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ORCIDKecheng Yang 0001
Person information
- affiliation: Texas State University, San Marcos, TX, USA
- affiliation (former): University of North Carolina at Chapel Hill, NC, USA
Other persons with the same name
- Kecheng Yang 0002 — Third Military Medical University, Chongqing, China
- Kecheng Yang 0003 — Huazhong University of Science and Technology, Wuhan, China
- Kecheng Yang 0004 — Yunnan University, School of Resource, Environment and Earth Sciences, Kunming, China
- Kecheng Yang 0005 — Chinese Academy of Sciences, Changchun Institute of Applied Chemistry, Key Laboratory of Synthetic Rubber, China
- Kecheng Yang 0006 — Zhengzhou University, Zhengzhou, Henan, China
- Kecheng Yang 0007
![[0000-0001-9664-1395]](https://dblp.uni-trier.de./img/orcid-mark.12x12.png "0000-0001-9664-1395")
— Zhengzhou University, National Supercomputing Center, China
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2020 – today
- 2024
[j9]Zhe Jiang, Kecheng Yang, Nathan Fisher, Nan Guan, Neil C. Audsley, Zheng Dong:
Hopscotch: A Hardware-Software Co-Design for Efficient Cache Resizing on Multi-Core SoCs. IEEE Trans. Parallel Distributed Syst. 35(1): 89-104 (2024)- [c35]Yuxiao Zhou, Zhishan Guo, Zheng Dong, Kecheng Yang:
Multi-Accelerator Neural Network Inference via TensorRT in Heterogeneous Embedded Systems. COMPSAC 2024: 463-472 - 2023
- [j8]Sudharsan Vaidhun, Tianning She, Qijun Gu, Sajal K. Das, Kecheng Yang, Zhishan Guo:
Precise Mixed-Criticality Scheduling on Varying-Speed Multiprocessors. IEEE Trans. Computers 72(1): 43-54 (2023) - [j7]Zhe Jiang, Kecheng Yang, Yunfeng Ma, Nathan Fisher, Neil C. Audsley, Zheng Dong:
Towards Hard Real-Time and Energy-Efficient Virtualization for Many-Core Embedded Systems. IEEE Trans. Computers 72(1): 111-126 (2023) - [j6]Zhe Jiang, Kecheng Yang, Nathan Fisher, Ian Gray, Neil C. Audsley, Zheng Dong:
AXI-IC$^{\mathrm{ RT}}$ RT : Towards a Real-Time AXI-Interconnect for Highly Integrated SoCs. IEEE Trans. Computers 72(3): 786-799 (2023) - [c34]Jacob McCalip, Mandil Pradhan, Kecheng Yang:
Reinforcement Learning Approaches for Racing and Object Avoidance on AWS DeepRacer. COMPSAC 2023: 958-961 - [c33]Yuxiao Zhou, Zhishan Guo, Zheng Dong, Kecheng Yang:
TensorRT Implementations of Model Quantization on Edge SoC. MCSoC 2023: 486-493 - [c32]Allen Tian, Eddy Guerra John, Kecheng Yang:
Poster: Unraveling Reward Functions for Head-to-Head Autonomous Racing in AWS DeepRacer. MobiHoc 2023: 592-594 - [c31]Abdullah Al Arafat, Sudharsan Vaidhun, Liangkai Liu, Kecheng Yang, Zhishan Guo:
Compositional Mixed-Criticality Systems with Multiple Executions and Resource-Budgets Model. RTAS 2023: 67-79 - [c30]Zhishan Guo, Sudharsan Vaidhun, Abdullah Al Arafat, Nan Guan, Kecheng Yang:
Stealing Static Slack Via WCRT and Sporadic P-Servers in Deadline-Driven Scheduling. RTSS 2023: 40-52 - 2022
- [j5]Zhe Jiang, Kecheng Yang, Nathan Fisher, Neil C. Audsley, Zheng Dong:
