Title :
A distributed, reconfigurable, and reusable bist infrastructure for 3D-stacked ICs
Author :
Agrawal, Mukesh ; Chakrabarty, Krishnendu ; Eklow, Bill
Author_Institution :
Electr. & Comput. Eng., Duke Univ., Durham, NC, USA
Abstract :
We present an end-to-end design of a built-in self-test (BIST) infrastructure for 3D-stacked ICs that facilitates the use of BIST at multiple stages of 3D integration. The proposed BIST design is distributed, reusable, and reconfigurable, hence it is attractive for both pre-bond and post-bond testing. We also provide support for translating a static BIST schedule into a set of BIST control instructions. The BIST design is validated using detailed simulations of the various operating modes. We present results on synthetic stacks created from ITC´99 and Open-Core benchmark circuits and assess the impact of inserting BIST in these designs in terms of area, timing, and power overhead. Results show that the overhead due to BIST is negligible. We also formulate a test-scheduling problem that aims at minimizing test time under BIST-resource and power constraints, and use two algorithms based on bin packing for solving the problem.
Keywords :
built-in self test; integrated circuit design; integrated circuit testing; three-dimensional integrated circuits; 3D integration stages; 3D-stacked IC; BIST control instructions; BIST design; BIST power constraint; BIST-resource constraint; ITC 99 benchmark circuit; Open-Core benchmark circuits; bin packing; built-in self-test infrastructure; distributed BIST infrastructure; end-to-end design; post-bond testing; pre-bond testing; reconfigurable BIST infrastructure; reusable BIST infrastructure; static BIST schedule; synthetic stacks; test-scheduling problem; Built-in self-test; Dynamic scheduling; Ports (Computers); Registers; Schedules; Three-dimensional displays;
Conference_Titel :
Test Conference (ITC), 2014 IEEE International
Conference_Location :
Seattle, WA
DOI :
10.1109/TEST.2014.7035333
