Title :
A 10.35 mW/GFlop stacked SAR DSP unit using fine-grain partitioned 3D integration
Author :
Thorolfsson, Thor ; Lipa, Steve ; Franzon, Paul D.
Abstract :
In this paper we present a technique for implementing a fine-grain partitioned three-dimensional SAR DSP system using 3D placement of standard cells where only one of the 3D tiers is clocked to reduce clock power. We show how this technique was used to build the first fine-grain partitioned 3D integrated system to be demonstrated with silicon measurements in the literature, which is an ultra efficient floating-point synthetic aperture radar (SAR) DSP processing unit. The processing unit was fabricated in two tiers of GlobalFoundries, 1.5 V 130nm process that were 3D stacked face-to-face by Tezzaron. After fabrication the test chip was measured to consume 4.14 mW of power while running at 40 MHz operating for an operating efficiency of 10.35 mW/GFlop.
Keywords :
digital signal processing chips; synthetic aperture radar; 3D placement; 3D tiers; clock power; fine grain partitioned 3D SAR DSP system; fine grain partitioned 3D integrated system; fine grain partitioned 3D integration; floating point synthetic aperture radar DSP processing unit; frequency 40 MHz; power 4.14 mW; silicon measurement; size 130 nm; stacked SAR DSP unit; standard cells; test chip; voltage 1.5 V; Clocks; Design automation; Digital signal processing; Integrated circuits; Semiconductor device measurement; Standards; Synthetic aperture radar;
Conference_Titel :
Custom Integrated Circuits Conference (CICC), 2012 IEEE
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4673-1555-5
Electronic_ISBN :
0886-5930
DOI :
10.1109/CICC.2012.6330589
