The design of a mixed-signal random number generator (RNG) integrated circuit (IC) suitable for integration with hardware cryptographic systems is presented. Certain applications in cryptography require the use of a truly RNG, a device which produces unpredictable and unbiased digital signals derived from a fundamental noise mechanism. For IC-based cryptographic systems, an RNG must harness randomness from a low-power noise signal yet remain insensitive to deterministic influences such as crosstalk, power supply noise, and clock signal coupling through the substrate. An RNG IC utilizing established analog IC design techniques was designed and fabricated in a 2-/spl mu/m CMOS technology. Sequences generated by the experimental system repeatedly passed many standard randomness tests for bit rates up to 1.4 MHz. No changes in randomness performance were observed as the system was exposed to power supply noise and substrate signal coupling. The system occupies a total chip area of 1.5 mm/sup 2/ and dissipates 3.9 mW of power.
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机译:提出了一种适合与硬件密码系统集成的混合信号随机数发生器(RNG)集成电路(IC)的设计。密码学中的某些应用程序需要使用真正的RNG,该设备会产生源自基本噪声机制的不可预测且无偏见的数字信号。对于基于IC的密码系统,RNG必须利用低功率噪声信号的随机性,但对诸如串扰,电源噪声和通过基板耦合的时钟信号等确定性影响保持不敏感。利用2 / spl mu / m CMOS技术设计和制造了利用已建立的模拟IC设计技术的RNG IC。实验系统生成的序列反复通过了许多标准随机性测试,测试比特率高达1.4 MHz。由于系统受到电源噪声和基板信号耦合的影响,因此未观察到随机性能的变化。该系统的芯片总面积为1.5 mm / sup 2 /,功耗为3.9 mW。
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