The goal of BY91-1 Project is to develop a CC-NUMA shared memory multiprocessors supporting real-time simulation.

The main features of the BY91-1 machine are:

Architecture: CC-NUMA Shared Memory Heterogeneous Multiprocessors

Interconnection: Crossbar

CPU: Intel i860XP, Motorola 68030

Number of CPU: 18

Operating System: BYSOS (Real-Time UNIX for BY91-1)

I am one of R&D members of BY91-1 project. My contributions to the BY91-1 machine include:

Design shared memory module, modify & debug processing element module

Develop part of parallel compiler & linker - Link860 for BY91-1 machine

Hardware System debug and HW/SW integration

Develop parallel applications for BY91-1 machine

The objective of S1000 project is to build a scalable distributed shared memory CC-NUMA multiprocessor to accelerate motive image parallel recognition and motive image parallel processing.

The main features of S1000 machine are:

Architecture: CC-NUMA multiprocessors with distributed shared memory (DSM)

Interconnection: SCI/ Crossbar

CPU: Intel Pentium Pro

Co-Processor: TI TMS320C80

Number of CPUs: 32

OS: Mach Multiprocessor Version 3.0

I was one of the R&D members of S1000 project before I left BIDPT to University of Texas at Austin. I was the major designer of the two nodes hardware prototype of S1000 machine.

CPU Board

I/O Board

S2000 rugged computer system is a PC compatible system used for industrial and embedded applications requiring a more robust mechanical form and EMC than desktop PC.

The main features of S2000 CompactPCI CPU board:

Dimension: 6U (233 by 160 mm)

CPU: Pentium/ Pentium MMX (Socket 7) @ 133/166/200 MHz

Cache: 256KB write-back/write through L2 cache

Memory: 256MB ECC or EDO RAM

Connector: Dual CompactPCI connector ( PCI and ISA) drives 9 Slots

I am one of the chief designers of the hardware system of this machine. My duty is to design, debug and test CPU board for S2000 rugged computer system.

The purpose of this system is to provide a high performance hardware platform to support multimedia conferencing. The system supports a standard 32/33Mhz PCI interface, JTAG debug interface.

The system supports two video connections (composite video and S-video). The video processing chip is a Texas Instrument TVP5145, which supports digital video decoding with Macrovision detection. The board supports a stereo microphone audio input and a stereo speaker audio output. The audio processing chip is a Philips UDA1341TS.

The system uses the latest generation of PIO processor to provide the programmable interface to various industry standard interfaces like PCI, Audio, Video interfaces.

I am the chief designer of the hardware system.