Towards an energy-efficient quarter-clairvoyant mixed-criticality system. J. Syst. Archit. 130: 102683 (2022) - [j4]Zhishan Guo, Sudharsan Vaidhun, Luca Satinelli, Samsil Arefin, Jun Wang, Kecheng Yang:
Mixed-Criticality Scheduling Upon Permitted Failure Probability and Dynamic Priority. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 41(1): 62-75 (2022) - [c29]Zhe Jiang, Kecheng Yang, Neil C. Audsley, Nathan Fisher, Weisong Shi, Zheng Dong:
BlueScale: a scalable memory architecture for predictable real-time computing on highly integrated SoCs. DAC 2022: 1261-1266 - [c28]Yuxiao Zhou, Kecheng Yang:
Exploring TensorRT to Improve Real-Time Inference for Deep Learning. HPCC/DSS/SmartCity/DependSys 2022: 2011-2018 - [c27]Tianning She, Zhishan Guo, Kecheng Yang:
Scheduling Constrained-Deadline Tasks in Precise Mixed-Criticality Systems on a Varying-Speed Processor. RTNS 2022: 94-102 - 2021
- [j3]Sergey Voronov, James H. Anderson, Kecheng Yang:
Tardiness bounds for fixed-priority global scheduling without intra-task precedence constraints. Real Time Syst. 57(1-2): 4-54 (2021) - [j2]Ashikahmed Bhuiyan, Kecheng Yang, Samsil Arefin, Abusayeed Saifullah, Nan Guan, Zhishan Guo:
Mixed-criticality real-time scheduling of gang task systems. Real Time Syst. 57(3): 268-301 (2021) - [j1]Zheng Dong, Kecheng Yang, Nathan Fisher, Cong Liu:
Tardiness Bounds for Sporadic Gang Tasks Under Preemptive Global EDF Scheduling. IEEE Trans. Parallel Distributed Syst. 32(12): 2867-2879 (2021) - [c26]Zhe Jiang, Kecheng Yang, Yunfeng Ma, Nathan Fisher, Neil C. Audsley, Zheng Dong:
I/O-GUARD: Hardware/Software Co-Design for I/O Virtualization with Guaranteed Real-time Performance. DAC 2021: 1159-1164 - [c25]Zhe Jiang, Neil C. Audsley, Dayu Shill, Kecheng Yang, Nathan Fisher, Zheng Dong:
Brief Industry Paper: AXI-InterconnectRT: Towards a Real-Time AXI-Interconnect for System-on-Chips. RTAS 2021: 437-440 - [c24]Tianning She, Zhishan Guo, Qijun Gu, Kecheng Yang:
Reserving Processors by Precise Scheduling of Mixed-Criticality Tasks. RTCSA 2021: 103-108 - [c23]Tianning She, Sudharsan Vaidhun, Qijun Gu, Sajal K. Das, Zhishan Guo, Kecheng Yang:
Precise Scheduling of Mixed-Criticality Tasks on Varying-Speed Multiprocessors. RTNS 2021: 134-143 - 2020
- [c22]Kecheng Yang, Ashikahmed Bhuiyan, Zhishan Guo:
F2VD: Fluid Rates to Virtual Deadlines for Precise Mixed-Criticality Scheduling on a Varying-Speed Processor. ICCAD 2020: 100:1-100:9 - [c21]Kecheng Yang, Zheng Dong:
Mixed-Criticality Scheduling in Compositional Real-Time Systems with Multiple Budget Estimates. RTSS 2020: 25-37 - [c20]Zhe Jiang, Kecheng Yang, Nathan Fisher, Neil C. Audsley, Zheng Dong:
Pythia-MCS: Enabling Quarter-Clairvoyance in I/O-Driven Mixed-Criticality Systems. RTSS 2020: 38-50 - [c19]Zhishan Guo, Kecheng Yang, Fan Yao, Amro Awad:
Inter-task cache interference aware partitioned real-time scheduling. SAC 2020: 218-226
2010 – 2019
- 2019
- [c18]Kecheng Yang, Zhishan Guo:
