A 3.8 GHz 153 Mb SRAM Design With Dynamic Stability Enhancement and Leakage Reduction in 45 nm High-k Metal Gate CMOS Technology

Author

Hamzaoglu, Fatih ; Zhang, Kevin ; Wang, Yih ; Ahn, Hong Jo ; Bhattacharya, Uddalak ; Chen, Zhanping ; Ng, Yong-Gee ; Pavlov, Andrei ; Smits, Ken ; Bohr, Mark

Author_Institution

Intel Corp., Hillsboro, OR

Volume

44

Issue

1

fYear

2009

Firstpage

148

Lastpage

154

Abstract

A high-performance low-power 153 Mb SRAM is developed in 45 nm high-k Metal Gate technology. Dynamic SRAM PMOS forward-body-bias (FBB) and Active-Controlled SRAM VCC in Sleep are integrated in the design to lower Active-VCCmin and Standby Leakage, respectively. FBB improves the Active-VCCmin by up to 75 mV, and Active-Controlled SRAM VCC distribution tightened by 100 mV, both of which result in further power reduction. A 0.346 mum² 6T-SRAM bit-cell is used which is optimized for VCCmin, performance, leakage and area. The design operates at high-speed over a wide voltage range, and has a maximum frequency of 3.8 GHz at 1.1 V. The 16 KB Subarray was also used as the building block in on-die 6 MB Cache for Intel Core 2 Duo CPU in 45 nm technology.

Keywords

CMOS integrated circuits; SRAM chips; 0.346 mum² 6T-SRAM bit-cell; 16 KB subarray; Intel Core 2 Duo CPU; active-controlled SRAM VCC distribution; dynamic SRAM PMOS forward-body-bias; dynamic stability enhancement; frequency 3.8 GHz; high-k metal gate CMOS technology; leakage reduction; on-die 6 MB Cache; size 45 nm; standby leakage; voltage 1.1 V; voltage 100 mV; voltage 75 mV; CMOS technology; Contacts; Energy consumption; High K dielectric materials; High-K gate dielectrics; Logic circuits; Random access memory; Sleep; Stability; Very large scale integration; Forward-body-bias; Static-random-access-memory (SRAM); high-speed; leakage reduction; low-power; sleep transistor;

fLanguage

English

Journal_Title

Solid-State Circuits, IEEE Journal of

Publisher

ieee

ISSN

0018-9200

Type

jour

DOI

10.1109/JSSC.2008.2007151

Filename

4735550