and multiple attempts. This approach addresses the limitations of reporting memorization rates through discoverable extraction by accounting for the probabilistic nature of LLMs and user interaction patterns. Our experiments demonstrate that this probabilistic measure can reveal cases of higher memorization rates compared to rates found through discoverable extraction. We further investigate the impact of different sampling schemes on extractability, providing a more comprehensive and realistic assessment of LLM memorization and its associated risks. Our contributions include a new probabilistic memorization definition, empirical evidence of its effectiveness, and a thorough evaluation across different models, sizes, sampling schemes, and training data repetitions.

Published
2024

2. UTrace: Poisoning Forensics for Private Collaborative Learning

Author

Rose, Evan, Lycklama, Hidde, Chaudhari, Harsh, Hithnawi, Anwar, and Oprea, Alina

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Privacy-preserving machine learning (PPML) enables multiple data owners to contribute their data privately to a set of servers that run a secure multi-party computation (MPC) protocol to train a joint ML model. In these protocols, the input data remains private throughout the training process, and only the resulting model is made available. While this approach benefits privacy, it also exacerbates the risks of data poisoning, where compromised data owners induce undesirable model behavior by contributing malicious datasets. Existing MPC mechanisms can mitigate certain poisoning attacks, but these measures are not exhaustive. To complement existing poisoning defenses, we introduce UTrace: a framework for User-level Traceback of poisoning attacks in PPML. Utrace computes user responsibility scores using gradient similarity metrics aggregated across the most relevant samples in an owner's dataset. UTrace is effective at low poisoning rates and is resilient to poisoning attacks distributed across multiple data owners, unlike existing unlearning-based methods. We introduce methods for checkpointing gradients with low storage overhead, enabling traceback in the absence of data owners at deployment time. We also design several optimizations that reduce traceback time and communication in MPC. We provide a comprehensive evaluation of UTrace across four datasets from three data modalities (vision, text, and malware) and show its effectiveness against 10 poisoning attacks., Comment: 28 pages, 10 figures

Published
2024

3. Phantom: General Trigger Attacks on Retrieval Augmented Language Generation

Author

Chaudhari, Harsh, Severi, Giorgio, Abascal, John, Jagielski, Matthew, Choquette-Choo, Christopher A., Nasr, Milad, Nita-Rotaru, Cristina, and Oprea, Alina

Subjects
Computer Science - Cryptography and Security, Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Retrieval Augmented Generation (RAG) expands the capabilities of modern large language models (LLMs), by anchoring, adapting, and personalizing their responses to the most relevant knowledge sources. It is particularly useful in chatbot applications, allowing developers to customize LLM output without expensive retraining. Despite their significant utility in various applications, RAG systems present new security risks. In this work, we propose new attack vectors that allow an adversary to inject a single malicious document into a RAG system's knowledge base, and mount a backdoor poisoning attack. We design Phantom, a general two-stage optimization framework against RAG systems, that crafts a malicious poisoned document leading to an integrity violation in the model's output. First, the document is constructed to be retrieved only when a specific trigger sequence of tokens appears in the victim's queries. Second, the document is further optimized with crafted adversarial text that induces various adversarial objectives on the LLM output, including refusal to answer, reputation damage, privacy violations, and harmful behaviors. We demonstrate our attacks on multiple LLM architectures, including Gemma, Vicuna, and Llama, and show that they transfer to GPT-3.5 Turbo and GPT-4. Finally, we successfully conducted a Phantom attack on NVIDIA's black-box production RAG system, "Chat with RTX".

Published
2024

4. L3Cube-MahaSocialNER: A Social Media based Marathi NER Dataset and BERT models

Author

Chaudhari, Harsh, Patil, Anuja, Lavekar, Dhanashree, Khairnar, Pranav, and Joshi, Raviraj

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

This work introduces the L3Cube-MahaSocialNER dataset, the first and largest social media dataset specifically designed for Named Entity Recognition (NER) in the Marathi language. The dataset comprises 18,000 manually labeled sentences covering eight entity classes, addressing challenges posed by social media data, including non-standard language and informal idioms. Deep learning models, including CNN, LSTM, BiLSTM, and Transformer models, are evaluated on the individual dataset with IOB and non-IOB notations. The results demonstrate the effectiveness of these models in accurately recognizing named entities in Marathi informal text. The L3Cube-MahaSocialNER dataset offers user-centric information extraction and supports real-time applications, providing a valuable resource for public opinion analysis, news, and marketing on social media platforms. We also show that the zero-shot results of the regular NER model are poor on the social NER test set thus highlighting the need for more social NER datasets. The datasets and models are publicly available at https://github.com/l3cube-pune/MarathiNLP, Comment: Accepted at Forum for Information Retrieval Evaluation (FIRE 2023)

