We describe how a 2-D rectangular lattice of inductors and capacitors can serve as an analog Fourier transform device, generating an approximate discrete Fourier transform (DFT) of an arbitrary input vector of fixed length. The lattice displays diffractive and refractive effects and mimics the combined optical effects of a thin-slit aperture and lens. Diffraction theories in optics are usually derived for 3-D media, whereas our derivations proceed in 2-D. Analytical and numerical results show agreement between lattice output and the true DFT. Potentially, this lattice can be used for an extremely low latency and high throughput analog signal processing device. The lattice can be fabricated on-chip with frequency of operation of more than 10 GHz

Afshari, Ehsan

Bhat, Harish S.

Hajimiri, Ali

English

Abstract—We describe how a 2-D rectangular lattice of induc-tors and capacitors can serve as an analog Fourier transform de-vice, generating an approximate discrete Fourier transform (DFT) of an arbitrary input vector of fixed length. The lattice displays diffractive and refractive effects and mimics the combined optical effects of a thin-slit aperture and lens. Diffraction theories in optics are usually derived for 3-Dmedia, whereas our derivations proceed in 2-D. Analytical and numerical results show agreement between lattice output and the true DFT. Potentially, this lattice can be used for an extremely low latency and high throughput analog signal processing device. The lattice can be fabricated on-chip with fre-quency of operation of more than 10 GHz. Index Terms—Discrete Fourier transforms, lattice circuits, physical theory of diffraction, planar transmission lines, ultra-fast analog signal processing. I

Ehsan Afshari

Harish S. Bhat

Ali Hajimiri

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Ultrafast analog fourier transform using 2-D lattice

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Ultrafast Analog Fourier Transform Using 2-D LC Lattice

A new solution for the problem of plane wave diffraction by a 2-D aperture in a ground plane,”

Afshari was awarded DARPA’s Young Faculty Award in 2008 and nation’s Best Engineering Student award by the President of Iran in 2001. He is also the recipient of the best paper award in the Custom Integrated Circuits Conference (CICC),

Authorized licensed use limited to:

Bhat received the A.B. degree in mathematics from

Diffraction by an aperture,”

Diffraction by an aperture.

Electrical Funnel: A new signal combining method,” in

Exact and approximate solutions for focusing of two-dimensional waves—I:

Exact and approximate solutions for focusing of two-dimensional waves—II: Numerical comparisons among exact,

Exact and approximate solutions for focusing of two-dimensional waves. III. Numerical comparisons between exact and Rayleigh–Sommerfeld theories,”

Exact and approximate solutions for focusingoftwo-dimensionalwaves.III.Numericalcomparisonsbetween exact and Rayleigh–Sommerfeld theories,”

Extremely wideband signal shaping using one- and two-dimensional nonuniform nonlinear transmission lines,”

Focusing of two-dimensional waves,”

Hajmiri is an Associate Editor of the IEEE JOURNAL OF SOLID-STATE CIRCUITS (JSSC) and a member of the Technical Program Committee of the International Solid-State Circuits Conference (ISSCC). He has also served as an Associate Editor of

He is a coauthor of The Design of Low Noise Oscillators (Kluwer,

he joined the faculty in Electrical and

He was a Design Engineer with Philips Semiconductors, where he worked on a BiCMOS chipset for GSM and cellular units from 1993 to 1994. In

High-Frequency Structure Simulator: High Frequency Electromagnetic Simulator Ansoft.

Introduction to Fourier Optics, 3rd ed.

received the B.S. degree in electronics engineering from the Sharif

received the B.S. degree in electronics engineering from the Sharif University

to 2007, he held the Chu Assistant Professorship in Applied Mathematics at Columbia University,

Wave Propagation in Periodic Structures. Electric Filters and Crystal Lattices,

Waves in Focal Regions.

https://authors.library.caltech.edu/12128/1/AFSieeetcasI08.pdf

Ultrafast Analog Fourier Transform Using 2-D LC Lattice

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