Abstract:
Applications in existing specialized, metacomputer environments and those yet to be developed for services such as telecommunications, distributed data, and image transfe...Show MoreMetadata
Abstract:
Applications in existing specialized, metacomputer environments and those yet to be developed for services such as telecommunications, distributed data, and image transfer that will require networks which can handle volumes of data on the order of gigabits per second are discussed. Specific examples are presented from the fields of computational science, data navigation, and collaborative environments and instrument control. It is concluded that distributed computing and collaborative environments that support the interaction of multiple computers, as well as the interaction of computers with humans, are the paradigms that will characterize gigabit applications.<>
Published in: IEEE Communications Magazine ( Volume: 30, Issue: 4, April 1992)
DOI: 10.1109/35.135788
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Time Step ,
- Workstation ,
- Satellite Images ,
- Flow Data ,
- Storage Systems ,
- Types Of Applications ,
- Data Transfer ,
- High-performance Computing ,
- General Circulation Models ,
- Atmospheric Model ,
- Interactive Visualization ,
- Earth’s Crust ,
- Collaborative Environment ,
- Computational Environment ,
- Wide Area Network ,
- Distributed Database ,
- Atmospheric General Circulation Model ,
- Representation Of Landscape ,
- Folding Problem ,
- Radio Astronomy ,
- Molecular Dynamics ,
- Data Rate ,
- Atmospheric Simulations ,
- Instrument Control ,
- Data Streams ,
- Three-dimensional Grid ,
- Real-time Sensor ,
- Boundary Information ,
- Data Exchange
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Time Step ,
- Workstation ,
- Satellite Images ,
- Flow Data ,
- Storage Systems ,
- Types Of Applications ,
- Data Transfer ,
- High-performance Computing ,
- General Circulation Models ,
- Atmospheric Model ,
- Interactive Visualization ,
- Earth’s Crust ,
- Collaborative Environment ,
- Computational Environment ,
- Wide Area Network ,
- Distributed Database ,
- Atmospheric General Circulation Model ,
- Representation Of Landscape ,
- Folding Problem ,
- Radio Astronomy ,
- Molecular Dynamics ,
- Data Rate ,
- Atmospheric Simulations ,
- Instrument Control ,
- Data Streams ,
- Three-dimensional Grid ,
- Real-time Sensor ,
- Boundary Information ,
- Data Exchange
