The Laser Pulse Detector is a fully integrated mixed-signal IP detecting bit-flipping attacks.
Fully integrated mixed-signal IP detecting bit-flipping attacks
Overview
Key Features
- analog-based architecture packaged as a standard cell
- straightforward integration within the digital logic area
- full-custom layout optimized for an hyper sensitivity to laser pulses
- detection threshold lower than bit-flipping energy levels
- form factor equivalent to that of 2.5 NAND2 gates
- typical characteristics of a 55 nm CMOS implementation:
- power supply voltage range: 1.2 V ±10%
- operating junction temperature range: -40°C to 125°C
- typical operating current smaller than 100 pA
- Y dimension: 1.4 µm (height of a standard cell)
- X dimension: 1.8 µm (length of 2.5 NAND2 gates)
- silicon proven in a 55 nm CMOS process
- successfully evaluated by a security laboratory
Benefits
- High sensitivity
- Standard cell like
- Ultra low power
- Very compact
- Easy integration
Deliverables
- GDSII stream and layer map file
- Library Exchange Format (LEF) file
- Circuit Description Language (CDL) netlist
- Liberty Timing File (.lib and .db)
- VHDL behavioral model
- design specification
Technical Specifications
Maturity
Silicon-proven
Availability
Available
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