Superconducting Quantum Computer

• 详细介绍
• 详细参数

• 详细介绍

  A 5-Qubit Superconducting Quantum Computer Custom-Designed for Universities and Research Laboratories

  We offer an affordable 5-qubit superconducting quantum computer as a turnkey solution, seamlessly integrating the QPU, cryostat, control electronics, and software integration. The complete system allows for comprehensive and secure control at your location.

  Among various physical platforms, superconducting quantum hardware is particularly well-suited for scaling the number of qubits while maintaining connectivity and improving fidelity, making it the preferred technology for the NISQ (Noisy Intermediate-Scale Quantum) era with a fault-tolerant roadmap. It represents a straightforward and cost-effective approach to building quantum programs based on existing microwave electronics expertise.

  What Can Users Do with a 5-Qubit Local Quantum Computer?

  1.Physical Access to Hardware: Local quantum computers allow users to physically access all layers of hardware and quantum computing stacks. They can understand how calibration affects measurement results, benchmark gate operations, and characterize decoherence, which is one of the major obstacles for scalable quantum computers.

  2.Peripheral Device Connection: Users can connect peripheral devices (such as oscilloscopes) to monitor pulse waveforms and understand how pulses implement quantum gates and produce the desired quantum states.

  3.Research and Exploration: Students can study the physical behavior of transmon qubits and explore their multi-level nature for quantum information storage and rapid quantum control without the constraints of high-level abstract cloud access.

  4.Execution of Simple Quantum Algorithms: They can execute many simple quantum algorithms.

  What Are the Advantages of Learning to Use Real Quantum Devices Instead of Simulators for Educational and Research Purposes?

  1.Practical Experience with NISQ Technology: Local quantum computers are crucial for gaining practical experience with the current technology development stage known as NISQ (Noisy Intermediate-Scale Quantum) computers. Before mature quantum computers with built-in error correction become available, students and researchers need to master various techniques to handle real quantum systems.

  2.Practical Skills for Students: For students, this includes acquiring hands-on skills by directly manipulating qubits through microwave pulses and studying the fundamental characteristics of quantum systems in hardware experiments.

  3.Comprehensive Understanding: In hands-on experimental courses, students can gain a comprehensive understanding of how all components of a quantum computer currently operate.

• 详细参数

• 产品特色

  因用于机器人各方面应用且与大多数机器人类型兼容，AutoCal系统可以检测出机器人自身构造和工具中心点（TCP）的 突然改变或偏离，并且该系统无需人为干涉就自动地更正这些误差。

  AutoCal系统-Dynalog的先进水平校准技术，Dynalog是机器人单元标定技术的世界领导者。它的主流产品DynaCal 系统，被应用于离线的机器人单元校准，并作为最精确的和技术先进的机器人校准程序为许多机器人制造商和终端使用者所接受。AutoCal 系统将已证实的DynaCal校准技术结合到一个在线的全自动系统中，该系统专为程序控制和复原而设计的，价格低廉。

• 详细介绍

  AutoCal系统提供在线的机器人校准方案，旨在快速和自动地保证机械设备的工作性能。因用于机器人各方面应用且与大多数机器人类型兼容，AutoCal系统可以检测出机器人自身构造和工具中心点（TCP）的 突然改变或偏离，并且该系统无需人为干涉就自动地更正这些误差。这意味着不用猜测哪里会出错，不用浪费宝贵时间在机器人程序重复校准上，产品品质无任何损失。

  AutoCal系统-Dynalog的先进水平校准技术，Dynalog是机器人单元标定技术的世界领导者。它的主流产品DynaCal 系统，被应用于离线的机器人单元校准，并作为最精确的和技术先进的机器人校准程序为许多机器人制造商和终端使用者所接受。AutoCal 系统将已证实的DynaCal校准技术结合到一个在线的全自动系统中，该系统专为程序控制和复原而设计的，价格低廉。