At the APS March Meeting, we will introduce the Qblox control stack to quantum computer developers. In addition, we are hosting two talks and two workshops respectively, as highlighted below:
- Technical Workshop on Qblox & Quantify + Live Q&A:
- Abstract: Meet the Qblox control stack: commercially available, massively scalable control systems that generate and interpret signals in the range from DC to 18.5 GHz. By giving our sequencers real-time access to pulse amplitudes, offsets and modulation phases, this allows bypassing slow communication with the user PC. The Qblox hardware can be conveniently operated with Quantify. This creates a massively scalable control stack with tight integration of all hardware and software components applicable to a variety of quantum systems.
- Session M34: Quantify: An open-source framework for operating quantum computers in the NISQ era.
Wednesday, March 17, 2021 | 11:30AM CDT- Abstract: Operating a quantum computer in the NISQ era is an often-underestimated challenge. Specifically, the tune-up and execution of quantum algorithms. Here, we present Quantify, a robust and extensively documented open-source experiment platform. Quantify contains all the basic functionality to control experiments, as well as a novel scheduler featuring a unique hybrid control model allowing quantum gate- and pulse-level descriptions to be combined in a clearly defined and hardware-agnostic way. This opens up new avenues for the efficient execution of calibration routines as well as variational quantum algorithms (VQA).
- Session R33: A low-noise, flexible and scalable control paradigm for quantum computing in the NISQ era.
Thursday, March 18, 2021 | 09:36 AM CDT- Abstract: In the race towards quantum computers with real-life applications, major challenges have to be overcome. We battle these challenges by providing hardware stacks that combine low noise and drift, a novel distributed instruction set architecture (ISA) and a scalable infrastructure for low-latency feedback. This creates a system with wide applications in quantum computing and opens up new avenues in quantum error correction.
- Abstract: In the race towards quantum computers with real-life applications, major challenges have to be overcome. We battle these challenges by providing hardware stacks that combine low noise and drift, a novel distributed instruction set architecture (ISA) and a scalable infrastructure for low-latency feedback. This creates a system with wide applications in quantum computing and opens up new avenues in quantum error correction.
We are a dedicated team of scientists, engineers and developers, who are pushing quantum technology to support scientists worldwide. Contact us (via form below) for commercial inquiries about our scalable and low-latency qubit control and readout equipment, from ultrastable DC to 18.5GHz for academic and industrial quantum labs.
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