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1. BeamVQ: Aligning Space-Time Forecasting Model via Self-training on Physics-aware Metrics

Author

Wu, Hao, Shi, Xingjian, Huang, Ziyue, Zhao, Penghao, Xiong, Wei, Xue, Jinbao, Tao, Yangyu, Huang, Xiaomeng, and Wang, Weiyan

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Data-driven deep learning has emerged as the new paradigm to model complex physical space-time systems. These data-driven methods learn patterns by optimizing statistical metrics and tend to overlook the adherence to physical laws, unlike traditional model-driven numerical methods. Thus, they often generate predictions that are not physically realistic. On the other hand, by sampling a large amount of high quality predictions from a data-driven model, some predictions will be more physically plausible than the others and closer to what will happen in the future. Based on this observation, we propose \emph{Beam search by Vector Quantization} (BeamVQ) to enhance the physical alignment of data-driven space-time forecasting models. The key of BeamVQ is to train model on self-generated samples filtered with physics-aware metrics. To be flexibly support different backbone architectures, BeamVQ leverages a code bank to transform any encoder-decoder model to the continuous state space into discrete codes. Afterwards, it iteratively employs beam search to sample high-quality sequences, retains those with the highest physics-aware scores, and trains model on the new dataset. Comprehensive experiments show that BeamVQ not only gave an average statistical skill score boost for more than 32% for ten backbones on five datasets, but also significantly enhances physics-aware metrics.

Published
2024

2. Surge Phenomenon in Optimal Learning Rate and Batch Size Scaling

Author

Li, Shuaipeng, Zhao, Penghao, Zhang, Hailin, Sun, Xingwu, Wu, Hao, Jiao, Dian, Wang, Weiyan, Liu, Chengjun, Fang, Zheng, Xue, Jinbao, Tao, Yangyu, Cui, Bin, and Wang, Di

Subjects
Computer Science - Machine Learning
Abstract

In current deep learning tasks, Adam style optimizers such as Adam, Adagrad, RMSProp, Adafactor, and Lion have been widely used as alternatives to SGD style optimizers. These optimizers typically update model parameters using the sign of gradients, resulting in more stable convergence curves. The learning rate and the batch size are the most critical hyperparameters for optimizers, which require careful tuning to enable effective convergence. Previous research has shown that the optimal learning rate increases linearly or follows similar rules with batch size for SGD style optimizers. However, this conclusion is not applicable to Adam style optimizers. In this paper, we elucidate the connection between optimal learning rates and batch sizes for Adam style optimizers through both theoretical analysis and extensive experiments. First, we raise the scaling law between batch sizes and optimal learning rates in the sign of gradient case, in which we prove that the optimal learning rate first rises and then falls as the batch size increases. Moreover, the peak value of the surge will gradually move toward the larger batch size as training progresses. Second, we conducted experiments on various CV and NLP tasks and verified the correctness of the scaling law.

Published
2024

4. Retrieval-Augmented Generation for AI-Generated Content: A Survey

Author

Zhao, Penghao, Zhang, Hailin, Yu, Qinhan, Wang, Zhengren, Geng, Yunteng, Fu, Fangcheng, Yang, Ling, Zhang, Wentao, Jiang, Jie, and Cui, Bin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Advancements in model algorithms, the growth of foundational models, and access to high-quality datasets have propelled the evolution of Artificial Intelligence Generated Content (AIGC). Despite its notable successes, AIGC still faces hurdles such as updating knowledge, handling long-tail data, mitigating data leakage, and managing high training and inference costs. Retrieval-Augmented Generation (RAG) has recently emerged as a paradigm to address such challenges. In particular, RAG introduces the information retrieval process, which enhances the generation process by retrieving relevant objects from available data stores, leading to higher accuracy and better robustness. In this paper, we comprehensively review existing efforts that integrate RAG technique into AIGC scenarios. We first classify RAG foundations according to how the retriever augments the generator, distilling the fundamental abstractions of the augmentation methodologies for various retrievers and generators. This unified perspective encompasses all RAG scenarios, illuminating advancements and pivotal technologies that help with potential future progress. We also summarize additional enhancements methods for RAG, facilitating effective engineering and implementation of RAG systems. Then from another view, we survey on practical applications of RAG across different modalities and tasks, offering valuable references for researchers and practitioners. Furthermore, we introduce the benchmarks for RAG, discuss the limitations of current RAG systems, and suggest potential directions for future research. Github: https://github.com/PKU-DAIR/RAG-Survey., Comment: Citing 353 papers, 22 pages, 1 table, 12 figures. Project: https://github.com/PKU-DAIR/RAG-Survey

