At-Speed Testing of Inter-Die Connections of 3D-SICs in the Presence of Shore Logic

Abstract

Inter-die connections in 2.5D-and 3D-stacked ICs require at-speed testing as their dynamic performance is crucial to the performance of the stack as a whole. In order to test at mission-mode speed and benefit from the already existing clock distribution network, our at-speed test approach for inter-die connections targets the entire register-to-register path that includes the interconnect. This forces the launching and capturing wrapper cells to be shared with functional flip-flops. In some designs, this unavoidably leads to some 'shore logic': a, typically small, amount of combinational logic outside the die's wrapper boundary register. This paper describes how we have adapted a previously developed 3D-DfT architecture and corresponding EDA tool flows to support at-speed interconnect testing, also in the presence of such 'shore logic'. The adaptations affect the DfT insertion of wrapper cells, the boundary model extraction, and the interconnect test pattern generation.