There are 2 repositories under low-power topic.
The Ultra-Low Power RISC-V Core
Botletics SIM7000 LTE CAT-M1/NB-IoT Shield for Arduino
An ESP32 and 4.2" ePaper Display reads Dark Sky weather API and displays the weather using ESP-IDF
Micro XRCE-DDS Client repository. Looking for commercial support? Contact info@eprosima.com
Micro XRCE-DDS Agent respository. Looking for commercial support? Contact info@eprosima.com
ROS driver for Prophesee event-based sensors
Low power consumption for TTGO t-beam
Simplest DIY low power, low cost, standalone or web connected IOT sensors network framework using ESP32 or ESP8266 (no third party service required).
Experiments in low-power-wifi on esp8266, esp32, and ...
Comparison of several ESP32 boards' power consumptions in different sleep modes
Printed circuit board (PCB) design for snapshot GNSS receiver
Microshift Compression: An Efficient Image Compression Algorithm for Hardware
Arduino library for driving the Nokia 5110 LCD
Firmware for snapshot GNSS receiver
E-ink version of Conways Game of Life powered by the sun
Fast Floating Point Operators for High Level Synthesis
Teapot BWLR1B: Wireless Environmental Sensor over LoRa
A lightweight http server for linux
Open source DIY Smart Home platform written for Arduino and Raspberry Pi
Issues an alarm, if window is open for more than 5 minutes. Arduino sketch for ATtiny85. Battery operated (6 microAmpere).
Firmware for HARDWARIO Generic Node
This place provide different SRAM cells netlist to be simulated with HSpice tool in sub-20nm FinFET technologies.
A library used to create low performant idle applications in Unity
Project source files for DIY Eink Gadget. Project video available at https://youtu.be/i01PoMj23bA
An interrupt-driven approach to Arduino programming
FramI2C is an Arduino library for FRAM (F-FRAM, Ferroelectric RAM) non-volatile memory chips with I2C interface. Supports most common Cypress and Fujitsu I2C FRAM chips with densities of 4, 16, 64, 128, 256, 512, and 1024 kilobits (kb). Provides simple, easy to use read() and write() methods for reading/writing integral and floating point types (uses automatic type inference and byte conversion), readBytes() and writeBytes() for reading/writing larger amounts of data as byte array, and fill() to fill or clear a range of FRAM memory.