Maskless lithography based on electron beam parallelization requires well adapted data links, capable of transmitting the corresponding data volume at rates up to the Tbps domain. In this paper we focus on a scalable (24 - 140 Gbps) optical data link, well adapted for future implementation in maskless lithography systems. The link comprises a high-speed data buffer with synchronizable architecture and scalable throughput (N x 24 Gbps), an optical free space transmission solution, a 45 channel low-noise optical receiver chip based on BiCMOS 0.6 micron technology and, finally, a Data Processor & Demux IP core implemented in VHDL
AbstractThe transmission of data from detectors in future high energy experiments will be driven by ...
This paper describes the design and implementation of an innovative high- speed data buffer system f...
We have designed an ASIC for use in a parallel optical engine for a new layer of the ATLAS pixel det...
Maskless lithography based on electron beam parallelization requires well adapted data links, capabl...
For future short- and mid-range industrial applications, optical free-space communication systems ar...
This paper presents the implementation aspects and design of high-speed data transmission in laser d...
Future lithography systems must produce more dense chips with smaller feature sizes, while maintaini...
For future short- and mid-range industrial applications, optical wireless (OW) communication systems...
Advantageous optical interconnect technology was chosen for the projection mask-less lithography app...
Maskless lithography is one of the possible solutions to manage the escalating mask costs and demand...
MAPPER Lithography is developing a maskless lithography technology. The technology combines massivel...
Mit steigender Komplexität und Integrationsdichte elektronischer und opto-elektronischer Bauelemente...
Future lithography systems must produce chips with smaller feature sizes, while maintaining throughp...
The advances in optical projection lithography have ensured the steady continuation of Moore''s law....
We report on the design, the fabrication, the characterization and the demonstration of scalable mul...
AbstractThe transmission of data from detectors in future high energy experiments will be driven by ...
This paper describes the design and implementation of an innovative high- speed data buffer system f...
We have designed an ASIC for use in a parallel optical engine for a new layer of the ATLAS pixel det...
Maskless lithography based on electron beam parallelization requires well adapted data links, capabl...
For future short- and mid-range industrial applications, optical free-space communication systems ar...
This paper presents the implementation aspects and design of high-speed data transmission in laser d...
Future lithography systems must produce more dense chips with smaller feature sizes, while maintaini...
For future short- and mid-range industrial applications, optical wireless (OW) communication systems...
Advantageous optical interconnect technology was chosen for the projection mask-less lithography app...
Maskless lithography is one of the possible solutions to manage the escalating mask costs and demand...
MAPPER Lithography is developing a maskless lithography technology. The technology combines massivel...
Mit steigender Komplexität und Integrationsdichte elektronischer und opto-elektronischer Bauelemente...
Future lithography systems must produce chips with smaller feature sizes, while maintaining throughp...
The advances in optical projection lithography have ensured the steady continuation of Moore''s law....
We report on the design, the fabrication, the characterization and the demonstration of scalable mul...
AbstractThe transmission of data from detectors in future high energy experiments will be driven by ...
This paper describes the design and implementation of an innovative high- speed data buffer system f...
We have designed an ASIC for use in a parallel optical engine for a new layer of the ATLAS pixel det...