Victor Tyan scite author profile

Victor Tyan

4Publications

22Citation Statements Received

9Citation Statements Given

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Affiliations

Network Technologies (United States), McGill University

Publications

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Terabit optical local area networks for multiprocessing systems

Szymański

Lafrenière-Roula

et al. 1998

Appl. Opt.

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The design of a scalable optical local area network formultiprocessing systems is described. Each workstation has aparallel-fiber-ribbon optical link to a centralized complementarymetal-oxide silicon (CMOS) switch core, implemented on a singlecompact printed circuit board (PCB). When the Motorola Optobusfiber technology is used, each workstation has a data bandwidth of 6.4Gbits/s to the core. A centralized switch core interconnecting 32workstations supports a 204-Gbit/s aggregate data bandwidth. Theswitch core is based on a conventional broadcast-and-selectarchitecture, implemented with parallel CMOS integrated circuits(IC's). The switch core scales well; by incorporation of theCMOS optoelectronic IC's with optical input-output, the electricalcore can be reduced to a single-chip optoelectronic IC with terabitcapacities. A prototype of an optoelectronic switch core has been fabricated and is described. The appeal of the architectureincludes its reliance on commercially available parallel-fibertechnology, its reliance on the well-developed markets of local areanetworks and networks of workstations, and its smooth scalability from the electrical to optical domains as technology matures.

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Field-programmable logic devices with optical input–output

Szymański¹,

Saint-Laurent²,

Tyan³

et al. 2000

Appl. Opt.

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A field-programmable logic device (FPLD) with optical I/O is described. FPLD's with optical I/O can have their functionality specified in the field by means of downloading a control-bit stream and can be used in a wide range of applications, such as optical signal processing, optical image processing, and optical interconnects. Our device implements six state-of-the-art dynamically programmable logic arrays (PLA's) on a 2 mm x 2 mm die. The devices were fabricated through the Lucent Technologies-Advanced Research Projects Agency-Consortium for Optical and Optoelectronic Technologies in Computing (Lucent/ARPA/COOP) workshop by use of 0.5-microm complementary metal-oxide semiconductor-self-electro-optic device technology and were delivered in 1998. All devices are fully functional: The electronic data paths have been verified at 200 MHz, and optical tests are pending. The device has been programmed to implement a two-stage optical switching network with six 4 x 4 crossbar switches, which can realize more than 190 x 10(6) unique programmable input-output permutations. The same device scaled to a 2 cm x 2 cm substrate could support as many as 4000 optical I/O and 1 Tbit/s of optical I/O bandwidth and offer fully programmable digital functionality with approximately 110,000 programmable logic gates. The proposed optoelectronic FPLD is also ideally suited to realizing dense, statically reconfigurable crossbar switches. We describe an attractive application area for such devices: a rearrangeable three-stage optical switch for a wide-area-network backbone, switching 1000 traffic streams at the OC-48 data rate and supporting several terabits of traffic.

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Error and flow control in terabit intelligent optical backplanes

Szymański

Tyan²

1999

IEEE J. Select. Topics Quantum Electron.

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A Field Programmable Gate Array with Optical I/O

Szymanski

Tyan

1999

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A Field Programmable Gate Array (FPGA) with optical I/O is described. FPGAs with optical I/O can have their functionality specified in the field by downloading a control bit stream, and can be used in a wide range of applications, such as optical signal processing and optical interconnects. Our device implements six state-of-the-art Programmable Logic Arrays (PLAs) on a 2x2 mm die. The device was fabricated through the 1997 Lucent/ARPA/COOP workshop using a 0.5 micron CMOS/SEED technology. All devices are fully functional, and the electronic datapaths have been verified at 200 Mhz. The device has been programmed to implement a 2-stage optical switching network with six 4x4 crossbar switches, which can realize over 190 million unique programmable input-output permutations. The same 0.5 micron device scaled to a 1 cm 2 substrate could support 4 thousand optical I/O, 1 Terabit/sec of optical I/O bandwidth, and offer fully programmable digital functionality with ≈ 110,000 programmable logic gates.

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Victor Tyan

Terabit optical local area networks for multiprocessing systems

Field-programmable logic devices with optical input–output

Error and flow control in terabit intelligent optical backplanes

A Field Programmable Gate Array with Optical I/O

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