Title :
Direct current to 34.1-Gb/s, 19-Gb/s/cm3 low-jitter parallel optical interconnecting module for high-speed memory test systems
Author :
Okayasu, Toshiyuki ; Watanabe, Daisuke ; Ono, Atsushi ; Shibata, Masashi ; Hayase, Yusuke ; Shirai, Takehiro ; Inoue, Tomotaka ; Ueno, Kenji ; Hosoi, Fumiki ; Akiyama, Tsutomu
Author_Institution :
Advantest Corp., Gunma, Japan
Abstract :
A protocol-free parallel optical interconnecting module is introduced as a solution to solve memory test system transmission bottlenecks. The optical transmission system flexibly suited for a memory test system is reviewed and discussed. A parallel optical module capable of transmitting from dc to 34.1Gb/s (4.267 Gb/s ×8 ch) has been developed. A data transmission throughput density per unit volume of 19 Gb/s/cm3 is achieved. A random jitter of less than 3-ps root-mean-square is also achieved. Furthermore, high-density optical connector, high-density optical fiber cable, fiber guides, and cable management/reinforcement members suited for mechanical requirements of the memory test system have been developed.
Keywords :
automatic test equipment; high-speed optical techniques; jitter; optical cables; optical fibres; optical interconnections; 34.1 Gbit/s; 4.267 Gbit/s; automatic test equipment; cable management/reinforcement members; data transmission throughput density; direct current; fiber guides; high-density optical connector; high-density optical fiber cable; high-speed memory test systems; memory test system; optical receivers; optical transmission system flexibility; optical transmitters; parallel optical interconnecting module; parallel optical module; protocol-free optical interconnecting module; random jitter; root-mean-square; transmission bottlenecks; Connectors; Data communication; Jitter; Mechanical cables; Memory management; Optical fiber cables; Optical fiber testing; Optical interconnections; System testing; Throughput; ATE; Automatic test equipment; memory testing; optical fiber cables; optical fiber connecting; optical interconnections; optical receivers; optical transmitters;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2004.833253
