Younes Belkada scite author profile

Large language models have been widely adopted but require significant GPU memory for inference. We develop a procedure for Int8 matrix multiplication for feed-forward and attention projection layers in transformers, which cut the memory needed for inference by half while retaining full precision performance. With our method, a 175B parameter 16/32-bit checkpoint can be loaded, converted to Int8, and used immediately without performance degradation. This is made possible by understanding and working around properties of highly systematic emergent features in transformer language models that dominate attention and transformer predictive performance. To cope with these features, we develop a two-part quantization procedure, LLM.int8(). We first use vector-wise quantization with separate normalization constants for each inner product in the matrix multiplication, to quantize most of the features. However, for the emergent outliers, we also include a new mixed-precision decomposition scheme, which isolates the outlier feature dimensions into a 16-bit matrix multiplication while still more than 99.9% of values are multiplied in 8-bit. Using LLM.int8(), we show empirically it is possible to perform inference in LLMs with up to 175B parameters without any performance degradation. This result makes such models much more accessible, for example making it possible to use OPT-175B/BLOOM on a single server with consumer GPUs. We open source our software. * Majority of research done as a visiting researcher at Facebook AI Research. 2 Other parameters come mostly from the embedding layer. A tiny amount comes from norms and biases.Preprint. Under review.

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ClusTi: Clustering Method for Table Structure Recognition in Scanned Images

Zucker

Belkada

Vu³

et al. 2021

Mobile Netw Appl

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Petals: Collaborative Inference and Fine-tuning of Large Models

Alexander¹,

Baranchuk²,

Dettmers³

et al. 2023

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Large language models (LLMs) are useful in many NLP tasks and become more capable with size, with the best open-source models having over 50 billion parameters. However, using these 50B+ models requires high-end hardware, making them inaccessible to most researchers. In this work, we investigate methods for cost-efficient inference and fine-tuning of LLMs, comparing local and distributed strategies. We observe that a large enough model (50B+) can run efficiently even on geodistributed devices in a consumer-grade network. This could allow running LLM efficiently by pooling together idle compute resources of multiple research groups and volunteers. We address two open problems: (1) how to perform inference and fine-tuning reliably if any device can disconnect abruptly and (2) how to partition LLMs between devices with uneven hardware, joining and leaving at will. In order to do that, we develop special fault-tolerant inference algorithms and load-balancing protocols that automatically assign devices to maximize the total system throughput. We showcase these algorithms in PETALS 1 -a decentralized system that runs Llama 2 (70B) and BLOOM (176B) over the Internet up to 10× faster than offloading for interactive generation. We evaluate the performance of our system in simulated conditions and a real-world setup spanning two continents.

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Table Structure Recognition in Scanned Images Using a Clustering Method

Nguyen

Vu²,

Zucker³

et al. 2020

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Younes Belkada

BLOOM: A 176B-Parameter Open-Access Multilingual Language Model

LLM.int8(): 8-bit Matrix Multiplication for Transformers at Scale

ClusTi: Clustering Method for Table Structure Recognition in Scanned Images

Petals: Collaborative Inference and Fine-tuning of Large Models

Table Structure Recognition in Scanned Images Using a Clustering Method

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