heterogeneous technology alliance design of ultra-low-power µ-controler in near-threshold voltage
TRANSCRIPT
HeterogeneousTechnology
Alliance
Design of ultra-low-power µ-controler in near-threshold voltage.
The Heterogeneous Technology Alliance HTA
Design of ultra-low-power µ-controller in near-threshold voltage.
• Background
TRXOFDM
FHT1
FHT2
MEM
NoC Perf
80c51
DC-DC
2008
ALPIN 65 nmDynamic voltage scalingVdd HoppingUltra-cut-off
2010 (in collaboration with ST)
LOCOMOTIV 32 nmAdaptive Voltage & Frequency Scaling (AVFS), Distributed power control (CVP)Monitoring (TFS, TFR), Lightweight frequency generator (FLL)
2013 (in collaboration with ST)
FRISBEE 28 nm FDSOIUltra-Wide Voltage RangeAdaptive Body-BiasingAdvanced monitoring
The Heterogeneous Technology Alliance HTA
Design of ultra-low-power µ-controller in near-threshold voltage.
• On going collaborative projects
• CATRENE – DYNAMIC_ULP (2013-2015)
Power management in FDSOI
Power Management Building Blocks
• ENIAC PLACES2BE (2013-2016)
FDSOI technology
Ultra Wide Voltage Range memories
The Heterogeneous Technology Alliance HTA Project Idea: Design of ultra-low-power µ-controler in near-threshold voltage.
EU call:
Project Idea short description: Design of ultra-low-power µ-controller in near-threshold voltage.
Short Description:
Using FDSOI technology, for designing an efficient, best-in-class µcontroller-based computing at near threshold voltage for best dynamic AND static power efficiency without sacrificing performance
Potential Applications:
Internet of Things sensors for sensor networks,
Autonomous devices with energy harvesting
Competences needed:
ULV memory design
µcontroler system
Low-voltage I/O
Near-threshold design
Contact:
Hubs
Network infra
Nodes