25.2 A 1.2V 8Gb 8-channel 128GB/s high-bandwidth memory (HBM) stacked DRAM with effective microbump I/O test methods using 29nm process and TSV

Author

Dong Uk Lee ; Kyung Whan Kim ; Kwan Weon Kim ; Hongjung Kim ; Ju Young Kim ; Young Jun Park ; Jae Hwan Kim ; Dae Suk Kim ; Heat Bit Park ; Jin Wook Shin ; Jang Hwan Cho ; Ki Hun Kwon ; Min Jeong Kim ; Jaejin Lee ; Kun Woo Park ; Byongtae Chung ; Sungjoo H

Author_Institution

SK Hynix, Icheon, South Korea

fYear

2014

fDate

9-13 Feb. 2014

Firstpage

432

Lastpage

433

Abstract

Increasing demand for higher-bandwidth DRAM drive TSV technology development. With the capacity of fine-pitch wide I/O [1], DRAM can be directly integrated on the interposer or host chip and communicate with the memory controller. However, there are many limitations, such as reliability and testability, in developing the technology. It is advantageous to adopt a logic-interface chip between the interposer and stacked-DRAM with thousands of TSV. The logic interface chip in the base level of high-bandwidth memory (HBM) decreases the C_IO, repairs the chip-to-chip connection failure, and supports better testability and improves reliability.

Keywords

DRAM chips; fine-pitch technology; logic design; logic testing; three-dimensional integrated circuits; DRAM; TSV; chip-to-chip connection failure; fine-pitch wide I/O; high-bandwidth memory; host chip; interposer; logic interface chip; logic-interface chip; memory controller; microbump I/O test methods; size 29 nm; voltage 1.2 V; Assembly; Clocks; Decoding; Random access memory; Registers; Testing; Through-silicon vias;

fLanguage

English

Publisher

ieee

Conference_Titel

Solid-State Circuits Conference Digest of Technical Papers (ISSCC), 2014 IEEE International

Conference_Location

San Francisco, CA

ISSN

0193-6530

Print_ISBN

978-1-4799-0918-6

Type

conf

DOI

10.1109/ISSCC.2014.6757501

Filename

6757501