Online Seminar: Deterministic Benchmarking of Quantum Gates
A new method based on simple dynamical decoupling sequences to reliably capture both coherent and incoherent errors of quantum gates.
Take a Deep Dive Into Advanced Quantum Control and Cryogenics
A new method based on simple dynamical decoupling sequences to reliably capture both coherent and incoherent errors of quantum gates.
Execute even the most challenging quantum algorithms right out of the box using Quantum Machines’ extensive solutions portfolio.
Dec 2024
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Nov 2024
Recent research from Prof. Andrea Morello's lab at UNSW Sydney, on the creation and manipulation of Schrödinger cat states in a single I = 7/2
Nov 2024
This is a continuation from Part 1 about how to calibrate transmon qubits. Learn how to transform a script into a QualibrationNode.
Tightly integrating GPUs and QPUs for Quantum Error Correction and Optimal Control - Part 1
Nov 2024
This is a continuation from Part 1 of the tutorial. The setup for this integration is located in the Israeli Quantum Computing Center (IQCC).
This tutorial includes the real time compute requirements of QEC and preliminary latency benchmarks of DGX Quantum
This seminar presents innovative research from Prof. Gheorghe-Sorin Paraoanu's lab at Aalto University, Finland , published in Physical
November 2024
Oct 2024
October 2024
In this episode #32 of The Quantum Divide , Lorenzo Leandro, a product solution specialist at Quantum Machines, shares insights on the control
In this presentation, Dr. Yonatan Cohen, CTO of Quantum Machines, explores the feasibility of running Shor’s algorithm on a fault-tolerant
The IQCC is a state-of-the-art quantum and HPC center that uniquely integrates the power of quantum and classical computing resources. It is the
Oct 2024
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In this presentation, Dr. Gilad Ben-Shach, Director of Strategy and Partnerships at Quantum Machines/IQCC, delves into the design choices and
Oct 2024
High-energy radiation impacting a superconducting qubit chip creates a large number of electron-hole pairs and phonons. The dynamics of the
September 2024
September 2024
November 08, 2023 In this talk, Dr. Kurman describes how to implement fault-tolerant non-Clifford gates in QEC codes and the role of
June 28, 2023 In this seminar, we addressed the following topic -Two-Qubit RB: New QUA package for 2-qubit RB (main features) Few QUA lines and
November 28, 2023 In this seminar our speakers: Søren and Matthew, introduce the QCage.24 and QCage.64 superconducting chip carrier solutions
Sep 2024
Sep 2024
High-energy radiation impacting a superconducting qubit chip creates a large number of electron-hole pairs and phonons. The dynamics of the
QDAC-II is a 24-channel DAC renowned for its exceptionally low noise, signal stability, and unparalleled number of features, such as current
In this latest research from Prof. Ferdinand Kuemmeth's lab at NBI, a physics-informed and real-time Hamiltonian estimation protocol is
August 2024
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What Does It Take to Design a Control System for Running Shor’s Algorithm on an Error-Corrected Quantum Machine? Practical Use Case
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Learn why the builders of the largest quantum computers in the world use OPX1000.
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All control electronics in a single box: photon counter, RF and MW generator, and experimental logic intuitively implemented in quantum timescales.
Orchestrating experiments for top performance with ease and at any scale, with a quantum control system ready for the fault tolerance era.
Gear up for the quantum era, and position yourself with the most advanced HPC-Quantum computer.
May 2024
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A versatile, low-frequency signal routing box with 240 software-controlled relays.
An extremely stable, low-noise, 24-channel 1U voltage source to control quantum electronics and QPUs.
Feb 2024
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Jan 2024
In episode #24 of DataCenter Diaries , Jörn Höpfner, Scientific Business Development Manager of Quantum Machines, joins Ulrike Ostler,
Jan 2024
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Dec 2023
Nov 2023
Søren Andresen and Matthew Bland ( Princeton University ), introduce QCage chip carriers, and present a related research.
