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434 results on '"Wang, Yingcheng"'

1. A System for Microserving of LLMs

Author

Jin, Hongyi, Lai, Ruihang, Ruan, Charlie F., Wang, Yingcheng, Mowry, Todd C., Miao, Xupeng, Jia, Zhihao, and Chen, Tianqi

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

The recent advances in LLMs bring a strong demand for efficient system support to improve overall serving efficiency. As LLM inference scales towards multiple GPUs and even multiple compute nodes, various coordination patterns, such as prefill-decode disaggregation and context migration, arise in serving systems. Most inference services today expose a coarse-grained request-level API with a pre-configured coordination strategy, limiting the ability to customize and dynamically reconfigure the coordination. In this paper, we propose LLM microserving, a multi-level architecture for structuring and programming LLM inference services. We introduces simple yet effective microserving APIs to support fine-grained sub-request level actions. A programmable router transforms user requests into sub-request calls, enabling the dynamic reconfiguration of serving patterns. To support diverse execution patterns, we develop a unified KV cache interface that handles various KV compute, transfer, and reuse scenarios. Our evaluation shows that LLM microserving can be reconfigured to support multiple disaggregation orchestration strategies in a few lines of Python code while maintaining state-of-the-art performance for LLM inference tasks. Additionally, it allows us to explore new strategy variants that reduce up to 47% of job completion time compared to the existing strategies.

Published
2024

4. Focusing on what to decode and what to train: SOV Decoding with Specific Target Guided DeNoising and Vision Language Advisor

Author

Chen, Junwen, Wang, Yingcheng, and Yanai, Keiji

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent transformer-based methods achieve notable gains in the Human-object Interaction Detection (HOID) task by leveraging the detection of DETR and the prior knowledge of Vision-Language Model (VLM). However, these methods suffer from extended training times and complex optimization due to the entanglement of object detection and HOI recognition during the decoding process. Especially, the query embeddings used to predict both labels and boxes suffer from ambiguous representations, and the gap between the prediction of HOI labels and verb labels is not considered. To address these challenges, we introduce SOV-STG-VLA with three key components: Subject-Object-Verb (SOV) decoding, Specific Target Guided (STG) denoising, and a Vision-Language Advisor (VLA). Our SOV decoders disentangle object detection and verb recognition with a novel interaction region representation. The STG denoising strategy learns label embeddings with ground-truth information to guide the training and inference. Our SOV-STG achieves a fast convergence speed and high accuracy and builds a foundation for the VLA to incorporate the prior knowledge of the VLM. We introduce a vision advisor decoder to fuse both the interaction region information and the VLM's vision knowledge and a Verb-HOI prediction bridge to promote interaction representation learning. Our VLA notably improves our SOV-STG and achieves SOTA performance with one-sixth of training epochs compared to recent SOTA. Code and models are available at https://github.com/cjw2021/SOV-STG-VLA

Published
2023

11. CoBacFM: Core bacteria forecast model for global grassland pH dynamics under future climate warming scenarios

Author

Feng, Kai, Wang, Shang, He, Qing, Bonkowski, Michael, Bahram, Mohammad, Yergeau, Etienne, Wang, Zhujun, Peng, Xi, Wang, Danrui, Li, Shuzhen, Wang, Yingcheng, Ju, Zhicheng, Du, Xiongfeng, Yan, Chengliang, Gu, Songsong, Li, Tong, Yang, Xingsheng, Shen, Wenli, Wei, Ziyan, Hu, Qiulong, Li, Pengfei, Zhu, Yanmei, Lu, Guangxin, Qin, Clara, Zhang, Gengxin, Xiao, Chunwang, Yang, Yunfeng, Zhou, Jizhong, and Deng, Ye

Published
2024
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14. AGRICULTURAL GREEN DEVELOPMENT TO ACHIEVE FOOD SECURITY AND CARBON REDUCTION IN THE CONTEXT OF CHINA’S DUAL CARBON GOALS

Author

Yulong YIN, Kai HE, Zhong CHEN, Yangyang LI, Fengling REN, Zihan WANG, Yingcheng WANG, Haiqing GONG, Qichao ZHU, Jianbo SHEN, Xuejun LIU, Zhenling CUI

Subjects
agriculture, carbon neutrality, carbon peak, food security, carbon mitigation strategies, Agriculture (General), S1-972
Abstract

