Search

Your search keyword '"Rybakov, Oleg"' showing total 40 results
Start Over Author "Rybakov, Oleg" Search Limiters Academic (Peer-Reviewed) Journals

Refine your results

more »

more »

40 results on '"Rybakov, Oleg"'

1. Methods of improving LLM training stability

Author

Rybakov, Oleg, Chrzanowski, Mike, Dykas, Peter, Xue, Jinze, and Lanir, Ben

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

Training stability of large language models(LLMs) is an important research topic. Reproducing training instabilities can be costly, so we use a small language model with 830M parameters and experiment with higher learning rates to force models to diverge. One of the sources of training instability is the growth of logits in attention layers. We extend the focus of the previous work and look not only at the magnitude of the logits but at all outputs of linear layers in the Transformer block. We observe that with a high learning rate the L2 norm of all linear layer outputs can grow with each training step and the model diverges. Specifically we observe that QKV, Proj and FC2 layers have the largest growth of the output magnitude. This prompts us to explore several options: 1) apply layer normalization not only after QK layers but also after Proj and FC2 layers too; 2) apply layer normalization after the QKV layer (and remove pre normalization). 3) apply QK layer normalization together with softmax capping. We show that with the last two methods we can increase learning rate by 1.5x (without model divergence) in comparison to an approach based on QK layer normalization only. Also we observe significant perplexity improvements for all three methods in comparison to the baseline model.

Published
2024

2. SimulTron: On-Device Simultaneous Speech to Speech Translation

Author

Agranovich, Alex, Nachmani, Eliya, Rybakov, Oleg, Ding, Yifan, Jia, Ye, Bar, Nadav, Zen, Heiga, and Ramanovich, Michelle Tadmor

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Computation and Language, Computer Science - Machine Learning, Computer Science - Sound
Abstract

Simultaneous speech-to-speech translation (S2ST) holds the promise of breaking down communication barriers and enabling fluid conversations across languages. However, achieving accurate, real-time translation through mobile devices remains a major challenge. We introduce SimulTron, a novel S2ST architecture designed to tackle this task. SimulTron is a lightweight direct S2ST model that uses the strengths of the Translatotron framework while incorporating key modifications for streaming operation, and an adjustable fixed delay. Our experiments show that SimulTron surpasses Translatotron 2 in offline evaluations. Furthermore, real-time evaluations reveal that SimulTron improves upon the performance achieved by Translatotron 1. Additionally, SimulTron achieves superior BLEU scores and latency compared to previous real-time S2ST method on the MuST-C dataset. Significantly, we have successfully deployed SimulTron on a Pixel 7 Pro device, show its potential for simultaneous S2ST on-device.

Published
2024

3. USM RNN-T model weights binarization

Author

Rybakov, Oleg, Serdyuk, Dmitriy, and Zheng, Chengjian

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Large-scale universal speech models (USM) are already used in production. However, as the model size grows, the serving cost grows too. Serving cost of large models is dominated by model size that is why model size reduction is an important research topic. In this work we are focused on model size reduction using weights only quantization. We present the weights binarization of USM Recurrent Neural Network Transducer (RNN-T) and show that its model size can be reduced by 15.9x times at cost of word error rate (WER) increase by only 1.9% in comparison to the float32 model. It makes it attractive for practical applications.

Published
2024
Full Text
View/download PDF

4. USM-Lite: Quantization and Sparsity Aware Fine-tuning for Speech Recognition with Universal Speech Models

Author

Ding, Shaojin, Qiu, David, Rim, David, He, Yanzhang, Rybakov, Oleg, Li, Bo, Prabhavalkar, Rohit, Wang, Weiran, Sainath, Tara N., Han, Zhonglin, Li, Jian, Yazdanbakhsh, Amir, and Agrawal, Shivani

