• Quantum Machines was founded in 2018 and is headquartered in Tel Aviv, Israel.
  • The company develops innovative software, hardware, and electronics, combining a range of classical engineering in the fields of electrical, hardware, and software engineering, with the science and technology of quantum computing.
  •  It utilizes a range of skills such as algorithmics, digital signal processing, RF microwave engineering, machine learning, and quantum physics to push their limits.

Quantum computing is no longer a distant dream—it’s happening now. And at the heart of this transformation is Quantum Machines, a company that’s not just keeping pace with the quantum race, but setting the tempo.

Founded by visionaries Itamar Sivan, Yonatan Cohen, and Nissim Ofek, Quantum Machines is disrupting how quantum computers are controlled, offering groundbreaking solutions to overcome the toughest challenges facing this next-gen technology.

The company's Quantum Orchestration Platform (QOP) is already changing the game, and it’s only the beginning.

Founders with a Bold Vision

Quantum Machines didn’t start as a typical tech startup. Founded in 2018 by three quantum physicists in Tel Aviv, the company was born from an ambitious goal: to transform the future of computing by mastering the control systems that quantum computers need to operate at scale.

Itamar Sivan (CEO), Yonatan Cohen (CTO), and Nissim Ofek (Chief Quantum Scientist) brought together deep expertise in both quantum physics and engineering.

They formed a unique leadership team capable of addressing one of the most complex technical challenges of our time.

“We were really looking into what is holding the industry back. What are the things that we can do today to drive this industry forward, but that will also enable faster progress in the future," said Itamar Sivan.

Quantum Orchestration: The Mastermind Behind Qubits

The flagship product of QM is its Quantum Orchestration Platform (QOP), a technological marvel that’s changing how we think about quantum control.

As quantum computers evolve, so does the need for efficient, scalable control mechanisms.

Many current systems struggle to control more than a few hundred qubits, but the QOP was designed to handle over 1,000 qubits, paving the way for the next leap in quantum processing power.

In August 2023, Quantum Machines made waves with its next-gen quantum control solution, capable of scaling quantum systems beyond previous limitations.

The precision and adaptability of QOP make it an essential tool for quantum researchers and industries aiming to harness the full potential of quantum computing.

A Powerful Alliance with NVIDIA

Quantum Machines isn’t going it alone. The company forged a groundbreaking partnership with NVIDIA in 2023, blending its quantum expertise with NVIDIA's classical computing might.

This collaboration has created a powerful hybrid quantum-classical computing model that can tackle computational challenges previously thought impossible.

By integrating QM’s control systems with NVIDIA’s cutting-edge GPUs, the partnership allows industries like pharmaceuticals, cryptography, and finance to unlock new levels of computational performance.

It’s not just an advancement—it’s a game-changer for industries that depend on rapid, complex calculations.

Financial Backing and Future Growth

Quantum Machines’ rapid growth has been powered by substantial backing from top-tier investors.

To date, the company has raised over $93 million in funding, including a $50 million Series B round in 2021, led by Red Dot Capital Partners.

Other notable investors include Battery Ventures, TLV Partners, and Avigdor Willenz, the founder of Annapurna Labs. This influx of capital is a clear vote of confidence from investors who believe in QM’s potential to revolutionize quantum control.

With these resources, the company has been able to expand its R&D efforts, grow its team, and forge key partnerships, such as its collaboration with NVIDIA.

As QM continues to scale, this financial support ensures it can push the limits of quantum computing and expand its product offerings to meet the needs of an evolving market.

Edited By Annette George