info.yaml - third_party/shuttle/gf180mcu/mpw-000/slot-024 - Git at Google

 ---
 # TinyTapeout project information
 project:
   wokwi_id:    341610418650743378        # If using wokwi, set this to your project's ID
 #  source_files:        # If using an HDL, set wokwi_id as 0 and uncomment and list your source files here. Source files must be in ./src
 #    - counter.v
 #    - decoder.v
 #  top_module:  "seven_segment_seconds"      # put the name of your top module here, make it unique by prepending your github username

 # As everyone will have access to all designs, try to make it easy for someone new to your design to know what
 # it does and how to operate it.
 #
 # Here is an example: https://github.com/mattvenn/tinytapeout_m_segments/blob/main/info.yaml
 #
 # This info will be automatically collected and used to make a datasheet for the chip.
 documentation:
   author:       "Thorsten Knoll"      # Your name
   discord:      ""      # Your discord handle
   title:        "8x8 Bit Pattern Player"      # Project title
   description:  "8x8 bit serial programmable, addressable and playable memory."      # Short description of what your project does
   how_it_works: "The 8x8 memory is a 64-bit shiftregister, consisting of 64 serial chained D-FlipFlops (data: IN0, clk_sr: IN1). 8 memoryslots of each 8 bit can be directly addressed via addresslines (3 bit: IN2, IN3, IN4) or from a clockdriven player (3 bit counter, clk_pl: IN7). A mode selector line (mode: IN5) sets the operation mode to addressing or to player. The 8 outputs are driven by the 8 bit of the addressed memoryslot."      # Longer description of how the project works
   how_to_test:  "Programm the memory: Start by filling the 64 bit shiftregister via data and clk_sr, each rising edge on clk_sr shifts a new data bit into the register. Select mode: Set mode input for direct addressing or clockdriven player. Address mode: Address a memoryslot via the three addresslines and watch the memoryslot at the outputs. Player mode: Each rising edge at clk_pl enables the next memoryslot to the outputs."      # Instructions on how someone could test your project, include things like what buttons do what and how to set the clock if needed
   external_hw:  "You could programm, address and play the 8x8 Bit Pattern Player with a breadboard, two clock buttons and some dipswitches on the input side. Add some LED to the output side. Just like the WOKWI simulation."      # Describe any external hardware needed
   language:     "wokwi" # other examples include Verilog, Amaranth, VHDL, etc
   doc_link:     ""      # URL to longer form documentation, eg the README.md in your repository
   clock_hz:     0       # Clock frequency in Hz (if required)
   picture:      ""      # relative path to a picture in your repository
   inputs:
     - data
     - clk_sr
     - address_0
     - address_1
     - address_2
     - mode
     - none
     - clk_pl
   outputs:
     - bit 0
     - bit 1
     - bit 2
     - bit 3
     - bit 4
     - bit 5
     - bit 6
     - bit 7
	---
	# TinyTapeout project information
	project:
	wokwi_id: 341610418650743378 # If using wokwi, set this to your project's ID
	# source_files: # If using an HDL, set wokwi_id as 0 and uncomment and list your source files here. Source files must be in ./src
	# - counter.v
	# - decoder.v
	# top_module: "seven_segment_seconds" # put the name of your top module here, make it unique by prepending your github username

	# As everyone will have access to all designs, try to make it easy for someone new to your design to know what
	# it does and how to operate it.
	#
	# Here is an example: https://github.com/mattvenn/tinytapeout_m_segments/blob/main/info.yaml
	#
	# This info will be automatically collected and used to make a datasheet for the chip.
	documentation:
	author: "Thorsten Knoll" # Your name
	discord: "" # Your discord handle
	title: "8x8 Bit Pattern Player" # Project title
	description: "8x8 bit serial programmable, addressable and playable memory." # Short description of what your project does
	how_it_works: "The 8x8 memory is a 64-bit shiftregister, consisting of 64 serial chained D-FlipFlops (data: IN0, clk_sr: IN1). 8 memoryslots of each 8 bit can be directly addressed via addresslines (3 bit: IN2, IN3, IN4) or from a clockdriven player (3 bit counter, clk_pl: IN7). A mode selector line (mode: IN5) sets the operation mode to addressing or to player. The 8 outputs are driven by the 8 bit of the addressed memoryslot." # Longer description of how the project works
	how_to_test: "Programm the memory: Start by filling the 64 bit shiftregister via data and clk_sr, each rising edge on clk_sr shifts a new data bit into the register. Select mode: Set mode input for direct addressing or clockdriven player. Address mode: Address a memoryslot via the three addresslines and watch the memoryslot at the outputs. Player mode: Each rising edge at clk_pl enables the next memoryslot to the outputs." # Instructions on how someone could test your project, include things like what buttons do what and how to set the clock if needed
	external_hw: "You could programm, address and play the 8x8 Bit Pattern Player with a breadboard, two clock buttons and some dipswitches on the input side. Add some LED to the output side. Just like the WOKWI simulation." # Describe any external hardware needed
	language: "wokwi" # other examples include Verilog, Amaranth, VHDL, etc
	doc_link: "" # URL to longer form documentation, eg the README.md in your repository
	clock_hz: 0 # Clock frequency in Hz (if required)
	picture: "" # relative path to a picture in your repository
	inputs:
	- data
	- clk_sr
	- address_0
	- address_1
	- address_2
	- mode
	- none
	- clk_pl
	outputs:
	- bit 0
	- bit 1
	- bit 2
	- bit 3
	- bit 4
	- bit 5
	- bit 6
	- bit 7