Optical Interconnects for High Speed Computing

Optical Interconnects for High Speed Computing Download PDF EPUB FB2

Optical Interconnects for High Speed Computing [Franz Haas] on *FREE* shipping on qualifying offers. Abstract. Optical interconnects technology is introduced as the successor to electrical interconnects in order to address current and forthcoming needs for the transfer of large data volumes in constantly growing data centers and high-end computing systems.

Publisher Summary. This chapter provides an overview of architectural considerations for optical computing and photonic switching. Research into the use of free-space digital optics for interconnections and packaging during the past two decades has produced many promising results by combining and coordinating the efforts of researchers, scientists, and engineers.

High-Speed Reconfigurable Free-Space Optical Interconnects with Carrierless-Amplitude-Phase Modulation and Space-Time-Block Code Abstract: High-speed interconnects are highly demanded in data centers and high-performance computing, and the use of optical interconnects to replace electrical interconnects has been proposed and widely : Ke Wang, Christina Lim, Elaine Wong, Kamal Alameh, Sithamparanathan Kandeepan, Efstratios Skafidas.

High Speed VCSELs for Optical Interconnects (Springer Theses) - Kindle edition by Alex Mutig. Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading High Speed VCSELs for Optical Interconnects (Springer Theses).

This book bridges the existing gap between research in optical interconnects and research in high-performance computing and communication systems, of which parallel processing is just an example. It also provides a more comprehensive understanding of the advantages and limitations of optics as applied to high-speed communications.

Optical or photonic computing uses photons produced by lasers or diodes for computation. For decades, photons have promised to allow a higher bandwidth than the electrons used in conventional computers. Most research projects focus on replacing current computer components with optical equivalents, resulting in an optical digital computer system processing.

High-Speed Photonics Interconnects explores some of the groundbreaking technologies and applications that are based on photonics interconnects. From the Evolution of High-Speed I/O Circuits to the Latest in Photonics Interconnects Packaging and Lasers.

Featuring contributions by experts from academia and industry, the book brings together in. We use cookies to make interactions with our website easy and meaningful, to better understand the use of our services, and to tailor advertising.

Photons are non-charged particles, and do not naturally interact. Consequently, there are many desirable characteristics of optical interconnects, for example, high speed (speed of light), increased fanout, high bandwidth, high reliability, longer interconnection lengths, low power requirements, and immunity to EMI with reduced crosstalk.

Parallel Computing Using Optical Interconnections is a collection of survey articles written by leading and active scientists in the area of parallel computing using optical interconnections.

This is the first book which provides current and comprehensive coverage of the field, reflects the state of the art from high-level architecture design. 6 Silicon-on-chip Lasers for Chip-level Optical Interconnects. Il-Sug Chung.

7 Integrated Photonic Interconnects for Computing Platforms. Nicola Andriolli, Isabella Cerutti, and Odile Liboiron-Ladouceur. 8 Ultra-Low Power SiGe Driver-IC for High-Speed InP Mach-Zehnder Modulator. Jung Han Choi. 9 Efficient and Low-Power NoC Router Architecture.

Optical Interconnects in Future Data Center Networks covers optical networks and how they can be used to provide high bandwidth, energy efficient interconnects for future data centers with. Summary The device that is presently dominating optical interconnects in high‐performance computing (HPC) facilities and data centers is the vertical‐cavity surface‐emitting laser (VCSEL), Ultrafast Nanophotonic Devices for Optical Interconnects.

Ledentsov. Search for more papers by this by: Optical Interconnects for Future Data Center Networks covers optical networks and how they can provide high bandwidth, energy efficient interconnects with increased communication volume, with contributions from leading researchers in the field, presents an integrated view of the expected future requirements of data centers and serves as a reference.

ISBN: OCLC Number: Description: xiv, pages: illustrations ; 24 cm. Contents: Ch. Energy-efficient photonic interconnects for computing platforms / Odile Liboiron-Ladouceur [and others] --ch. -loss, high-performance chip-to-chip electrical connectivity using air-clad copper interconnects /.

High-Speed Photonics Interconnects explores some of the groundbreaking technologies and applications that are based on photonics interconnects. From the Evolution of High-Speed I/O Circuits to the Latest in Photonics Interconnects Packaging and Lasers.

Featuring contributions by experts from academia and industry, the book brings together in Cited by: 1. Optical computing is a very interesting year old field of research. This paper gives a brief historical review of the life of optical computing from the early days until today.

Optical computing generated a lot of enthusiasm in the sixties with major breakthroughs opening a large number of perspectives. The period between and could be called the golden age with Cited by: To meet the increasing demand for higher-throughput data traffic, high-speed optical signal transmission is necessary, ranging from long-distance optical communication links to short-distance data centers and access networks, and even micro-/nanoscale chip.

Xi, Y. Kao and H. Chao, “A Petabit Bufferless Optical Switch for Data Center Networks,” book chapter of “Optical Interconnects for Future Data Center Networks”, Part 3, Pagespublished by Springer. Optical technology is poised to revolutionize short-reach interconnects.

The leading candidate technology is silicon photonics, and the workhorse of such an interconnect is Cited by: Optical Computing Hardware provides information pertinent to the advances in the development of optical computing hardware.

This book discusses the two application areas, namely, high-performance computing and high-throughput photonic zed into 11 chapters, this book begins with an overview of the requirements on hardware from s system perspective.Optical interconnects have emerged as a promising alternative offering high throughput and reduced power consumption.

Optical Interconnects for Data Centers reviews key developments in the use of optical interconnects in data centres and the current state of the art in transforming this technology into a reality. The book discusses developments Brand: Elsevier Science.