Is Next Token Prediction Sufficient for GPT? Exploration on Code Logic Comprehension

no code implementations • 13 Apr 2024 • MengNan Qi, Yufan Huang, Yongqiang Yao, Maoquan Wang, Bin Gu, Neel Sundaresan

Our experimental results reveal that following this pretraining, both Code Llama and StarCoder, the prevalent code domain pretraining models, display significant improvements on our logically equivalent code selection task and the code completion task.

Code Completion Sentence +2

2023 Low-Power Computer Vision Challenge (LPCVC) Summary

no code implementations • 11 Mar 2024 • Leo Chen, Benjamin Boardley, Ping Hu, Yiru Wang, Yifan Pu, Xin Jin, Yongqiang Yao, Ruihao Gong, Bo Li, Gao Huang, Xianglong Liu, Zifu Wan, Xinwang Chen, Ning Liu, Ziyi Zhang, Dongping Liu, Ruijie Shan, Zhengping Che, Fachao Zhang, Xiaofeng Mou, Jian Tang, Maxim Chuprov, Ivan Malofeev, Alexander Goncharenko, Andrey Shcherbin, Arseny Yanchenko, Sergey Alyamkin, Xiao Hu, George K. Thiruvathukal, Yung Hsiang Lu

This article describes the 2023 IEEE Low-Power Computer Vision Challenge (LPCVC).

Rethinking the Instruction Quality: LIFT is What You Need

no code implementations • 12 Dec 2023 • Yang Xu, Yongqiang Yao, Yufan Huang, MengNan Qi, Maoquan Wang, Bin Gu, Neel Sundaresan

Instruction tuning, a specialized technique to enhance large language model (LLM) performance via instruction datasets, relies heavily on the quality of employed data.

Code Generation Instruction Following +3

SUT: Active Defects Probing for Transcompiler Models

no code implementations • 22 Oct 2023 • MengNan Qi, Yufan Huang, Maoquan Wang, Yongqiang Yao, Zihan Liu, Bin Gu, Colin Clement, Neel Sundaresan

In this paper we introduce a new metrics for programming language translation and these metrics address these basic syntax errors.

Translation

Program Translation via Code Distillation

no code implementations • 17 Oct 2023 • Yufan Huang, MengNan Qi, Yongqiang Yao, Maoquan Wang, Bin Gu, Colin Clement, Neel Sundaresan

Distilled code serves as a translation pivot for any programming language, leading by construction to parallel corpora which scale to all available source code by simply applying the distillation compiler.

Machine Translation Translation

SysNoise: Exploring and Benchmarking Training-Deployment System Inconsistency

no code implementations • 1 Jul 2023 • Yan Wang, Yuhang Li, Ruihao Gong, Aishan Liu, Yanfei Wang, Jian Hu, Yongqiang Yao, Yunchen Zhang, Tianzi Xiao, Fengwei Yu, Xianglong Liu

Extensive studies have shown that deep learning models are vulnerable to adversarial and natural noises, yet little is known about model robustness on noises caused by different system implementations.

Benchmarking Data Augmentation +5

Improving Long-tailed Object Detection with Image-Level Supervision by Multi-Task Collaborative Learning

1 code implementation • 11 Oct 2022 • Bo Li, Yongqiang Yao, Jingru Tan, Xin Lu, Fengwei Yu, Ye Luo, Jianwei Lu

Specifically, there are an object detection task (consisting of an instance-classification task and a localization task) and an image-classification task in our framework, responsible for utilizing the two types of supervision.

Classification Contrastive Learning +4

The Equalization Losses: Gradient-Driven Training for Long-tailed Object Recognition

1 code implementation • 11 Oct 2022 • Jingru Tan, Bo Li, Xin Lu, Yongqiang Yao, Fengwei Yu, Tong He, Wanli Ouyang

Long-tail distribution is widely spread in real-world applications.

Image Classification Long-tailed Object Detection +4

Towards Frame Rate Agnostic Multi-Object Tracking

1 code implementation • 23 Sep 2022 • Weitao Feng, Lei Bai, Yongqiang Yao, Fengwei Yu, Wanli Ouyang

In this paper, we propose a Frame Rate Agnostic MOT framework with a Periodic training Scheme (FAPS) to tackle the FraMOT problem for the first time.

Multi-Object Tracking Object

Equalized Focal Loss for Dense Long-Tailed Object Detection

1 code implementation • CVPR 2022 • Bo Li, Yongqiang Yao, Jingru Tan, Gang Zhang, Fengwei Yu, Jianwei Lu, Ye Luo

The conventional focal loss balances the training process with the same modulating factor for all categories, thus failing to handle the long-tailed problem.

Long-tailed Object Detection Object +2

Cross-dataset Training for Class Increasing Object Detection

1 code implementation • 14 Jan 2020 • Yongqiang Yao, Yan Wang, Yu Guo, Jiaojiao Lin, Hongwei Qin, Junjie Yan

Given two or more already labeled datasets that target for different object classes, cross-dataset training aims to detect the union of the different classes, so that we do not have to label all the classes for all the datasets.

Object object-detection +1

Bridging the Gap Between Anchor-based and Anchor-free Detection via Adaptive Training Sample Selection

11 code implementations • CVPR 2020 • Shifeng Zhang, Cheng Chi, Yongqiang Yao, Zhen Lei, Stan Z. Li

In this paper, we first point out that the essential difference between anchor-based and anchor-free detection is actually how to define positive and negative training samples, which leads to the performance gap between them.

Object object-detection +1