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FPGA Pong implementation, specifically for the Analogue Pocket

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Atari's 1972 Pong

A FPGA implementation of Atari's 1972 arcade game, Pong. This implementation is packaged for running on the Analogue Pocket.

Controls

Pong is a two player game that uses potentiometers (rotary dials) for control of each player's paddle. As the Pocket doesn't have rotary dials, we have to make due with its face buttons.

Action Player 1 Player 2
Paddle Movement D Pad Up/Down Face Button Top/Bottom (X/B)
Fine Movement Left Trigger Right Trigger

Pong also supports the Analogue Pocket Dock, so you can play with two separate controllers. I suggest using the Use Ctrl 2 for P2 setting described below for the best two controller experience.

To insert a coin to start the game, press the button to the right of the Analogue button (considered to be the "Plus" button). Please note that the game will restart when an additional coin is inserted, so you can start a new game by pressing "Plus" at any time.

Settings

The original hardware only has one configurable setting available via a toggle switch: whether the game stops after 11 or 15 points. This core exposes this setting and a few "cheats" via the APF core settings.

Setting Action
Win at 11/15 points Configures the game to end at either 11 or 15 points. When set (the checkbox is white), the game will end after 15 points
Prevent coin reset Pong resets by default when a coin is inserted, no matter the play state. This prevents the reset unless the game is over
Cheat: Extended paddles Doubles the height of the paddles. This modification was performed to many machines to make it easier
Cheat: Training mode Configures the Player 2 paddle to fill most of the side of the screen. The only way to score is to hit the ball above the paddle

Implementation

This is a gate-level implementation of Pong, derived from the original schematic. All bugs and oddities with the original hardware should be represented in the synthesized hardware (if you find something that isn't, please open an issue).

As Pong was implemented using 74-series TTL logic chips, driven in an asynchronous manner (outputs from one chip may clock another), certain steps had to be taken to ensure accurate synthesis.

  1. In addition to the 7.159 MHz primary clock used by Pong, a 28.636 MHz clock (4x the primary clock) is used to synchronize the various async parts of the ciruit. We take advantage of the time it takes logic gates to stablize in the original ciruit to gate updating values until an edge (typically rising) of the 28 MHz clock. This makes the logic formally synchronous, and avoids a series of problems that may arise during synthesis (see dc5953b for an example of how changing synthesis can make or break the operation of async logic).
  2. Several instances of combinational logic are converted to be synchronous to prevent the creation of combinational loops. These are denoted with a comment. In paddle.vhd in particular, leaving the output of the NAND a7b as a combinational expression resulted in the undefined clocking of the paddle height counter, resulting in flickering graphics and strange functionality.
  3. 555 timers are simulated as counters based off of the primary clock, with timing approximating those found in testing. Implementation based off of https://github.com/MiSTer-devel/Arcade-Pong_MiSTer/blob/master/rtl/paddle.v
  4. Horizontal sync timing in the original ciruit relies on a long ripple counter, which has the odd effect of ending h_blank after the next rising edge of the clock (count is incremented on falling edge, and h_blank doesn't fall until after the rising edge). This is solved for by using the inverted primary clock as the synchronization clock for h_blank.

References