Compiler design for distributed quantum computing

How distributed computing is used in quantum computing?
A distributed quantum computer is a collection of quantum computers, nodes, where each quantum computer in the collection has a number of qubits on which it can operate..
What is a quantum computer?
Quantum computers are machines that use the properties of … quantum physics to store data and perform computations.
This can be extremely advantageous for certain tasks where they could vastly outperform even our best supercomputers..
What is distributed quantum computing?
In this paper, a multi-layer hierarchical architecture is proposed for distributing quantum computation.
In a distributed quantum computing (DQC), different units or subsystems communicate by teleportation in order to transfer quantum information..
What is quantum architecture?
As explained in the book an architectural quantum is an independently deployable component with high functional cohesion.
It's a unit of things that work so well together that it can become independent and have its own life..
As explained in the book an architectural quantum is an independently deployable component with high functional cohesion.
It's a unit of things that work so well together that it can become independent and have its own life.
Quantum compiling is a hybrid between the general-purpose compilers of computers, transforming high-level language to assembly language, and hardware synthesis by hardware description language, where functions are automatically synthesized into customized hardware.
While a traditional computer has to use lots of electricity to brute force its way through possible solutions, quantum computers leverage the properties of qubits to streamline the computation process.
Another advantage of quantum computers is they scale faster than traditional computers as they gain qubits.

Practical distributed quantum computing requires the development of efficient compilers, able to make quan- tum circuits compatible with some given hardware constraints. This problem is known to be tough, even for local computing.

How does distributed quantum computing work?

Practical distributed quantum computing requires the development of efficient compilers, able to make quantum circuits compatible with some given hardware constraints.
This problem is known to be tough, even for local computing.
Here, we address it on ..

Is the quantum circuit compilation problem NP-hard?

We refer to it as the quantum circuit compilation problem (QCC), which is proved to be NP-hard .
Its version on distributed architectures, which we refer to as the distributed quantum circuit compilation problem (DQCC), is likely to be at least as hard as QCC.

Is there a compiler for distributed quantum computing?

Optimized compiler for Distributed Quantum Computing Abstract—Practical distributed quantum computing requires the development of efficient compilers, able to make quantum circuits compatible with some given hardware constraints.
This problem is known to be tough, even for local computing.
Here, we address it on distributed architectures.

What is a compiled quantum algorithm?

Compiling a quantum algorithm means translating a hardware-agnostic description of the algorithm { i.e., the quantum circuit1 { into a functionally-equivalent one that takes into account the physical constraints of the underlying computing architecture { i.e., the compiled quantum circuit.

Compiler design for distributed quantum computing

How distributed computing is used in quantum computing?

What is a quantum computer?

What is distributed quantum computing?

What is quantum architecture?

How does distributed quantum computing work?

Is the quantum circuit compilation problem NP-hard?

Is there a compiler for distributed quantum computing?

What is a compiled quantum algorithm?