● To achieve food security, Chinese agriculture– food system could not achieve C neutrality. ● China’s dual carbon goals has put forward more strict requirements for the green development of agriculture. ● The realization of C mitigation potential lies in the extensive application of existing technologies and technological innovation. The agricultural sector, a major source of greenhouse gas emissions, and emissions from agriculture must be reduced substantially to achieve carbon (C) neutrality. Based on a literature analysis and other research results, this study investigated the effects and prospects of C reduction in agricultural systems under different scenarios (i.e., methods and approaches) in the context of China’s dual C goals, as those working in the agricultural sector have yet to reach a consensus on how to move forward. Different views, standards, and countermeasures were analyzed to provide a reference for agricultural action supporting China’s C neutrality goal.

Published
2023
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16. Advanced electric vehicle car park control to enable grid support

Author

Wang, Yingcheng, Gladwin, Daniel, and Foster, Martin

Abstract

Future car parks will require significant power to support electric vehicle (EV) charging as there will be both an increase in the penetration of EV chargers and a higher demand for charging power as battery packs increase in capacity and users demand short charge durations. Effective control of the charging and local storage can be installed to help avoid excessive increases in electrical feeder capacity, however, car parks will inevitably attain significant power capability in the future compared to that seen today. It is therefore proposed in this research to leverage this power capability and use vehicle-to-grid charging, under the central control of the car park operator, to act as an aggregated energy storage system to deliver grid frequency response services. In this thesis, an agent-based model of a novel smart EV car park (SECP) is presented that can incorporate detailed power models for agents whilst providing a centralised command-based control structure to support advanced power flow management. It is first used to analyse how to manage the peak power demand of the EVs through charging management with four different power management methods proposed and evaluated. These methods are demonstrated to enable the power feeder to the SECP to be constrained whilst providing an equitable EV charging service. The thesis then investigates how photovoltaic panels and a battery energy storage system can be integrated into the SECP model to support improved EV charging. A methodology to control the power flow between the elements is presented and this is demonstrated to effectively increase the available power for EV charging and maximise the use of available PV energy over the day reducing the demand from the grid. The results show how the power feeder can be then minimised with the appropriate sizing of PV and the BESS. Finally, a power flow management strategy is proposed to enable the import and export of power to the grid to provide frequency response services as a single aggregated unit. Two frequency response services used by the Electricity System Operator in GB are simulated and it is validated that the SECP can deliver to the requirements of the services. A sizing methodology is proposed for the BESS to maximise service availability and EV charging capability whilst meeting the constraints of a power feeder limit. The research presented in this thesis transforms an EV car park from a burden on the grid to being effectively a short term energy storage system that can provide a fast power response to help balance the electrical transmission system.

Published
2021

24. Switchable Chemo‐, Regio‐ and Pseudo‐Stereodivergence in Palladium‐Catalyzed Cycloaddition of Allenes.

Author

Luo, Pengfei, Li, Jinxia, Deng, Yu‐Hua, Yu, Peiyuan, Wang, Yingcheng, Peng, Fangzhi, and Shao, Zhihui

Subjects
ALLENE, ALKENES, BIOCHEMICAL substrates, STEREOISOMERS, PALLADIUM
Abstract

Here, we report a strategy enabling triple switchable chemo‐, regio‐, and stereodivergence in newly developed palladium‐catalyzed cycloadditions of allenes. An asymmetric pseudo‐stereodivergent cycloaddition of allenes bearing a primary leaving group at the α‐position, where a dynamic kinetic asymmetric hydroalkoxylation of racemic unactivated allenes was the enantio‐determining step, is realized, providing four stereoisomers [(Z,R), (Z,S), (E,S), and (E,R)] containing a di‐substituted alkene scaffold and a stereogenic center. By tuning reaction conditions, a mechanistically distinctive cycloaddition is uncovered selectively with the same set of substrates. By switching the position of the leaving group of allenes, a cycloaddition involving an intermolecular O‐attack is disclosed. Diverse mechanisms of the cycloaddition reactions of allenes enable rapid access to structurally and stereochemically diverse 3,4‐dihydro‐2H‐1,4‐benzoxazines in high efficiency and selectivity. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Soil organic carbon formation efficiency from straw/stover and manure input and its drivers: Estimates from long‐term data in global croplands.