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

End-to-end automatic speech recognition (ASR) models have seen revolutionary quality gains with the recent development of large-scale universal speech models (USM). However, deploying these massive USMs is extremely expensive due to the enormous memory usage and computational cost. Therefore, model compression is an important research topic to fit USM-based ASR under budget in real-world scenarios. In this study, we propose a USM fine-tuning approach for ASR, with a low-bit quantization and N:M structured sparsity aware paradigm on the model weights, reducing the model complexity from parameter precision and matrix topology perspectives. We conducted extensive experiments with a 2-billion parameter USM on a large-scale voice search dataset to evaluate our proposed method. A series of ablation studies validate the effectiveness of up to int4 quantization and 2:4 sparsity. However, a single compression technique fails to recover the performance well under extreme setups including int2 quantization and 1:4 sparsity. By contrast, our proposed method can compress the model to have 9.4% of the size, at the cost of only 7.3% relative word error rate (WER) regressions. We also provided in-depth analyses on the results and discussions on the limitations and potential solutions, which would be valuable for future studies., Comment: Accepted by ICASSP 2024. Preprint

Published
2023

5. 2-bit Conformer quantization for automatic speech recognition

Author

Rybakov, Oleg, Meadowlark, Phoenix, Ding, Shaojin, Qiu, David, Li, Jian, Rim, David, and He, Yanzhang

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Large speech models are rapidly gaining traction in research community. As a result, model compression has become an important topic, so that these models can fit in memory and be served with reduced cost. Practical approaches for compressing automatic speech recognition (ASR) model use int8 or int4 weight quantization. In this study, we propose to develop 2-bit ASR models. We explore the impact of symmetric and asymmetric quantization combined with sub-channel quantization and clipping on both LibriSpeech dataset and large-scale training data. We obtain a lossless 2-bit Conformer model with 32% model size reduction when compared to state of the art 4-bit Conformer model for LibriSpeech. With the large-scale training data, we obtain a 2-bit Conformer model with over 40% model size reduction against the 4-bit version at the cost of 17% relative word error rate degradation, Comment: submitted to Interspeech

Published
2023

6. RAND: Robustness Aware Norm Decay For Quantized Seq2seq Models

Author

Qiu, David, Rim, David, Ding, Shaojin, Rybakov, Oleg, and He, Yanzhang

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Machine Learning
Abstract

With the rapid increase in the size of neural networks, model compression has become an important area of research. Quantization is an effective technique at decreasing the model size, memory access, and compute load of large models. Despite recent advances in quantization aware training (QAT) technique, most papers present evaluations that are focused on computer vision tasks, which have different training dynamics compared to sequence tasks. In this paper, we first benchmark the impact of popular techniques such as straight through estimator, pseudo-quantization noise, learnable scale parameter, clipping, etc. on 4-bit seq2seq models across a suite of speech recognition datasets ranging from 1,000 hours to 1 million hours, as well as one machine translation dataset to illustrate its applicability outside of speech. Through the experiments, we report that noise based QAT suffers when there is insufficient regularization signal flowing back to the quantization scale. We propose low complexity changes to the QAT process to improve model accuracy (outperforming popular learnable scale and clipping methods). With the improved accuracy, it opens up the possibility to exploit some of the other benefits of noise based QAT: 1) training a single model that performs well in mixed precision mode and 2) improved generalization on long form speech recognition.

Published
2023

7. STEP: Learning N:M Structured Sparsity Masks from Scratch with Precondition

Author

Lu, Yucheng, Agrawal, Shivani, Subramanian, Suvinay, Rybakov, Oleg, De Sa, Christopher, and Yazdanbakhsh, Amir

