Pre-Configured
Quantum Computers
Pre-Configured
Quantum Computers
Pre-Configured
Quantum Computers
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Pre-Configured
Quantum Computers
A pre-configured quantum computer provides a turnkey platform, integrating qubits, control electronics, and sophisticated software to deliver consistent and high-performance quantum operations. Engineered for optimal fidelity and operational efficiency, it minimizes errors while maximizing computational throughput. By abstracting system setup and calibration, it enables users to dedicate their efforts to research and innovation, free from the burdens of technical complexity.
A pre-configured quantum computer provides a turnkey platform, integrating qubits, control electronics, and sophisticated software to deliver consistent and high-performance quantum operations. Engineered for optimal fidelity and operational efficiency, it minimizes errors while maximizing computational throughput. By abstracting system setup and calibration, it enables users to dedicate their efforts to research and innovation, free from the burdens of technical complexity.
Superconducting Qubits
Superconducting Qubits
Superconducting quantum computers, recognized for their exceptional computational speed and intrinsic stability, are emerging as a cornerstone of next-generation technology. Yet, the path to fully harnessing their potential is marked by significant technical hurdles, particularly in achieving precise, stable control and seamless operation.
SDT addresses these challenges with a comprehensive suite of solutions. Our specialized microwave pulse control devices are engineered specifically for superconducting quantum processors, ensuring precise manipulation of qubits. Complementing this hardware, SDT’s proprietary software continuously monitors qubit properties and error rates, automating state management and applying advanced algorithms to minimize errors and optimize overall system performance.
To complete the infrastructure, SDT delivers a highly sophisticated cryogenics platform that maintains the extreme conditions required for superconducting quantum systems to operate reliably. Together, these offerings enable researchers and industry leaders to accelerate innovation, improve computational accuracy, and advance the frontier of quantum technology.
Superconducting quantum computers, recognized for their exceptional computational speed and intrinsic stability, are emerging as a cornerstone of next-generation technology. Yet, the path to fully harnessing their potential is marked by significant technical hurdles, particularly in achieving precise, stable control and seamless operation.
SDT addresses these challenges with a comprehensive suite of solutions. Our specialized microwave pulse control devices are engineered specifically for superconducting quantum processors, ensuring precise manipulation of qubits. Complementing this hardware, SDT’s proprietary software continuously monitors qubit properties and error rates, automating state management and applying advanced algorithms to minimize errors and optimize overall system performance.
To complete the infrastructure, SDT delivers a highly sophisticated cryogenics platform that maintains the extreme conditions required for superconducting quantum systems to operate reliably. Together, these offerings enable researchers and industry leaders to accelerate innovation, improve computational accuracy, and advance the frontier of quantum technology.
Silicon Spin Qubits
Silicon Spin Qubits
Recent advances, such as the micro-magnet technique, have enabled Rabi oscillations exceeding 20 MHz, achieving single-qubit gate fidelities above 99.9% and rapid two-qubit operations. Silicon spin qubits’ full compatibility with CMOS processes—honed over 70 years of semiconductor manufacturing—offers a clear path to scalable, integrated quantum processors.
Historically, adoption of silicon spin qubits has been limited by accessibility, software gaps, and system complexity. SDT removes these barriers, delivering fully pre-configured quantum computers that combine optimized qubits, control electronics, operational software, and production-ready infrastructure. Our turnkey solution allows customers to access advanced silicon spin qubit technology immediately, focusing on innovation rather than assembly or integration.
Recent advances, such as the micro-magnet technique, have enabled Rabi oscillations exceeding 20 MHz, achieving single-qubit gate fidelities above 99.9% and rapid two-qubit operations. Silicon spin qubits’ full compatibility with CMOS processes—honed over 70 years of semiconductor manufacturing—offers a clear path to scalable, integrated quantum processors.
Historically, adoption of silicon spin qubits has been limited by accessibility, software gaps, and system complexity. SDT removes these barriers, delivering fully pre-configured quantum computers that combine optimized qubits, control electronics, operational software, and production-ready infrastructure. Our turnkey solution allows customers to access advanced silicon spin qubit technology immediately, focusing on innovation rather than assembly or integration.
Image courtesy of SemiQon
Image courtesy of SemiQon
"Superconducting and silicon spin qubit systems are just the beginning
— more quantum platforms are coming your way."
"Superconducting and silicon spin qubit systems are just the beginning — more quantum platforms are coming your way."
"Superconducting and silicon spin qubit systems are just the beginning — more quantum platforms are coming your way."
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Quantum Design and Manufacturing
SDT株式会社
ソウル特別市江南区テヘラン路44ギル 5, 10階 06211
事業者登録番号: 630-87-00933
Copyright© SDT Inc., All rights reserved.
SDT株式会社
ソウル特別市江南区テヘラン路44ギル 5, 10階 06211
事業者登録番号: 630-87-00933
Copyright© SDT Inc., All rights reserved.
SDT株式会社
ソウル特別市 江南区 テヘラン路44街 5, 10階 06211
事業者登録番号: 630-87-00933
Copyright© SDT Inc., All rights reserved.