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1. FALCON: Pinpointing and Mitigating Stragglers for Large-Scale Hybrid-Parallel Training

Author

Wu, Tianyuan, Wang, Wei, Yu, Yinghao, Yang, Siran, Wu, Wenchao, Duan, Qinkai, Yang, Guodong, Wang, Jiamang, Qu, Lin, and Zhang, Liping

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Operating Systems
Abstract

Fail-slows, or stragglers, are common but largely unheeded problems in large-scale hybrid-parallel training that spans thousands of GPU servers and runs for weeks to months. Yet, these problems are not well studied, nor can they be quickly detected and effectively mitigated. In this paper, we first present a characterization study on a shared production cluster with over 10,000 GPUs1. We find that fail-slows are caused by various CPU/GPU computation and cross-node networking issues, lasting from tens of seconds to nearly ten hours, and collectively delaying the average job completion time by 1.34%. The current practice is to manually detect these fail-slows and simply treat them as fail-stops using a checkpoint-and-restart failover approach, which are labor-intensive and time-consuming. In this paper, we propose FALCON, a framework that rapidly identifies fail-slowed GPUs and/or communication links, and effectively tackles them with a novel multi-level mitigation mechanism, all without human intervention. We have applied FALCON to detect human-labeled fail-slows in a production cluster with over 99% accuracy. Cluster deployment further demonstrates that FALCON effectively handles manually injected fail-slows, mitigating the training slowdown by 60.1%., Comment: 17 pages, 20 figures

Published
2024

2. DDK: Distilling Domain Knowledge for Efficient Large Language Models

Author

Liu, Jiaheng, Zhang, Chenchen, Guo, Jinyang, Zhang, Yuanxing, Que, Haoran, Deng, Ken, Bai, Zhiqi, Liu, Jie, Zhang, Ge, Wang, Jiakai, Wu, Yanan, Liu, Congnan, Su, Wenbo, Wang, Jiamang, Qu, Lin, and Zheng, Bo

Subjects
Computer Science - Computation and Language
Abstract

Despite the advanced intelligence abilities of large language models (LLMs) in various applications, they still face significant computational and storage demands. Knowledge Distillation (KD) has emerged as an effective strategy to improve the performance of a smaller LLM (i.e., the student model) by transferring knowledge from a high-performing LLM (i.e., the teacher model). Prevailing techniques in LLM distillation typically use a black-box model API to generate high-quality pretrained and aligned datasets, or utilize white-box distillation by altering the loss function to better transfer knowledge from the teacher LLM. However, these methods ignore the knowledge differences between the student and teacher LLMs across domains. This results in excessive focus on domains with minimal performance gaps and insufficient attention to domains with large gaps, reducing overall performance. In this paper, we introduce a new LLM distillation framework called DDK, which dynamically adjusts the composition of the distillation dataset in a smooth manner according to the domain performance differences between the teacher and student models, making the distillation process more stable and effective. Extensive evaluations show that DDK significantly improves the performance of student models, outperforming both continuously pretrained baselines and existing knowledge distillation methods by a large margin.

Published
2024

3. SwiftDiffusion: Efficient Diffusion Model Serving with Add-on Modules

Author

Li, Suyi, Yang, Lingyun, Jiang, Xiaoxiao, Lu, Hanfeng, An, Dakai, Di, Zhipeng, Lu, Weiyi, Chen, Jiawei, Liu, Kan, Yu, Yinghao, Lan, Tao, Yang, Guodong, Qu, Lin, Zhang, Liping, and Wang, Wei

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Text-to-image (T2I) generation using diffusion models has become a blockbuster service in today's AI cloud. A production T2I service typically involves a serving workflow where a base diffusion model is augmented with various "add-on" modules, notably ControlNet and LoRA, to enhance image generation control. Compared to serving the base model alone, these add-on modules introduce significant loading and computational overhead, resulting in increased latency. In this paper, we present SwiftDiffusion, a system that efficiently serves a T2I workflow through a holistic approach. SwiftDiffusion decouples ControNet from the base model and deploys it as a separate, independently scaled service on dedicated GPUs, enabling ControlNet caching, parallelization, and sharing. To mitigate the high loading overhead of LoRA serving, SwiftDiffusion employs a bounded asynchronous LoRA loading (BAL) technique, allowing LoRA loading to overlap with the initial base model execution by up to k steps without compromising image quality. Furthermore, SwiftDiffusion optimizes base model execution with a novel latent parallelism technique. Collectively, these designs enable SwiftDiffusion to outperform the state-of-the-art T2I serving systems, achieving up to 7.8x latency reduction and 1.6x throughput improvement in serving SDXL models on H800 GPUs, without sacrificing image quality.