Subjects
Computer Science - Machine Learning
Abstract

Recent innovations on hardware (e.g. Nvidia A100) have motivated learning N:M structured sparsity masks from scratch for fast model inference. However, state-of-the-art learning recipes in this regime (e.g. SR-STE) are proposed for non-adaptive optimizers like momentum SGD, while incurring non-trivial accuracy drop for Adam-trained models like attention-based LLMs. In this paper, we first demonstrate such gap origins from poorly estimated second moment (i.e. variance) in Adam states given by the masked weights. We conjecture that learning N:M masks with Adam should take the critical regime of variance estimation into account. In light of this, we propose STEP, an Adam-aware recipe that learns N:M masks with two phases: first, STEP calculates a reliable variance estimate (precondition phase) and subsequently, the variance remains fixed and is used as a precondition to learn N:M masks (mask-learning phase). STEP automatically identifies the switching point of two phases by dynamically sampling variance changes over the training trajectory and testing the sample concentration. Empirically, we evaluate STEP and other baselines such as ASP and SR-STE on multiple tasks including CIFAR classification, machine translation and LLM fine-tuning (BERT-Base, GPT-2). We show STEP mitigates the accuracy drop of baseline recipes and is robust to aggressive structured sparsity ratios.

Published
2023

8. Streaming Parrotron for on-device speech-to-speech conversion

Author

Rybakov, Oleg, Biadsy, Fadi, Zhang, Xia, Jiang, Liyang, Meadowlark, Phoenix, and Agrawal, Shivani

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

We present a fully on-device streaming Speech2Speech conversion model that normalizes a given input speech directly to synthesized output speech. Deploying such a model on mobile devices pose significant challenges in terms of memory footprint and computation requirements. We present a streaming-based approach to produce an acceptable delay, with minimal loss in speech conversion quality, when compared to a reference state of the art non-streaming approach. Our method consists of first streaming the encoder in real time while the speaker is speaking. Then, as soon as the speaker stops speaking, we run the spectrogram decoder in streaming mode along the side of a streaming vocoder to generate output speech. To achieve an acceptable delay-quality trade-off, we propose a novel hybrid approach for look-ahead in the encoder which combines a look-ahead feature stacker with a look-ahead self-attention. We show that our streaming approach is almost 2x faster than real time on the Pixel4 CPU.

Published
2022

9. 4-bit Conformer with Native Quantization Aware Training for Speech Recognition

Author

Ding, Shaojin, Meadowlark, Phoenix, He, Yanzhang, Lew, Lukasz, Agrawal, Shivani, and Rybakov, Oleg

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Machine Learning
Abstract

Reducing the latency and model size has always been a significant research problem for live Automatic Speech Recognition (ASR) application scenarios. Along this direction, model quantization has become an increasingly popular approach to compress neural networks and reduce computation cost. Most of the existing practical ASR systems apply post-training 8-bit quantization. To achieve a higher compression rate without introducing additional performance regression, in this study, we propose to develop 4-bit ASR models with native quantization aware training, which leverages native integer operations to effectively optimize both training and inference. We conducted two experiments on state-of-the-art Conformer-based ASR models to evaluate our proposed quantization technique. First, we explored the impact of different precisions for both weight and activation quantization on the LibriSpeech dataset, and obtained a lossless 4-bit Conformer model with 5.8x size reduction compared to the float32 model. Following this, we for the first time investigated and revealed the viability of 4-bit quantization on a practical ASR system that is trained with large-scale datasets, and produced a lossless Conformer ASR model with mixed 4-bit and 8-bit weights that has 5x size reduction compared to the float32 model., Comment: Published at INTERSPEECH 2022

Published
2022

10. A Scalable Model Specialization Framework for Training and Inference using Submodels and its Application to Speech Model Personalization

Author

Biadsy, Fadi, Chen, Youzheng, Zhang, Xia, Rybakov, Oleg, Rosenberg, Andrew, and Moreno, Pedro J.

