Search

Your search keyword '"Mao, Ruibin"' showing total 23 results
Start Over Author "Mao, Ruibin"

Refine your results

more »

more »

more »

more »
23 results on '"Mao, Ruibin"'

1. Efficient Nonlinear Function Approximation in Analog Resistive Crossbars for Recurrent Neural Networks

Author

Yang, Junyi, Mao, Ruibin, Jiang, Mingrui, Cheng, Yichuan, Sun, Pao-Sheng Vincent, Dong, Shuai, Pedretti, Giacomo, Sheng, Xia, Ignowski, Jim, Li, Haoliang, Li, Can, and Basu, Arindam

Subjects
Computer Science - Hardware Architecture
Abstract

Analog In-memory Computing (IMC) has demonstrated energy-efficient and low latency implementation of convolution and fully-connected layers in deep neural networks (DNN) by using physics for computing in parallel resistive memory arrays. However, recurrent neural networks (RNN) that are widely used for speech-recognition and natural language processing have tasted limited success with this approach. This can be attributed to the significant time and energy penalties incurred in implementing nonlinear activation functions that are abundant in such models. In this work, we experimentally demonstrate the implementation of a non-linear activation function integrated with a ramp analog-to-digital conversion (ADC) at the periphery of the memory to improve in-memory implementation of RNNs. Our approach uses an extra column of memristors to produce an appropriately pre-distorted ramp voltage such that the comparator output directly approximates the desired nonlinear function. We experimentally demonstrate programming different nonlinear functions using a memristive array and simulate its incorporation in RNNs to solve keyword spotting and language modelling tasks. Compared to other approaches, we demonstrate manifold increase in area-efficiency, energy-efficiency and throughput due to the in-memory, programmable ramp generator that removes digital processing overhead.

Published
2024

2. FeBiM: Efficient and Compact Bayesian Inference Engine Empowered with Ferroelectric In-Memory Computing

Author

Li, Chao, Xu, Zhicheng, Wen, Bo, Mao, Ruibin, Li, Can, Kämpfe, Thomas, Ni, Kai, and Yin, Xunzhao

Subjects
Computer Science - Machine Learning, Computer Science - Emerging Technologies
Abstract

In scenarios with limited training data or where explainability is crucial, conventional neural network-based machine learning models often face challenges. In contrast, Bayesian inference-based algorithms excel in providing interpretable predictions and reliable uncertainty estimation in these scenarios. While many state-of-the-art in-memory computing (IMC) architectures leverage emerging non-volatile memory (NVM) technologies to offer unparalleled computing capacity and energy efficiency for neural network workloads, their application in Bayesian inference is limited. This is because the core operations in Bayesian inference differ significantly from the multiplication-accumulation (MAC) operations common in neural networks, rendering them generally unsuitable for direct implementation in most existing IMC designs. In this paper, we propose FeBiM, an efficient and compact Bayesian inference engine powered by multi-bit ferroelectric field-effect transistor (FeFET)-based IMC. FeBiM effectively encodes the trained probabilities of a Bayesian inference model within a compact FeFET-based crossbar. It maps quantized logarithmic probabilities to discrete FeFET states. As a result, the accumulated outputs of the crossbar naturally represent the posterior probabilities, i.e., the Bayesian inference model's output given a set of observations. This approach enables efficient in-memory Bayesian inference without the need for additional calculation circuitry. As the first FeFET-based in-memory Bayesian inference engine, FeBiM achieves an impressive storage density of 26.32 Mb/mm$^{2}$ and a computing efficiency of 581.40 TOPS/W in a representative Bayesian classification task. These results demonstrate 10.7$\times$/43.4$\times$ improvement in compactness/efficiency compared to the state-of-the-art hardware implementation of Bayesian inference., Comment: 6 pages, 8 figures, to be published in the 61st DAC (Design Automation Conference) proceedings

Published
2024
Full Text
View/download PDF

3. FeReX: A Reconfigurable Design of Multi-bit Ferroelectric Compute-in-Memory for Nearest Neighbor Search

Author

Xu, Zhicheng, Liu, Che-Kai, Li, Chao, Mao, Ruibin, Yang, Jianyi, Kämpfe, Thomas, Imani, Mohsen, Li, Can, Zhuo, Cheng, and Yin, Xunzhao