EDF-Based Mixed-Criticality Scheduling with Graceful Degradation by Bounded Lateness. RTCSA 2019: 1-6 - [c17]Ashikahmed Bhuiyan, Sai Sruti, Zhishan Guo, Kecheng Yang:
Precise scheduling of mixed-criticality tasks by varying processor speed. RTNS 2019: 123-132 - [c16]Ashikahmed Bhuiyan, Kecheng Yang, Samsil Arefin, Abusayeed Saifullah, Nan Guan, Zhishan Guo:
Mixed-Criticality Multicore Scheduling of Real-Time Gang Task Systems. RTSS 2019: 469-480 - 2018
- [b1]Kecheng Yang:
Real-Time Scheduling on Asymmetric Multiprocessor Platforms. University of North Carolina, Chapel Hill, USA, 2018 - [c15]Sergey Voronov, James H. Anderson, Kecheng Yang:
Tardiness Bounds for Fixed-Priority Global Scheduling without Intra-Task Precedence Constraints. RTNS 2018: 8-18 - [c14]Ming Yang, Tanya Amert, Kecheng Yang, Nathan Otterness, James H. Anderson, F. Donelson Smith, Shige Wang:
Making OpenVX Really "Real Time". RTSS 2018: 80-93 - [c13]Zhishan Guo, Kecheng Yang, Sudharsan Vaidhun, Samsil Arefin, Sajal K. Das, Haoyi Xiong:
Uniprocessor Mixed-Criticality Scheduling with Graceful Degradation by Completion Rate. RTSS 2018: 373-383 - [c12]Zhishan Guo, Luca Santinelli, Kecheng Yang:
Mixed-Criticality Scheduling with Limited HI-Criticality Behaviors. SETTA 2018: 187-199 - 2017
- [c11]Kecheng Yang, James H. Anderson:
On the Soft Real-Time Optimality of Global EDF on Uniform Multiprocessors. RTSS 2017: 319-330 - 2016
- [c10]Catherine E. Nemitz, Kecheng Yang, Ming Yang, Pontus Ekberg, James H. Anderson:
Multiprocessor Real-Time Locking Protocols for Replicated Resources. ECRTS 2016: 50-60 - [c9]Kecheng Yang, Ming Yang, James H. Anderson:
Reducing Response-Time Bounds for DAG-Based Task Systems on Heterogeneous Multicore Platforms. RTNS 2016: 349-358 - [c8]Kecheng Yang, James H. Anderson:
On the Dominance of Minimum-Parallelism Multiprocessor Supply. RTSS 2016: 215-226 - 2015
- [c7]Kecheng Yang, James H. Anderson:
An Optimal Semi-partitioned Scheduler for Uniform Heterogeneous Multiprocessors. ECRTS 2015: 199-210 - [c6]Kecheng Yang, James H. Anderson:
On the Soft Real-Time Optimality of Global EDF on Multiprocessors: From Identical to Uniform Heterogeneous. RTCSA 2015: 1-10 - [c5]Zhishan Guo, Luca Santinelli, Kecheng Yang:
EDF Schedulability Analysis on Mixed-Criticality Systems with Permitted Failure Probability. RTCSA 2015: 187-196 - [c4]Kecheng Yang, Glenn A. Elliott, James H. Anderson:
Analysis for supporting real-time computer vision workloads using OpenVX on multicore+GPU platforms. RTNS 2015: 77-86 - [c3]Glenn A. Elliott, Kecheng Yang, James H. Anderson:
Supporting Real-Time Computer Vision Workloads Using OpenVX on Multicore+GPU Platforms. RTSS 2015: 273-284 - 2014
- [c2]Kecheng Yang, James H. Anderson:
Optimal GEDF-based schedulers that allow intra-task parallelism on heterogeneous multiprocessors. ESTIMedia 2014: 30-39 - [c1]Kecheng Yang, James H. Anderson:
Soft Real-Time Semi-Partitioned Scheduling with Restricted Migrations on Uniform Heterogeneous Multiprocessors. RTNS 2014: 215
Coauthor Index
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