Our project has the goal of building a quantum co-processor consisting of neutral atoms in tweezer arrays. This quantum co-processor will form part of an online-accessible hybrid quantum computer tailored for solving quantum chemistry problems.The quantum co-processor will consist of strontium-88 atoms trapped in 2-dimensional arrays of optical tweezers, with a single atom trapped per tweezer. Qubit states will be encoded on the 1S0 and 3P0 electronic states of the atoms. Laser driven site selective single qubit rotations will be performed on the doubly dipole forbidden 1S0 ↔ 3P0 optical clock transition. Global excitations to Rydberg states will be used to generate entanglement between the qubits.We report on our progress in the development of the 2nd generation strontium-based system in Eindhoven, whilst the existing 1st generation system is situated in Amsterdam. We also report on the status of our rubidium-based system in Eindhoven, which will be used to test various components before integration into the new strontium-based system
