Developing energy-efficient attention mechanisms for scalable transformer models in edge computing
attention mechanisms
transformers
edge computing
energy efficiency
model optimization
Reducing energy consumption in data centers with magnetic skyrmion-based interconnects
magnetic skyrmions
energy efficiency
data centers
interconnects
spintronics
In attojoule energy regimes for ultra-low-power quantum computing components
quantum computing
attojoule
energy efficiency
nanoscale devices
low-power electronics
For photonic quantum memory with sub-nanosecond access times
quantum memory
photonics
nanosecond access
quantum computing
light-matter interaction
Optimizing energy-efficient attention mechanisms for real-time edge computing applications
edge AI
attention mechanisms
energy efficiency
real-time processing
neural networks
Scaling sparse mixture-of-experts models for sustainable large language model training
mixture-of-experts
LLMs
efficient training
sparse models
neural scaling
Exploring quantum entanglement dynamics in transition metal dichalcogenide channels
quantum entanglement
transition metal dichalcogenides
layered materials
quantum computing
electron dynamics
Optimizing quantum coherence times via backside power delivery networks in superconducting qubits
quantum coherence
backside power delivery
superconducting qubits
noise reduction
cryogenic electronics
Spin relaxation timescales in unconventional methodologies for quantum computing initialization
spin relaxation
quantum initialization
qubit stability
coherence time
magnetic control
Measuring quantum decoherence at millikelvin thermal states in topological qubits
quantum computing
millikelvin physics
topological qubits
decoherence
cryogenics
Optimizing neural networks with energy-efficient attention mechanisms for edge devices
energy-efficient AI
attention mechanisms
edge computing
model compression
transformer architectures
At millikelvin thermal states for probing quantum coherence in superconductors
millikelvin temperatures
quantum coherence
superconductors
quantum computing
low-temperature physics