Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
2010 | An Efficient FTL Design for Multi-Chipped Solid-State Drives | Yuan-Hao Chang; Wei-Lun Lu; Po-Chun Huang; Lue-Jane Lee; Tei-Wei Kuo | | | | |
2018 | An Erase Efficiency Boosting Strategy for 3D Charge Trap NAND Flash | Shuo-Han Chen; Yuan-Hao Chang; Yu-Pei Liang; Hsin-Wen Wei; Wei-Kuan Shih | IEEE Transactions on Computers (TC) 67(9), 1246-1258 | | | |
2013 | An Index-Based Management Scheme with Adaptive Caching for Huge-Scale Low-Cost Embedded Flash Storages | Po-Chun Huang; Yuan-Hao Chang; Tei-Wei Kuo | ACM Transactions on Design Automation of Electronic Systems (TODAES) 18(4), 56:1-56:26 | | | |
2018 | An SLC-Like Programming Scheme for MLC Flash Memory | Chien-Chung Ho; Yu-Ming Chang; Yuan-Hao Chang; Tei-Wei Kuo | ACM Transactions on Storage (TOS) 14(1), 11:1-11:26 | | | |
2017 | Anti-wear Leveling Design for SSDs with Hybrid ECC Capability | Chien-Chung Ho; Yu-Ping Liu; Yuan-Hao Chang; Tei-Wei Kuo | IEEE Transactions on Very Large Scale Integration Systems (TVLSI) 25(2), 488-501 | | | |
2014 | Bad Page Relaxation to Prolong the Lifetime of Flash Devices | Ming-Chang Yang; Yuan-Hung Kuan; Yuan-Hao Chang; Pei-Lun Suei; Chia-Heng Tu; Norman Chang | | | | |
2014 | Block Reinforcement to Optimize Lifetime of Flash Storage Devices | Chien-Chung Ho; Yuan-Hao Chang; Che-Wei Tsao; Pei-Lun Suei | | | | |
2015 | Block-Based Multi-Version B+ -Tree for Flash-Based Embedded Database Systems | Jian-Tao Wang; Kam-Yiu Lam; Yuan-Hao Chang; Jen-Wei Hsieh; Po-Chun Huang | IEEE Transactions on Computers (TC) 64(4), 925-940 | | | |
2018 | Boosting NVDIMM Performance with a Light-Weight Caching Algorithm | Che-Wei Tsao; Yuan-Hao Chang; Tei-Wei Kuo | IEEE Transactions on Very Large Scale Integration Systems (TVLSI) PP(99), 1-13 | | | |
2018 | Boosting the Performance with a Data-backup-free Programming Scheme for TLC-based SSDs | Chin-Chiang Pan; Chien-Chung Ho; Yuan-Hao Chang; Tei-Wei Kuo; Yu-Ming Chang; Ming-Chang Yang | | | | |
2014 | Booting Time Minimization for Real-Time Embedded Systems with Non-Volatile Memory | Che-Wei Chang; Chuan-Yue Yang; Yuan-Hao Chang; Tei-Wei Kuo | IEEE Transactions on Computers (TC) 63(4), 847-859 | | | |
2016 | Byte-addressable Update Scheme to Minimize the Energy Consumption of PCM-based Storage Systems | Ming-Chang Yang; Yuan-Hao Chang; Che-Wei Tsao | ACM Transactions on Embedded Computing Systems (TECS) 15(3), 55:1-55:20 | | | |
2016 | Capacity-independent Address Mapping for Flash Storage Devices with Explosively Growing Capacity | Ming-Chang Yang; Yuan-Hao Chang; Tei-Wei Kuo; Po-Chun Huang | IEEE Transactions on Computers (TC) 65(2), 448-465 | | | |
2014 | Current-Aware Scheduling for Flash Storage Devices | Tzu-Jung Huang; Chien-Chung Ho; Po-Chun Huang; Yuan-Hao Chang; Che-Wei Chang; Tei-Wei Kuo | | | | |
2017 | Distillation: A Light-Weight Data Separation Design to Boost Performance of NVDIMM Main Memory | Che-Wei Tsao; Yuan-Hao Chang; Tei-Wei Kuo; Shau-Yin Tseng | | | | |
2016 | Disturbance Relaxation for 3D Flash Memory | Yu-Ming Chang; Yuan-Hao Chang; Tei-Wei Kuo; Yung-Chun Li; Hsiang-Pang Li | IEEE Transactions on Computers (TC) 65(5), 1467-1483 | | | |
2014 | Dynamic Tail Packing to Optimize Space Utilization of File Systems in Embedded Computing Systems | Nien-I Hsu; Tseng-Yi Chen; Yuan-Hao Chang; Hsin-Wen Wei; Wei-Kuan Shih; Norman Chang | | | | |
2015 | Efficient Hibernation Resuming with Classification-based Prefetching Scheme for Embedded Computing Systems | Chien-Chung Ho; Sheng-Wei Cheng; Yuan-Hao Chang; Yu-Ming Chang; Sheng-Yen Hong; Che-Wei Chang | ACM SIGAPP Applied Computing Review (ACR) 15(1), 33-43 | | | |
2015 | Efficient Victim Block Selection for Flash Storage Devices | Che-Wei Tsao; Yuan-Hao Chang; Ming-Chang Yang; Po-Chun Huang | IEEE Transactions on Computers (TC) 64(12), 3444-3460 | | | |
2016 | Efficient Warranty-Aware Wear Leveling for Embedded Systems with PCM Main Memory | Sheng-Wei Cheng; Yuan-Hao Chang; Tseng-Yi Chen; Yu-Fen Chang; Hsin-Wen Wei; Wei-Kuan Shih | IEEE Transactions on Very Large Scale Integration Systems (TVLSI) 24(7), 2535-2547 | | | |