True Random Number Generator IP
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True Random Number Generator
- Patented test circuits on the oscillators to detect lockingto periodic signals.
- Repeating output data detection on NRBG and DRBG (compliant with [FIPS 140-2]).
- Hardware implemented ‘Repetition Count’ and ‘Adaptive Proportion’ tests on the Noise Source (compliant with [SP 800-90B]).
- Continuous tests on the Noise Source (compliant with [AIS-31]): ‘monobit test’, ‘poker test’, ‘runs test’, ‘longruns test’ and ‘Noise Source failure’.
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True Random Number Generator
- NIST 800-90B compliant
- AIS-31 start-up and on-line tests (optional)
- Passed NIST 800-22, 90B and AIS31 test suites
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True Random Number Generator (TRNG)
- Compact Size
- Autonomous Operation
- Parameterizability
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Digital True Random Number Generator (TRNG), compliant with NIST SP800-90
- Fully Digital and based on standard cells
- Compliant with: AIS-31 (PTG.1 to PTG.3), NIST FIPS 140-3, NIST SP 800-90, GM/T 0005-2015
- Robust against process, temperature and voltage variations
- Post-silicon fine tuning to ensure high-level functional safety
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PUF-based True Random Number Generator
- Easy adoption in all platforms, from .15um to 7nm
- Ultra-fast initial time / stabilization (ready in m-sec)
- High-speed throughput (over 100Mbits/sec)
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The True Random Number Generator (TRNG) Digital Noise Source
- Robust, low-footprint, standard-cell based entropy source
- Entropy generation through thermal noise extraction
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True Random Number Generator (TRNG) Digital Post Processing compliant with the FIPS 140-2 and AIS 31 standards
- State-of-the-art TRNG post-processing
- Fully compliant with the AIS 31 classes PTG.1 and PTG.2
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True Random Number Generator (TRNG) Analog Noise Source
- robust, fully-integrated, state-of-the-art physical entropy source
- differential jitter extraction through a PLL-based fully symmetric architecture
- stochastic model of the entropy source for AIS 31 certification
- asynchronous random clock signal output