The semester is wrapping up at Cornell, and that means it’s time for the final projects from [Bruce Land]’s lab. Every year we see some very cool projects, and this year is no exception. For their project, [Andre] and [Scott] implemented the audio processing unit (APU) of the Nintendo Entertainment System (NES). This is the classic chiptune sound that regaled a generation with 8-bit sounds that aren’t really eight bits, with the help of a 6502 CPU that isn’t really a 6502 CPU.
Unlike the contemporaneous MOS 6581 SID, which is basically an analog synthesizer on a chip, the APU in the NES is extraordinarily spartan. There are two pulse wave channels, a triangle wave channel, a random noise channel, and the very rarely used delta modulation channel (DMC) used to play very low quality audio samples. This is a re-implementation of the NES APU for a university lab; it is very understandable that [Andre] and [Scott] didn’t implement the rarely used DMC.
Everything about the circuitry of the NES is well documented, so [Andre] and [Scott] had a great wiki for their research. At the highest level, the APU runs on a 894kHz clock and controls three channels through dedicated registers. These outputs are fed through a mixer, which the guys scaled and combined into a 16-bit output played through a Wolfson WM8731 audio codec.
After implementing the NES APU, [Andre] and [Scott] added an SD card reader that can read the Nintendo Sound Format – the standard distribution format for NES chiptunes – and emulated a 6502 to control the registers. The result is a relatively simple device that plays NES chiptunes with amazing accuracy. The sound files on the project report sound like the real thing, but this is entirely emulated on modern hardware.
Filed under: FPGA
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