Hybrid Quantum
Computing Cloud
Hybrid Quantum
Computing Cloud
Hybrid Quantum
Computing Cloud
QuREKA is SDT’s hybrid quantum computing cloud that integrates classical resources and QPU into a single environment. It provides the essential research environment needed to design, develop, and validate cutting-edge, industry-specific algorithms.
QuREKA is SDT’s hybrid quantum computing cloud that integrates classical resources and QPU into a single environment. It provides the essential research environment needed to design, develop, and validate cutting-edge, industry-specific algorithms.
QuREKA Overview
A next-generation quantum–classical platform built on SDT’s technology and the NVIDIA ecosystem.
By integrating CPU, GPU, and QPU into a unified environment, QuREKA allows you to explore complex challenges in finance, healthcare, and logistics more quickly and cost-effectively than traditional approaches. QuREKA combines world-leading quantum simulators with global quantum systems to provide a stable, scalable environment for your next-generation research.
Move beyond experimentation and unlock real business value with quantum computing.
QuREKA Overview
A next-generation quantum–classical platform built on SDT’s technology and the NVIDIA ecosystem.
By integrating CPU, GPU, and QPU into a unified environment, QuREKA allows you to explore complex challenges in finance, healthcare, and logistics more quickly and cost-effectively than traditional approaches. QuREKA combines world-leading quantum simulators with global quantum systems to provide a stable, scalable environment for your next-generation research.
Move beyond experimentation and unlock real business value with quantum computing.
QuREKA Overview
QuREKA is a hybrid quantum computing platform that enables users to begin experiments and service development directly in the cloud without having to build their own quantum and high-performance computing infrastructure.
By integrating CPUs, GPUs, and QPUs in a single environment, users can explore complex problems in areas such as financial, healthcare, and logistics efficiency in less time and at lower costs than traditional methods.
Furthermore, leveraging SDT's proprietary technology and the NVIDIA ecosystem, it provides access to global QPU resources within a stable environment built on domestic technology.
As a result, quantum computing adoption goes beyond "future technology experiments" and focuses on creating real business value.
Hybrid Computing Capabilities
Hybrid Computing Capabilities
Hybrid Computing Capabilities
Quantum Resources
Quantum Resources
SDT KREO
Remote Cloud Access
Classical Resources
NVIDIA Blackwell
Intel Xeon
Classical Resources
NVIDIA Blackwell
Intel Xeon
Hybrid development environment
Hybrid development environment
High-performance NVIDIA DGX architecture
High-performance NVIDIA DGX architecture
CUDA-Q support
CUDA-Q support
Multiple quantum devices
Multiple quantum devices
Fully managed services
Fully managed services
Intuitive, user-friendly console
Intuitive, user-friendly console
Integrated API management
Integrated API management
Independent workspaces & org management
Independent workspaces & org management
Industry Applications
Industry Applications
Industry Applications
Space
Satellite orbit optimization
Spacecraft design
Space
Satellite orbit optimization
Spacecraft design
Defense
Post-quantum cryptography
Strategic simulation
Defense
Post-quantum cryptography
Strategic simulation
Energy
Battery efficiency optimization
Smart energy operation
Energy
Battery efficiency optimization
Smart energy operation
Finance
Investment return optimization
Risk modeling
Finance
Investment return optimization
Risk modeling
Logistics
Logistics improvement
Supply chain optimization
Logistics
Logistics improvement
Supply chain optimization
Healthcare
Drug discovery
Genomic analysis
Healthcare
Drug discovery
Genomic analysis
Why QuREKA?
Why QuREKA?
Why QuREKA?
01
High-Performance GPU Support
Powered by the NVIDIA DGX B200 systems, QuREKA runs quantum simulations up to 180× faster than conventional CPU-based computation.
DGX B200
GPU
NVIDIA Blackwell x 8
GPU Memory
Total 1,440GB
Performance
FP8: 72 PFLOPS (theoretical) / 144 PFLOPS (inference)
CPU
Intel Xeon Platinum 8570 × 2
122 cores total, 2.1GHz (base), 4GHz (max boost)
35-Qubit Simulation Speed Comparison
Up to 180× speed improvement with GPU computation versus CPU computation
01
High-Performance GPU Support
Based on the top-tier GPU performance offered by the DGX B200, QuREKA processes quantum simulations up to 180× faster compared to conventional CPU computation.
DGX B200
GPU
NVIDIA Blackwell x 8
GPU Memory
Total 1,440GB
Performance
FP8: 72 PFLOPS (theoretical) / 144 PFLOPS (inference)
CPU
Intel Xeon Platinum 8570 × 2
122 cores total, 2.1GHz (base), 4GHz (max boost)
35-Qubit Simulation Speed Comparison
Up to 180× speed improvement with GPU computation versus CPU computation
01
High-Performance GPU Support
Based on the top-tier GPU performance offered by the DGX B200, QuREKA processes quantum simulations up to 180× faster compared to conventional CPU computation.
