A 28nm 0.6V low-power DSP for mobile applications

Gordon Gammie; Nathan Ickes; Mahmut E. Sinangil; Rahul Rithe; Jie Gu; Alice Wang; Hugh Mair; Satyendra Datla; Bing Rong; Sushma Honnavara-Prasad; Lam Si Tung Ho; Greg Baldwin; D.D. Buss; Anantha P. Chandrakasan; Uming Ko

doi:10.1109/isscc.2011.5746251

A 28nm 0.6V low-power DSP for mobile applications

Gordon Gammie(Texas Instruments (United States)), Nathan Ickes(Massachusetts Institute of Technology), Mahmut E. Sinangil(Massachusetts Institute of Technology), Rahul Rithe(Massachusetts Institute of Technology), Jie Gu(MaxLinear (United States)), Alice Wang(Texas Instruments (United States)), Hugh Mair(Texas Instruments (United States)), Satyendra Datla(Texas Instruments (United States)), Bing Rong(Texas Instruments (United States)), Sushma Honnavara-Prasad(Texas Instruments (United States)), Lam Si Tung Ho(Texas Instruments (United States)), Greg Baldwin(Texas Instruments (United States)), D.D. Buss(Texas Instruments (United States)), Anantha P. Chandrakasan(Massachusetts Institute of Technology), Uming Ko(Texas Instruments (United States))

Unknown

February 1, 2011

10.1109/isscc.2011.5746251

Cited by 29

Abstract

A multimedia applications processor is fabricated using a 28nm low-power process technology for ultra-low-power applications. Based on a 4-issue, 32 register version of the TMS320C64X+ VLIW DSP, this System on Chip (SoC) includes 32kB L1 and 128kB L2 caches, and I2S, SPI, UART, MultiMediaCard, and external memory interfaces (Fig. 7.5.1). The design incorporates over 600k instances of custom low-voltage logic cells and 43 instances (1.6 Mb) of 6T SRAM. Utilizing ultra-low-voltage (ULV) optimized standard-cell libraries and 6T SRAM macros, and demonstrating a new statistical static timing analysis (SSTA) methodology, the SoC scales as designed from high performance at 1.0V down to ultra-low power at 0.6V.

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