0 Chip ROM

0 : Chip ROM

Design render

How it works

ROM memory that contains information about the Tiny Tapeout chip. The ROM is 8-bit wide and 256 bytes long.

The ROM layout

The ROM layout is as follows:

Address Length Encoding Description
0 8 7-segment Shuttle name (e.g. "tt07"), null-padded
8 8 7-segment Git commit hash
32 96 ASCII Chip descriptor (see below)
248 4 binary Magic value: "TT\xFA\xBB"
252 4 binary CRC32 of the ROM contents, little-endian

The chip descriptor

The chip descriptor is a simple null-terminated string that describes the chip. Each line is a key-value pair, separated by an equals sign. It contains the following keys:

Key Description Example value
shuttle The identifier of the shuttle tt07
repo The name of the repository TinyTapeout/tinytapeout-07
commit The commit hash * a1b2c3d4

* The commit hash is only included for Tiny Tapeout 5 and later.

Here is a complete example of a chip descriptor:

shuttle=tt07
repo=TinyTapeout/tinytapeout-07
commit=a1b2c3d4

How the ROM is generated

The ROM is automatically generated by tt-support-tools while building the final GDS file of the chip. Look at the rom.py file in the repository for more details.

Reading the ROM

There are two ways to address ROM, depending on the value of the rst_n pin:

  1. When rst_n is high: Set the ui_in pins to the desired address.
  2. When rst_n is low: Toggle the clk pin to read the ROM contents sequentially, starting from address 0.

In both cases, the ROM data for the selected address will be available on the uo_out pins, one byte at a time.

How to test

The first 16 bytes of the ROM are 7-segment encoded and contain the shuttle name and commit hash. You can dump them by holding rst_n low and toggling the clk pin, and observing the on-board 7-segment display.

Alternatively, you can keep rst_n high and set the ui_in pins to the desired address using the first four on-board DIP switches, while observing the on-board 7-segment display.

IO

#InputOutputBidirectional
0addr[0]data[0]
1addr[1]data[1]
2addr[2]data[2]
3addr[3]data[3]
4addr[4]data[4]
5addr[5]data[5]
6addr[6]data[6]
7addr[7]data[7]

