cpldcpu

/*
 * WS2812_SCAN.c
 *
 * Created: 10.01.2014 20:46:20
 * Author: tim
 */ 

#include <avr/io.h>

int main(void)

cpldcpu

;--------------------------------------------------------
; Electronic candle for Padauk PMS150C and SDASPDK (SDCC toolchain)
; LED is connected to PA4, Timer2 is used to drive LED
; Implements algorithm from:  
; https://github.com/cpldcpu/CandleLEDhack/blob/master/Emulator/CandeflickerLED.c
;
; cpldcpu Jan 2019
;--------------------------------------------------------
	.module blinky
	.optsdcc -mpdk14

cpldcpu

/* ---------------------------------------------------------------
ligthsensor.c

LED is connected to PA0 (anode) and PA4 (cathode). 

Sep 21, 2019 cpldcpu - first release
Sep 29, 2019 cpldcpu - last iteration after many tries. It appears the PFS154
is too noisy for this to work.
------------------------------------------------------------------ */
  

cpldcpu

/* ---------------------------------------------------
	Ultra Low Power LED flasher

	LED is connected to PA4 and is high active.

	Jan 16th, 2021,  CPLDCPU - Initial version

  ---------------------------------------------------- */
  
#include <stdint.h>

cpldcpu

Chronoikos

You are presented with an infinite number of clocks, each featuring a dial that displays positions from 0 to 59. Each clock is equipped with a button on top that, when pressed, advances the clock by one increment. If the dial transitions from 59 back to 0, a bell within the clock will sound once.

The dials of these clocks are concealed, allowing interaction only through the button and the audible bell. A special instruction allows reading the positions of the dials to read out the result of computations.

Basic Language

An instruction sheet provides sequences in which the clocks should be manipulated. The following operations can be performed: