English

Adaptive 3D-IC TSV Fault Tolerance Structure Generation

Hardware Architecture 2018-03-08 v1

Abstract

In three dimensional integrated circuits (3D-ICs), through silicon via (TSV) is a critical technique in providing vertical connections. However, the yield and reliability is one of the key obstacles to adopt the TSV based 3D-ICs technology in industry. Various fault-tolerance structures using spare TSVs to repair faulty functional TSVs have been proposed in literature for yield and reliability enhancement, but a valid structure cannot always be found due to the lack of effective generation methods for fault-tolerance structures. In this paper, we focus on the problem of adaptive fault-tolerance structure generation. Given the relations between functional TSVs and spare TSVs, we first calculate the maximum number of tolerant faults in each TSV group. Then we propose an integer linear programming (ILP) based model to construct adaptive fault-tolerance struc- ture with minimal multiplexer delay overhead and hardware cost. We further develop a speed-up technique through efficient min-cost-max-flow (MCMF) model. All the proposed method- ologies are embedded in a top-down TSV planning framework to form functional TSV groups and generate adaptive fault- tolerance structures. Experimental results show that, compared with state-of-the-art, the number of spare TSVs used for fault tolerance can be effectively reduced.

Keywords

Cite

@article{arxiv.1803.02490,
  title  = {Adaptive 3D-IC TSV Fault Tolerance Structure Generation},
  author = {Song Chen and Qi Xu and Bei Yu},
  journal= {arXiv preprint arXiv:1803.02490},
  year   = {2018}
}

Comments

Submitted to IEEE Trans. on CAD

R2 v1 2026-06-23T00:44:41.639Z