Published
2023
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5. On Significance of Subword tokenization for Low Resource and Efficient Named Entity Recognition: A case study in Marathi

Author

Chaudhari, Harsh, Patil, Anuja, Lavekar, Dhanashree, Khairnar, Pranav, Joshi, Raviraj, and Pande, Sachin

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Named Entity Recognition (NER) systems play a vital role in NLP applications such as machine translation, summarization, and question-answering. These systems identify named entities, which encompass real-world concepts like locations, persons, and organizations. Despite extensive research on NER systems for the English language, they have not received adequate attention in the context of low resource languages. In this work, we focus on NER for low-resource language and present our case study in the context of the Indian language Marathi. The advancement of NLP research revolves around the utilization of pre-trained transformer models such as BERT for the development of NER models. However, we focus on improving the performance of shallow models based on CNN, and LSTM by combining the best of both worlds. In the era of transformers, these traditional deep learning models are still relevant because of their high computational efficiency. We propose a hybrid approach for efficient NER by integrating a BERT-based subword tokenizer into vanilla CNN/LSTM models. We show that this simple approach of replacing a traditional word-based tokenizer with a BERT-tokenizer brings the accuracy of vanilla single-layer models closer to that of deep pre-trained models like BERT. We show the importance of using sub-word tokenization for NER and present our study toward building efficient NLP systems. The evaluation is performed on L3Cube-MahaNER dataset using tokenizers from MahaBERT, MahaGPT, IndicBERT, and mBERT., Comment: Accepted at ICDAM 2023

Published
2023
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6. Chameleon: Increasing Label-Only Membership Leakage with Adaptive Poisoning

Author

Chaudhari, Harsh, Severi, Giorgio, Oprea, Alina, and Ullman, Jonathan

Subjects
Computer Science - Machine Learning
Abstract

The integration of machine learning (ML) in numerous critical applications introduces a range of privacy concerns for individuals who provide their datasets for model training. One such privacy risk is Membership Inference (MI), in which an attacker seeks to determine whether a particular data sample was included in the training dataset of a model. Current state-of-the-art MI attacks capitalize on access to the model's predicted confidence scores to successfully perform membership inference, and employ data poisoning to further enhance their effectiveness. In this work, we focus on the less explored and more realistic label-only setting, where the model provides only the predicted label on a queried sample. We show that existing label-only MI attacks are ineffective at inferring membership in the low False Positive Rate (FPR) regime. To address this challenge, we propose a new attack Chameleon that leverages a novel adaptive data poisoning strategy and an efficient query selection method to achieve significantly more accurate membership inference than existing label-only attacks, especially at low FPRs., Comment: To appear at International Conference on Learning Representations (ICLR) 2024

Published
2023

7. SNAP: Efficient Extraction of Private Properties with Poisoning

Author

Chaudhari, Harsh, Abascal, John, Oprea, Alina, Jagielski, Matthew, Tramèr, Florian, and Ullman, Jonathan

Subjects
Computer Science - Machine Learning, Computer Science - Cryptography and Security
Abstract

Property inference attacks allow an adversary to extract global properties of the training dataset from a machine learning model. Such attacks have privacy implications for data owners sharing their datasets to train machine learning models. Several existing approaches for property inference attacks against deep neural networks have been proposed, but they all rely on the attacker training a large number of shadow models, which induces a large computational overhead. In this paper, we consider the setting of property inference attacks in which the attacker can poison a subset of the training dataset and query the trained target model. Motivated by our theoretical analysis of model confidences under poisoning, we design an efficient property inference attack, SNAP, which obtains higher attack success and requires lower amounts of poisoning than the state-of-the-art poisoning-based property inference attack by Mahloujifar et al. For example, on the Census dataset, SNAP achieves 34% higher success rate than Mahloujifar et al. while being 56.5x faster. We also extend our attack to infer whether a certain property was present at all during training and estimate the exact proportion of a property of interest efficiently. We evaluate our attack on several properties of varying proportions from four datasets and demonstrate SNAP's generality and effectiveness. An open-source implementation of SNAP can be found at https://github.com/johnmath/snap-sp23., Comment: 28 pages, 16 figures

