Generic Parallel Processing Techniques for Nanoscale Spin-Wave Architectures
نویسندگان
چکیده
1 Authors are listed in alphabetical order 2 Mary M. Eshaghian-Wilner is a Patent Agent at the Electronics Practice Group of Foley & Lardner, LLP. She is also an Adjunct Professor of Electrical Engineering at the University of California, Los Angeles. Abstract In this paper, we study the algorithm design aspects of three newly developed spin-wave architectures. The architectures are capable of simultaneously transmitting multiple signals using different frequencies, and allow for concurrent read/write operations. Using such features, we introduce a set of generic parallel processing techniques that can be used for routing and design of fast algorithms on these spin-wave architectures. We also present a set of application examples to illustrate the operation of the proposed generic parallel techniques.
منابع مشابه
Parallel and Fault-Tolerant Routing in Nanoscale Spin-Wave Architectures
1 Authors are listed in alphabetical order 2 Mary M. Eshaghian-Wilner is a Patent Agent at the Electronics Practice Group of Foley & Lardner, LLP. She is also an Adjunct Professor of Electrical Engineering at the University of California, Los Angeles. Abstract In this paper, we present a number of parallel and fault-tolerant routing schemes for a set of nanoscale spin-wave architectures. The ar...
متن کاملParallel implementation of underwater acoustic wave propagation using beamtracing method on graphical processing unit
The mathematical modeling of the acoustic wave propagation in seawater is the basis for realizing goals such as, underwater communication, seabed mapping, advanced fishing, oil and gas exploration, marine meteorology, positioning and explore the unknown targets within the water. However, due to the existence of various physical phenomena in the water environment and the various conditions gover...
متن کاملReconfigurable nanoscale spin-wave directional coupler
Spin waves, and their quanta magnons, are prospective data carriers in future signal processing systems because Gilbert damping associated with the spin-wave propagation can be made substantially lower than the Joule heat losses in electronic devices. Although individual spin-wave signal processing devices have been successfully developed, the challenging contemporary problem is the formation o...
متن کاملDeclarative Programming Techniques for Many-Core Architectures
Future manycore architectures are likely to have heterogeneous computing resources which will include conventional CPUs as well as variants of today’s GPUs and reconfigurable logic like FPGAs. Many of the techniques that the reconfigurable computing community has championed will find new applications in mainstream applications. One challenge posed by such manycore architectures is the requireme...
متن کاملHierarchical Multi-Scale Architectures with Spin Waves1
In this paper, we present three hierarchical multiscale architectures that are interconnected electrooptically at micro-scale level and via spin waves at nanoscale level. These architectures are derived from the Optical Reconfigurable Mesh (ORM), which is a MEMS architecture that supports several types of electrical and optical routings. The first multi-scale architecture presented here is a st...
متن کامل