Abstract: In order to relieve the stress on the substrates in a 3D stacked electronic assembly, a substrate frame is divided into a plurality of frame sections that are separated by spaces between the frame sections. These separations allow the substrates to expand/contract in response to temperature variations and other environmental conditions, and generally allow the substrates to move in one or more axial directions. The separations between the substrate portions are design-specific for each substrate design. The placement of IC packages on either side of the substrate is analyzed to identify areas of maximal warpage through physical measurements, physical model simulations, or using a trained neural network. The spaces in the substrate frame are then be placed next to or aligned with the areas of maximal warpage to reduce the stress on the substrate.

Abstract: In order to relieve the stress on the substrates in a 3D stacked electronic assembly, a substrate frame may be divided into a plurality of frame sections that are separated by spaces between the frame sections. These separations allow the substrates to expand/contract in response to temperature variations and other environmental conditions, and generally allow the substrates to move in one or more axial directions. The separations between the substrate portions may be design-specific for each substrate design. The placement of IC packages on either side of the substrate may be analyzed to identify areas of maximal warpage through physical measurements, physical model simulations, or using a trained neural network. The spaces in the substrate frame may then be placed next to or aligned with the areas of maximal warpage to reduce the stress on the substrate.