Title :
A 65 nm Single-Chip Application and Dual-Mode Baseband Processor With Partial Clock Activation and IP-MMU
Author :
Ito, Masayuki ; Nitta, Kenichi ; Ohno, Koji ; Saigusa, Masahito ; Nishida, Masaki ; Yoshioka, Shinichi ; Irita, Takahiro ; Koike, Takao ; Kamei, Tatsuya ; Komuro, Teruyoshi ; Hattori, Toshihiro ; Arai, Yasuhiro ; Kodama, Yukio
Author_Institution :
Syst. Core Technol. Div., Renesas Technol. Corp., Tokyo
Abstract :
Supporting both WCDMA with HSDPA and GSM/GPRS/EDGE, the 9.3 times 9.3 mm2 SoC fabricated in triple-Vth 65 nm CMOS, has three CPU cores and 20 separate power domains. Unused power domains can be powered down to reduce the leakage power. Partial clock activation scheme especially focused on music playback scene dynamically stops a PLL and clock trees when not necessary and reduces power consumption from 33.6 mW to 19.6 mW. IP-MMU translates virtual address to physical address for 18 hardware-IPs and virtual address space can be allocated when necessary and can be freed after its operation, reducing external memory by 43 MB. Video performance of D1 (720 times 520) size with 30 frames per second for MPEG/AVC decoding and encoding can be achieved under mixed virtual and physical address usage.
Keywords :
CMOS digital integrated circuits; clocks; mobile handsets; phase locked loops; CMOS; CPU cores; MPEG/AVC decoding; MPEG/AVC encoding; PLL; cellular phones; clock trees; dual-mode baseband processor; leakage power; music playback scene; partial clock activation; power 33.6 mW to 19.6 mW; power consumption; power domains; single-chip application; size 65 nm; virtual address space; Automatic voltage control; Baseband; Clocks; Decoding; Energy consumption; GSM; Ground penetrating radar; Layout; Multiaccess communication; Phase locked loops; Application processor; baseband processor; cellular phone; clock activation; memory space; power domains;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2008.2007169
