160 lines
8.1 KiB
HTML
160 lines
8.1 KiB
HTML
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<title>ARTIQ: Advanced Real Time Infrastructure for Quantum physics » M-Labs</title>
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<a href="https://github.com/m-labs/artiq"><img style="position: absolute; top: 0; right: 0; border: 0; z-index: 1;" src="forkme_right_white_ffffff.png" alt="Fork me on GitHub"></a>
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<li><a class="selected" href="index.html">artiq</a></li>
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<li><a href="../gateware.html">gateware</a></li>
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<div style="float: right;"><img src="ion_trap.png"></div>
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<p>ARTIQ (Advanced Real-Time Infrastructure for Quantum physics) is a next-generation control system for quantum information experiments. It is being developed in partnership with the <a href="http://www.nist.gov/pml/div688/grp10/index.cfm">Ion Storage Group</a> at NIST, and its applicability reaches beyond ion trapping.</p>
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<p>Modern research on quantum information systems poses particular challenges to the control system:
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<ul>
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<li>dozens of signals need to be received and generated with extremely precise timing, in particular to ensure phase coherence</li>
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<li>quantum error correction schemes require very low reaction latency in response to a measurement</li>
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<li>real-world implementations of quantum gates, and a fortiori quantum algorithms, involve structurally complex protocols</li>
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<li>ever-improving experimental techniques drive the need for a flexible and programmable system</li>
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<li>the diversity of equipment, device drivers and data analysis software involved in a single experiment results in a distributed and multi-platform environment</li>
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</ul>
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</p>
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<p><center><img src="lab_hardware.png"></center></p>
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<h2>Enter ARTIQ</h2>
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<div style="float: right;"><a href="gui_screenshot.png"><img src="gui_screenshot_small.jpg"></a></div>
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<p>ARTIQ features a high-level programming language, based on Python, that helps describing complex experiments. It is compiled and executed on dedicated FPGA hardware with nanosecond timing resolution and sub-microsecond latency.</p>
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<p>The time-critical code (a <i>kernel</i>) running on the FPGA (the <i>core device</i>) is easily interfaced with Python code on the computer using a remote procedure call (RPC) mechanism.</p>
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<p>The FPGA design is highly portable so that it can adapt to different laboratory setups and resist hardware obsolescence.</p>
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<p>ARTIQ drivers for non-realtime devices can be run on remote machines with different operating systems.</p>
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<p>The project also includes a graphical user interface, an experiment scheduling system, and databases for experiments, devices, parameters and results.</p>
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<p>Technologies employed include <a href="http://python.org">Python</a>, <a href="../gateware.html">Migen</a>, <a href="../gateware.html">MiSoC</a>/<a href="https://github.com/openrisc/mor1kx">mor1kx</a>, <a href="http://llvm.org">LLVM</a> and <a href="https://github.com/numba/llvmlite">llvmlite</a>.</p>
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<p><center><img src="comp.png"></center></p>
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<h2>Open source</h2>
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<p>Another goal of ARTIQ is to streamline and simplify the design flow of quantum physics instrumentation by promoting design reuse through the development of platform-independent, open-source hardware and software.</p>
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<p>Our aim is to provide a control system suitable for the challenges of modern quantum information research, which is based on modular, parameterized and open components that allow physicists to rapidly design and deploy new experiments.</p>
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<h2>A taste of the programming language</h2>
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<h4>Timing language basics</h4>
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<pre>
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trigger.sync() # wait for trigger input
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start = now_mu() # capture trigger time
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for i in range(3):
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delay(5*us)
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dds.pulse(900*MHz, 7*us) # first pulse 5 µs after trigger
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at_mu(start) # re-reference time-line
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delay(1*ms)
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dds.pulse(200*MHz, 11*us) # exactly 1 ms after trigger
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</pre>
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<p>
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<ul>
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<li>now(), at(), delay() describe time-line of an experiment</li>
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<li>Exact time is kept in an internal variable</li>
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<li>That variable only loosely tracks the execution time of CPU instructions</li>
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<li>The value of that variable is exchanged with the real-time input/output (RTIO) core that does precise timing</li>
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</ul>
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</p>
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<h4>Parallelism</h4>
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<pre>
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with sequential:
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with parallel:
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a.pulse(100*MHz, 10*us)
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b.pulse(200*MHz, 20*us)
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with parallel:
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c.pulse(300*MHz, 30*us)
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d.pulse(400*MHz, 20*us)
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</pre>
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<ul>
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<li>Experiments are inherently parallel: simultaneous laser pulses, parallel cooling of ions in different trap zones</li>
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<li>parallel and sequential contexts with arbitrary nesting</li>
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<li>a and b pulses both start at the same time</li>
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<li>c and d pulses both start when a and b are both done (after 20 µs)</li>
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<li>Currently implemented by inlining, loop-unrolling, and interleaving (i.e. static scheduling at compile time)</li>
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</ul>
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<h4>Organize experiment components and reuse code</h4>
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<pre>
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class Experiment(EnvExperiment):
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def build(self):
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self.ion1 = Ion(...)
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self.ion2 = Ion(...)
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self.transporter = Transporter(...)
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@kernel
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def run(self):
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with parallel:
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self.ion1.cool(duration=10*us)
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self.ion2.cool(frequency=...)
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self.transporter.move(speed=...)
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delay(100*ms)
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self.ion1.detect(duration=...)
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</pre>
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<h2>Is ARTIQ right for my lab?</h2>
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<p>It's easy to find out by yourself! The core device is based on the resource-efficient MiSoC system-on-chip design, and you can use a limited version of ARTIQ with the small and low-cost <a href="http://pipistrello.saanlima.com/">Pipistrello</a> board. Feel free to send feedback to the mailing list! See <a href="manual/installing.html">the manual</a> for instructions.</p>
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<h2>Resources</h2>
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<p>
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<ul>
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<li><a href="https://github.com/m-labs/artiq">Source code repository</a></li>
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<li><a href="https://ssl.serverraum.org/lists/listinfo/artiq">Public mailing list</a></li>
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<li><a href="artiq_overview.pdf">Slide-show</a></li>
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<li><a href="manual/">Manual</a></a>
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<li>Commercial support available - contact sb at m-labs.hk. <a href="extensions.html">Extensions</a>.</li>
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<li>Press release: <a href="http://nist.gov/pml/div688/grp10/open-source-software-for-quantum-information.cfm">Open-Source Software for Quantum Information</a></li>
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</ul></p>
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