Published
2024

4. D-CPT Law: Domain-specific Continual Pre-Training Scaling Law for Large Language Models

Author

Que, Haoran, Liu, Jiaheng, Zhang, Ge, Zhang, Chenchen, Qu, Xingwei, Ma, Yinghao, Duan, Feiyu, Bai, Zhiqi, Wang, Jiakai, Zhang, Yuanxing, Tan, Xu, Fu, Jie, Su, Wenbo, Wang, Jiamang, Qu, Lin, and Zheng, Bo

Subjects
Computer Science - Computation and Language
Abstract

Continual Pre-Training (CPT) on Large Language Models (LLMs) has been widely used to expand the model's fundamental understanding of specific downstream domains (e.g., math and code). For the CPT on domain-specific LLMs, one important question is how to choose the optimal mixture ratio between the general-corpus (e.g., Dolma, Slim-pajama) and the downstream domain-corpus. Existing methods usually adopt laborious human efforts by grid-searching on a set of mixture ratios, which require high GPU training consumption costs. Besides, we cannot guarantee the selected ratio is optimal for the specific domain. To address the limitations of existing methods, inspired by the Scaling Law for performance prediction, we propose to investigate the Scaling Law of the Domain-specific Continual Pre-Training (D-CPT Law) to decide the optimal mixture ratio with acceptable training costs for LLMs of different sizes. Specifically, by fitting the D-CPT Law, we can easily predict the general and downstream performance of arbitrary mixture ratios, model sizes, and dataset sizes using small-scale training costs on limited experiments. Moreover, we also extend our standard D-CPT Law on cross-domain settings and propose the Cross-Domain D-CPT Law to predict the D-CPT law of target domains, where very small training costs (about 1% of the normal training costs) are needed for the target domains. Comprehensive experimental results on six downstream domains demonstrate the effectiveness and generalizability of our proposed D-CPT Law and Cross-Domain D-CPT Law.

Published
2024

10. GBA: A Tuning-free Approach to Switch between Synchronous and Asynchronous Training for Recommendation Model

Author

Su, Wenbo, Zhang, Yuanxing, Cai, Yufeng, Ren, Kaixu, Wang, Pengjie, Yi, Huimin, Song, Yue, Chen, Jing, Deng, Hongbo, Xu, Jian, Qu, Lin, and zheng, Bo

Subjects
Computer Science - Machine Learning, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Information Retrieval
Abstract

High-concurrency asynchronous training upon parameter server (PS) architecture and high-performance synchronous training upon all-reduce (AR) architecture are the most commonly deployed distributed training modes for recommendation models. Although synchronous AR training is designed to have higher training efficiency, asynchronous PS training would be a better choice for training speed when there are stragglers (slow workers) in the shared cluster, especially under limited computing resources. An ideal way to take full advantage of these two training modes is to switch between them upon the cluster status. However, switching training modes often requires tuning hyper-parameters, which is extremely time- and resource-consuming. We find two obstacles to a tuning-free approach: the different distribution of the gradient values and the stale gradients from the stragglers. This paper proposes Global Batch gradients Aggregation (GBA) over PS, which aggregates and applies gradients with the same global batch size as the synchronous training. A token-control process is implemented to assemble the gradients and decay the gradients with severe staleness. We provide the convergence analysis to reveal that GBA has comparable convergence properties with the synchronous training, and demonstrate the robustness of GBA the recommendation models against the gradient staleness. Experiments on three industrial-scale recommendation tasks show that GBA is an effective tuning-free approach for switching. Compared to the state-of-the-art derived asynchronous training, GBA achieves up to 0.2% improvement on the AUC metric, which is significant for the recommendation models. Meanwhile, under the strained hardware resource, GBA speeds up at least 2.4x compared to synchronous training.

