Leung Yu
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Featured researches published by Leung Yu.
international solid-state circuits conference | 1996
Kevin S. Donnelly; Yiu-Fai Chan; J. Ho; Chanh Tran; S. Patel; Benedict Lau; Jun Kim; Pak Shing Chau; C. Huang; Jason Wei; Leung Yu; R. Tarver; R. Kulkami; Donald Stark; Mark G. Johnson
A high-speed interface circuit delivering 660 MB/s data is implemented as a byte-wide I/O bus-interface cell. The interface contains low-swing input receivers, controlled-current output drivers, and clock-recovery circuits. The circuits perform well in noisy environments such as microprocessors, and withstand LdI/dt noise generated in high-inductance packages such as PQFPs. The interface is implemented as a full-custom ASIC library mega-cell, reducing area and power over gate-array approaches. An advanced CAD methodology is used to easily port the analog circuits and high-speed digital circuits in the interface cell to multiple-fabrication process technologies. The cell is used as an interface for ASIC-to-DRAM communication and for ASIC-to-ASIC communication, for point-to-point links and for bused links.
IEEE Journal of Solid-state Circuits | 1998
Benedict Lau; Yiu-Fai Chan; Alfredo Moncayo; J. Ho; M. Allen; J. Salmon; J. Liu; M. Muthal; Cheng Yen Lee; T. Nguyen; B. Horine; M. Leddige; Kuojim Huang; Jason Wei; Leung Yu; R. Tarver; Yuwen Hsia; Roxanne Vu; F. Tsern; Haw-Jyh Liaw; J. Hudson; David Nguyen; Kevin S. Donnelly; R. Crisp
A 2.6 GByte/s megacell that interfaces to single or double byte wide DRAMs or logic chips is implemented using 0.35-0.18 /spl mu/m CMOS technologies. Special I/O circuits are used to guarantee 800 Mbit/s/pin data rate. Microwave PC board design methodologies are used to achieve the maximum possible interconnect bandwidth.
international solid-state circuits conference | 1998
Benedict Lau; Yiu-Fai Chan; A. Moncayo; J. Ho; M. Allen; J. Salmon; J. Liu; M. Muthal; C. Lee; T. Nguyen; B. Horine; M. Leddige; K. Huang; Jason Wei; Leung Yu; R. Tarver; Y. Hsia; R. Vu; E. Tsern; H.-J. Liaw; J. Hudson; D. Nguyen; Kevin S. Donnelly; R. Crisp
A high-speed interface cell delivers 800 Mb/s/pin data transfer rate on a 26b wide I/O interface consisting of a dual-byte data field and a byte-wide command field. For 2.6 GB/s data rate, a 400 MHz clock recovery circuit guarantees the timing margin for transferring 800 mV swing data at both clock edges over the I/O interface. Data from the high speed interface is internally deserialized to provide a 100 MHz (f/4) ASIC clock interface. A test chip contains three megacells and built-in clock synchronization circuits to ensure proper data transfer between the three megacells with minimal impact on latency. Controlled impedance buses, referred to as channels, with careful PCB layout ensure 800 Mb/s/pin data rate on-board for ASIC-to-ASIC or ASIC-to-DRAM system configuration.
Archive | 1998
Kevin S. Donnelly; Pak Shing Chau; Mark Horowitz; Thomas H. Lee; Mark G. Johnson; Benedict Lau; Leung Yu; Bruno W. Garlepp; Yiu-Fai Chan; Jun Kim; Chanh Tran; Donald C. Stark; Nhat Nguyen
Archive | 2000
Jared L. Zerbe; Kevin S. Donnelly; Stefanos Sidiropoulos; Donald C. Stark; Mark Horowitz; Leung Yu; Roxanne Vu; Jun Kim; Bruno W. Garlepp; Tsyr-Chyang Ho; Benedict Lau
Archive | 1997
Bruno W. Garlepp; Pak Shing Chau; Kevin S. Donnelly; Clemenz L. Portmann; Donald C. Stark; Stefanos Sidiropoulos; Leung Yu; Benedict Lau; Roxanne Vu
Archive | 2003
Jared L. Zerbe; Kevin S. Donnelly; Stefanos Sidiropoulos; Donald C. Stark; Mark Horowitz; Leung Yu; Roxanne Vu; Jun Kim; Bruno W. Garlepp; Tsyr-Chyang Ho; Benedict Lau
Archive | 2006
Jared L. Zerbe; Kevin S. Donnelly; Stefanos Sidiropoulos; Donald C. Stark; Mark Horowitz; Leung Yu; Roxanne Vu; Jun Kim; Bruno W. Garlepp; Tsyr-Chyang Ho; Benedict Lau
Archive | 2003
Huy M. Nguyen; Roxanne Vu; Leung Yu; Benedict Lau
Archive | 2000
Benedict Lau; Leung Yu
