Pioneering Next-Generation Computing

We build enabling technologies that extend computing beyond current silicon limits, combining advanced semiconductors and emerging quantum capabilities.

1

Pushing semiconductors to the limits of matter itself

2

Creating a time-optimal quantum paradigm

3

Building the infrastructure for next-generation computing

Beyond-Silicon starts here

We build semiconductor technologies beyond silicon and advanced quantum control systems, expanding the limits of performance, efficiency and scalability.

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Beyond-Silicon Semiconductor Technologies

  • Nodes beyond silicon limits
  • Low-power, high-mobility materials
  • Monolithic 3D integration of computing layers
  • Solutions for interconnect, density and energy bottlenecks

Quantum Control Technologies

  • Reduced gate duration to mitigate decoherence
  • Improved performance on noisy quantum hardware
  • More scalable quantum system architecture
  • Enhanced control efficiency in constrained architectures

Coupled Operation Frameworks

  • Seamless bridging across distinct execution realms
  • Adaptive translation protocols enabling cohesive setups
  • Resilient information exchange yielding steady reliability
  • Robust connectivity channels delivering unrestricted throughput

IDEADED's Hybrid Infrastructure

IDEADED is developing a hybrid computing stack that connects proprietary semiconductor technologies, quantum control and system-level integration.

[01]

Classical Computing Layer

Proprietary semiconductor-based computing architectures.

[02]

Integration Stack

Scalable integration layer enabling classical and quantum computing.

[03]

Quantum Processing Layer

Fault-tolerant architectures for quantum computing, with sensing capabilities enabled by advanced control technologies.

We are focused on building enabling technologies.

Let's talk about the computing technologies of tomorrow

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