Nov 2023
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OPX1000: High-Density Control Platform for Quantum Computers at Scale. Real-time processing | Fastest feedback | Cutting-edge analog frontend
Mar 2024
OPX+ has unmatched capabilities. It is agile and flexible, allowing easy programming and the fastest runtime of most complex quantum programs.
July 2023
Dr. Sivan describes some the basics and the intricacies of quantum computing. When you listen, you’ll learn about the difference
It’s been a while since we’ve touched on quantum computing. It’s time for an update! This week we talk with Yonatan from Quantum Machines
Yonatan Cohen holds bachelors, masters, and PhD degrees in physics, and is co-founder and CTO at Quantum Machines where their team of
Dr. Itamar Sivan, Co-Founder and CEO of Quantum Machines, introduces Quantum MAchines at Meet the meQuanics.
Jul 2023
Jul 2022
Achieving the lowest possible noise and electron temperature in quantum circuits
A modular, PCB-based sample holder system for low-temperature spin-qubit chips, general transport experiments, and superconducting circuits.
Sample holder systems for operating quantum processors with up to 30 qubits.
Fully shielded breakout box specialized for electronics labs and low-temperature experiments.
Tuning quantum dots and keeping them stable with a state-of-the-art multi-channel voltage source solution
Jun 2023
Eliminate overhead and streamline microwave quantum control
Dr. Yonatan Cohen, CTO & co-founder of Quantum Machines gives a speech about the potential and challenges of hybrid quantum classical computers.
Alice & Bob, are pioneering the development of fault-tolerant quantum computers. In 2022 they selected Quantum Machines' advanced
An advanced quantum control system is a prerequisite for smoothly integrating quantum capabilities in HPCs. Quantum Machines’ Quantum
Learn how to achieve quantum dot tuning by running neuralnetworks in real-time with QUA programming language and the Quantum Orchestration Platform.
QUA is a first-of-its-kind pulse-level programming language that integrates classical processing into the lowest levels of quantum programming
The Quantum Orchestration Platform is a first of its kind full-stack solution that allows you to run even the most complex quantum algorithms,
The DGX Quantum system tightly integrates QM’s OPX+ quantum controller with the NVIDIA Grace Hopper Superchip to create a quantum-accelerated
June 2023
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July 2023
An advanced quantum control system is a prerequisite for smoothly integrating quantum capabilities in HPCs. Quantum Machines’ Quantum
Jul 2023
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We often hear that the path to fault-tolerant quantum computing will require error correction. How will this technique work? Join host
Apr 2023
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If you work with qubits, you often need to reset them to their ground states. Here's the easiest way to do this.
Yonatan Cohen, Co-Founder and CTO of Quantum Machines, shares how the Quantum Orchestration Platform enables execution of complex quantum
Feb 2023
Feb 2023
Feb 2023
Feb 2023
Discover a robust way to arrange, control, and experiment with neutral atoms using the Quantum Orchestration Platform with this in-depth use case.
Jan 2023
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Jan 2023
Find out how you can leverage the Quantum Orchestration Platform to perform groundbreaking experiments in your NV center lab with these
Jan 2023
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In this talk, we will show how real-time feedback and adaptive thresholding can improve the single-shot readout (SSRO) of a three-level nuclear
Dive into the lab dungeon with us to fight two everyday problems: measuring the qubit dephasing time and estimating resonance frequency drifts.
Curious about what qubit labs and meal planning have in common? Learn how correcting IIR filter irregularities helps you with both!
Finite Impulse Response (FIR) filters delay and correct samples using only the input signal and without consideration of the output.
Quantum Machines’ Quantum Orchestration Platform equips researchers and developers with the most advanced quantum-classical integration
Here we discuss quantum control software/hardware architectures constraints and bottlenecks for variational algorithms execution and how both
In this talk, we discuss quantum compilation, the process in which the high-level quantum programming language is optimized and transformed into
In this talk, we focus on the classical control in QEC and demonstrate how it is implemented on QM’s Quantum Orchestration Platform (QOP) to
In this talk, we elaborate on the classical control schemes in QEC and demonstrate how they are concretely implemented on QM’s Quantum
In this talk, we elaborate on the classical control schemes in QEC and demonstrate how they are concretely implemented on QM’s Quantum
In this session, we will show a live demonstration of how a researcher can use Entropy to improve their workflow.