Published
2022

11. PICASSO: Unleashing the Potential of GPU-centric Training for Wide-and-deep Recommender Systems

Author

Zhang, Yuanxing, Chen, Langshi, Yang, Siran, Yuan, Man, Yi, Huimin, Zhang, Jie, Wang, Jiamang, Dong, Jianbo, Xu, Yunlong, Song, Yue, Li, Yong, Zhang, Di, Lin, Wei, Qu, Lin, and Zheng, Bo

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Information Retrieval
Abstract

The development of personalized recommendation has significantly improved the accuracy of information matching and the revenue of e-commerce platforms. Recently, it has 2 trends: 1) recommender systems must be trained timely to cope with ever-growing new products and ever-changing user interests from online marketing and social network; 2) SOTA recommendation models introduce DNN modules to improve prediction accuracy. Traditional CPU-based recommender systems cannot meet these two trends, and GPU- centric training has become a trending approach. However, we observe that GPU devices in training recommender systems are underutilized, and they cannot attain an expected throughput improvement as what it has achieved in CV and NLP areas. This issue can be explained by two characteristics of these recommendation models: First, they contain up to a thousand input feature fields, introducing fragmentary and memory-intensive operations; Second, the multiple constituent feature interaction submodules introduce substantial small-sized compute kernels. To remove this roadblock to the development of recommender systems, we propose a novel framework named PICASSO to accelerate the training of recommendation models on commodity hardware. Specifically, we conduct a systematic analysis to reveal the bottlenecks encountered in training recommendation models. We leverage the model structure and data distribution to unleash the potential of hardware through our packing, interleaving, and caching optimization. Experiments show that PICASSO increases the hardware utilization by an order of magnitude on the basis of SOTA baselines and brings up to 6x throughput improvement for a variety of industrial recommendation models. Using the same hardware budget in production, PICASSO on average shortens the walltime of daily training tasks by 7 hours, significantly reducing the delay of continuous delivery.

Published
2022

12. Three-Dimensional-Printed Osteochondral Scaffold with Biomimetic Surface Curvature for Osteochondral Regeneration

Author

Yan Yang, Qu Lin, Zhenhai Hou, Gensheng Yang, and Lian Shen

Subjects
3D printing, dimensional accuracy, biomimetic osteochondral scaffold, curvature distribution, osteochondral regeneration, Pharmacy and materia medica, RS1-441
Abstract

Objectives: Treatment of osteochondral defects is hindered by several challenges, including the failure of traditional scaffolds with a predefined cylindrical or cuboid shape to comprehensively match the natural osteochondral tissue. Herein, we employed reverse modeling and three-dimensional (3D) printing technologies to prepare subchondral bone and cartilage. Methods: The osteochondral scaffold was prepared by bonding the subchondral bone and cartilage layers, and the curvature distribution and biomechanical behavior were compared with those of the native tissue. Biocompatibility and osteochondral regeneration performance were further evaluated using cell adhesion and proliferation assays, as well as animal osteochondral defect repair tests. Results: We found that increasing the printing temperature or decreasing the layer height improved the dimensional accuracy of printed subchondral bones, whereas increasing the exposure time or decreasing the layer height enhanced the dimensional accuracy of the printed cartilage. Biomimetic scaffolds exhibited curvature distribution and biomechanical behavior more similar to native tissues than traditional cylindrical scaffolds. Incorporating gelatin methacryloyl into poly (ethylene glycol) diacrylate markedly improved the biocompatibility, and correspondingly prepared osteochondral scaffolds had better osteochondral regeneration ability than the traditional scaffolds. Conclusions: Osteochondral scaffolds exhibiting biomimetic morphology and an internal structure could be prepared based on reverse modeling and 3D printing, facilitating personalized osteochondral injury treatment.

Published
2025
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16. M6-T: Exploring Sparse Expert Models and Beyond

Author

Yang, An, Lin, Junyang, Men, Rui, Zhou, Chang, Jiang, Le, Jia, Xianyan, Wang, Ang, Zhang, Jie, Wang, Jiamang, Li, Yong, Zhang, Di, Lin, Wei, Qu, Lin, Zhou, Jingren, and Yang, Hongxia

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

Mixture-of-Experts (MoE) models can achieve promising results with outrageous large amount of parameters but constant computation cost, and thus it has become a trend in model scaling. Still it is a mystery how MoE layers bring quality gains by leveraging the parameters with sparse activation. In this work, we investigate several key factors in sparse expert models. We observe that load imbalance may not be a significant problem affecting model quality, contrary to the perspectives of recent studies, while the number of sparsely activated experts $k$ and expert capacity $C$ in top-$k$ routing can significantly make a difference in this context. Furthermore, we take a step forward to propose a simple method called expert prototyping that splits experts into different prototypes and applies $k$ top-$1$ routing. This strategy improves the model quality but maintains constant computational costs, and our further exploration on extremely large-scale models reflects that it is more effective in training larger models. We push the model scale to over $1$ trillion parameters and implement it on solely $480$ NVIDIA V100-32GB GPUs, in comparison with the recent SOTAs on $2048$ TPU cores. The proposed giant model achieves substantial speedup in convergence over the same-size baseline., Comment: 16 pages, 8 figures

