Add to ORKGQuantum computing promises substantial speedups by exploiting quantum mechanical phenomena such as superposition and entanglement. Corresponding design methods require efficient means of representation and manipulation of quantum functionality. In the classical domain, decision diagrams have been successfully employed as a powerful alternative to straightforward means such as truth tables. This motivated extensive research on whether decision diagrams provide similar potential in the quantum domain -- resulting in new types of decision diagrams capable of substantially reducing the complexity of representing quantum states and functionality. From an implementation perspective, many concepts and techniques from the classical domain can be re...
In this paper, we present a novel structure, Quantum Multiple-valued Decision Diagrams (QMDD), speci...
Simulating quantum circuits on classical computers is a notoriously hard, yet increasingly important...
Graphical calculi such as the ZH-calculus are powerful tools in the study and analysis of quantum pr...
The computational power of quantum computers poses major challenges to new design tools since repres...
Loading classical data into quantum registers is one of the most important primitives of quantum com...
This book discusses modern approaches and challenges of computer-aided design (CAD) of quantum circu...
Quantum computers promise to solve several categories of problems faster than classical computers ev...
Simulating quantum computation on a classical computer is a difficult problem. The matrices represen...
Quantum computers promise to solve important problems faster than conventional computers. However, u...
Efficient methods for the representation and simulation of quantum states and quantum operations are...
Simulating quantum algorithms is a hard problem on classical computers, it usually needs exponential...
Quantum-mechanical phenomena are playing an increasing role in information processing as transistor ...
Quantum information processing technology is in its pioneering stage and no proficient method for sy...
Quantum information processing technology is in its pioneering stage and no proficient method for sy...
Quantum algorithms can be simulated using classical computers, but the typical time complexity of th...
In this paper, we present a novel structure, Quantum Multiple-valued Decision Diagrams (QMDD), speci...
Simulating quantum circuits on classical computers is a notoriously hard, yet increasingly important...
Graphical calculi such as the ZH-calculus are powerful tools in the study and analysis of quantum pr...
The computational power of quantum computers poses major challenges to new design tools since repres...
Loading classical data into quantum registers is one of the most important primitives of quantum com...
This book discusses modern approaches and challenges of computer-aided design (CAD) of quantum circu...
Quantum computers promise to solve several categories of problems faster than classical computers ev...
Simulating quantum computation on a classical computer is a difficult problem. The matrices represen...
Quantum computers promise to solve important problems faster than conventional computers. However, u...
Efficient methods for the representation and simulation of quantum states and quantum operations are...
Simulating quantum algorithms is a hard problem on classical computers, it usually needs exponential...
Quantum-mechanical phenomena are playing an increasing role in information processing as transistor ...
Quantum information processing technology is in its pioneering stage and no proficient method for sy...
Quantum information processing technology is in its pioneering stage and no proficient method for sy...
Quantum algorithms can be simulated using classical computers, but the typical time complexity of th...
In this paper, we present a novel structure, Quantum Multiple-valued Decision Diagrams (QMDD), speci...
Simulating quantum circuits on classical computers is a notoriously hard, yet increasingly important...
Graphical calculi such as the ZH-calculus are powerful tools in the study and analysis of quantum pr...