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True Random Number Generation with Beam Splitters under Combined Input Scenarios using Defined Quantum States to Increase the Security of Cryptographic Devices

机译:使用定义量子状态的组合输入方案下的带分布器的真正随机数生成,以增加加密设备的安全性

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摘要

Cryptographic devices, e.g., Hardware Security Modules (HSMs) are crucial to the trustworthiness of computer applications that provide critical services such as digital signature systems. Random numbers are used to strengthen the security of HSMs. Due to the problem of deterministic and thus predictable random sources and the complexity to derive true coincidence with computer systems, quantum mechanical effects can be exploited to derive perfect randomness. In this paper, we present an approach to increase the security of HSMs by using 50:50 splitters under combined input scenarios to derive true random numbers based on quantum mechanics.
机译:加密设备,例如硬件安全模块(HSMS)对计算机应用程序的可信度至关重要,可提供数字签名系统等关键服务。随机数用于加强HSM的安全性。由于确定性和因此可预测的随机源的问题以及导出与计算机系统的真正巧合的复杂性,可以利用量子力学效应来导出完美的随机性。在本文中,我们介绍了一种通过在组合输入方案下使用50:50分离器来增加HSMS的安全性,以导出基于量子力学的真实随机数。

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