Gaurav Mishra scite author profile

Large language models have been shown to achieve remarkable performance across a variety of natural language tasks using few-shot learning, which drastically reduces the number of task-specific training examples needed to adapt the model to a particular application. To further our understanding of the impact of scale on few-shot learning, we trained a 540-billion parameter, densely activated, Transformer language model, which we call Pathways Language Model (PaLM).We trained PaLM on 6144 TPU v4 chips using Pathways, a new ML system which enables highly efficient training across multiple TPU Pods. We demonstrate continued benefits of scaling by achieving state-ofthe-art few-shot learning results on hundreds of language understanding and generation benchmarks. On a number of these tasks, PaLM 540B achieves breakthrough performance, outperforming the finetuned stateof-the-art on a suite of multi-step reasoning tasks, and outperforming average human performance on the recently released BIG-bench benchmark. A significant number of BIG-bench tasks showed discontinuous improvements from model scale, meaning that performance steeply increased as we scaled to our largest model. PaLM also has strong capabilities in multilingual tasks and source code generation, which we demonstrate on a wide array of benchmarks. We additionally provide a comprehensive analysis on bias and toxicity, and study the extent of training data memorization with respect to model scale. Finally, we discuss the ethical considerations related to large language models and discuss potential mitigation strategies. * Equal Contribution. Author contributions and ordering details are listed in Appendix A.

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Scaling Instruction-Finetuned Language Models

Chung¹,

Hou²,

Longpre³

et al. 2022

Preprint

167

124

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PaLI: A Jointly-Scaled Multilingual Language-Image Model

Chen¹,

Wang²,

Changpinyo³

et al. 2022

Preprint

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Effective scaling and a flexible task interface enable large language models to excel at many tasks. PaLI (Pathways Language and Image model) extends this approach to the joint modeling of language and vision. PaLI generates text based on visual and textual inputs, and with this interface performs many vision, language, and multimodal tasks, in many languages. To train PaLI, we make use of large pretrained encoder-decoder language models and Vision Transformers (ViTs). This allows us to capitalize on their existing capabilities and leverage the substantial cost of training them. We find that joint scaling of the vision and language components is important. Since existing Transformers for language are much larger than their vision counterparts, we train the largest ViT to date (ViT-e) to quantify the benefits from even larger-capacity vision models. To train PaLI, we create a large multilingual mix of pretraining tasks, based on a new image-text training set containing 10B images and texts in over 100 languages. PaLI achieves state-ofthe-art in multiple vision and language tasks (such as captioning, visual questionanswering, scene-text understanding), while retaining a simple, modular, and scalable design.

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Key Issues in Addressing the Comorbidity of Attention Deficit Hyperactivity Disorder and Pediatric Epilepsy

Salpekar

Mishra

2014

Epilepsy & Behavior

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Gaurav Mishra

PaLM: Scaling Language Modeling with Pathways

Scaling Instruction-Finetuned Language Models

PaLI: A Jointly-Scaled Multilingual Language-Image Model

Key Issues in Addressing the Comorbidity of Attention Deficit Hyperactivity Disorder and Pediatric Epilepsy

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