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README.txt
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# QC-Hardware-How-To
[](https://choosealicense.com/licenses/cc-by-4.0) [](https://mybinder.org/v2/gh/OJB-Quantum/QC-Hardware-How-to/main)
Everything you need for quantum hardware engineering in the field. Curated by Onri Jay Benally, an Indigenous American quantum hardware engineer.
__________________________________________________________________________________________________________________________________________________
## To download a copy of the full Experimental Quantum Hardware Engineering PDF I wrote, [click here](https://github.com/OJB-Quantum/QC-Hardware-How-To/blob/main/Everything_You_Need_for_Quantum_Hardware_Engineering%20by%20Onri%20Jay%20Benally.pdf).
## To download a copy of the Nanofabrication Technology for Quantum Chips PDF I wrote, [click here](https://github.com/OJB-Quantum/QC-Hardware-How-To/blob/main/Nanofabrication%20Technology%20Used%20for%20Quantum%20Chips%20by%20Onri_.pdf).
## An extended version of the video playlists is available: [Quantum Hardware Engineering](https://youtube.com/playlist?list=PLbW5jviv4ckyjq-7YkZWeBwASv83XP2iL&si=K7sNuWY8_DCH77vP)
| 6 Critical Quantum Hardware Videos – Explanation of the Physical System: |
|-----------------------------------------------------------------------------|
| [Inside a Quantum Computer! with Andrea Morello](https://youtu.be/k_QeSOIDiEM?si=M1-GYha-9GuKNYLL) |
| [UNSW Quantum Computer Lab Visit [with Andrea Morello]](https://youtu.be/yT0Znr0Et4w?si=ucoo3kUXrxwFk_ao) |
| [Inside the IBM Quantum Lab with Olivia Lanes](https://youtu.be/4gpPHWCoWPs?si=x8kpvJoQHqtbs6ht) |
| [Build Your Own Quantum Computer @ Home, Yann Allain](https://media.ccc.de/v/36c3-10808-build_you_own_quantum_computer_home_-_99_of_discount_-_hacker_style#t=1105) |
| [Superconducting Qubits for Analogue Quantum Simulation, Gerhard Kirchmair](https://youtu.be/BAt2PFVQE3w?si=044mUesj0tcRSOl9) |
| [Quantum Control Technologies: Pulses for Quantum Control, Prof. Christian Kurtsiefer](https://youtu.be/1S0EAnooQMc?si=CjhltpPrmBYW-sm4) |
| 12 Quantum Hardware Videos on Qubit Control/ Readout Equipment |
| - |
| [High Speed Qubit Control, Tabor Electronics](https://youtu.be/QrF09wmr_Do?si=442JoJ5fjMSwXkcd) |
| [Characterization to Resonator Measurements, Zurich Instruments](https://youtu.be/DiK9WyYDwRw?si=HSQMBFTarK0hx3sQ&t=62) |
| [What is a Mixer? Modern RF & Microwave Mixers Explained, Marki Microwave](https://youtu.be/WwJKxvz7qbs?si=VoxFj6tJFgtqRAmL) |
| [RF Isolator Teardown & Explanation](https://youtu.be/Whn3QjHUgIw?si=dG09vL56J8y3ndPZ) |
| [Advanced Microwave Topics for Quantum Physicists, Tabor Electronics](https://youtu.be/k7O8dEVtUcY?si=fo_ZIqWvgdIcHii7) |
| [Cryogenics Electronics, Quantum Technologies Innovation Network & Innovate UK Business Connect](https://youtu.be/htv_iNAEvTU?si=Cg18-WXJVNnoCvJ1) |
| [Introduction to TR Multicoax Series, Amphenol Ardent Concepts](https://youtu.be/hDhkEZ_Z-ck?si=OL7bqaJ24LXK4O2s) |
| [Quantum Applications in the Bluefors Measurement System, Bluefors](https://youtu.be/EOOiZvfQhyA?si=zmLb0TUzaLv9oDpo&t=45) |
| [Hands-on Superconducting Qubit Characterization, Zurich Instruments](https://youtu.be/rKkR4m1DaiY?si=Or1PIUAnjAsmmLSV) |
| [Qubit Control and Measurement Solutions, Zurich Instruments](https://youtu.be/0cXPZLExSqk?si=Lx-p_w1cDOR1YUdr) |
| [Interfacing Superconducting Quantum Circuits with an RF Photonic Link, Qiskit](https://www.youtube.com/live/_Ea3ZuPG5lA?si=4y04FwFNK50rZp1u) |
| [Silicon Photonic Quantum Computing – Towards Large-Scale Systems, PsiQuantum](https://youtu.be/at9Ust3tZ74?si=P3k1jc9a5sfdcAy6) |
| Click Below To Access School of Quantum - QuTech Academy |
| - |
| [School of Quantum](https://www.qutube.nl) |