Published
2022

8. SafeNet: The Unreasonable Effectiveness of Ensembles in Private Collaborative Learning

Author

Chaudhari, Harsh, Jagielski, Matthew, and Oprea, Alina

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Secure multiparty computation (MPC) has been proposed to allow multiple mutually distrustful data owners to jointly train machine learning (ML) models on their combined data. However, by design, MPC protocols faithfully compute the training functionality, which the adversarial ML community has shown to leak private information and can be tampered with in poisoning attacks. In this work, we argue that model ensembles, implemented in our framework called SafeNet, are a highly MPC-amenable way to avoid many adversarial ML attacks. The natural partitioning of data amongst owners in MPC training allows this approach to be highly scalable at training time, provide provable protection from poisoning attacks, and provably defense against a number of privacy attacks. We demonstrate SafeNet's efficiency, accuracy, and resilience to poisoning on several machine learning datasets and models trained in end-to-end and transfer learning scenarios. For instance, SafeNet reduces backdoor attack success significantly, while achieving $39\times$ faster training and $36 \times$ less communication than the four-party MPC framework of Dalskov et al. Our experiments show that ensembling retains these benefits even in many non-iid settings. The simplicity, cheap setup, and robustness properties of ensembling make it a strong first choice for training ML models privately in MPC.

Published
2022

9. Trident: Efficient 4PC Framework for Privacy Preserving Machine Learning

Author

Chaudhari, Harsh, Rachuri, Rahul, and Suresh, Ajith

Subjects
Computer Science - Machine Learning, Computer Science - Cryptography and Security, Statistics - Machine Learning
Abstract

Machine learning has started to be deployed in fields such as healthcare and finance, which propelled the need for and growth of privacy-preserving machine learning (PPML). We propose an actively secure four-party protocol (4PC), and a framework for PPML, showcasing its applications on four of the most widely-known machine learning algorithms -- Linear Regression, Logistic Regression, Neural Networks, and Convolutional Neural Networks. Our 4PC protocol tolerating at most one malicious corruption is practically efficient as compared to the existing works. We use the protocol to build an efficient mixed-world framework (Trident) to switch between the Arithmetic, Boolean, and Garbled worlds. Our framework operates in the offline-online paradigm over rings and is instantiated in an outsourced setting for machine learning. Also, we propose conversions especially relevant to privacy-preserving machine learning. The highlights of our framework include using a minimal number of expensive circuits overall as compared to ABY3. This can be seen in our technique for truncation, which does not affect the online cost of multiplication and removes the need for any circuits in the offline phase. Our B2A conversion has an improvement of $\mathbf{7} \times$ in rounds and $\mathbf{18} \times$ in the communication complexity. The practicality of our framework is argued through improvements in the benchmarking of the aforementioned algorithms when compared with ABY3. All the protocols are implemented over a 64-bit ring in both LAN and WAN settings. Our improvements go up to $\mathbf{187} \times$ for the training phase and $\mathbf{158} \times$ for the prediction phase when observed over LAN and WAN., Comment: This work appeared at the 26th Annual Network and Distributed System Security Symposium (NDSS) 2020. Update: An improved version of this framework is available at arXiv:2106.02850

Published
2019
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10. ASTRA: High Throughput 3PC over Rings with Application to Secure Prediction

Author

Chaudhari, Harsh, Choudhury, Ashish, Patra, Arpita, and Suresh, Ajith

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

The concrete efficiency of secure computation has been the focus of many recent works. In this work, we present concretely-efficient protocols for secure $3$-party computation (3PC) over a ring of integers modulo $2^{\ell}$ tolerating one corruption, both with semi-honest and malicious security. Owing to the fact that computation over ring emulates computation over the real-world system architectures, secure computation over ring has gained momentum of late. Cast in the offline-online paradigm, our constructions present the most efficient online phase in concrete terms. In the semi-honest setting, our protocol requires communication of $2$ ring elements per multiplication gate during the {\it online} phase, attaining a per-party cost of {\em less than one element}. This is achieved for the first time in the regime of 3PC. In the {\it malicious} setting, our protocol requires communication of $4$ elements per multiplication gate during the online phase, beating the state-of-the-art protocol by $5$ elements. Realized with both the security notions of selective abort and fairness, the malicious protocol with fairness involves slightly more communication than its counterpart with abort security for the output gates {\em alone}. We apply our techniques from $3$PC in the regime of secure server-aided machine-learning (ML) inference for a range of prediction functions-- linear regression, linear SVM regression, logistic regression, and linear SVM classification. Our setting considers a model-owner with trained model parameters and a client with a query, with the latter willing to learn the prediction of her query based on the model parameters of the former. The inputs and computation are outsourced to a set of three non-colluding servers. Our constructions catering to both semi-honest and the malicious world, invariably perform better than the existing constructions., Comment: This article is the full and extended version of an article appeared in ACM CCSW 2019

