Title :
A 460 MHz at 397 mV, 2.6 GHz at 1.3 V, 32 bits VLIW DSP Embedding F MAX Tracking
Author :
Beigne, Edith ; Valentian, Alexandre ; Miro-Panades, Ivan ; Wilson, Richard ; Flatresse, Philippe ; Abouzeid, Fady ; Benoist, Thomas ; Bernard, Christian ; Bernard, Sebastien ; Billoint, O. ; Clerc, Sylvain ; Giraud, Bastien ; Grover, Anuj ; Le Coz, Julie
Author_Institution :
MINATEC, CEA-LETI DACLE, Grenoble, France
Abstract :
Wide voltage range operation for DSPs brings more versatility to achieve high energy efficiency in mobile applications. This paper describes a 32 bits DSP fabricated in 28 nm Ultra Thin Body and Box FDSOI technology. Body Biasing Voltage (VBB) scaling from 0 V up to ±2 V decreases the core VDDMIN to 397 mV and increases clock frequency by +400%@500 mV and +114%@1.3 V. The DSP frequency measurements show 2.6 GHz@1.3 V(VDD)@2 V(VBB) and 460 MHz@397 mV(VDD)@2 V(VBB). The lowest peak energy efficiency is measured at 62 pJ/op at 0.53 V. In addition to technological gains, maximum frequency tracking design techniques are proposed for wide voltage range operation. On silicon, at 0.6 V, those techniques allow high energy gain of 40.6% w.r.t. a worst case corner approach.
Keywords :
digital signal processing chips; embedded systems; energy conservation; silicon-on-insulator; DSP frequency measurements; VBB; VLIW DSP embedding maximum frequency tracking; body biasing voltage scaling; energy efficiency; frequency 2.6 GHz; frequency 460 MHz; high energy gain; maximum frequency tracking design techniques; size 28 nm; ultra thin body-box FDSOI technology; voltage 0.6 V; voltage 1.3 V; voltage 397 mV; voltage 500 mV; word length 32 bit; Clocks; Delays; Digital signal processing; Logic gates; Threshold voltage; VLIW; FDSOI; high energy efficiency; low power; low voltage; timing fault sensors;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2014.2369503