Author

Yin, Yulong, Chen, Zhong, Gong, Haiqing, He, Kai, Miao, Qi, Tian, Xingshuai, Wang, Zihan, Wang, Yingcheng, Zheng, Huifang, and Cui, Zhenling

Subjects
CLIMATE change mitigation, CLAY soils, SOIL dynamics, FARMS, RANDOM forest algorithms
Abstract

New soil organic carbon (SOC) formation in cropland from straw/stover or manure input is a vital source of SOC for climate change mitigation. However, location and variations in the efficiency, specifically the ratio of new SOC formation to organic C input (NCE), remain unquantified globally. In this study, the spatial variability of cropland NCE from straw/stover or manure input and explanatory factors were determined by analyzing 897 pairs of long‐term field measurements from 404 globally distributed sites and by mapping grid‐level cropland NCEs. The global NCE for paddy and upland averaged 13.8% (8.7%–25.1%, 5th–95th percentile) and 10.9% (6.8%–17.3%), respectively. The initial SOC and the clay content of soil, rather than temperature, were the most important factors regulating NCE. A parabola with an apex at approximately 17 g kg−1 between the initial SOC and NCE was resolved, and a positive correlation between soil clay content and NCE was observed. High‐resolution mapping of the global NCE derived from manure/straw and insight into NCE dynamics provide a benchmark for diagnosing cropland soil C dynamics under climate change and identifying priority regions and actions for C management. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Global patterns of soil organic carbon dynamics in the 20–100 cm soil profile for different ecosystems: A global meta-analysis.

Author

Wang, Haiyan, Yin, Yulong, Cai, Tingyao, Tian, Xingshuai, Chen, Zhong, He, Kai, Wang, Zihan, Gong, Haiqing, Miao, Qi, Wang, Yingcheng, Chu, Yiyan, Zhang, Qingsong, Zhuang, Minghao, and Cui, Zhengling

Subjects
SOIL profiles, CARBON in soils, GRASSLANDS, ECOSYSTEMS, FARMS, PLATEAUS
Abstract

Determining the dynamics of organic carbon in subsoil (SOC, depth of 20–100 cm) is important with respect to the global C cycle and warming mitigation. However, there is still a huge knowledge gap in the dynamics of spatiotemporal changes in SOC in this layer. Combining traditional depth functions and machine-learning methods, we achieved soil β values and SOC dynamics at high resolution for global ecosystems (cropland, grassland, and forestland). First, quantified the spatial variability characteristics of soil β values and driving factors by analyzing 1221 soil profiles (0–100 cm) of globally distributed field observations. Then, based on multiple environmental variables and soil profile data, we mapped the grid-level soil β values with machine-learning approaches. Lastly, we evaluated the SOC density spatial distribution in different soil layers to determine the subsoil SOC stocks of various ecosystems. The subsoil SOC density values of cropland, grassland, and forestland were 63.8, 83.3, and 100.4 Mg ha–1, respectively. SOC density decreased with increasing depth, ranging from 5.6 to 30.8 Mg ha–1 for cropland, 7.5 to 40.0 Mg ha–1 for grassland, and 9.6 to 47.0 Mg ha–1 for forestland. The global subsoil SOC stock was 912 Pg C (cropland, grassland, and forestland were 67, 200, and 644 Pg C), in which an average of 54 % resided in the top 0–100 cm of the soil profile. Our results provide information on the vertical distribution and spatial patterns of SOC density at a 10 km resolution for areas of Global ecosystems, which providing a scientific basis for future studies pertaining to Earth system models. The dataset is open-access and available at https://doi.org/10.5281/zenodo.10846543 (Wang et al., 2024). [ABSTRACT FROM AUTHOR]

Published
2024
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37. Whole-exome sequencing for the identification of susceptibility genes of Kashin-Beck disease.

