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#Optimization

17 lectures with this tag

57 | Numerical Quantum Control: Scalable Gate Design and Calibration
Hardware & Control Daniel Puzzuoli

57 | Numerical Quantum Control: Scalable Gate Design and Calibration

The goal of numerical quantum control is to automate the gate design process, with the promise of rapid and flexible gate design for arbitrary systems.

#DanielPuzzuoli #Quantum #Optimization

58 | Variational Quantum Semi-definite Programming
Algorithms & Theory Mark Wilde

58 | Variational Quantum Semi-definite Programming

Solving optimization problems is a key task for which quantum computers could possibly provide a speedup over the best known classical algorithms.

#MarkMWilde #Quantum #Algorithm #Optimization #Simulation

54 | Quantum Computing Systems: Challenges and Opportunities
Systems & Architecture Yufei Ding

54 | Quantum Computing Systems: Challenges and Opportunities

The second quantum revolution, the transition from quantum theory to quantum engineering, is leading us toward practical quantum computing.

#YufeiDing #Quantum #Optimization #Architecture

42 | Align or Not Align? Design Quantum Approximate Operator Ansatz (QAOA) with Applications in Constrained Optimization
Algorithms & Theory Zichang He

42 | Align or Not Align? Design Quantum Approximate Operator Ansatz (QAOA) with Applications in Constrained Optimization

Combinatorial optimization has been one of most promising use cases of the near-term quantum computers.

#ZichangHe #Quantum #Algorithm #Optimization

46 | Numerical Methods of Optimal Quantum Control
Hardware & Control Michael Goerz

46 | Numerical Methods of Optimal Quantum Control

At the heart of the next-level quantum technology like quantum computing lies the problem of actively controlling the dynamics of a quantum system.

#MichaelGoerz #Quantum #Optimization #Software #Simulation

40 | Parameter Setting in Quantum Approximate Optimization of Weighted Problems
Algorithms & Theory Ruslan Shaydulin

40 | Parameter Setting in Quantum Approximate Optimization of Weighted Problems

Quantum Approximate Optimization Algorithm (QAOA) is a leading candidate algorithm for solving combinatorial optimization problems on quantum computers.

#RuslanShaydulin #Quantum #Algorithm #Optimization

38 | Pulse-based Variational Quantum Eigensolver and Pulse-Efficient Transpilation
Compilation & Optimization Daniel Egger

38 | Pulse-based Variational Quantum Eigensolver and Pulse-Efficient Transpilation

State-of-the-art noisy digital quantum computers can only execute short-depth quantum circuits.

#DanielEgger #Quantum #Algorithm #Optimization #Hardware #Simulation

37 | Elevating Quantum Compiler Performance through Enhanced Awareness in the Compilation Stages
Compilation & Optimization Ji Liu

37 | Elevating Quantum Compiler Performance through Enhanced Awareness in the Compilation Stages

Quantum compiler plays a critical role in practical quantum compilation, particularly in the Noise-Intermediate-Scale-Quantum (NISQ) era.

#JiLiu #Quantum #Algorithm #Optimization #Compilation #Hardware

35 | Hybrid Quantum-Classic Computing for Future Network Optimization
Applications Zhu Han

35 | Hybrid Quantum-Classic Computing for Future Network Optimization

Benefited from the technology development of controlling quantum particles and constructing quantum hardware, quantum computation has attracted more and more attention in recent years.

#ZhuHan #Quantum #Algorithm #Optimization #Hardware

31 | Quantum Computing and Quantum Communication in the Financial World
Applications Marco Pistoia

31 | Quantum Computing and Quantum Communication in the Financial World

Finance has been identified as the first industry sector to benefit from quantum computing, due to its abundance of use cases with exponential complexity and the fact that, in finance, time is of the essence, which makes the case for solutions to be computed with high accuracy in real time.

#MarcoPistoia #Quantum #Algorithm #Optimization

30 | Efficient Hamiltonian Reduction for Scalable Quantum Computing on Clique Cover/Graph Coloring Problems in SatCom
Algorithms & Theory Thinh Dinh

30 | Efficient Hamiltonian Reduction for Scalable Quantum Computing on Clique Cover/Graph Coloring Problems in SatCom

Clique cover and graph coloring are complementary problems which have many applications in wireless communications, especially in satellite communications (SatCom).

#ThinhDinh #Quantum #Algorithm #Optimization #Hardware #Simulation

23 | Software Tools for Analog Quantum Computing
Software Tools & Verification Yuxiang Peng

23 | Software Tools for Analog Quantum Computing

Recent experimental results suggest that continuous-time analog quantum simulation would be advantageous over gate-based digital quantum simulation in the Noisy Intermediate-Size Quantum (NISQ) machine era.

#YuxiangPeng #Quantum #Algorithm #Optimization #Compilation #Hardware #Software #Simulation

20 | Learning and Training in Quantum Environments
Machine Learning & AI Mohsen Heidari

20 | Learning and Training in Quantum Environments

Quantum computing presents fascinating new opportunities for various applications, including machine learning, simulation, and optimization.

#MohsenHeidari #Quantum #Optimization #Simulation

18 | Enabling Deeper Quantum Compiler Optimization at High Level
Compilation & Optimization Gushu Li

18 | Enabling Deeper Quantum Compiler Optimization at High Level

A quantum compiler is one essential and critical component in a quantum computing system to deploy and optimize the quantum programs onto the underlying physical quantum hardware platforms.

#GushuLi #Quantum #Algorithm #Optimization #Hardware #Software #Simulation #Architecture

14 | Compilation for Near-Term Quantum Computing: Gap Analysis and Optimal Solution
Compilation & Optimization Bochen Tan

14 | Compilation for Near-Term Quantum Computing: Gap Analysis and Optimal Solution

The most challenging stage in compilation for near-term quantum computing is qubit mapping, also called layout synthesis, where qubits in quantum programs are mapped to physical qubits.

#BochenTan #Quantum #Algorithm #Optimization #Compilation

10 | Solving Nonlinear Partial Differential Equations using Variational Quantum Algorithms on Noisy Quantum Computers
Algorithms & Theory Yilian Liu

10 | Solving Nonlinear Partial Differential Equations using Variational Quantum Algorithms on Noisy Quantum Computers

Partial differential equations (PDEs) have long been the center of interest to system modeling in many disciplines of science and engineering, such as computational physics, fluid mechanics, and quantitative finance.

#YilianLiu #Quantum #Algorithm #Optimization

8 | Classical Support and Error Mitigation for Variational Quantum Algorithms
Error Correction & Mitigation Gokul Ravi

8 | Classical Support and Error Mitigation for Variational Quantum Algorithms

In this seminar Dr.

#GokulRavi #Quantum #Algorithm #Optimization #Hardware #Simulation