A 65-nm CMOS Lossless Bio-Signal Compression Circuit With 250 FemtoJoule Performance Per Bit.
Christopher Crispin-BaileyChengliang DaiJim AustinPublished in: IEEE Trans. Biomed. Circuits Syst. (2019)
Keyphrases
- cmos technology
- nm technology
- image compression
- power consumption
- silicon on insulator
- lossless compression
- low power
- metal oxide semiconductor
- clock gating
- circuit design
- high speed
- low voltage
- power dissipation
- lossy compression
- random access memory
- analog vlsi
- delay insensitive
- compression ratio
- predictive coding
- duty cycle
- data compression
- arithmetic coding
- lempel ziv
- jpeg ls
- progressive transmission
- multidimensional signals
- signal processing
- vlsi circuits
- lossless coding
- compression algorithm
- flip flops
- low cost
- video signals
- compression scheme
- compression standards
- frequency domain
- mixed signal
- frequency response
- integrated circuit
- power reduction
- high frequency
- image quality
- analog to digital converter
- compressive sensing
- image sensor
- sigma delta
- integer wavelet transform
- ibm power processor
- lossless image compression
- wavelet transform