Author

Yang, Zhenxing, Xu, Yu, Luo, Hongrong, Ma, Xiaohong, Wang, Qiang, Wang, Yingcheng, Deng, Wei, Jiang, Tao, Sun, Guangqing, He, Tingting, Hu, Jingchu, Li, Yingrui, Wang, Jun, Li, Tao, and Hu, Xun

Subjects
Humans, Genetic Predisposition to Disease, Case-Control Studies, Sequence Analysis, Polymorphism, Genetic, Adolescent, Adult, Aged, Middle Aged, Asian Continental Ancestry Group, Female, Male, Young Adult, Kashin-Beck Disease, Genotyping Techniques, Exome, Polymorphism, Genetic, General Science & Technology
Abstract

ObjectiveTo identify and investigate the susceptibility genes of Kashin-Beck disease (KBD) in Chinese population.MethodsWhole-exome capturing and sequencing technology was used for the detection of genetic variations in 19 individuals from six families with high incidence of KBD. A total of 44 polymorphisms from 41 genes were genotyped from a total of 144 cases and 144 controls by using MassARRAY under the standard protocol from Sequenom. Association was applied on the data by using PLINK1.07.ResultsIn the sequencing stage, each sample showed approximately 70-fold coverage, thus covering more than 99% of the target regions. Among the single nucleotide polymorphisms (SNPs) used in the transmission disequilibrium test, 108 had a p-value of

Published
2014

42. Global patterns of soil organic carbon dynamics in the 20–100 cm soil profile for different ecosystems: A global meta-analysis

Author

Wang, Haiyan, primary, Yin, Yulong, additional, Cai, Tingya, additional, Tian, Xingshuai, additional, Chen, Zhong, additional, He, Kai, additional, Wang, Zihan, additional, Gong, Haiqing, additional, Miao, Qi, additional, Wang, Yingcheng, additional, Chu, Yiyan, additional, Zhang, Qingsong, additional, Zhuang, Minghao, additional, and Cui, Zhenling, additional

Published
2023
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44. Web-based intervention for improving influenza vaccination in pregnant women: a cost-effectiveness analysis.

Author

Wang, Yingcheng, Fekadu, Ginenus, and You, Joyce H.S.

Subjects
PREGNANT women, INFLUENZA vaccines, MEDICAL personnel, MONTE Carlo method, VACCINATION status
Abstract

A website with vaccine information and interactive social media was reported to improve maternal influenza vaccine uptake. This study aimed to evaluate cost-effectiveness of a web-based intervention on influenza vaccine uptake among pregnant women from the perspective of US healthcare providers. A one-year decision-analytic model estimated outcomes in a hypothetical cohort of pregnant women with: (1) website with vaccine information and interactive social media (intervention group), and (2) usual care (usual care group). Primary measures included influenza infection, influenza-related hospitalization, mortality, direct medical cost, and quality-adjusted life-year (QALY) loss. In base-case analysis, intervention group reduced cost (by USD28), infection (by 28 per 1,000 pregnant women), hospitalization (by 1.226 per 1,000 pregnant women), mortality (by 0.0036 per 1,000 pregnant women), and saved 0.000305 QALYs versus usual care group. Relative improvement of vaccine uptake by the intervention and number of pregnant women in the healthcare system were two influential factors identified in deterministic sensitivity analysis. The intervention was cost-effective in 99.5% of 10,000 Monte Carlo simulations (at willingness-to-pay threshold 50,000 USD/QALY). A website with vaccine information and interactive social media to promote influenza vaccination for pregnant women appears to reduce direct medical costs and gain QALYs from the perspective of US healthcare providers. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Focusing on what to decode and what to train: Efficient Training with HOI Split Decoders and Specific Target Guided DeNoising

Author

Chen, Junwen, Wang, Yingcheng, and Yanai, Keiji

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent one-stage transformer-based methods achieve notable gains in the Human-object Interaction Detection (HOI) task by leveraging the detection of DETR. However, the current methods redirect the detection target of the object decoder, and the box target is not explicitly separated from the query embeddings, which leads to long and hard training. Furthermore, matching the predicted HOI instances with the ground-truth is more challenging than object detection, simply adapting training strategies from the object detection makes the training more difficult. To clear the ambiguity between human and object detection and share the prediction burden, we propose a novel one-stage framework (SOV), which consists of a subject decoder, an object decoder, and a verb decoder. Moreover, we propose a novel Specific Target Guided (STG) DeNoising strategy, which leverages learnable object and verb label embeddings to guide the training and accelerates the training convergence. In addition, for the inference part, the label-specific information is directly fed into the decoders by initializing the query embeddings from the learnable label embeddings. Without additional features or prior language knowledge, our method (SOV-STG) achieves higher accuracy than the state-of-the-art method in one-third of training epochs. The code is available at \url{https://github.com/cjw2021/SOV-STG}.

Published
2023

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