diff --git a/src/content/navigation/main.json b/src/content/navigation/main.json index 2162b7c3..559615ec 100644 --- a/src/content/navigation/main.json +++ b/src/content/navigation/main.json @@ -12,10 +12,6 @@ "text": "Grants", "link": "/grants/" }, - { - "text": "Project Inspiration", - "link": "/ideas/" - }, { "text": "FAQ", "link": "/faqs/" diff --git a/src/pages/ideas.mdx b/src/pages/ideas.mdx deleted file mode 100644 index 9254844c..00000000 --- a/src/pages/ideas.mdx +++ /dev/null @@ -1,37 +0,0 @@ ---- -layout: '~/layouts/Layout.astro' -title: Project Inspiration -contained: true ---- - -import { PageIntro } from '~/components/Ui'; - - - -# Project Inspiration - -Looking for inspiration? This section contains links that might inspire new Unitary Fund projects. - -Unitary Fund is supporting the development of [QuTiP](http://www.qutip.org/), the Quantum Toolbox in Python. Interested students can apply to propose a code project in QuTiP and be mentored by the core developers for a 3-month period, working remotely, similarly to the Google Summer of Code. A list of [project ideas](https://github.com/qutip/qutip/wiki/Google-Summer-of-Code-2020) is available from the QuTiP wiki. Applications are open all-year-round. - - - -[Cassandra Granade](https://www.cgranade.com/) - a UF Advisory Board member and senior developer on Microsoft's open source [Quantum Development Kit](https://www.microsoft.com/en-ca/quantum/development-kit) - has some suggestions: - -- Additional Q# simulators (e.g.: open systems or CHP simulators) -- New language interoperability; currently, can call into Q# from Python, C#, F#, VB.NET, or PowerShell -- Visualization and/or debugger tools (e.g.: improving the state visualizer sample) -- New libraries for quantum algorithms (e.g.: we've gotten requests for [QRAM](https://arxiv.org/abs/0708.1879) implementations and a [Durr-Hoyer library)](https://arxiv.org/abs/quant-ph/9607014) - -[Travis Scholten](http://travisscholten.com/) - an Advisory Board member from [IBM Quantum](https://www.ibm.com/quantum-computing/) - suggests: - -- Some of the larger issues in Qiskit Terra labelled as "[short projects](https://github.com/Qiskit/qiskit-terra/labels/short%20project)." -- Implementing the Solovay-Kitaev algorithm for approximating a given unitary by gates from a finite set, to arbitrary accuracy. -- Writing a simulator for parameterized quantum circuits, leveraging the Qiskit Parameter object. -- Building an encoder and decoder for quantum expander codes. (References [here](https://arxiv.org/abs/1504.00822), [here](https://arxiv.org/abs/1808.03821), and [here](http://people.seas.harvard.edu/~madhusudan/courses/Spring2017/scribe/lect13.pdf).) - -[Michał Stęchły](https://unitary.fund/www.mustythoughts.com) \- an Advisory Board member from [Zapata Computing](https://www.zapatacomputing.com/) - shares his ideas: - -- Visualization tools for high-dimension optimization landscapes could help get better insight into algorithms like QAOA or VQE. [Orqviz](https://github.com/zapatacomputing/orqviz) is our attempt to tackle this issue, but contributions / other attempts would be welcome. -- At QOSF we have done [evaluation of open source projects](https://qosf.org/evaluation/) in quantum in 2018. Help with updating and automating the process would be appreciated. -- Many QC-related projects are scientifically solid, but lack on the software engineering side - murky architecture, lack of tests, versioning, CICD, etc. I believe improving the quality of the software could greatly benefit the community. diff --git a/src/pages/test.mdx b/src/pages/test.mdx index d5fad5c1..93f3d911 100644 --- a/src/pages/test.mdx +++ b/src/pages/test.mdx @@ -1,6 +1,6 @@ --- layout: '~/layouts/Layout.astro' -title: Project Inspiration +title: Test page contained: true ---