Inventor profile of:

Christopher Chamberland

City:

Austin, Texas

Country:

United States

Published Applications:

18

Last publication date:

2026-05-07

Top Assignees for applications by Christopher Chamberland

The entities that hold a legal rights for patent applications filed by inventor Chamberland Christopher:

Recent patent applications by Chamberland Christopher

Christopher Chamberland from Austin, US has applied for patents for these inventions. The list has both pending applications and granted patents:

#1 | 2026-05-07
US20260127244A1
Physics

THERMODYNAMIC COMPUTING SWISH GADGET

#2 | 2025-12-25
US20250390751A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO TRAIN PARAMETERS BASED ON DIFFUSION RECOVERY LIKELIHOOD

#3 | 2025-12-25
US20250390737A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO UPDATE WEIGHTS AND BIASES BASED ON GRADIENT VALUES OBTAINED BY RELAY OSCILLATORS

#4 | 2025-12-25
US20250390640A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO EMULATE DEEP NEURAL DIFFUSION

#5 | 2025-12-04
US20250373202A1
Electricity

THERMODYNAMIC COMPUTING RELAY GADGET FOR MULTI-WELL POTENTIALS

#6 | 2025-09-11
US20250284999A1
Physics

SELECTION OF EXPERTS ENERGY BASED MODEL GADGET

#7 | 2025-09-11
US20250284998A1
Physics

MIXTURE OF EXPERTS ENERGY BASED MODEL GADGET

#8 | 2025-09-11
US20250284959A1
Physics

THERMODYNAMIC COMPUTING MEAN-FIELD FORWARDS AND BACKWARDS PROPAGATION

#9 | 2025-09-11
US20250284949A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO IMPLEMENT TRANSFORMER BASED ARCHITECTURE

#10 | 2025-09-11
US20250284948A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO IMPLEMENT LAYER NORMALIZATION ARCHITECTURE

#11 | 2025-09-11
US20250284947A1
Physics

THERMODYNAMIC COMPUTING SOFTMAX GADGET

#12 | 2025-09-11
US20250284867A1
Physics

THERMODYNAMIC COMPUTING RELAY GADGET

#13 | 2025-09-11
US20250284562A1
Physics

GIBBS SAMPLING METHODS USING THERMODYNAMIC COMPUTING

#14 | 2025-07-24
US20250238675A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO DETERMINE UPDATED WEIGHTS AND BIASES USING MEASUREMENTS OF ANCILLA OSCILLATORS

#15 | 2025-07-24
US20250238670A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO USE NATURAL GRADIENT DESCENT TECHNIQUES TO DETERMINE UPDATED WEIGHTS AND BIASES

#16 | 2025-07-24
US20250238667A1
Physics

THERMODYNAMIC COMPUTING SYSTEM CONFIGURED TO DETERMINE GRADIENTS USED TO UPDATE WEIGHTS AND BIASES BASED ON MEASURED RESULTS OF SYNAPSE OSCILLATORS

#17 | 2025-05-22
US20250165761A1
Physics

SELF-LEARNING THERMODYNAMIC COMPUTING SYSTEM

#18 | 2024-11-21
US20240386304A1
Physics

HIGH-FIDELITY MEASUREMENT OF BOSONIC MODES

InventorID:

6845587 ⎘