Published
2019
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12. List of contributors

Author

Abdelhamid, Hani Nasser, primary, Abdel-Samie, Mohamed Abdel-Shafi, additional, Abdulla, Galal, additional, Abel, Inobeme, additional, Abid, Sharjeel, additional, Abidi, Noureddine, additional, Adefusika, Adekoya Mathew, additional, Ahmed, Firoz, additional, Ahmed, Mohammad Boshir, additional, Ali, Mohammad, additional, Alom, Jahangir, additional, Arafat, M. Tarik, additional, Arik, Buket, additional, Busuioc, Cristina, additional, Chandrasekaran, K., additional, Chaudhari, Harsh, additional, Deleanu, Iuliana, additional, Devi, N. Sri Durga, additional, Dhanalekshmi, U.M., additional, Engel, Juliana Both, additional, Guerrero, Antonio, additional, Haiying, Cui, additional, Hasan, Md. Saif, additional, Hossain, Md Tanjim, additional, Hussain, Tanveer, additional, Isopencu, Gabriela, additional, Jayan, Jitha S., additional, Jiménez-Rosado, Mercedes, additional, Joseph, Kuruvilla, additional, Lin, Lin, additional, Liyanage, Sumedha, additional, Luchese, Cláudia Leites, additional, Mocanu, Alexandra, additional, Mondal, Md. Ibrahim H., additional, Moradi, Maryam, additional, Nazir, Ahsan, additional, Nur, Hadi, additional, Oluwaseun, Adetunji Charles, additional, Padrão, Jorge, additional, Parajuli, Prakash, additional, Parham, Shokoh, additional, Parvulescu, Oana Cristina, additional, Perez-Puyana, Víctor, additional, Raducanu, Cristian, additional, Rahimi, Shahnaz, additional, Rahman, Md. Saifur, additional, Ribeiro, Ana Isabel, additional, Romero, Alberto, additional, Rosa, Derval dos Santos, additional, Rubio-Valle, José Fernando, additional, Saha, Joykrisna, additional, Saha, Nabanita, additional, Saha, Nibedita, additional, Sáha, Petr, additional, Sáha, Tomáš, additional, Saritha, Appukuttan, additional, Selvasudha, N., additional, Senthilkumar, M., additional, Sethulekshmi, A.S., additional, Song, Xinyu, additional, Souza, Alana Gabrieli, additional, Stoica-Guzun, Anicuta, additional, Sweety, J. Pushpa, additional, Tania, Imana Shahrin, additional, Tessaro, Isabel Cristina, additional, Venu, Gopika, additional, Zargar Kharazi, Anousheh, additional, and Zille, Andrea, additional

Published
2021
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15. Early loss of radiographic reduction after acute acromioclavicular joint reconstruction: Comparison of open Double Endobutton fixation vs. Nottingham Surgilig

Author

Saraglis Georgios, Chaudhari Harsh, Sanjani Shahrukh Reza, and Khan Anwar

Subjects
acromioclavicular joint dislocation, acj dislocation, double endobutton, nottingham surgilig, tightrope system, lockdown system, Orthopedic surgery, RD701-811
Abstract

Introduction: Surgical treatment is usually recommended for the acute unstable acromioclavicular joint (ACJ) dislocations. Among the wide variety of different surgical techniques, the Double Endobutton and the Nottingham Surgilig technique are two of the most widely acceptable and well described techniques. The aim of this study was to offer a direct comparison of the above techniques in question, analysing the patients outcomes and assessing the risk of early loss of radiographic reduction. Materials and methods: A total of 48 patients who met the inclusion criteria were included in the study. Patients were categorised in two groups (Endobutton and Nottingham Surgilig group) and post operative assessment of the patients was performed using the Oxford Shoulder (OSS) and Constant Murley (CMS) scores. Patient demographics, hand dominance, ACJ classification and co-morbidities were included in the analysis and radiographic evaluation was conducted for both groups. Results: Both techniques provide a good outcome in the management of unstable ACJ dislocations but the risk of early radiographic failure remains higher in the double Endobutton technique (26% vs. 17.39% for the Nottingham Surgilig group). Factors such as patients’ demographics, hand dominance, co-morbidities and grade of ACJ separation do not seem to contribute to radiographic loss of reduction, whereas the incorrect positioning of the coracoid endobutton is a significant factor predisposing to early radiographic failure, P

Published
2022
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21. ASTRA

Author

Chaudhari, Harsh, primary, Choudhury, Ashish, additional, Patra, Arpita, additional, and Suresh, Ajith, additional

Published
2019
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