DGX B200
GPU
NVIDIA Blackwell x 8
GPU Memory
Total 1,440GB
Performance
FP8: 72 PFLOPS (theoretical) / 144 PFLOPS (inference)
CPU
Intel Xeon Platinum 8570 × 2
122 cores total, 2.1GHz (base), 4GHz (max boost)
35-Qubit Simulation Speed Comparison
Up to 180× speed improvement with GPU computation versus CPU computation
02
SDT’s Quantum Computer & Simulator
Powered by proprietary domestic technology, QuREKA provides a stable, controllable research environment with secure data sovereignty.
KREO
SDT’s quantum computer
20-qubit superconducting system
Provides a secure, local research environment
QubeSIM
SDT’s quantum simulator
Large-scale qubit support (up to 1,400 qubits)
Enables large-scale simulation and algorithm validation
02
SDT’s Quantum Computer & Simulator
We provide a stable and controllable research environment based on domestic technology,
enabling research agility through proprietary resources and securing data sovereignty and security.
KREO
SDT’s quantum computer
20-qubit superconducting system
Provides a secure, local research environment
QubeSIM
SDT’s quantum simulator
Large-scale qubit support (up to 1,400 qubits)
Enables large-scale simulation and algorithm validation
02
SDT’s Quantum Computer & Simulator
We provide a stable and controllable research environment based on domestic technology, enabling research agility through proprietary resources and securing data sovereignty and security.
KREO
SDT’s quantum computer
20-qubit superconducting system
Provides a secure, local research environment
QubeSIM
SDT’s quantum simulator
Large-scale qubit support (up to 1,400 qubits)
Enables large-scale simulation and algorithm validation
03
Support for Multiple Quantum Simulation Modes
QuREKA supports multiple quantum simulation approaches—including State Vector, Tensor Network, and Density Matrix—allowing researchers to select the most appropriate method for their workloads.
State Vector
Tensor Network
Density Matrix
Noisy
Dynamics
03
Support for Multiple Quantum Simulation Modes
QuREKA offers a variety of quantum simulation methods such as State Vector, Tensor Network, and Density Matrix, allowing users to choose the most suitable approach for their development goals.
State Vector
Tensor Network
Density Matrix
Noisy
Dynamics
03
Support for Multiple Quantum Simulation Modes
QuREKA offers a variety of quantum simulation methods such as State Vector, Tensor Network, and Density Matrix, allowing users to choose the most suitable approach for their development goals.
State Vector
Tensor Network
Density Matrix
Noisy
Dynamics
04
Seamless Development & High-Speed Performance
NVIDIA CUDA-Q™ enables hardware-agnostic quantum programming in familiar languages such as Python and C++, while accelerating hybrid algorithm development with NVIDIA GPU performance.
04
Seamless Development & High-Speed Performance
NVIDIA CUDA-Q™ provides QPU hardware-agnostic flexibility within the familiar Python/C/C++ language, while optimizing hybrid algorithm development with high-performance acceleration powered by NVIDIA GPUs.
04
Seamless Development & High-Speed Performance
NVIDIA CUDA-Q™ provides QPU hardware-agnostic flexibility within the familiar Python/C/C++ language, while optimizing hybrid algorithm development with high-performance acceleration powered by NVIDIA GPUs.
Use QuREKA Today
Use QuREKA Today
Use QuREKA Today
Pay only for the resources you use, with no upfront investment required.
Pay only for the resources you use, with no upfront investment required.
Select the quantum resources you want with a single API key—beyond hardware limitations.
Select the quantum resources you want with a single API key—beyond hardware limitations.
Focus on development anywhere. No installation required.
Focus on development anywhere. No installation required.
Develop quantum algorithms in the CUDA-Q ecosystem using familiar languages.
Develop quantum algorithms in the CUDA-Q ecosystem using familiar languages.
Be Among the First to Experience QuREKA Beta
Be Among the First to Experience QuREKA Beta
Be Among the First to Experience QuREKA Beta
QuREKA Beta, SDT’s hybrid quantum computing platform.
QuREKA Beta, SDT’s hybrid quantum computing platform.
Products
Quantum Design and Manufacturing
Full-Stack Quantum Computing
About
SDT Inc.
10F, 5, Teheran-ro 44-gil, Gangnam-gu, Seoul, Republic of Korea 06211
Business registration number: 630-87-00933
Copyright© SDT Inc., All rights reserved.
SDT Inc.
10F, 5, Teheran-ro 44-gil, Gangnam-gu, Seoul, Republic of Korea 06211
Business registration number: 630-87-00933
Copyright© SDT Inc., All rights reserved.
SDT Inc.
10F, 5, Teheran-ro 44-gil, Gangnam-gu, Seoul, Republic of Korea 06211
Business registration number: 630-87-00933
Copyright© SDT Inc., All rights reserved.