Published
2024

5. Experimental Analysis of Large-scale Learnable Vector Storage Compression

Author

Zhang, Hailin, Zhao, Penghao, Miao, Xupeng, Shao, Yingxia, Liu, Zirui, Yang, Tong, and Cui, Bin

Subjects
Computer Science - Machine Learning, Computer Science - Databases, Computer Science - Information Retrieval
Abstract

Learnable embedding vector is one of the most important applications in machine learning, and is widely used in various database-related domains. However, the high dimensionality of sparse data in recommendation tasks and the huge volume of corpus in retrieval-related tasks lead to a large memory consumption of the embedding table, which poses a great challenge to the training and deployment of models. Recent research has proposed various methods to compress the embeddings at the cost of a slight decrease in model quality or the introduction of other overheads. Nevertheless, the relative performance of these methods remains unclear. Existing experimental comparisons only cover a subset of these methods and focus on limited metrics. In this paper, we perform a comprehensive comparative analysis and experimental evaluation of embedding compression. We introduce a new taxonomy that categorizes these techniques based on their characteristics and methodologies, and further develop a modular benchmarking framework that integrates 14 representative methods. Under a uniform test environment, our benchmark fairly evaluates each approach, presents their strengths and weaknesses under different memory budgets, and recommends the best method based on the use case. In addition to providing useful guidelines, our study also uncovers the limitations of current methods and suggests potential directions for future research.

Published
2023

6. Advancing Transformer Architecture in Long-Context Large Language Models: A Comprehensive Survey

Author

Huang, Yunpeng, Xu, Jingwei, Lai, Junyu, Jiang, Zixu, Chen, Taolue, Li, Zenan, Yao, Yuan, Ma, Xiaoxing, Yang, Lijuan, Chen, Hao, Li, Shupeng, and Zhao, Penghao

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning, I.2.7, I.2.6, I.2.11
Abstract

Transformer-based Large Language Models (LLMs) have been applied in diverse areas such as knowledge bases, human interfaces, and dynamic agents, and marking a stride towards achieving Artificial General Intelligence (AGI). However, current LLMs are predominantly pretrained on short text snippets, which compromises their effectiveness in processing the long-context prompts that are frequently encountered in practical scenarios. This article offers a comprehensive survey of the recent advancement in Transformer-based LLM architectures aimed at enhancing the long-context capabilities of LLMs throughout the entire model lifecycle, from pre-training through to inference. We first delineate and analyze the problems of handling long-context input and output with the current Transformer-based models. We then provide a taxonomy and the landscape of upgrades on Transformer architecture to solve these problems. Afterwards, we provide an investigation on wildly used evaluation necessities tailored for long-context LLMs, including datasets, metrics, and baseline models, as well as optimization toolkits such as libraries, frameworks, and compilers to boost the efficacy of LLMs across different stages in runtime. Finally, we discuss the challenges and potential avenues for future research. A curated repository of relevant literature, continuously updated, is available at https://github.com/Strivin0311/long-llms-learning., Comment: 40 pages, 3 figures, 4 tables

Published
2023

7. Learning from Training Dynamics: Identifying Mislabeled Data Beyond Manually Designed Features

Author

Jia, Qingrui, Li, Xuhong, Yu, Lei, Bian, Jiang, Zhao, Penghao, Li, Shupeng, Xiong, Haoyi, and Dou, Dejing

