| 开本:3开 |
| 纸张:胶版纸 |
| 包装:平装 |
| 是否套装:否 |
| 国际标准书号ISBN:9787121516597 |
| 所属分类:图书>计算机/网络>信息安全 |
可开发票,保证正版商品详情
内容介绍
本书致力于为读者构建贯通量子理论与工程实践的桥梁,从经典计算局限性切入,追溯量子计算从理论构想到算法突破的演进脉络,深度对比离子阱、超导、光子等主流技术路线。
目录
章量子计算简介········································································
从经典计算到量子计算···························································
经典计算与科学研究的融和············································
经典计算的局限性························································
量子模拟概念的提出·····················································
量子计算概念的酝酿·····················································
量子计算的优势···························································
量子计算发展简史·································································
世纪 年代——量子计算的起源·································
世纪 年代——量子计算的突破与物理实现··················
世纪原子型量子计算·················································
世纪电子型量子计算·················································
世纪光子型量子计算·················································
世纪量子算法的进展·················································
量子计算的商业化和产业化············································
章量子计算的技术路线·······························································
实现量子比特的典型物理体系··················································
离子阱·······································································
超导电路····································································
硅半导体····································································
光量子计算·································································
其他体系····································································
量子计算的硬件技术······························································
机械··········································································
光学··········································································
电子··········································································
原子测控····································································
芯片··········································································
第 章实例:离子阱量子计算机的工程实现·······································
离子阱量子计算机的主要构成···············································
离子阱系统······························································
工作环境系统···························································
光学系统·································································
测控系统·································································
离子阱系统······························································
离子阱模块······························································
原子发生模块···························································
谐振器模块······························································
工作环境系统···························································
整体结构·······························································
超高真空模块···························································
低温模块·································································
减振模块·································································
低温真空实现步骤·····················································
光学系统·································································
稳频模块·································································
消融模块·································································
离化模块·································································
冷却模块·································································
回泵模块·································································
操控模块·································································
进阱模块·································································
成像模块·································································
测控系统·································································
测控板卡模块···························································
阱周电气模块···························································
离子阱工作环境测控模块············································
一体化测控界面模块··················································
第 章量子编程与算法··································································
量子编程基础····································································
常见量子算法····································································
算法····························································
算法·····················································
算法················································
算法······························································
量子傅里叶变换························································
算法······························································
算法································································
变分量子特征值求解算法············································
量子近似优化算法·····················································
量子编程框架····································································
量子编程框架概述·····················································
······································································
········································································
··································································
·································································
第 章实例:在 上实现量子神经网络 ·································
机器学习··········································································
人工智能·································································
机器学习·································································
深度神经网络···························································
量子机器学习····································································
实现量子机器学习·································
简介························································
应用示例·································································
实现量子机器学习·····································
简介····························································
应用示例·································································
实现量子机器学习·······························
简介······················································
应用示例·································································
实现量子机器学习··································
简介·························································
应用示例·································································
第章量子计算相关应用 ···········································································
量子模拟··········································································
量子模拟简介···························································
量子模拟应用···························································
量子优化··········································································
量子优化简介···························································
量子优化应用···························································
量子机器学习····································································
量子机器学习简介·····················································
量子机器学习应用·····················································
量子密码··········································································
量子密码简介···························································
量子密码应用···························································
实例:量子时序预测···························································
时序预测定义···························································
时序预测模型···························································
量子时序预测应用·····················································
实例: 实现量子变分算法·········································
第 章量子计算产业发展趋势·························································
量子计算产业现状······························································
现状·································································
国内现状·································································
国内和的比较·····················································
量子计算产业的技术与应用··················································
硬件·······································································
软件与算法······························································
市场应用·································································
量子计算产业前瞻·····················································
量子计算的学术研究方向············································
量子计算技术的未来发展············································
量子计算产业的全球与国内政策环境·····························
关键应用领域的挑战与机遇·········································
