Add to ORKGA novel all-optical method for all-optical buffering is presented. It is demonstrated that an optical packet can be routed all-optically into an optical fiber delay line for buffering in case of potential contention between two optical packets. Crucial in this method is an optical threshold function that is made from two coupled lasers, having more than 45 dB contrast ratio between the output states. The optical threshold function has two functions. First it acts as an arbiter to decide whether a potential collision between two packets takes place. In addition, it controls a wavelength converter switch. The feasibility is verified by experimental results
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We present a 1 × 2 all-optical packet switch. All the processing of the header information is carrie...
A novel all-optical method for all-optical buffering is presented. It is demonstrated that an optica...
A novel all-optical method for all-optical buffering is presented. It is demonstrated that an optica...
A novel all-optical method for all-optical buffering is presented. It is demonstrated that an optica...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
We show that optical packets can be routed in an optical fiber by using an optical threshold functio...
We show that optical packets can be routed in an optical fiber by using an optical threshold functio...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We present a 1 × 2 all-optical packet switch. All the processing of the header information is carrie...
A novel all-optical method for all-optical buffering is presented. It is demonstrated that an optica...
A novel all-optical method for all-optical buffering is presented. It is demonstrated that an optica...
A novel all-optical method for all-optical buffering is presented. It is demonstrated that an optica...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
An all-optical switching concept for all-optical buffering of packets is presented. The concept feas...
We show that optical packets can be routed in an optical fiber by using an optical threshold functio...
We show that optical packets can be routed in an optical fiber by using an optical threshold functio...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We demonstrate an all-optical buffering method that can handle contention of three optical packets. ...
We present a 1 × 2 all-optical packet switch. All the processing of the header information is carrie...