The titanQ SDK for python

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Project links

Development Status
- 3 - Alpha
Intended Audience
- Developers
License
- OSI Approved :: Apache Software License
Programming Language
Topic
- Scientific/Engineering

Project description

The titanQ SDK for Python

Python License

titanQ is the infinityQ Software Development Kit (SDK) for Python. The SDK facilitates and opens the way for faster implementation of the titanQ solver without having to deal directly with the API.

This titanq package is maintained and published by InfinityQ

API Key

In order to use the titanQ service, a user needs an API key. The API key can be obtained by contacting InfinityQ support

Installation

The following steps assume that you have:

A valid and active API Key
A supported Python version installed

Setting up an environment

python -m venv .venv
.venv/bin/activate

Install titanQ

pip install titanq

Using titanQ

The titanQ solver is designed to support very large problems and therefore very large files. To simplify the user experience, titanQ will instead use cloud storage set up and managed by the end users.

Currently, the SDK only supports two types of storage

Storage options	Vector variables limit
S3 Buckets	✅ Up to 100k vector variables
Managed storage	⚠️ Up to 10k vector variables

Both options are documented with examples at the titanQ's Quickstart documentation

Problem construction

NOTE: The weights matrix must be symmetrical.

The QUBO problem is defined as finding the minimal energy configuration (the state $\mathbf{x}$ which results in the minimal $E(\mathbf{x})$). Each state $\mathbf{x}$ is a vector of $n$ binary elements $x_i$ which can take the values of 0 or 1 (binary values). This model formulation is given in the equation below

$\ argmin_{\mathbf{x}} ,,,, E(\mathbf{x}) = \sum_{i=1}^n\sum_{i \leq j}^n Q_{i,j} x_i x_j ,,,,,,,, \mathbf{x}=(x_i)\in {0,1}^{n} \$

The bias terms of a QUBO model are stored along the diagonal of the $\mathbf{Q}$ matrix. However, to simplify converting between Ising and QUBO models, we assume that the diagonals of the $\mathbf{Q}$ matrix are 0, and take in an additional bias vector instead. To avoid confusion, the modified $\mathbf{Q}$ matrix with 0s along its diagonal is referred to as the weights matrix, denoted by

$\ \mathbf{W}=(W_{i,j})\in \mathbb{R}^{n \times n}, ~ where ~ \mathbf{Q} = \mathbf{W} + \mathbf{b}^{\intercal}\boldsymbol{I}, ~ and ~ \mathbf{b} = (b_i) \in \mathbb{R}^{n}$

denotes the biases, which are used in the final model formulation described below

$\ \begin{align} \notag \ argmin_{\mathbf{x}} , , , , E(\mathbf{x}) & = \sum_{i=1}^n \sum_{i < j}^n W_{i,j}x_i x_j + \sum_i^n b_i x_i \notag \ & = \frac{1}{2}\sum_{i=1}^n\sum_{j=1}^n W_{i,j}x_{i}x_{j} + \sum_{i=1}^{n} b_{i}x_{i} \notag \ & = \frac{1}{2}(\mathbf{x}^{\intercal}\mathbf{W}\mathbf{x}) + \mathbf{b}^{\intercal}\mathbf{x} \notag \end{align}$

Getting support or help

Further help can be obtained by contacting InfinityQ support

Project details

These details have not been verified by PyPI

Project links

Development Status
- 3 - Alpha
Intended Audience
- Developers
License
- OSI Approved :: Apache Software License
Programming Language
Topic
- Scientific/Engineering

Release history Release notifications | RSS feed

0.24.0

Nov 4, 2024

0.23.2

Oct 29, 2024

0.23.1

Sep 30, 2024

0.23.0

Sep 23, 2024

0.22.2

Aug 13, 2024

0.22.1

Aug 12, 2024

0.22.0

Aug 12, 2024

0.21.1

Aug 5, 2024

0.21.0

Jul 22, 2024

0.20.1

Jul 15, 2024

0.19.4

Jul 2, 2024

0.18.9

Jun 20, 2024

0.18.8

Jun 20, 2024

0.18.5

Jun 18, 2024

0.18.3

Jun 17, 2024

0.16.1

Jun 12, 2024

0.16.0

Jun 12, 2024

0.15.1

Jun 6, 2024

0.14.1

Jun 4, 2024

0.14.0

Jun 3, 2024

0.9.5

Apr 29, 2024

0.9.2

Apr 23, 2024

0.9.1

Apr 17, 2024

0.9.0

Apr 10, 2024

0.8.0

Apr 8, 2024

0.7.1

Apr 4, 2024

0.6.1

Apr 1, 2024

0.5.3

Mar 12, 2024

0.4.3

Mar 5, 2024

0.4.2

Feb 24, 2024

0.3.0

Feb 21, 2024

This version

0.2.7

Feb 20, 2024

0.2.6

Feb 15, 2024

0.2.5

Feb 15, 2024

0.2.4

Feb 15, 2024

0.2.3

Feb 15, 2024

0.2.2

Feb 15, 2024

0.2.0

Feb 12, 2024

0.0.1

Feb 12, 2024

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