1.Exploiting Different Levels of Parallelism in the Quantum Control Microarchitecture for Superconducting Qubits

2.An Experimental Microarchitecture for a Superconducting Quantum Processor

3.AutoBraid: A Framework for Enabling Efficient Surface Code Communication in QuantumComputing

4.JigSaw: Boosting Fidelity of NISQ Programs via Measurement Subsetting

5.Optimized surface code communication in superconducting quantum computers

6.A Case for Multi-Programming Quantum Computers

7.Taming the instruction bandwidth of quantum computers via hardware-managed error correction

8.Mitigating Measurement Errors in Quantum Computers by Exploiting State-Dependent Bias

9.Ensemble of Diverse Mappings: Improving Reliability of Quantum Computers by Orchestrating Dissimilar Mistakes

10.Magic-state functional units: mapping and scheduling multi-level distillation circuits for fault-tolerant quantum architectures

11.ADAPT: Mitigating Idling Errors in Qubits via Adaptive Dynamical Decoupling

12.SMART: A Heterogeneous Scratchpad Memory Architecture for Superconductor SFQ-based Systolic CNN Accelerators

1.Exploiting Long-Distance Interactions and Tolerating Atom Loss in Neutral Atom Quantum Architectures

2.Software-Hardware Co-Optimization for Computational Chemistry on Superconducting Quantum Processors

3.Designing Calibration and Expressivity-Efficient Instruction Sets for Quantum Computing

4.Superconducting Computing with Alternating Logic Elements

5.Architecting Noisy Intermediate-Scale Trapped Ion Quantum Computers

6.AccQOC: Accelerating Quantum Optimal Control Based Pulse Generation

7.NISQ+: Boosting quantum computing power by approximating quantum error correction

8.SQUARE: Strategic Quantum Ancilla Reuse for Modular Quantum Programs via Cost-Effective Uncomputation

9.Full-Stack, Real-System Quantum Computer Studies: Architectural Comparisons and Design Insights

10.Statistical Assertions for Validating Patterns and Finding Bugs in Quantum Programs

11.Asymptotic Improvements to Quantum Circuits via Qutrits

12.A Stochastic-Computing based Deep Learning Framework using Adiabatic Quantum-Flux-Parametron Superconducting Technology

13.A Quantum Computational Compiler and Design Tool for Technology-Specific Targets

1.The Imitation Game: Leveraging CopyCats for Robust Native Gate Selection in NISQ Programs

2.Co-Designed Architectures for Modular Superconducting Quantum Computers

3.HyQSAT: A Hybrid Approach for 3-SAT Problems by Integrating Quantum Annealer with CDCL

4.A Pulse Generation Framework with Augmented Program-aware Basis Gates and Criticality Analysis

5.DigiQ: A Scalable Digital Controller for Quantum Computers Using SFQ Logic

6.QULATIS: A Quantum Error Correction Methodology toward Lattice Surgery

7.VAQEM: A Variational Approach to Quantum Error Mitigation

8.QuantumNAS: Noise-Adaptive Search for Robust QuantumCircuits

9.Detecting Qubit-coupling Faults in Ion-trap QuantumComputers

10.Q-GPU: A Recipe of Optimizations for Quantum Circuit Simulation Using GPUs

11.SupermarQ: A Scalable Quantum Benchmark Suite

12.Not All SWAPs Have the Same Cost: A Case for Optimization-Aware Qubit Routing

13.AFS: Accurate, Fast, and Scalable Error-Decoding for Fault-Tolerant Quantum Computers

14.Systematic Approaches for Precise and Approximate Quantum State Runtime Assertion

15.TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum Computing Architecture

16.eQASM: An Executable Quantum Instruction Set Architecture

1.qSeq: Full Algorithmic and Tool Support for Synthesizing Sequential Circuits in Superconducting SFQ Technology

2.An Efficient Algorithm for Sparse Quantum State Preparation

3.Bit-Slicing the Hilbert Space: Scaling Up Accurate Quantum Circuit Simulation

4.Mitigating Crosstalk in Quantum Computers through Commutativity-Based Instruction Reordering

5.QECOOL: On-Line Quantum Error Correction with a Superconducting Decoder for Surface Code

6.A Bridge-based Compression Algorithm for Topological Quantum Circuits

7.Quantum Spectral Clustering of Mixed Graphs

8.Approximate Equivalence Checking of Noisy Quantum Circuits

9.Eliminating Redundant Computation in Noisy Quantum Computing Simulation

10.Realistic Fault Models and Fault Simulation for Quantum Dot Quantum Circuits

11.Massively Parallel Approximate Simulation of Hard Quantum Circuits

12.Just Like the Real Thing: Fast Weak Simulation of Quantum Computation

13.Codar: A Contextual Duration-Aware Qubit Mapping for Various NISQ Devices

14.QURE: Qubit Re-allocation in Noisy Intermediate-Scale Quantum Computers

15.Mapping Quantum Circuits to IBM QX Architectures Using the Minimal Number of SWAP and H Operations

16.Efficient Circuits for Quantum Search over 2D Square Lattice Architecture

17.Cryo-CMOS electronic control for scalable quantum computing

18.Pauli frames for quantum computer architectures

1.Qompress: Efficient Compilation for Ququarts Exploiting Partial and Mixed Radix Operations for Communication Reduction

2.Verification of Nondeterministic Quantum Programs

3.Better Than Worst-Case Decoding for Quantum Error Correction

4.Navigating the Dynamic Noise Landscape of Variational Quantum Algorithms with QISMET

5.FrozenQubits: Boosting Fidelity of QAOA by Skipping Hotspot Nodes

6.CaQR: A Compiler-Assisted Approach for Qubit Reuse through Dynamic Circuit

7.Suppressing ZZ crosstalk of Quantum computers through pulse and scheduling co-optimization

8.QUEST: systematically approximating Quantum circuits for higher output fidelity

9.HAMMER: boosting fidelity of noisy Quantum circuits by exploiting Hamming behavior of erroneous outcomes

10.LILLIPUT: a lightweight low-latency lookup-table decoder for near-term Quantum error correction

11.Paulihedral: a generalized block-wise compiler optimization framework for Quantum simulation kernels

12.Qraft: reverse your Quantum circuit and know the correct program output

13.Logical abstractions for noisy variational Quantum algorithm simulation

14.CutQC: using small Quantum computers for large Quantum circuit evaluations

15.Software Mitigation of Crosstalk on Noisy Intermediate-Scale Quantum Computers

16.Quantum Circuits for Dynamic Runtime Assertions in Quantum Computation

17.Towards Efficient Superconducting Quantum Processor Architecture Design

18.Not All Qubits Are Created Equal: A Case for Variability-Aware Policies for NISQ-Era Quantum Computers

19.Tackling the Qubit Mapping Problem for NISQ-Era Quantum Devices

20.Noise-Adaptive Compiler Mappings for Noisy Intermediate-Scale Quantum Computers

21.Optimized Compilation of Aggregated Instructions for Realistic Quantum Computers