GI-AY-3-8500 User guide
About the chip
The AY-3-8500 was a pong-on-a-chip system produced from 1975 to the early '80s. It could play five PONG-like games and two shooting games (If a rifle circuit was installed.) It has 0-15 on-screen scoring, and options such as variable bat size, ball speed, and rebound angles. This particular chip is an NTSC variant produced in 1976.
Simulation Controls
The control buttons are on the upper-right of the screen. The function as follows:
Play/Pause simulation
Reset simulation
Step Back (a half clock pulse)
Step Forward (a half clock pulse)
Generate (about) one line
Generate (about) one field (Warning, may freeze the simulation/browser for several seconds)
To increase the speed of the simulation, disable the redrawing with the "Animate during simulation" check-box (below model)
Visual Model
The visual model shows the chip's wiring and logic states based on a real die photo of the chip. Use x/z keys to zoom, and drag the mouse to pan.
The chip has five layers
Metal: Grey
Diffusion: Blue
Vias: Light Blue (connect metal and diffusion)
Transistors: Green
Extra Structures: Yellow (No effect on the chips logic)
You can turn individual layers on/off at any time with the check boxes below the model.
You can click on nodes to highlight them and any transistors connected to them. Transistors that may affect the node's logical state become pink, while transistors controlled by the node become yellow.
Simulated Television
The simulated TV output is on the right. You can see the field being drawn as the chip runs.
White: Area has not been drawn yet
Grey: No signal present
Red: Sync signal present
Black: Score/Field present
Other colors/pins will be added in a future version
Keyboard Controls
P - Step Back
N - Step Forward
Z - Zoom In
X - Zoom Out
Interacting with the chip.
Turn the game select and on-chip reset pins on/off using the check boxes on the right.
You can change the contents of the score registers by choosing new values and pressing "Update Scores" (Remember, the new scores will not appear on-screen until the chip redraws that area)
Further interaction capabilities will be added in a future version.