W. van Nifterick scite author profile

W. van Nifterick

4Publications

6Citation Statements Received

4Citation Statements Given

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Parallel optical interconnects: implementation of optoelectronics in multiprocessor architectures

Frietman

Nifterick²,

Dekker

et al. 1990

Appl. Opt.

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Performance and efficiency of multiple processor computers depend strongly on the network that interconnects the distinct collaborating processors. Constrained connectivity forces much of the potential computing speed to be used to compensate for the limitation in connections. The availability of a multiple parallel I/O connections allows full unrestricted connectivity and is an essential prerequisite for an interprocessor network that is able to meet the ever growing communication demands. This paper emphasizes the design, building and application of an electrooptic communication system [EOCS]. The EOCS uses dedicated free space multiple data distributors and integrated optically writable inputbuffer arrays with fully parallel access.

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JESS - Journey Enquiry Support System

Thomas¹,

Salt²,

Nifterick³

1998

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<title>Optical data communication compel the design of a new class of storage media</title>

Frietman

Dekker

Nifterick³

1991

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The use of Optical Data Transfer Systems [ODTS] is an established fact in the field of telecommunication, but still no breakthrough has taken place for the implementation in next generation Parallel Computers. High speed serial data transfer systems, carried out with singular components for both the transmitting [Electro-Optic Transducers: EOTs] and the receiving [Opto-Electric Transducers: OETsJ side, already serve the telecommunication sector for a long time. A Laser as an EOT, a monomode glass fiber as a transmission medium and a PIN photodiode as an OET pretty soon allow a data throughput rate of several TerraHz.Parallel Processing however imply a simultaneous transfer and storage of a large number of computer words, of which the width can vary from 64 bits till a multiple ["W"] of it.A number of problems announce themselves if an attempt is made to combine the two in principal different technologies of data transport. Moving a parallel computer word through a serial data link at a constant throughput rate of "T" word/sec. coerce the processing rate at electrical side to increase with a factor "W". The transfer rate "W*T" is essential to execute the parallel ["W"J to serial and serial to parallel conversion. The assembly of the bulk of EOT and OET components, the drain away of the heat dissipation and the verification of the increasmg influence of EMI and crosstalk, in case ultra wide band signals are used, are tedious attendant problems. Implementing fibers only do not guarantee a solution in case the data has to be distributed over a large amount of parallel channels. Piled flat-cable like fiber bundles in combination with free space distributing techniques offer a solution in most cases.Integrating a new class of Opto-Electric Logic Elements in an ODTS enables an optical parallel transfer and storage of data; in this way improving the parallelism in next generation computers.

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<title>Current status and future research of the Delft 'supercomputer' project</title>

Frietman

Dekker

Nifterick³

et al. 1991

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W. van Nifterick

Parallel optical interconnects: implementation of optoelectronics in multiprocessor architectures

JESS - Journey Enquiry Support System

<title>Optical data communication compel the design of a new class of storage media</title>

<title>Current status and future research of the Delft 'supercomputer' project</title>

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