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Developed in [[Julia/en|Julia]] by [https://anyonsys.com/ Anyon Systems], [https://github.com/SnowflurrySDK/Snowflurry.jl/ Snowflurry] is an open-source quantum computing library to build, simulate and run quantum circuits. A related library called [https://github.com/SnowflurrySDK/SnowflurryPlots.jl/ SnowflurryPlots] shows simulation results in a bar graph. Useful to explore quantum computing, its features are described in the [https://snowflurrysdk.github.io/Snowflurry.jl/dev/index.html documentation] and the [https://github.com/SnowflurrySDK/Snowflurry.jl installation guide is available on the GitHub page]. Like the [[PennyLane/en|PennyLane]] library, Snowflurry can be used to run quantum circuits on the [[MonarQ/en|MonarQ]] quantum computer. | Developed in [[Julia/en|Julia]] by [https://anyonsys.com/ Anyon Systems], [https://github.com/SnowflurrySDK/Snowflurry.jl/ Snowflurry] is an open-source quantum computing library to build, simulate and run quantum circuits. A related library called [https://github.com/SnowflurrySDK/SnowflurryPlots.jl/ SnowflurryPlots] shows simulation results in a bar graph. Useful to explore quantum computing, its features are described in the [https://snowflurrysdk.github.io/Snowflurry.jl/dev/index.html documentation] and the [https://github.com/SnowflurrySDK/Snowflurry.jl installation guide is available on the GitHub page]. Like the [[PennyLane/en|PennyLane]] library, Snowflurry can be used to run quantum circuits on the [[MonarQ/en|MonarQ]] quantum computer. | ||
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== Installation == | == Installation == | ||
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julia> print(circuit) | julia> print(circuit) | ||
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Quantum Circuit Object: | Quantum Circuit Object: | ||
qubit_count: 2 | qubit_count: 2 | ||
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0.7071067811865475 + 0.0im | 0.7071067811865475 + 0.0im | ||
</noinclude> | </noinclude> | ||
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The <code>readout</code> operation lets you specify which qubits will be measured. The <code>plot_histogram</code> function from the SnowflurryPlots library allows you to visualize the results. | The <code>readout</code> operation lets you specify which qubits will be measured. The <code>plot_histogram</code> function from the SnowflurryPlots library allows you to visualize the results. | ||