课程大纲
介绍
量子信息论
- 不确定性理论
- 叠加和纠缠
- 亚原子粒子
经典 Computer 概述
- 位
- 二进制系统
- 晶体管
Quantum Computing
- 拓扑代码
- 电路 QED
- 奎比特
IBM Quantum Experiences 和 Python 框架
- 量子计算中使用的模块和流程
- 量子电路模拟
- 电路作曲家
- Qiskit 笔记本
准备开发环境
- 安装和配置 Anaconda
- 安装和配置 pip 和 Python 包
- 安装 Qiskit
- 配置 IBM Quantum Experience
- 将 IDE 配置为项目管理器
- 设置版本控制中心 (GitHub)
在 Circuit Composer 中构建 QER 电路
- 应用门
- 测量 quibit
- 保存和运行 QER 电路
在 Qiskit 笔记本中对 QER 电路进行编码
- 实施嘈杂模拟
- 对嘈杂电路进行编码
- 在 4 个量子比特上实现量子傅里叶变换的量子电路
- 在量子电路中创建基本算法
- 编码量子传送电路
测试 Cirquits
- 在真实的 IBM 量子设备上运行 QER 电路
- 分析显示的结果
总结和结论
要求
- 对 Python 编程的理解
观众
- Computer 科学家
客户评论 (1)
Quantum computing algorithms and related theoretical background know-how of the trainer is excellent. Especially I'd like to emphasize his ability to detect exactly when I was struggling with the material presented, and he provided time&support for me to really understand the topic - that was great and very beneficial! Virtual setup with Zoom worked out very well, as well as arrangements regarding training sessions and breaks sequences. It was a lot of material/theory to cover in "only" 2 days, wo the trainer had nicely adjusted the amount according to the progress related to my understanding of the topics. Maybe planning 3 days for absolute beginners would be better to cover all the material and content outlined in the agenda. I very much liked the flexibility of the trainer to answer my specific questions to the training topics, even additionally coming back after the breaks with more explanation in case neccessary. Big thank you again for the sessions! Well done!