Title :
Optical interconnections for the massively parallel computer
Author :
Nishimura, Shinji ; Inoue, Hiroaki ; Hanatani, Shoichi ; Matsuoka, Hiroshi ; Yokota, Takashi
Author_Institution :
RWCP Optoelectron., Hitachi Lab., Tokyo, Japan
fDate :
7/1/1997 12:00:00 AM
Abstract :
The introduction of optical interconnections to internode connections in the RWC-1 massively parallel computer testbed, which was designed to demonstrate fundamental internode communications, and uses eight pairs of 12-channel compact optical modules, has enabled 48-b parallel data transmission at 100 MHz (600-MB/s throughput), to be achieved in fibers up to 20-m long. The latency caused by the additional delay time due to OE/EO-conversion in module is only 15 ns. This high throughput, over a long transmission length, along with the compactness, and low latency of optical interconnections make these interconnections applicable to massively parallel computing. The introduction of optical interconnections will do much to alleviate the communication bottlenecks in the computer systems.
Keywords :
electro-optical devices; modules; multiprocessor interconnection networks; optical computing; optical interconnections; parallel architectures; 100 MHz; 12-channel compact optical modules; 15 ns; 20 m; OE/EO-conversion; RWC-1 massively parallel computer testbed; additional delay time; communication bottlenecks; compactness; computer systems; fundamental internode communications; high throughput; internode connections; latency; long transmission length; low latency; massively parallel computer; massively parallel computing; optical interconnections; parallel data transmission; Added delay; Concurrent computing; Data communication; Delay effects; Optical computing; Optical design; Optical fiber communication; Optical fiber testing; Optical interconnections; Throughput;
Journal_Title :
Photonics Technology Letters, IEEE