Published
2021

24. Research on Smart Endowment Supply—Based on Service Chain Theory

Author

Kong, Weiwei, Qu, Lin, Striełkowski, Wadim, Editor-in-Chief, Black, Jessica M., Series Editor, Butterfield, Stephen A., Series Editor, Chang, Chi-Cheng, Series Editor, Cheng, Jiuqing, Series Editor, Dumanig, Francisco Perlas, Series Editor, Al-Mabuk, Radhi, Series Editor, Scheper-Hughes, Nancy, Series Editor, Urban, Mathias, Series Editor, Webb, Stephen, Series Editor, Ali, Ghaffar, editor, Birkök, Mehmet Cüneyt, editor, and Khan, Intakhab Alam, editor

Published
2022
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27. A self-amplifying mRNA SARS-CoV-2 vaccine candidate induces safe and robust protective immunity in preclinical models

Author

Maruggi, Giulietta, Mallett, Corey P., Westerbeck, Jason W., Chen, Tiffany, Lofano, Giuseppe, Friedrich, Kristian, Qu, Lin, Sun, Jennifer Tong, McAuliffe, Josie, Kanitkar, Amey, Arrildt, Kathryn T., Wang, Kai-Fen, McBee, Ian, McCoy, Deborah, Terry, Rebecca, Rowles, Alison, Abrahim, Maia Araujo, Ringenberg, Michael A., Gains, Malcolm J., Spickler, Catherine, Xie, Xuping, Zou, Jing, Shi, Pei-Yong, Dutt, Taru, Henao-Tamayo, Marcela, Ragan, Izabela, Bowen, Richard A., Johnson, Russell, Nuti, Sandra, Luisi, Kate, Ulmer, Jeffrey B., Steff, Ann-Muriel, Jalah, Rashmi, Bertholet, Sylvie, Stokes, Alan H., and Yu, Dong

Published
2022
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37. Complete Response With Cetuximab-Based Treatment of Metastatic Colorectal Cancers: Two Case Reports and Literature Review

Author

Li Wei, Zexiao Lin, Sidong Xie, Danyun Ruan, Wen Jiang, Yueli Cui, Sisi Liu, Tiantian Wang, Zhanhong Chen, and Qu Lin

Subjects
cetuximab, colorectal cancer, liver metastasis, targeted therapy, complete response, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Metastases typically develop before diagnosis and during the treatment of colorectal cancers, while patients with metastatic colorectal cancers (mCRCs) currently have a poor prognosis. In terms of surgical approaches, adjuvant therapies, and targeted therapies, the treatment of mCRCs has had numerous recent advances. As a targeted agent widely used in mCRCs, cetuximab-based treatment is still under dispute due to its side effects and unstable effect. We present two mCRC cases treated with cetuximab-based therapy, of which two patients achieved complete response and without recurrence for over 22 and 84 months, respectively. To better understand the drug usage, we also reviewed the recent achievements and usage precautions of cetuximab in mCRCs. Present and many previous observations support that cetuximab might be a referred drug in the first-line chemotherapy of mCRCs with wild-type RAS and BRAF and proficient mismatch repair.

Published
2022
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39. The Effect of Yijinjing on the Cognitive Function of Patients With Chronic Schizophrenia

Author

Hui Gao, Chao Luo, Si-Jing Tu, Ru-Ping Lu, Lin-Na Jiang, Hui-Jun Qiao, Qu Lin, Ning-Ning Li, and Jian-Hua Chen

Subjects
aerobic exercise, cognitive function, psychosomatic medicine, Qigong, schizophrenia, traditional Chinese medicine, Psychiatry, RC435-571
Abstract