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

While mislabeled or ambiguously-labeled samples in the training set could negatively affect the performance of deep models, diagnosing the dataset and identifying mislabeled samples helps to improve the generalization power. Training dynamics, i.e., the traces left by iterations of optimization algorithms, have recently been proved to be effective to localize mislabeled samples with hand-crafted features. In this paper, beyond manually designed features, we introduce a novel learning-based solution, leveraging a noise detector, instanced by an LSTM network, which learns to predict whether a sample was mislabeled using the raw training dynamics as input. Specifically, the proposed method trains the noise detector in a supervised manner using the dataset with synthesized label noises and can adapt to various datasets (either naturally or synthesized label-noised) without retraining. We conduct extensive experiments to evaluate the proposed method. We train the noise detector based on the synthesized label-noised CIFAR dataset and test such noise detector on Tiny ImageNet, CUB-200, Caltech-256, WebVision and Clothing1M. Results show that the proposed method precisely detects mislabeled samples on various datasets without further adaptation, and outperforms state-of-the-art methods. Besides, more experiments demonstrate that the mislabel identification can guide a label correction, namely data debugging, providing orthogonal improvements of algorithm-centric state-of-the-art techniques from the data aspect., Comment: AAAI23 accepted Conference Paper

Published
2022

9. A Review of Structural Characteristics and Structure-Function Relationship of Two-Peptide (Class IIb) Bacteriocins

Author

ZHAO Penghao, SHANG Jiacui, CHEN Yuhan, DUAN Bofan, MENG Xiangchen

Subjects
two-peptide bacteriocin, gxxxg motif, structure-activity relationship, helix-helix interaction, aromatic amino acids, Food processing and manufacture, TP368-456
Abstract

The two-peptide (class IIb) bacteriocins are generally thermostable small-molecule (< 10 kDa) two-component antimicrobial peptides produced by Gram-positive bacteria. This class of peptides mainly rely on peptide-peptide interactions mediated by typical motifs to form active dimeric transmembrane proteins. Numerous studies have shown that two-peptide bacteriocins have reliable safety and desirable bacteriostatic effect, holding great potential in the control of drug-resistant bacteria. Therefore, the structural features and action mechanisms of two-peptide bacteriocins have received considerable research attention. From the perspectives of the structure formation of two-peptide bacteriocins, peptide-peptide interaction, and peptide-membrane interaction, this article summarizes the mechanism of action of this class of antimicrobial peptides. Meanwhile, the structural regularity of two-peptide bacteriocins and the structural features affecting their activities are elaborated by synthesizing current research. This review will provide new ideas for future research on two-peptide bacteriocins.

Published
2023
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13. Study on Tightening, Anti-Loosening, and Fatigue Resistance Performances of Bolted Joints with Different Anti-Loosening Washers and Nuts.

Author

Zhao, Penghao, Liu, Jianhua, Gong, Hao, and Xue, Fenqi

Subjects
FATIGUE limit, BOLTED joints, FINITE element method
Abstract

Loosening failure of bolted joints often occurs in a vibration environment. This may induce the separation of clamped components and even result in catastrophic consequences in certain situations. Various anti-loosening bolted connections have been developed and widely applied to prevent loosening. Tightening and fatigue resistance performances are also two important characteristics of anti-loosening bolted connections. However, a comprehensive comparison study of the tightening, anti-loosening, and fatigue resistance performances of typical anti-loosening bolted connections is lacking, meaning that there is a lack of material to assist in the selection of anti-loosening bolted connections in engineering. In this study, accurate three-dimensional finite element models of typical anti-loosening bolted connections with the forms of washers or nuts are established. The processes of tightening, vibration-induced loosening, and fatigue are simulated via finite element analysis (FEA). Based on the results of FEA, the tightening, anti-loosening, and fatigue resistance performances of regular bolted joints and several anti-loosening bolted connections are comprehensively compared. The results reveal that bolted joints installed with both a variable-diameter nut and an eccentric double nut are difficult to tighten. We confirm that the researched structures all have superior anti-loosening capacities compared to regular bolted joints. Additionally, the results show that the regular bolted joint achieved the worst fatigue resistance performance, i.e., the application of anti-loosening bolted connections improves fatigue resistance. Finally, the effects of preload distributions on the two nuts in bolted joints with double nuts are discussed in terms of tightening, anti-loosening, and fatigue resistance performances. [ABSTRACT FROM AUTHOR]

Published
2023
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