Subjects
Computer Science - Emerging Technologies
Abstract

Rapid advancements in artificial intelligence have given rise to transformative models, profoundly impacting our lives. These models demand massive volumes of data to operate effectively, exacerbating the data-transfer bottleneck inherent in the conventional von-Neumann architecture. Compute-in-memory (CIM), a novel computing paradigm, tackles these issues by seamlessly embedding in-memory search functions, thereby obviating the need for data transfers. However, existing non-volatile memory (NVM)-based accelerators are application specific. During the similarity based associative search operation, they only support a single, specific distance metric, such as Hamming, Manhattan, or Euclidean distance in measuring the query against the stored data, calling for reconfigurable in-memory solutions adaptable to various applications. To overcome such a limitation, in this paper, we present FeReX, a reconfigurable associative memory (AM) that accommodates various distance metrics including Hamming, Manhattan, and Euclidean distances. Leveraging multi-bit ferroelectric field-effect transistors (FeFETs) as the proxy and a hardware-software co-design approach, we introduce a constrained satisfaction problem (CSP)-based method to automate AM search input voltage and stored voltage configurations for different distance based search functions. Device-circuit co-simulations first validate the effectiveness of the proposed FeReX methodology for reconfigurable search distance functions. Then, we benchmark FeReX in the context of k-nearest neighbor (KNN) and hyperdimensional computing (HDC), which highlights the robustness of FeReX and demonstrates up to 250x speedup and 10^4 energy savings compared with GPU., Comment: 6 pages, 8 figures, 3 tables. Accepted by Design Automation and Test in Europe (DATE) 2024

Published
2024

4. T4S: Two-Stage Screenplay Synopsis Summary Generation with Turning Points

Author

Wang, Depei, Sun, Wenyi, Luo, Cheng, Liu, Dachang, Mao, Ruibin, Xu, Ruifeng, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Pan, Xiuqin, editor, Jin, Ting, editor, and Zhang, Liang-Jie, editor

Published
2024
Full Text
View/download PDF

5. An Unsupervised Method for Sarcasm Detection with Prompts

Author

Lin, Qihui, Lou, Chenwei, Liang, Bin, Wang, Qianlong, Wen, Zhiyuan, Mao, Ruibin, Xu, Ruifeng, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Pan, Xiuqin, editor, Jin, Ting, editor, and Zhang, Liang-Jie, editor

Published
2024
Full Text
View/download PDF

8. Experimentally realized memristive memory augmented neural network

Author

Mao, Ruibin, Wen, Bo, Zhao, Yahui, Kazemi, Arman, Laguna, Ann Franchesca, Neimier, Michael, Hu, X. Sharon, Sheng, Xia, Graves, Catherine E., Strachan, John Paul, and Li, Can

Subjects
Computer Science - Emerging Technologies, Computer Science - Hardware Architecture, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing
Abstract

Lifelong on-device learning is a key challenge for machine intelligence, and this requires learning from few, often single, samples. Memory augmented neural network has been proposed to achieve the goal, but the memory module has to be stored in an off-chip memory due to its size. Therefore the practical use has been heavily limited. Previous works on emerging memory-based implementation have difficulties in scaling up because different modules with various structures are difficult to integrate on the same chip and the small sense margin of the content addressable memory for the memory module heavily limited the degree of mismatch calculation. In this work, we implement the entire memory augmented neural network architecture in a fully integrated memristive crossbar platform and achieve an accuracy that closely matches standard software on digital hardware for the Omniglot dataset. The successful demonstration is supported by implementing new functions in crossbars in addition to widely reported matrix multiplications. For example, the locality-sensitive hashing operation is implemented in crossbar arrays by exploiting the intrinsic stochasticity of memristor devices. Besides, the content-addressable memory module is realized in crossbars, which also supports the degree of mismatches. Simulations based on experimentally validated models show such an implementation can be efficiently scaled up for one-shot learning on the Mini-ImageNet dataset. The successful demonstration paves the way for practical on-device lifelong learning and opens possibilities for novel attention-based algorithms not possible in conventional hardware., Comment: 54 pages, 21 figures, 3 tables

