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foss-eda-tools / third_party / shuttle / sky130 / mpw-006 / slot-025 / 4d84c96e4bf957b65b91108c3e441ff5e738f3b6
commit4d84c96e4bf957b65b91108c3e441ff5e738f3b6[log] [tgz]
authoronurkrts <1997karatas@gmail.com>Mon Jun 06 11:57:22 2022 +0300
committeronurkrts <1997karatas@gmail.com>Mon Jun 06 11:57:22 2022 +0300
treeb22a9a58dab7eb58a787c2db90e4d2ab2503701d
parent3dd1b9281676d2d15cbf384c20a371df0bdfe925 [diff]
100Mhz_flow_1
27 files changed
tree: b22a9a58dab7eb58a787c2db90e4d2ab2503701d
  1. .github/
  2. def/
  3. docs/
  4. gds/
  5. lef/
  6. mag/
  7. maglef/
  8. openlane/
  9. sdc/
  10. sdf/
  11. signoff/
  12. spef/
  13. spi/
  14. verilog/
  15. caravel
  16. mgmt_core_wrapper
  17. .gitignore
  18. LICENSE
  19. Makefile
  20. README.md
  21. README.md.bak
README.md

RNG CHAOS SCROLL

Chaotic systems are deterministic and bounded in phase space, but they have positive Lyapunov exponents leading to completely divergent signals even for very small perturbations in initial conditions. Therefore, chaotic oscillators are frequently employed in Random Number Generator(RNG) applications where repeatable, secure and high-performance entropy sources are required. Chaotic oscillators can be implemented in either analog or digital circuits, but chaotic oscillators implemented in the digital domain are preferable for ease of integration to digital systems. In this study, a digital RNG based on chaotic oscillators was implemented using the SKY130 process node.