In this talk, we discuss how the enabling of pulse control and tunability of the circuit scheduling could further extend the performance offered
In this talk, we demonstrate a novel hardware and software architecture allowing the generation of high bandwidth (less than 250kHz) feedback
This talk will cover the considerations, implications, and opportunities of quantum computing in heterogeneous environments.
In this talk, we discuss quantum compilation, the process in which the high-level quantum programming language is optimized and transformed into
With the Quantum Orchestration Platform for quantum control, there’s no limit to the span of experiments you can run. Find out how to
Learn how to supercharge your superconducting qubits with these real-world quantum control use cases, including quantum error correction.
Run groundbreaking experiments with simple code, using the Quantum Orchestration Platform. Have a look at how quickly you can program the OPX+
In this workshop, Ramon Szmuk, Quantum Hardware Engineer at Quantum Machines, discusses the challenges with neutral atom arrays and the methods
In this workshop, Ramon Szmuk, Quantum Hardware Engineer at Quantum Machines, discusses the challenges with neutral atom arrays and the methods
Here we present a new platform for designing quantum control protocols, executing them on a wide range of quantum hardware, and optimizing
This workshop will discuss the roadblocks towards viable neutral atoms quantum computers and the methods to overcome them with a new platform
Quantum error correction (QEC) protocols implemented on fault-tolerant quantum systems are required to fulfill the great promise of quantum
In this part, we will showcase feedback and real-time classical processing in different QPUs.
In part 2, we will show why the QOP is a good candidate for connecting classical and quantum resources in a very suitable way for the
In this introductory session, the first out of a 3-part workshop, we first discuss the need for a highly flexible and universal control platform
Per Nyberg, VP of Strategic Markets and Alliances at Quantum Machines, shares what it's like to be part of an industry “being born in front of
Listen to this deep dive with Itamar Sivan, Co-Founder and CEO of Quantum Machines to learn why he got into quantum computing and the importance
Dive into the difference between classical computers and quantum processors, the weaknesses involved in the quantum system such as the paradox
This presentation looks at at the basic principles on which quantum computers work and how quantum computers beat classical computers. It also
With the Quantum Orchestration Platform, complex and tediously long experiments become first-year exercises, run with the lowest latencies and
Here's how to use Active Reset with the pulse-level programming language QUA to reduce qubit initialization time and improve its fidelity.
Mar 2022
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Oct 2021
We will demonstrate how the platform can control various setups and present live code use cases. Some examples will include feedback for error
Finding and retaining the best talent is hard in most industries. In the quantum technology industry this is exacerbated by the complexity of
Jun 2021
May 2021
May 2021
Mar 2021
Industry talk by Yonathan Cohen on behalf of Quantum Machines at the MLQ2021 Conference, including Q&A. The presentation is entitled
In this talk, we focus on the classical control in QEC and demonstrate how it is implemented on QM’s Quantum Orchestration Platform (QOP) to
The new millennium is going to be nothing like any other human civilization has ever seen. Technology will evolve to new horizons far beyond
"Where is the quantum control stack heading? And how can we accelerate its timeline towards supporting quantum computers with real world value?
Dec 2020
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Feb 2020
Itamar Sivan, Co-Founder & CEO of Quantum Machines, presents to attendees on Day 2 of the Practical Quantum Computing Conference, an annual
Sep 2019
Jun 2019
May 2019
In this event, we will bring together representatives from Alibaba Quantum Laboratory, Quantum Machines, and Keysight, respectively. They will
Hello Quantum World with Dr. Yonatan Cohen at the Israel Machine Vision Conference
Aug 2018
Feb 2018
Have a specific experiment in mind and wondering about the best quantum control and electronics setup?
Want to see what our quantum control and cryogenic electronics solutions can do for your qubits?
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