Abstract: Techniques are described for verifying connectivity in a virtualized computing environment comprising networked computing devices having internal endpoints that are configured with operational connectivity to external endpoints. A connectivity test component is configured to execute as a virtual resource in the virtualized computing environment, execute protocol-aware connectivity tests that enable detection of connectivity errors between the internal endpoints and external endpoints, and instantiate or access network interfaces for establishing connectivity between the internal endpoints and external endpoints. A configuration file defines connectivity types between the internal endpoints and external endpoints. Based on the configuration file, the connectivity test component is executed in the virtualized computing environment. An output is generated by the connectivity test component that is indicative of results of connectivity attempts in accordance with the configuration file.

Abstract: In accordance with the present invention, there are provided novel vertically interconnected assemblies and compositions useful therefore. Invention assemblies comprise substrate boards with multiple layer electronic assemblies. The multiple layers comprise individual layers of circuitry separated and adhered by dielectric materials selectively coated and/or filled with a transient liquid phase sintered (TLPS) material. The TLPS is formulated to be electrically conductive, and thereby serves to convey current between the layers of circuitry. In addition, the TLPS is easily workable so that it is amenable to automated, stepwise construction of multilayer circuitry without the need for labor intensive drilling and filling of conductive vias.

Abstract: An inventive method for electrical and thermal electronic component attachment is disclosed. The combination of transient liquid phase sintering (TLPS) and a permanent adhesive flux binder provides the advantages of both conventional soldering technology and conductive adhesives. This hybrid approach delivers electrical and thermal conduction through sintered metal joints and mechanical properties based on a tailorable polymer matrix. These transient liquid phase sintering conductive adhesives can utilize conventional dispensing, placement, and processing equipment. During the reflow process, metal powders in the composition undergo interparticle sintering as well as alloying to the contact pads. This process produces a strong mechanical, thermal, and electrical interconnect which ensures good conductivity that is also resistant to humidity and temperature cycling.

Abstract: Methods for fabricating single and multilayer printed boards which employ electronically conductive adhesive compositions are provided. The composition comprises a solder powder, a chemically protected cross-linking agent with fluxing properties and a reactive monomer or polymer as the principal components. The compositions may also comprise three or more of the following: a relatively high melting metal powder; solder powder; the active cross-linking agent which also serves as a fluxing agent; a resin; a reactive monomer or polymer; and a metal additive. Compositions comprising metal powder are ideally suited for creating the conductive paths and vias on printed circuits.