参考文献·······················································································
作者介绍
罗乐,中山大学教授,原子分子物理学和电子信息专业博士生导师。
媒体评论
无
关联
无
内容介绍
本书致力于为读者构建贯通量子理论与工程实践的桥梁,从经典计算局限性切入,追溯量子计算从理论构想到算法突破的演进脉络,深度对比离子阱、超导、光子等主流技术路线。
目录
章量子计算简介········································································
从经典计算到量子计算···························································
经典计算与科学研究的融和············································
经典计算的局限性························································
量子模拟概念的提出·····················································
量子计算概念的酝酿·····················································
量子计算的优势···························································
量子计算发展简史·································································
世纪 年代——量子计算的起源·································
世纪 年代——量子计算的突破与物理实现··················
世纪原子型量子计算·················································
世纪电子型量子计算·················································
世纪光子型量子计算·················································
世纪量子算法的进展·················································
量子计算的商业化和产业化············································
章量子计算的技术路线·······························································
实现量子比特的典型物理体系··················································
离子阱·······································································
超导电路····································································
硅半导体····································································
光量子计算·································································
其他体系····································································
量子计算的硬件技术······························································
机械··········································································
光学··········································································
电子··········································································
原子测控····································································
芯片··········································································
第 章实例:离子阱量子计算机的工程实现·······································
离子阱量子计算机的主要构成···············································
离子阱系统······························································
工作环境系统···························································
光学系统·································································
测控系统·································································
离子阱系统······························································
离子阱模块······························································
原子发生模块···························································
谐振器模块······························································
工作环境系统···························································
整体结构·······························································
超高真空模块···························································
低温模块·································································
减振模块·································································
低温真空实现步骤·····················································
光学系统·································································
稳频模块·································································
消融模块·································································
离化模块·································································
冷却模块·································································
回泵模块·································································
操控模块·································································
进阱模块·································································
成像模块·································································
测控系统·································································
测控板卡模块···························································
阱周电气模块···························································
离子阱工作环境测控模块············································
一体化测控界面模块··················································
第 章量子编程与算法··································································
量子编程基础····································································
常见量子算法····································································
算法····························································
算法·····················································
算法················································
算法······························································
量子傅里叶变换························································
算法······························································
算法································································
变分量子特征值求解算法············································
量子近似优化算法·····················································
量子编程框架····································································
量子编程框架概述·····················································
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第 章实例:在 上实现量子神经网络 ·································
机器学习··········································································
人工智能·································································
机器学习·································································
深度神经网络···························································
量子机器学习····································································
实现量子机器学习·································
简介························································
应用示例·································································
实现量子机器学习·····································
简介····························································
应用示例·································································
实现量子机器学习·······························
简介······················································
应用示例·································································
实现量子机器学习··································
简介·························································
应用示例·································································
第章量子计算相关应用 ···········································································
量子模拟··········································································
量子模拟简介···························································
量子模拟应用···························································
量子优化··········································································
量子优化简介···························································
量子优化应用···························································
量子机器学习····································································
量子机器学习简介·····················································
量子机器学习应用·····················································
量子密码··········································································
量子密码简介···························································
量子密码应用···························································
实例:量子时序预测···························································
时序预测定义···························································
时序预测模型···························································
量子时序预测应用·····················································
实例: 实现量子变分算法·········································
第 章量子计算产业发展趋势·························································
量子计算产业现状······························································
现状·································································
国内现状·································································
国内和的比较·····················································
量子计算产业的技术与应用··················································
硬件·······································································
软件与算法······························································
市场应用·································································
量子计算产业前瞻·····················································
量子计算的学术研究方向············································
量子计算技术的未来发展············································
量子计算产业的全球与国内政策环境·····························
关键应用领域的挑战与机遇·········································
参考文献·······················································································
作者介绍
罗乐,中山大学教授,原子分子物理学和电子信息专业博士生导师。
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