138 Four NIST SP 800-22 tests implementation

138 : Four NIST SP 800-22 tests implementation

  • Author: Maximiliam Luppe
  • Description: Implementation of the first four NIST statistic tests
  • GitHub repository
  • Clock: 0 Hz

How it works

This project implements a LFSR where the D-type FFs (DFFs) are replaceded by configurable delay lines.

ALFSR diagram

The configurable delay lines are implement using multiplexers and buffers. The buffers generate a delay line path and the multiplexer select differents paths according to its selection control signals. The selection control signals are generated by a conventional LFSR.

It's expected that this circuit act as either as a convencional LFSR, or as an oscillator, or as a chaotic oscilator, according to the path generated by each delay line.

To verify its functionality, four statistical tests from the NIST statistical suite are also implemented:

  1. The Frequency (Monobit) Test
  2. Frequency Test within a Block
  3. The Runs Test
  4. Tests for the Longest-Run-of-Ones in a Block

They are choosen because they require at least 100 bits sequence to test.

The implementations are based on the following works:

  • L. B. Carreira, P. Danielson, A. A. Rahimi, M. Luppe and S. Gupta, "Low-Latency Reconfigurable Entropy Digital True Random Number Generator With Bias Detection and Correction," in IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 67, no. 5, pp. 1562-1575, May 2020, doi: 10.1109/TCSI.2019.2960694
  • V. B. Suresh, D. Antonioli and W. P. Burleson, "On-chip lightweight implementation of reduced NIST randomness test suite," 2013 IEEE International Symposium on Hardware-Oriented Security and Trust (HOST), Austin, TX, USA, 2013, pp. 93-98, doi: 10.1109/HST.2013.6581572.
  • F. Veljković, V. Rožić and I. Verbauwhede, "Low-cost implementations of on-the-fly tests for random number generators," 2012 Design, Automation & Test in Europe Conference & Exhibition (DATE), Dresden, Germany, 2012, pp. 959-964, doi: 10.1109/DATE.2012.6176635.

How to use

Explain how to use your project

External hardware

List external hardware used in your project (e.g. PMOD, LED display, etc), if any

IO

#InputOutputBidirectional
0LFSR Configurator clockNIST 01 test outputALFSR _analog_ output 0
1ALFSR resetNIST 02 test outputALFSR _analog_ output 1
2NIST random bits inputNIST 03 test outputALFSR _analog_ output 2
3Operation modeNIST 04 test outputALFSR _analog_ output 3
4NIST Global error output
5LFSR Configurator output
6ALFSR _digitalized_ output 3
7ALFSR _analog_ output 3