Chip location

Controller Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux Mux tt_um_chip_rom (Chip ROM) tt_um_factory_test (Tiny Tapeout Factory Test) tt_um_utoss_riscv (UTOSS RISC-V core) tt_um_memory_game_top (Number Memory Game) tt_um_danielpenas42 (Ball Display) tt_um_machinelearning (7-Segment Neural Predictor) tt_um_microlane_demo (microlane demo project) tt_um_pixel_processor (Tiny Pixel Processor) tt_um_jpigdon_gps_accelerator_top (GPS_Accelerator) tt_um_rgb_mixer (rgb_mixer) tt_um_bgao43 (Tiny TPU Systolic Array) tt_um_main (Pong in Verilog) tt_um_joannec34_teenytpu (teenytpu) tt_um_apa102_ws2812_squidgeefish (APA102 to WS2812 Translator) tt_um_uacj_bouncing_DVD_screensaver (Custom DVD Screensaver for VGA) tt_um_logoUACJ_MOGA (VGA_screensaver_UACJ) tt_um_grace_spi_led_driver (SPI-Controlled 8-Channel LED Driver) tt_um_rebeccargb_universal_decoder (Universal Binary to Segment Decoder) tt_um_rebeccargb_hardware_utf8 (Hardware UTF Encoder/Decoder) tt_um_happyhop_deadcast2 (happyhop) tt_um_dino7 (Dino-7: 7-Segment Runner Game) tt_um_arty3_mac_engine (Simple MAC Engine w/ Postproc) tt_um_uacj (Custom DVD Screensaver for VGA) tt_um_algofoogle_dottee (DOTTEE VGA demo (TTGF26a)) tt_um_mattvenn_signal_generator (Simple Signal Generator) tt_um_urish_simon (Simon Says memory game) tt_um_tpu (Tensor Processing Unit For GF) tt_um_gojimmypi_ttgf_UART_FSM_TRNG_Lab (Hardware Entropy Explorer: UART/SPI TRNG and PUF) tt_um_wokwi_465483277165299713 (First Tinytapeout) tt_um_prem_pipeline_test (Programmable_Pipeline-RISC-V) tt_um_wokwi_467219410242853889 (Tiny Tapeout testtest 111233) tt_um_wokwi_465549494272929793 (Pacos first design) tt_um_wokwi_465731371445677057 (Arturo's first Wokwi design) tt_um_wokwi_465732744934845441 (Tiny Tapeout Template_1234) tt_um_wokwi_465736492859711489 (Tiny Tapeout Workshop JuanF) tt_um_wokwi_465731430225727489 (Rafa’s first Wokwi design) tt_um_wokwi_465731458365332481 (7 segment Display Fli-Flop Try-out) tt_um_wokwi_465732744245929985 (DiseñoCursoTiny) tt_um_wokwi_465731490568160257 (Matt’s first Wokwi design) tt_um_wokwi_465736691688630273 (test1) tt_um_wokwi_465731458628527105 (Mi copia del Tiny Tapeout) tt_um_wokwi_465731520738845697 (El primer diseño) tt_um_wokwi_465731521356457985 (Tiny Tapeout Template Copy) tt_um_gen1_digital_companion_tile (Gen1 Digital Companion Tile) tt_um_wokwi_465732827753495553 (Tiny Tapeout Template Ayman) tt_um_wokwi_465731394728267777 (Julian_Proyecto) tt_um_wokwi_465731458535202817 (Tiny Tapeout Template Copy) tt_um_wokwi_465732847401723905 (Basic Circuit) tt_um_wokwi_465731452481768449 (El primer diseño de Matt para Wokwi) tt_um_wokwi_465731502018614273 (Tiny Tapeout Template flip flop) tt_um_wokwi_465732616714924033 (Tiny Tapeout RJAP) tt_um_wokwi_465731575275296769 (ocxpkeWokwiDesign) tt_um_wokwi_465732880722332673 (Pedro Template) tt_um_wokwi_465731858252480513 (Paula's first Wokwi design) tt_um_wokwi_465731455677830145 (Tiny Tapeout JMCG) tt_um_wokwi_465737601403996161 (Tiny Number Simon) tt_um_ttmul (Balanced Ternary Multiplier) tt_um_wokwi_465731466664816641 (Tiny Tapeout Workshop Malaga 2jun2026) tt_um_8bit_risc_cpu (8-bit RISC CPU) tt_um_wokwi_451184391728659457 (Simple Sprinkler) tt_um_fhw_appel_spiPWMio (spiPWMio) tt_um_divadnauj_GB_serv_soc_wb (serv_soc_wb) tt_um_8bitcustomcomputer (SAP 8 Bit Computer) tt_um_bioimpedance (Very Low Resource Digital Implementation of Bioimpedance Analysis) tt_um_mgj_bist8 (BIST-8: Built-In Self-Test for 8-bit CLA Adder) tt_um_roberto_tiny_radar_tile (BioPulse Tile) tt_um_systolic_mac_2x2 (2x2 Systolic Array Matrix Multiplier) tt_um_peg_top (2x2 CNN Accelerator PE Grid with UART) tt_um_AlvaroRub_ringcounter (Counter16Outputs) tt_um_wokwi_465731440267947009 (Antonio's first Wokwi design) tt_um_wokwi_465732706576877569 (Guille's first Wokwi design.) tt_um_wokwi_465731481873367041 (MIPS-Lite 8-bit Processor) tt_um_wokwi_465736612213902337 (Juan`s first Worki design) tt_um_wokwi_465731439156454401 (Rhyloo’s first Wokwi design) tt_um_wokwi_465732536551273473 (Tiny Tapeout Marcos Fernandez) tt_um_wokwi_465737290543084545 (Tiny Tapeout Template) tt_um_wokwi_465630130495825921 (ram 1 bit Copy) tt_um_wokwi_465731403724006401 (sdft wokwi 1) tt_um_top (RHD2164-MCU-SPI Bridge) tt_um_line_follower_arvaloez (Line Follower Robot controller) tt_um_xoroshiro64plus_v2 (xoroshiro64) tt_um_ohuettenhofer_tiny_qsim (Tiny Quantum Circuit Simulator) tt_um_santhosh_ring_osc_gf (Ring Oscillator PVT Sensor & TRNG (GF180)) tt_um_santhosh_stoch_stdp_pair_gf (Stochastic neuron + STDP controller (merged, GF180)) tt_um_santhosh_rsd_char_gf (RRAM Characterization Platform (DC sweep + endurance + retention + histogram, GF180)) tt_um_santhosh_xbar_ctrl_gf (Memristive Crossbar Peripheral Controller (GF180)) tt_um_joseph_bf (BF) tt_um_hydrocomms (FSK Modem) tt_um_systolic_array (2x2 MAC Systolic array with DFT) tt_um_kluterirv_rv32e_core (Minimal RV32E SoC with UART Loader) tt_um_algofoogle_ttgf26a_vco (VCO driven by DAC) tt_um_fer_logo_music_vga (UNIZG-FER VGA project) tt_um_maqsudbek_dyadic_pwm (Dyadic PWM) tt_um_waferspace_vga_screensaver (Wafer.space Logo VGA Screensaver) tt_um_htfab_vga_tester (Video mode tester)