R
Reza Molavi
Researcher at University of British Columbia
Publications - 35
Citations - 864
Reza Molavi is an academic researcher from University of British Columbia. The author has contributed to research in topics: CMOS & Voltage-controlled oscillator. The author has an hindex of 13, co-authored 34 publications receiving 616 citations. Previous affiliations of Reza Molavi include PMC-Sierra & Beta.
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Journal ArticleDOI
Phase transitions in a programmable quantum spin glass simulator
R. Harris,Yuki Sato,Andrew J. Berkley,M. Reis,F. Altomare,Mohammad H. Amin,Mohammad H. Amin,K. Boothby,Paul I. Bunyk,C. Deng,C. Enderud,S. Huang,E. Hoskinson,Mark W. Johnson,E. Ladizinsky,N. Ladizinsky,Trevor Lanting,R. Li,T. Medina,Reza Molavi,Reza Molavi,R. Neufeld,T. Oh,Igor Pavlov,I. Perminov,G. Poulin-Lamarre,C. Rich,A. Smirnov,Loren J. Swenson,N. Tsai,M. Volkmann,Jed D. Whittaker,J. Yao +32 more
TL;DR: The ability to control and read out the state of individual spins provides direct access to several order parameters, which were used to determine the lattice’s magnetic phases as well as critical disorder and one of its universal exponents.
Journal ArticleDOI
Scaling advantage over path-integral Monte Carlo in quantum simulation of geometrically frustrated magnets
Andrew D. King,Jack Raymond,Trevor Lanting,Sergei V. Isakov,Masoud Mohseni,Gabriel Poulin-Lamarre,Sara Ejtemaee,William Bernoudy,Isil Ozfidan,Anatoly Yu. Smirnov,Mauricio Reis,Fabio Altomare,Michael Babcock,C. Baron,Andrew J. Berkley,Kelly T. R. Boothby,Paul I. Bunyk,Holly Christiani,C. Enderud,Bram Evert,Richard Harris,Emile Hoskinson,Shuiyuan Huang,Kais Jooya,Ali Khodabandelou,N. Ladizinsky,Ryan Li,P. Aaron Lott,Allison MacDonald,Danica Marsden,Gaelen Marsden,T. Medina,Reza Molavi,R. Neufeld,Mana Norouzpour,T. Oh,Igor Pavlov,Ilya Perminov,Thomas Prescott,C. Rich,Yuki Sato,Benjamin Sheldan,George Sterling,Loren J. Swenson,Nicholas Tsai,Mark H. Volkmann,Jed D. Whittaker,Warren Wilkinson,Jason Yao,Hartmut Neven,Jeremy P. Hilton,E. Ladizinsky,Mark W. Johnson,Mohammad H. Amin +53 more
TL;DR: In this paper, the authors report on experimental observations of equilibration in quantum annealing simulations, measured on up to 1440 qubits with microsecond resolution, and demonstrate that PIMC does not simulate QA dynamics even for sign-problem-free Hamiltonians, and that nearterm quantum devices can be used to accelerate computational tasks of practical relevance.
Journal ArticleDOI
Demonstration of nonstoquastic Hamiltonian in coupled superconducting flux qubits
Isil Ozfidan,C. Deng,Anatoly Yu. Smirnov,Trevor Lanting,Richard Harris,Loren J. Swenson,Jed D. Whittaker,Fabio Altomare,Michael Babcock,C. Baron,Andrew J. Berkley,Kelly T. R. Boothby,Holly Christiani,Paul I. Bunyk,C. Enderud,Bram Evert,M. Hager,A. Hajda,Jeremy P. Hilton,S. Huang,Emile Hoskinson,Mark W. Johnson,Kais Jooya,E. Ladizinsky,N. Ladizinsky,Ryan Li,Allison MacDonald,Danica Marsden,Gaelen Marsden,T. Medina,Reza Molavi,R. Neufeld,M. Nissen,Mana Norouzpour,T. Oh,Igor Pavlov,Ilya Perminov,Gabriel Poulin-Lamarre,Mauricio Reis,Thomas Prescott,C. Rich,Yuki Sato,George Sterling,Nicholas Tsai,Mark H. Volkmann,Warren Wilkinson,Jason Yao,M. H. S. Amin +47 more
TL;DR: In this article, two superconducting flux qubits are coupled via two canonically conjugate degrees of freedom (charge and flux) to achieve a nonstoquastic Hamiltonian.
Journal ArticleDOI
On the Design of mm-Wave Self-Mixing-VCO Architecture for High Tuning-Range and Low Phase Noise
Amir Hossein Masnadi Shirazi,Amir Nikpaik,Reza Molavi,Sam Lightbody,H. Djahanshahi,Mazhareddin Taghivand,Shahriar Mirabbasi,Sudip Shekhar +7 more
TL;DR: This work presents the analysis and compares the performance of fundamental-mode voltage-controlled oscillators to harmonic-mode VCOs and proposes an H-VCO architecture, denoted as self-mixing VCO (SMV), where the VCO core generates both the first and second harmonic and then mixes them together to obtain the desired mm-wave third-harmonic.
Journal ArticleDOI
A 40% PAE Frequency-Reconfigurable CMOS Power Amplifier With Tunable Gate–Drain Neutralization for 28-GHz 5G Radios
Sheikh Nijam Ali,Pawan Agarwal,Luke Renaud,Reza Molavi,Shahriar Mirabbasi,Partha Pratim Pande,Deukhyoun Heo +6 more
TL;DR: A high-efficiency frequency-reconfigurable CMOS power amplifier (PA) design technique is presented at 24 and 28 GHz using integrated tunable neutralization and matching networks, and a reconfigurable coupling-coefficient-based transformer is proposed.