Chip location

Controller Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Analog Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Analog Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux tt_um_chip_rom (Chip ROM) tt_um_factory_test (TinyTapeout 7 Factory Test) tt_um_analog_factory_test (TT07 Analog Factory Test) tt_um_urish_charge_pump (Dickson Charge Pump) tt_um_adennen_inverter (Aron's analog buffer test) tt_um_rejunity_z80 (Zilog Z80) tt_um_kianv_bare_metal (KianV RISC-V RV32E Baremetal SoC) tt_um_macros77_subneg (SUBNEG CPU) tt_um_eater_8bit (Tiny Eater 8 Bit) tt_um_ender_clock (clock) tt_um_wokwi_397140982440144897 (7-Seg 'Tiny Tapeout' Display) tt_um_wokwi_397142450561071105 (Padlock) tt_um_Burrows_Katie (QIF Neuron) tt_um_vga_clock (VGA clock) tt_um_aidenfoxivey (CRC-8 CCITT) tt_um_PUF (Reversible logic based Ring-Oscillator Physically Unclonable Function (RO-PUF)) tt_um_devinatkin_dual_oscillator (dual oscillator) tt_um_urish_simon (Simon Says memory game) tt_um_ajstein_stopwatch (Stopwatch Project) tt_um_rnunes2311_12bit_sar_adc (12 bit SAR ADC) tt_um_DanielZhu123 (calculator) tt_um_wokwi_397268065185737729 (Mini Light Up Game) tt_um_toivoh_basilisc_2816 (Basilisc-2816) tt_um_MichaelBell_rle_vga (RLE Video Player) tt_um_wokwi_397774697322214401 (secret L) tt_um_ccattuto_charmatrix (Serial Character LED Matrix) tt_um_The_Chairman_send_receive (Send Receive) tt_um_mini_aie_2x2 (mini-aie-cgra) tt_um_twin_tee_opamp_osc (Twin Tee Sine Wave Generator) tt_um_brucemack_sb_mixer (Single Balanced Mixer) tt_um_revenantx86_tinytpu (TinyTPU) tt_um_chess (Chess) tt_um_vga_perlin (VGA Perlin Noise) tt_um_calonso88_74181 (ALU 74181) tt_um_tinytapeout_dvd_screensaver (DVD Screensaver with Tiny Tapeout Logo (Tiny VGA)) tt_um_TD4_Assy_KosugiSubaru (4bit_CPU_td4) tt_um_drburke3_top (FastMagnitudeComparator) tt_um_pongsagon_tiniest_gpu (Tiniest GPU) tt_um_jorga20j_prng (8 bit PRNG) tt_um_ejfogleman_smsdac8 (8-bit DEM R2R DAC) tt_um_ccattuto_conway (Conway's Terminal) tt_um_fp_mac (FP-8 MAC Module) tt_um_router (router) tt_um_serdes (SerDes) tt_um_rejunity_analog_dac_ay8913 (AY-8193 single channel DAC) tt_um_riscv_spi_wrapper (RISCV32I with spi wrapper) tt_um_mos_bandgap (MOS Bandgap) tt_um_shadow1229_vga_player (VGA player) tt_um_explorer (Explorer) tt_um_rtmc_top_jrpetrus (Real Time Motor Controller) tt_um_28add11_QOAdecode (QOA Decoder) tt_um_toivoh_basilisc_2816_cpu_OL2 (Basilisc-2816) tt_um_afasolino (integer to posit converter and adder ) tt_um_8bit_vector_compute_in_SRAM (8-bit Vector Compute-in-SRAM) tt_um_lfsr (LFSR) tt_um_tnt_diff_rx (TT07 Differential Receiver test) tt_um_urish_spell (SPELL) tt_um_underserved (underserved) tt_um_dpetrisko_ttdll (TTDLL) tt_um_mitssdd (co processor for precision farming) tt_um_wokwi_399192124046955521 (ECC_test1) tt_um_dusterthefirst_project (Communicate 433) tt_um_xeniarose_sha256 (tiny sha256) tt_um_njp_micro (MicroCode Multiplier) tt_um_VishalBingi_r2r_4b (4-bit R2R DAC) tt_um_lisa (LISA Microcontroller with TTLC) tt_um_template (TT7 Simple Clock) tt_um_seanyen0_SIMON (SIMON) tt_um_agurrier_mastermind (Mastermind) tt_um_KolosKoblasz_mixer (Gilbert Mixer) tt_um_Saitama225_comp (Analog comparator) tt_um_tt7_meonwara (TBD) tt_um_multiplier_mbm (Modified Booth Multiplier) tt_um_delay_line_tmng (Delay Line Time Multiplexed NAND Gate) tt_um_mandelbrot_accel (Mandelbrot Set Accelerator (32-bit IEEE 754)) tt_um_dvxf_dj8v_dac (DJ8 8-bit CPU w/ DAC) tt_um_obriensp_pll (PLL Playground) tt_um_unisnano (unisnano) tt_um_alfiero88_CurrentTrigger (Current Mode Trigger) tt_um_CktA_InstAmp (Instrumentation Amplifier for Electrocardiogram Signal Adquisition) tt_um_lcasimon_tdc (Analog TDC) tt_um_neural_network (Neural Network dinamic) tt_um_PS_PWM (Phase Shifted PWM Modulator) tt_um_litneet64_ro_puf (RO-based Physically Unclonable Function (PUF)) tt_um_wokwi_399163158804194305 (Digital Timer) tt_um_algofoogle_raybox_zero (raybox-zero TT07 edition) tt_um_wokwi_399336892246401025 (UART) tt_um_wokwi_399169514887574529 (Gaussian Blur) tt_um_maheredia (GPS signal generator) tt_um_pwm_elded (UACJ_PWM) tt_um_wokwi_399447152724198401 (8-Bit Register) tt_um_adonairc_dda (DDA solver for van der Pol oscillator) tt_um_6bitaddr (6 bit addr) tt_um_btflv_subleq (Subleq CPU with FRAM and UART) tt_um_emern_top (badGPU) tt_um_wokwi_399469995038350337 (dEFAULt 2hAC) tt_um_mixed_signal_pulse_gen (mixed_signal_pulse_gen) tt_um_maxluppe_digital_analog (All Digital DAC and Analog Comparators) tt_um_pyamnihc_dummy_counter (Dummy Counter) tt_um_wokwi_399488550855755777 (My 9-year-old son made an 8-bit counter chip) tt_um_toivoh_basilisc_2816_cpu_exp (Basilisc-2816 Experimental) tt_um_htfab_fprn (Field Programmable Resistor Network) tt_um_rejunity_ay8913 (Classic 8-bit era Programmable Sound Generator AY-3-8913) tt_um_maxluppe_NIST (Four NIST SP 800-22 tests implementation) tt_um_vga_snake (VGA Snake Game) tt_um_cm_1 (GDS counter-measures experiment 1) tt_um_nurirfansyah_alits02 (Analog Test Circuit ITS 2) tt_um_analog_rf_readout_circuit (RF_peripheral_circuits) tt_um_jleightcap (fractran-tt) tt_um_wokwi_399518371950068737 (Full-adder out of a kmap) tt_um_davidparent_hdl (PRBS Generator) tt_um_adia_psu_seq_test (Adiabatic PSU sequencer test) tt_um_spacecat_chan_john_pong_the_second (John Pong The Second) tt_um_rajum_iterativeMAC (Iterative MAC) tt_um_asinghani_tinywspr (TinyWSPR) tt_um_thatoddmailbox (DuckCPU) tt_um_rejunity_vga (VGA Checkers) tt_um_8bitadder (Ripple Carry Adder 8 bit) tt_um_vzayakov_top (Pong-VGA) tt_um_pa1mantri_cdc_fifo (Clock Domain Crossing FIFO) Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available Available