atopile
is a tool to build electronic circuit boards with code.
What's your story in electronics? What would you like us to build? Come talk on discord.
from "generics/resistors.ato" import Resistor
module VoltageDivider:
signal top
signal out
signal bottom
r_top = new Resistor
r_top.package = "R0402"
r_bottom = new Resistor
r_bottom.package = "0402"
top ~ r_top.p1; r_top.p2 ~ out
out ~ r_bottom.p1; r_bottom.p2 ~ bottom
r_total: resistance
v_in: voltage
v_out: voltage
i_q: current
assert v_in * r_bottom.value / (r_top.value + r_bottom.value) within v_out
assert v_in / (r_bottom.value + r_top.value) within i_q
import RP2040Kit from "rp2040/RP2040Kit.ato"
import LEDIndicatorRed from "generics/leds.ato"
import LDOReg3V3 from "regulators/regulators.ato"
import USBCConn from "usb-connectors/usb-connectors.ato"
module Blinky:
micro_controller = new RP2040Kit
led_indicator = new LEDIndicatorRed
voltage_regulator = new LDOReg3V3
usb_c_connector = new USBCConn
usb_c_connector.power ~ voltage_regulator.power_in
voltage_regulator.power_out ~ micro_controller.power
micro_controller.gpio13 ~ led_indicator.input
micro_controller.power.gnd ~ led_indicator.gnd
led_indicator.v_in = 3.3volt +/-10%
Checkout out the servo drive project or the logic card project.
Find our documentation and getting started video.
atopile
is on pypi.org: https://pypi.org/project/atopile/
atopile
requires python3.11 or later, which you can install using your package manager or from python.org.
Then just pip install atopile
and you're good to go!
The objective of atopile is to help push forward these paradigms from the software world to hardware, mainly these points:
- Intelligent Design Capture: Define hardware specifications like ratios and tolerances in code, enabling precise control and easy reuse of designs.
- Version Control Integration: Use git to manage design changes, facilitating collaboration and ensuring each iteration is thoroughly reviewed and validated.
- Continuous Integration (CI): Implement CI to guarantee high-quality, compliant designs with every commit, represented by a green checkmark for assurance.
Describing hardware with code might seem odd at first glance. But once you realize it introduces software development paradigms and toolchains to hardware design, you'll be hooked, just like we've become.
Code can capture the intelligence you put into your work. Imagine configuring not the resistance values of a voltage divider, but its ratio and total resistance, all using physical units and tolerances. You can do this because someone before you described precisely what this module is and described the relationships between the values of the components and the function you care about. Now instead imagine what you can gain from reusing a buck design you can merely configure the target voltage and ripple of. Now imagine installing a servo drive the same way you might numpy.
Version controlling your designs using git means you can deeply validate and review changes a feature at a time, isolated from impacting others' work. It means you can detangle your organisation and collaborate on an unprecedented scale. We can forgo half-baked "releases" in favor of stamping a simple git-hash on our prototypes, providing an anchor off which to associate test data and expectations.
Implementing CI to test our work ensures both high-quality and compliance, all summarised in a green check mark, emboldening teams to target excellence.
Browse and submit your modules at packages.atopile.io