Background: Patients with chronic schizophrenia present cognitive impairment, which affects their social function and prevents them from reintegrating into society. Yijinjing is a traditional Chinese aerobic exercise that has a putative psychosomatic effect on improving cognitive function.Methods: From January to May 2021, 40 patients with chronic schizophrenia were recruited and randomly divided into a control group and a Yijinjing group. In the 12-week intervention, the patients in the control group received conventional treatment, whereas patients in the Yijinjing group performed Yijinjing exercise (40 min/session, twice a week) in addition to receiving conventional treatment. The Positive and Negative Syndrome Scale (PANSS), the Insight and Treatment Attitude Questionnaire (ITAQ), the Rosenberg Self-esteem Scale (SES), and the Mini Mental State Examination (MMSE) were used to measure clinical symptoms and cognitive function at 0, 6, and 12 weeks.Results: The demographic information was not significantly different between groups. At baseline, the scores of all the scales were not statistically different between groups. After 12 weeks of intervention, compared to those at baseline, the scores of the negative scale (t = 19.00, p < 0.0001), general psychopathology scale (t = 15.98, p < 0.0001), and total score (t = 15.47, p < 0.0001) of the PANSS and SES (t = 5.378, p < 0.0001) had significantly decreased, and the scores of the ITAQ (t = 7.984, p < 0.0001) and MMSE (t = 6.750, p < 0.0001) had significantly increased in Yijinjing group; the score of the MMSE increased in the control group as well (t = 2.491, p = 0.0222). Compared to the respective scores in the control group, the negative scale score (t = 2.953, p = 0.0054) significantly decreased, and the ITAQ (t = 3.043, p = 0.0042) and MMSE (t = 2.2.68, p = 0.0291) scores significantly increased in the Yijinjing group after 12 weeks of intervention.Conclusion: These results provide a preliminary indication that Yijinjing exercise had the potential to improve cognitive function and negative symptoms in patients with chronic schizophrenia. A larger-scale study to determine the trajectory of change in the longer term should be undertaken.

Published
2021
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41. Study on Rubbing-Induced Vibration Characteristics Considering the Flexibility of Coated Casings and Blades.

Author

Zhang, Yong, Yang, Shuhua, Tai, Xingyu, Ma, Hui, Guan, Hong, Mu, Qinqin, Qu, Lin, and Ding, Xiangfu

Subjects
SYSTEM failures, FINITE element method, COMPRESSOR blades, DYNAMIC models, SURFACE coatings
Abstract

Rubbing between a blade and its coated casing is one of the main failures in aero-engine systems. This paper aims to study the effects of coated casings on rubbing-induced dynamic responses considering the flexibility of the coated casing and the flexibility of the blade. Firstly, an actual compressor blade is established by the shell element and verified by the experiment and ANSYS 19.2 software. Subsequently, a new dynamic model for the coated casing is proposed based on the laminated shell element, and the proposed dynamic model for the coated casing is verified by comparing the natural characteristics calculated by ANSYS software. Moreover, a comprehensive analysis is conducted to analyze the influences of the casing model, coating parameters, and casing parameters on vibration characteristics. Finally, the results show that the coating can diminish the severity level of rubbing. Notably, the material and thickness of the coating can change the nodal diameter vibrations of the casings (NDVCs) induced by rubbing. This study provides valuable guidance for the optimization and design of blade–casing systems. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Case Report: Cetuximab in Combination With Chemotherapy for the Treatment of Multifocal Hepatic Metastases From Colorectal Cancer Guided by Genetic Tests

Author

Chunhui Qiu, Sidong Xie, Na Cheng, Qu Lin, Guanzhu Shen, Zhanwang Xiang, Tanxiao Huang, Xiaoni Zhang, Jingxian Duan, Li Wei, and Zongheng Zheng

Subjects
colorectal cancer, hepatic metastases, multifocal tumors, Wnt signal pathway, APC and TP53 co-mutation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Hepatic metastases were reported in up to 70% of colorectal cancer patients, among which multifocal hepatic metastasis represents one of the complications that lead to poor prognosis. The majority of the patients carrying multifocal hepatic metastases required pharmaceutical treatments to reduce the tumor size prior to surgical resection. However, the clinical responses to pharmaceutical agents were difficult to predict due to the heterogeneous nature of the multifocal tumors. Here, we report a case with multifocal hepatic metastases from colorectal cancer that was resistant to the primary chemotherapy and Bevacizumab plus chemotherapy, but responded to the combined therapy of Cetuximab and FOLFOX. Genetic tests had revealed that the tumor was highly metastatic due to the mutations of the WNT signaling pathway, and the metastatic tumors might be sensitive to Cetuximab. Consistent with the molecular characterizations, the metastatic tumors continue to emerge after chemotherapy, and rapidly relapsed in great numbers after liver resection. However, the combined therapy of Cetuximab and FOLFOX guided by the genetic tests significantly reduced the size and number of metastatic tumors. To conclude, deciphering the mutation profiles of multifocal metastatic tumors may guide the determination of treatment tactics, which may benefit the patients with non-resectable advanced carcinoma.

Published
2021
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