TY - JOUR
T1 - Large-scale 3D chips
T2 - Challenges and solutions for design automation, testing, and trustworthy integration
AU - Knechtel, Johann
AU - Sinanoglu, Ozgur
AU - Elfadel, Ibrahim Abe M.
AU - Lienig, Jens
AU - Sze, Cliff C.N.
N1 - Publisher Copyright:
© 2017 Information Processing Society of Japan.
PY - 2017/8
Y1 - 2017/8
N2 - Three-dimensional (3D) integration of electronic chips has been advocated by both industry and academia for many years. It is acknowledged as one of the most promising approaches to meet ever-increasing demands on performance, functionality, and power consumption. Furthermore, 3D integration has been shown to be most effective and efficient once large-scale integration is targeted for. However, a multitude of challenges has thus far obstructed the mainstream transition from "classical 2D chips"to such large-scale 3D chips. In this paper, we survey all popular 3D integration options available and advocate that using an interposer as system-level integration backbone would be the most practical for large-scale industrial applications and design reuse. We review major design (automation) challenges and related promising solutions for interposer-based 3D chips in particular, among the other 3D options. Thereby we outline (i) the need for a unified workflow, especially once full-custom design is considered, (ii) the current design-automation solutions and future prospects for both classical (digital) and advanced (heterogeneous) interposer stacks, (iii) the state-of-art and open challenges for testing of 3D chips, and (iv) the challenges of securing hardware in general and the prospects for large-scale and trustworthy 3D chips in particular.
AB - Three-dimensional (3D) integration of electronic chips has been advocated by both industry and academia for many years. It is acknowledged as one of the most promising approaches to meet ever-increasing demands on performance, functionality, and power consumption. Furthermore, 3D integration has been shown to be most effective and efficient once large-scale integration is targeted for. However, a multitude of challenges has thus far obstructed the mainstream transition from "classical 2D chips"to such large-scale 3D chips. In this paper, we survey all popular 3D integration options available and advocate that using an interposer as system-level integration backbone would be the most practical for large-scale industrial applications and design reuse. We review major design (automation) challenges and related promising solutions for interposer-based 3D chips in particular, among the other 3D options. Thereby we outline (i) the need for a unified workflow, especially once full-custom design is considered, (ii) the current design-automation solutions and future prospects for both classical (digital) and advanced (heterogeneous) interposer stacks, (iii) the state-of-art and open challenges for testing of 3D chips, and (iv) the challenges of securing hardware in general and the prospects for large-scale and trustworthy 3D chips in particular.
KW - 3D chips
KW - Design automation
KW - Hardware security
KW - Heterogeneous integration
KW - Large-scale integration
KW - System-level integration
KW - Testing
KW - Trustworthy integration
UR - http://www.scopus.com/inward/record.url?scp=85045314635&partnerID=8YFLogxK
U2 - 10.2197/ipsjtsldm.10.45
DO - 10.2197/ipsjtsldm.10.45
M3 - Article
AN - SCOPUS:85045314635
SN - 1882-6687
VL - 10
SP - 45
EP - 62
JO - IPSJ Transactions on System LSI Design Methodology
JF - IPSJ Transactions on System LSI Design Methodology
ER -