The complexity of quantum experimentation setups generates demand for a hardware platform that ensures means of standardization of the equipment used as well as setup repeatability.Sinara Hardware is an open-source answer to those challenges. It offers a modular architecture and well over 50 different modules. While originating from ion trapping experiments, it provides an ecosystem that can meet a wide range of quantum experimentation needs. Accompanied by researchers and engineers from different universities and private companies, Sinara Hardware is not only a hardware platform but also a vibrant community.Sinara Hardware is developed along with an open-source control system - ARTIQ. ARTIQ provides a high-level programming interface along with experiment management tools. It offers nanosecond timing accuracy, sub-microsecond latency and means of timing distribution across several controller modules.This poster covers the developments from the last 2 years in the Sinara Hardware project. The most interesting novelties are: CERN Distributed IO Tier (DIOT) integration that will introduce backplane for communication and will enable use of DIOT Zynq UltraScale+ based controller; Artix-7 based FMC (FPGA Mezzanine Card) carrier along with two Sinara-dedicated FMCs: Shuttler - 125 MSPS 16 ch. 16-bit DAC (Digital to Analog Converter), with separate analog front end for application versatility and Waver - 1.5 GSPS 4 ch. 16-bit DAC; Unified Arbitrary Waveform Generator Framework as a common firmware platform for Sinara DAC applications as well as Xilinx RFSoC-based high bandwidth signal generator. Additionally, an overview of what is to be expected in future developments is shown.