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Model fine-tuning and adaptation have become a common approach for model specialization for downstream tasks or domains. Fine-tuning the entire model or a subset of the parameters using light-weight adaptation has shown considerable success across different specialization tasks. Fine-tuning a model for a large number of domains typically requires starting a new training job for every domain posing scaling limitations. Once these models are trained, deploying them also poses significant scalability challenges for inference for real-time applications. In this paper, building upon prior light-weight adaptation techniques, we propose a modular framework that enables us to substantially improve scalability for model training and inference. We introduce Submodels that can be quickly and dynamically loaded for on-the-fly inference. We also propose multiple approaches for training those Submodels in parallel using an embedding space in the same training job. We test our framework on an extreme use-case which is speech model personalization for atypical speech, requiring a Submodel for each user. We obtain 128x Submodel throughput with a fixed computation budget without a loss of accuracy. We also show that learning a speaker-embedding space can scale further and reduce the amount of personalization training data required per speaker., Comment: Submitted to INTERSPEECH

Published
2022
Full Text
View/download PDF

11. Real time spectrogram inversion on mobile phone

Author

Rybakov, Oleg, Tagliasacchi, Marco, Li, Yunpeng, Jiang, Liyang, Zhang, Xia, and Biadsy, Fadi

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

We present two methods of real time magnitude spectrogram inversion: streaming Griffin Lim(GL) and streaming MelGAN. We demonstrate the impact of looking ahead on perceptual quality of MelGAN. As little as one hop size (12.5ms) of lookahead is able to significantly improve perceptual quality in comparison to its causal version. We compare streaming GL with the streaming MelGAN and show different trade-offs in terms of perceptual quality, on-device latency, algorithmic delay, memory footprint and noise sensitivity. For fair quality assessment of the GL approach, we use input log magnitude spectrogram without mel transformation. We evaluate presented real time spectrogram inversion approaches on clean, noisy and atypical speech. We specified conditions when streaming GL has comparable quality with MelGAN: noisy audio and no mel transformation. Streaming GL is 2.4x faster than real time on the ARM CPU of a Pixel4 and it uses 4.5x times less memory than MelGAN.

Published
2022

12. Pareto-Optimal Quantized ResNet Is Mostly 4-bit

Author

Abdolrashidi, AmirAli, Wang, Lisa, Agrawal, Shivani, Malmaud, Jonathan, Rybakov, Oleg, Leichner, Chas, and Lew, Lukasz

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

Quantization has become a popular technique to compress neural networks and reduce compute cost, but most prior work focuses on studying quantization without changing the network size. Many real-world applications of neural networks have compute cost and memory budgets, which can be traded off with model quality by changing the number of parameters. In this work, we use ResNet as a case study to systematically investigate the effects of quantization on inference compute cost-quality tradeoff curves. Our results suggest that for each bfloat16 ResNet model, there are quantized models with lower cost and higher accuracy; in other words, the bfloat16 compute cost-quality tradeoff curve is Pareto-dominated by the 4-bit and 8-bit curves, with models primarily quantized to 4-bit yielding the best Pareto curve. Furthermore, we achieve state-of-the-art results on ImageNet for 4-bit ResNet-50 with quantization-aware training, obtaining a top-1 eval accuracy of 77.09%. We demonstrate the regularizing effect of quantization by measuring the generalization gap. The quantization method we used is optimized for practicality: It requires little tuning and is designed with hardware capabilities in mind. Our work motivates further research into optimal numeric formats for quantization, as well as the development of machine learning accelerators supporting these formats. As part of this work, we contribute a quantization library written in JAX, which is open-sourced at https://github.com/google-research/google-research/tree/master/aqt., Comment: 8 pages. Accepted at the Efficient Deep Learning for Computer Vision Workshop at CVPR 2021

Published
2021
Full Text
View/download PDF

13. A Child in the Information Society: Risks, Threats, and Security

Author

Rybakov, Oleg Yu., Rybakova, Olga S., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, and Maximova, Svetlana G., editor

Published
2023
Full Text
View/download PDF

14. Real-time Speech Frequency Bandwidth Extension

Author

Li, Yunpeng, Tagliasacchi, Marco, Rybakov, Oleg, Ungureanu, Victor, and Roblek, Dominik

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

In this paper we propose a lightweight model for frequency bandwidth extension of speech signals, increasing the sampling frequency from 8kHz to 16kHz while restoring the high frequency content to a level almost indistinguishable from the 16kHz ground truth. The model architecture is based on SEANet (Sound EnhAncement Network), a wave-to-wave fully convolutional model, which uses a combination of feature losses and adversarial losses to reconstruct an enhanced version of the input speech. In addition, we propose a variant of SEANet that can be deployed on-device in streaming mode, achieving an architectural latency of 16ms. When profiled on a single core of a mobile CPU, processing one 16ms frame takes only 1.5ms. The low latency makes it viable for bi-directional voice communication systems.

