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Our hardware | The future of compute

QSea I

+++ available soon +++

Quantum computer demonstrator with 10 qubits based on ion traps

Key Facts

+ Macroscopic ion trap
+ Microwave technology
+ MAGIC architecture from eleQtron
+ All to all connectivity
+ Fully simulated digital twin

eleQtron | parityQC | NXP Semiconductors

Early qubits, high fidelity

This quantum computer demonstrator from the eleQtron | parityQC | NXP Semiconductors consortium provides our application teams with real quantum hardware at an early stage. It allows our teams and partners to gain important experience with real qubits – so that they can then immediately start implementing use cases on future, more powerful systems.

10

Ion trap qubits

99,9 %

Gate fidelity 1-qubit gates

99 %

Gate fidelity 2-qubit gates

QSea I

+++ available soon +++

Quantum computer demonstrator with 10 qubits based on ion traps

Key Facts

+ Macroscopic ion trap
+ Microwave technology
+ MAGIC architecture from eleQtron
+ All to all connectivity
+ Fully simulated digital twin

eleQtron | parityQC | NXP Semiconductors


Early qubits, high fidelity

This quantum computer demonstrator from the eleQtron | parityQC | NXP Semiconductors consortium provides our application teams with real quantum hardware at an early stage. It allows our teams and partners to gain important experience with real qubits – so that they can then immediately start implementing use cases on future, more powerful systems.

10

Ion trap qubits

99,9 %

Gate fidelity 1-qubit gates

99 %

Gate fidelity 2-qubit gates


SQ-RT with Princess QPU

Quantum computer based on NV centres in diamond with sulphur dopants

4

nv centre qubits

> 95 %

Gate fidelity 1-qubit gates

> 90 %

Gate fidelity multi-qubit gates

Mobile for first experiences

On this freely programmable and diamond-based 4-qubit system, our teams and partners gain their first experience with real qubits and test simple algorithm and gate ideas in a realistic environment.

Thanks to its small space and energy requirements and its robustness, we operate the SQ-RT in our QCI Lab in Hamburg.

Key Facts

+ Operation at room temperature
+ Mobile use
+ Graphical UI
+ Ideal for training courses and exhibitions
+ Certified product safety

SQ-RT mit Princess QPU

Quantum computer based on NV centres in diamond with sulphur dopants

Key Facts

+ Operation at room temperature
+ Mobile use
+ Graphical UI
+ Ideal for training courses and exhibitions
+ Certified product safety

Mobile for first experiences

On this freely programmable and diamond-based 4-qubit system, our teams and partners gain their first experience with real qubits and test simple algorithm and gate ideas in a realistic environment.

Thanks to its small space and energy requirements and its robustness, we operate the SQ-RT in our QCI Lab in Hamburg.

4

Qubits

> 95 %

Gate fidelity 1-qubit gates

> 90 %

Gate fidelity multi-qubit gates


QSea I – Digital Twin

Fully simulated digital twin

Key Facts

+ Complete simulation of the QSea I hardware
+ Freely adjustable noise sources and parameters
+ Up to 10 simulated qubits
+ All to all connectivity
+ Switchable extra functions
+ Already tested at DLR

eleQtron | parityQC | NXP Semiconductors

Like the real thing, only better

Sometimes it has to be a simulacrum: With this digital twin of the QSea I, we not only provide a realistic simulation of the real hardware, but also make it possible to fine-tune its parameters. This makes it possible to develop tricky quantum algorithms that utilise the real properties of the system, such as its noise. And agile algorithms can be tested under controlled conditions before they are implemented on the real system.

10

simulated qubits

$ %

arbitrary 1-qubit gate fidelity

$ %

arbitrary 2-qubit gate fidelity

QSea I – Digitaler Zwilling

Hochdetaillierte Simulation des QSea I

Key Facts

+ Complete simulation of the QSea I hardware
+ Freely adjustable noise sources and parameters
+ Up to 10 simulated qubits
+ All to all connectivity
+ Switchable extra functions
+ Already tested at DLR

eleQtron | parityQC | NXP Semiconductors

Like the real thing, only better

Sometimes it has to be a simulacrum: With this digital twin of the QSea I, we not only provide a realistic simulation of the real hardware, but also make it possible to fine-tune its parameters. This makes it possible to develop tricky quantum algorithms that utilise the real properties of the system, such as its noise. And agile algorithms can be tested under controlled conditions before they are implemented on the real system.

10

simulated qubits

$ %

arbitrary 1-qubit gate fidelity

$ %

arbitrary 2-qubit gate fidelity

SQ-RT mit Princess QPU

Quantencomputer auf Basis von NV-Zentren in Diamant mit Schwefeldotierungen

4

Qubits

123

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123

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123

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Key Facts
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SQ-RT

Quantencomputer auf Basis von NV-Zentren in Diamant mit Schwefeldotierungen

Key Facts
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4

Qubits

123

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FAQ

Initially, only DLR QCI projects will have access to QCI Connect. However, we will extend access to other user groups as soon as possible.

QSea II – 1 Ion trap quantum computer

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Toccata – 1 Ion trap quantum computer

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Legato – 1 Ion trap quantum computer

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XAPHIRO 1 Ion trap quantum computer

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SuNQC – 2 NV center quantum computers

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UPQC – 2 photonic quantum computers

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DiNAQC – 1 neutral atoms quantum computer

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KompaQD – 1 solid-state spin quantum computer

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COMIQC – 1 solid-state spin quantum computer

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REDAC – 1 analogue computer

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