Abstract: In a process of fabricating flip chip interconnection, a UBM layer is deposited on an I/O pad of a chip. The UBM layer includes a nickel layer. On the UBM layer is formed a tin-containing solder material. The chip is mounted on a carrier substrate by alignment of the bonding pad with a contact pad of the carrier substrate. A reflow process is performed to respectively turn the tin-containing solder material to a tin-containing solder bump and form a composite intermetallic compound on the nickel layer of the UBM to prevent its spalling.

Abstract: In a process of fabricating flip chip interconnection, a UBM layer is deposited on an I/O pad of a chip. The UBM layer includes a nickel layer. On the UBM layer is formed a tin-containing solder material. The chip is mounted on a carrier substrate by alignment of the bonding pad with a contact pad of the carrier substrate. A reflow process is performed to respectively turn the tin-containing solder material to a tin-containing solder bump and form a composite intermetallic compound on the nickel layer of the UBM to prevent its spalling.

Abstract: In a process of fabricating flip chip interconnection, a UBM layer is deposited on an I/O pad of a chip. The UBM layer includes a nickel layer. On the UBM layer is formed a tin-containing solder material. The chip is mounted on a carrier substrate by alignment of the bonding pad with a contact pad of the carrier substrate. A reflow process is performed to respectively turn the tin-containing solder material to a tin-containing solder bump and form a composite intermetallic compound on the nickel layer of the UBM to prevent its spalling.

Abstract: A background removal apparatus comprises a color normalization module that normalizes an original image, and an image segmentation module that segments the normalized image into several segmented regions. A background mesh generation module simulates the variation of pixel colors in background and generates an interpolated background mesh. A comparison module compares the normalized image and the interpolated background mesh to form a background mask by extracting the coherent regions between them. A refinement module uses a refined rule to determine a final background mask, and a background removal module through which a pure foreground image is obtained. The apparatus combines the efficiency of both color and spatial clustering, and improves the capabilities of current image segmentation method to perform background removal.

Abstract: A method and apparatus provide an integrated circuit package with improved heat dissipation and easier fabrication. The integrated circuit package includes a thinned semiconductor die attached to a heat spreader using a thermally conductive material. The thinned die reduces the thermal resistance of the die/heat spreader combination to improve heat extraction from the die as well as eliminating processing steps in fabrication. Additionally, the thinned die becomes more compliant as it takes on the thermal/mechanical properties of the heat spreader to reduce stress-induced cracking of the die.