Title :
GaAs multichip module for a parallel processing system
Author :
Miyagi, Takeshi ; Itoh, Kenji ; Kimijima, Susumu ; Sudo, Toshio
Author_Institution :
Toshiba Corp., Kawasaki, Japan
fDate :
12/1/1990 12:00:00 AM
Abstract :
The module described is a high-speed data transfer network for a parallel processing system. The high-speed data transfer network connecting multiple processor units was realized in a module using 8-bit slice GaAs bus logic (BL) LSIs which operate at 100 MHz. The GaAs multichip module consists of 12 GaAs BL LSIs in a 3×4 matrix. Each GaAs chip is sealed in a chip carrier with bumps. The chip carrier is flip-chip bonded to a copper/polyimide thin-film multilayer substrate. The characteristic impedance of the signal lines on the module is controlled to 75 Ω to be compatible with the GaAs original interface level. The thin film termination resistors are made of Ni/Cr in the substrate to prevent reflections. Heat generated from the module, which has a total of 90 W of power dissipation, is transferred through four heat pipes with fins by forced-air cooling at <2 m/s. A 3-Gbit/s data transfer rate can be realized by four stacked modules of 38 GaAs BLs
Keywords :
III-V semiconductors; gallium arsenide; heat pipes; hybrid integrated circuits; modules; packaging; parallel processing; 100 MHz; 2 m/s; 3 Gbit/s; 75 ohm; 8 bit; 90 W; GaAs multichip module; Ni-Cr resistors; bus logic LSI chips; characteristic impedance; chip carrier with bumps; flip-chip bonded; forced-air cooling; heat pipe cooled modules; heat pipes; high-speed data transfer network; network connecting multiple processor units; parallel processing system; polyimide film; power dissipation; stacked modules; thin film termination resistors; thin-film multilayer substrate; Bonding; Copper; Gallium arsenide; Heat transfer; Joining processes; Logic; Multichip modules; Parallel processing; Substrates; Transistors;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