| Click Below To Access IQM Academy - IQM |
| - |
| [IQM Academy](https://www.iqmacademy.com) |
| Click Below To Access Quantum Chip Gallery - TU Delft |
| - |
| [Quantum Integrated Circuits](https://www.tudelft.nl/en/eemcs/the-faculty/departments/quantum-computer-engineering/sections/quantum-circuits-architectures-and-technology/groups/quantum-integrated-circuits/chip-gallery) |
| [More from the Chip Gallery](https://www.tudelft.nl/en/eemcs/the-faculty/departments/quantum-computer-engineering/sections/quantum-circuits-architectures-and-technology/groups/quantum-integrated-circuits) |
### Shortcut into Quantum Hardware Engineering (Quantum Hardware Education Insights by Onri)
#### Quantum Hardware Topics
| Insights/Topics |
|---------------------------------------------------------------------------------------------------------------|
| Start with a 3D modeling & linguistics framework, may involve a custom keywords glossary. |
| Know that this specialty involves learning to probe something without necessarily having to physically contact its surface. This is what spectroscopy or "scatterometry" is about. |
| Typically, topics covered under quantum hardware engineering are combinations of materials science & engineering, quantum metrology, quantum transport, quantum optics, & quantum electronic design automation. |
| Know how electronic filters are configured or set up. |
| Know how electronic filters are designed & what they look like. |
| Know what components various filters are made of. |
| Know the difference between passive & active filters. |
| Know the difference between optical, microwave, & radio frequency (RF) isolators, circulators, & mixers. |
| Be aware of different room temperature & cryogenic amplifiers. |
| Know what room temperature & cryogenic amplifiers are made of. |
| Know the different types/hierarchy of amplifier noise (thermal, shot, external, quantum). |
| Know how a signal curve or response is manipulated. |
| Know how signals are triggered. |
| Know what impedance matching is (how many ohms is required). |
| Know how a Smith chart works. |
| Know the many purposes of a resistor (there's a whole list). |
| Know what multiphase power means. |
| Know what a resonator & resonator cavity is. |
| Know what vector network & spectrum analyzers, arbitrary waveform generators, & signal generators do. |
| Know what an oscillator circuit does (voltage fluctuation or AC). |
| Know what an inverter circuit does (DC to AC conversion). |
| Know what a rectifier circuit does (AC to DC conversion). |
| Know what high-pass, low-pass, band-pass, band-stop filter circuits/crossover networks do (signal filtering). |
| Know what a comparator circuit does (threshold indicator). |
| Know what a few basic logic gates can do (calculator). |
| Know what a PID [closed-loop] controller does (electronic-based self-balancing). |
| Know what a feed forward [open-loop] controller does (electronic-based self-balancing alternative). |
| Bonus: Know how to build a simple electronic audio amplifier device (it has many components similar to quantum computing systems). |
---
### Common Coding Topics for Hardware Engineers
| Coding Topics |
|-------------------------------------------------------------------------------|
| Library installation |
| Syntax & commenting |
| Curve fitting, direct parameterization, & mesh parameterization |
| Automation scripting |
| Data management & data structures |
| Parallel processing & accelerated computing techniques |
| Interpolation & extrapolation |
| Linear regression |
| Signal processing |
| Noise plots |
| Manual debugging |
__________________________________________________________________________________________________________________________________________________