Published
2020

15. Streaming keyword spotting on mobile devices

Author

Rybakov, Oleg, Kononenko, Natasha, Subrahmanya, Niranjan, Visontai, Mirko, and Laurenzo, Stella

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

In this work we explore the latency and accuracy of keyword spotting (KWS) models in streaming and non-streaming modes on mobile phones. NN model conversion from non-streaming mode (model receives the whole input sequence and then returns the classification result) to streaming mode (model receives portion of the input sequence and classifies it incrementally) may require manual model rewriting. We address this by designing a Tensorflow/Keras based library which allows automatic conversion of non-streaming models to streaming ones with minimum effort. With this library we benchmark multiple KWS models in both streaming and non-streaming modes on mobile phones and demonstrate different tradeoffs between latency and accuracy. We also explore novel KWS models with multi-head attention which reduce the classification error over the state-of-art by 10% on Google speech commands data sets V2. The streaming library with all experiments is open-sourced.

Published
2020
Full Text
View/download PDF

16. Algorithms of Human Activity in the Digital Age: The Problem of Preserving Traditional Values

Author

Rybakov, Oleg Ju., Gavrilova, Julia A., Kalashnikova, Nina A., Falaleeva, Irina N., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Popkova, Elena G., editor, and Sergi, Bruno S., editor

Published
2021
Full Text
View/download PDF

17. FedAQT: Accurate Quantized Training with Federated Learning

Author

Ni, Renkun, primary, Xiao, Yonghui, additional, Meadowlark, Phoenix, additional, Rybakov, Oleg, additional, Goldstein, Tom, additional, Suresh, Ananda Theertha, additional, Moreno, Ignacio Lopez, additional, Chen, Mingqing, additional, and Mathews, Rajiv, additional

Published
2024
Full Text
View/download PDF

18. USM-Lite: Quantization and Sparsity Aware Fine-Tuning for Speech Recognition with Universal Speech Models

Author

Ding, Shaojin, primary, Qiu, David, additional, Rim, David, additional, He, Yanzhang, additional, Rybakov, Oleg, additional, Li, Bo, additional, Prabhavalkar, Rohit, additional, Wang, Weiran, additional, Sainath, Tara N., additional, Han, Zhonglin, additional, Li, Jian, additional, Yazdanbakhsh, Amir, additional, and Agrawal, Shivani, additional

Published
2024
Full Text
View/download PDF

19. Global Blockchain Jurisdiction: Prospects and Features of Use in Russian Realities

Author

Gavrilova, Julia A., Rybakov, Oleg Y., Antonyan, Elena A., Sharueva, Natalya V., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Popkova, Elena G., editor, and Sergi, Bruno S., editor

Published
2020
Full Text
View/download PDF

36. Modern problems and hypotheses of general theory of law: Succession and novation

Author

Aklim Khatypovich Khaziev, Ravya Faritovna Stepanenko, Nataliia Olegovna Khazieva, Rybakov, Oleg Yuryevich, Aklim Khatypovich Khaziev, Ravya Faritovna Stepanenko, Nataliia Olegovna Khazieva, and Rybakov, Oleg Yuryevich

Abstract

The article is devoted to the consideration of the general theory of law issues in modern conditions of the Russian statehood development via system analysis of the phenomenon of law as a method. As a result, Ideal law, being the sphere of pure duty, turned on itself as the highest normative-value. In conclusion, the process of evolution of states continues its historically centuries-old procession, retaining continuity and developing the field of research activity innovations in socio-humanitarian science, including law.

Published
2019

Catalog

Books, media, physical & digital resources
See catalog results