Here it is.
Top breadboard is solely for the decimal display. It has a timer to refresh the display and an eeprom with a lookup table to turn the binary inputs into outputs that show the decimal on the display.
Bottom is input dip switches and a register - value from 0 to 255 (and selecting if negating).
Blue dial, lonely red led and red button is the clock/reset.
The Green and Yellow combo is interesting - it loads the value you set through an xor gate (to do negating, under clock) into the adders (next to green leds). The output from the adders is displayed on the green leds, and copied to the register for the yellow ones. The yellow register is then tied to the other input of the adders, so on each clock cycle it loads the previous value and continually counts up (or down) in the number you selected.
The display is tied to the yellow leds for convenience (it was easier than trying to get to the green ones.
Here it is.
Top breadboard is solely for the decimal display. It has a timer to refresh the display and an eeprom with a lookup table to turn the binary inputs into outputs that show the decimal on the display.
Bottom is input dip switches and a register - value from 0 to 255 (and selecting if negating).
Blue dial, lonely red led and red button is the clock/reset.
The Green and Yellow combo is interesting - it loads the value you set through an xor gate (to do negating, under clock) into the adders (next to green leds). The output from the adders is displayed on the green leds, and copied to the register for the yellow ones. The yellow register is then tied to the other input of the adders, so on each clock cycle it loads the previous value and continually counts up (or down) in the number you selected.
The display is tied to the yellow leds for convenience (it was easier than trying to get to the green ones.
It’s a nice little desk display!
Very cool. Thank you for this :)