A 0.48V 0.57nJ/pixel video-recording SoC in 65nm CMOS
ISSCC(2013)
摘要
This paper presents a video recording SoC fabricated in 65nm low-power technology, which integrates a complexity and bandwidth-effective H.264 encoder, an ultra-low-power (ULP) MPU, with timing-optimized ROM and 8T SRAM macros for ultra-low-voltage (ULV) operation, a 512Kb ULV and leakage-aware 8T SRAM for the frame buffer (FB), and various on-chip peripherals, such as external memory interfaces (Fig. 9.3.1). Utilizing ULV cell libraries with custom-pulsed D flip-flops (PFF) for wide-range voltage scaling, ROM/SRAM macros optimized simultaneously for timing and leakage, and advanced energy management (AEM), the SoC achieves 32fps HD720 H.264 encoding at 1.0V, down to 0.57nJ/pixel ultra-low energy dissipation at 0.48V (30fps QQVGA H.264 encoding for preview through ANT+).
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关键词
timing-optimized rom,advanced energy management,ulp mpu,pff,size 65 nm,ulv cell libraries,aem,frame buffer,video-recording soc,bandwidth-effective h.264 encoder,buffer storage,sram chips,data compression,external memory interfaces,low-power electronics,ultralow-voltage operation,wide-range voltage scaling,system-on-chip,video recording,custom-pulsed d flip-flops,video coding,hd720 h.264 encoding,on-chip peripherals,flip-flops,storage capacity 512 kbit,low-power cmos technology,read-only storage,voltage 0.48 v,leakage-aware 8t sram,cmos memory circuits,voltage 1.0 v,ultralow-power mpu,system on chip,low power electronics
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