Published
2022

9. Tree-based machine learning performed in-memory with memristive analog CAM

Author

Pedretti, Giacomo, Graves, Catherine E., Li, Can, Serebryakov, Sergey, Sheng, Xia, Foltin, Martin, Mao, Ruibin, and Strachan, John Paul

Subjects
Computer Science - Emerging Technologies
Abstract

Tree-based machine learning techniques, such as Decision Trees and Random Forests, are top performers in several domains as they do well with limited training datasets and offer improved interpretability compared to Deep Neural Networks (DNN). However, while easier to train, they are difficult to optimize for fast inference without accuracy loss in von Neumann architectures due to non-uniform memory access patterns. Recently, we proposed a novel analog, or multi-bit, content addressable memory(CAM) for fast look-up table operations. Here, we propose a design utilizing this as a computational primitive for rapid tree-based inference. Large random forest models are mapped to arrays of analog CAMs coupled to traditional analog random access memory (RAM), and the unique features of the analog CAM enable compression and high performance. An optimized architecture is compared with previously proposed tree-based model accelerators, showing improvements in energy to decision by orders of magnitude for common image classification tasks. The results demonstrate the potential for non-volatile analog CAM hardware in accelerating large tree-based machine learning models.

Published
2021
Full Text
View/download PDF

12. Financial Numeral Classification Model Based on BERT

Author

Wang, Wei, Liu, Maofu, Zhang, Yukun, Xiang, Junyi, Mao, Ruibin, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Kato, Makoto P., editor, Liu, Yiqun, editor, Kando, Noriko, editor, and Clarke, Charles L. A., editor

Published
2019
Full Text
View/download PDF

16. Experimentally realized memristive memory augmented neural network

Author

Mao, Ruibin, primary, Wen, Bo, additional, Kazemi, Arman, additional, Zhao, Yahui, additional, Laguna, Ann Franchesca, additional, Lin, Rui, additional, Wong, Ngai, additional, Niemier, Michael, additional, Hu, Xiaobo, additional, Sheng, Xia, additional, Graves, Catherine, additional, Strachan, John Paul, additional, and Li, Can, additional

Published
2022
Full Text
View/download PDF

19. Differentiable Content Addressable Memory with Memristors

Author

Pedretti, Giacomo, primary, Graves, Catherine E., additional, Van Vaerenbergh, Thomas, additional, Serebryakov, Sergey, additional, Foltin, Martin, additional, Sheng, Xia, additional, Mao, Ruibin, additional, Li, Can, additional, and Strachan, John Paul, additional

Published
2022
Full Text
View/download PDF

22. A Knowledge Regularized Hierarchical Approach for Emotion Cause Analysis

Author

Hongyu Yan, Min Yang, Chuang Fan, Ruifeng Xu, Jiachen Du, Mao Ruibin, Lidong Bing, and Lin Gui

Subjects
Artificial neural network, business.industry, Computer science, Sentiment analysis, BF, Context (language use), 02 engineering and technology, 010502 geochemistry & geophysics, computer.software_genre, Lexicon, 01 natural sciences, Focus (linguistics), Variety (cybernetics), P1, Common knowledge, 0202 electrical engineering, electronic engineering, information engineering, Key (cryptography), 020201 artificial intelligence & image processing, Artificial intelligence, business, QA, computer, Natural language processing, 0105 earth and related environmental sciences
Abstract

Emotion cause analysis, which aims to identify the reasons behind emotions, is a key topicin sentiment analysis. A variety of neuralnetwork models have been proposed recently,however, these previous models mostly focuson the learning architecture with local textual information, ignoring the discourse andprior knowledge, which play crucial roles inhuman text comprehension. In this paper,we propose a new method to extract emotion cause with a hierarchical neural modeland knowledge-based regularizations, whichaims to incorporate discourse context information and restrain the parameters by sentiment lexicon and common knowledge. Theexperimental results demonstrate that our proposed method achieves the state-of-the-art performance on two public datasets in differentlanguages (Chinese and English), outperforming a number of competitive baselines by atleast 2.08% in F-measure.

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results