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Quantum Computing patent applications on 2025-07-03: Difference between revisions

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Technology trend analysis for Quantum Computing patent applications on 2025-07-03
 
Technology trend analysis for Quantum Computing patent applications on 2025-07-03
 
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= Quantum Computing Patent Applications on July 03, 2025 =
= Quantum Computing Patent Applications on July 03 2025 =


This page analyzes '''{{formatnum:10}}''' patent applications related to Quantum Computing published on July 03, 2025.
== Executive Summary ==
 
On July 03 2025, '''{{formatnum:10}}''' patent applications related to Quantum Computing were published, representing 0.1% of all patent applications for the day. While representing a smaller percentage, this activity indicates emerging innovation in Quantum Computing.
 
== Market Analysis ==
 
=== Leading Organizations ===
 
The top organizations driving Quantum Computing innovation include:
 
* '''[[International Business Machines Corporation patent applications on 2025-07-03|International Business Machines Corporation]]''': 1 applications (10.0% of Quantum Computing patents)
* '''[[Bank of America Corporation patent applications on 2025-07-03|Bank of America Corporation]]''': 1 applications (10.0% of Quantum Computing patents)
* '''[[Dell Products L.P. patent applications on 2025-07-03|Dell Products L.P.]]''': 1 applications (10.0% of Quantum Computing patents)
* '''[[THE UNIVERSITY OF CHICAGO patent applications on 2025-07-03|THE UNIVERSITY OF CHICAGO]]''': 1 applications (10.0% of Quantum Computing patents)
* '''[[MASSACHUSETTS INSTITUTE OF TECHNOLOGY patent applications on 2025-07-03|MASSACHUSETTS INSTITUTE OF TECHNOLOGY]]''': 1 applications (10.0% of Quantum Computing patents)
 
These 5 organizations account for 5 applications (50.0% of all Quantum Computing patents), indicating moderate concentration in the field.
 
== Technology Deep Dive ==
 
=== Core Innovation Areas ===
 
Patent applications in Quantum Computing encompass several key innovation areas:
 
* '''[https://wikipatents.org/index.php?search=quantum+computing Quantum Computing]''': Core technology area
* '''[https://wikipatents.org/index.php?search=quantum+processor Quantum Processor]''': Core technology area
* '''[https://wikipatents.org/index.php?search=qubit Qubit]''': Core technology area
* '''[https://wikipatents.org/index.php?search=quantum+algorithm Quantum Algorithm]''': Core technology area
* '''[https://wikipatents.org/index.php?search=quantum+gate Quantum Gate]''': Core technology area
* '''[https://wikipatents.org/index.php?search=quantum+circuit Quantum Circuit]''': Core technology area
* '''[https://wikipatents.org/index.php?search=quantum+error Quantum Error]''': Core technology area
* '''[https://wikipatents.org/index.php?search=quantum+entanglement Quantum Entanglement]''': Core technology area
 
Emerging areas include:
 
* '''[https://wikipatents.org/index.php?search=quantum+superposition Quantum Superposition]''': Developing technology
* '''[https://wikipatents.org/index.php?search=quantum+annealing Quantum Annealing]''': Developing technology
* '''[https://wikipatents.org/index.php?search=quantum+supremacy Quantum Supremacy]''': Developing technology
 
=== Technical Classification Analysis ===
 
The most active CPC classifications in Quantum Computing include:
 
* '''[[CPC G06N10/70|G06N10/70]]''' (Quantum error correction, detection or prevention, e.g. surface codes or magic state distillation): 4 applications (40.0%)
* '''[[CPC G06N10/40|G06N10/40]]''' (Physical realisations or architectures of quantum processors or components for manipulating qubits, e.g. qubit coupling or qubit control): 3 applications (30.0%)
* '''[[CPC G06N10/60|G06N10/60]]''' (Quantum algorithms, e.g. based on quantum optimisation, quantum Fourier or Hadamard transforms): 2 applications (20.0%)
* '''[[CPC G06N10/20|G06N10/20]]''' (Models of quantum computing, e.g. quantum circuits or universal quantum computers): 2 applications (20.0%)
* '''[[CPC G06F11/3608|G06F11/3608]]''' ({using formal methods, e.g. model checking, abstract interpretation  (theorem proving): 1 applications (10.0%)
* '''[[CPC G06F21/31|G06F21/31]]''' (User authentication): 1 applications (10.0%)
* '''[[CPC G06N5/022|G06N5/022]]''' (Knowledge representation; Symbolic representation): 1 applications (10.0%)
* '''[[CPC G06N10/80|G06N10/80]]''' (Quantum programming, e.g. interfaces, languages or software-development kits for creating or handling programs capable of running on quantum computers; Platforms for simulating or accessing quantum computers, e.g. cloud-based quantum computing): 1 applications (10.0%)
* '''[[CPC G16C10/00|G16C10/00]]''' (Computational theoretical chemistry, i.e. ICT specially adapted for theoretical aspects of quantum chemistry, molecular mechanics, molecular dynamics or the like): 1 applications (10.0%)
* '''[[CPC G06F17/16|G06F17/16]]''' (Matrix or vector computation {, e.g. matrix-matrix or matrix-vector multiplication, matrix factorization  (matrix transposition): 1 applications (10.0%)
 
=== Global Innovation Landscape ===
 
Innovation in Quantum Computing spans multiple countries:
 
* '''[[Inventors from US|US]]''': 14 inventors (45.2%)
* '''[[Inventors from KR|KR]]''': 6 inventors (19.4%)
* '''[[Inventors from ES|ES]]''': 3 inventors (9.7%)
* '''[[Inventors from BR|BR]]''': 3 inventors (9.7%)
* '''[[Inventors from IN|IN]]''': 3 inventors (9.7%)
* '''[[Inventors from GB|GB]]''': 1 inventors (3.2%)
* '''[[Inventors from CN|CN]]''': 1 inventors (3.2%)
 
The United States accounts for 45.2% of inventors in Quantum Computing, showing significant but not dominant innovation activity.
 
=== Industry Collaborations ===
 
Notable collaborations in Quantum Computing include:
 
* '''[[THE UNIVERSITY OF CHICAGO patent applications on 2025-07-03|THE UNIVERSITY OF CHICAGO]]''' Γ— '''[[MASSACHUSETTS INSTITUTE OF TECHNOLOGY patent applications on 2025-07-03|MASSACHUSETTS INSTITUTE OF TECHNOLOGY]]''': 1 joint applications
 
These collaborations represent 1 joint applications, indicating moderate industry cooperation in Quantum Computing.
 
=== Leading Inventors ===
 
Key inventors driving Quantum Computing innovation:
 
* '''[[:Category:David Kremer Garcia|David Kremer Garcia]]''': 1 applications
* '''[[:Category:Alexandra Rivero GarcΓ­a|Alexandra Rivero GarcΓ­a]]''': 1 applications
* '''[[:Category:Juan Cruz Benito|Juan Cruz Benito]]''': 1 applications
* '''[[:Category:Ivan Duran Martinez|Ivan Duran Martinez]]''': 1 applications
* '''[[:Category:Francisco Jose Martin Fernandez|Francisco Jose Martin Fernandez]]''': 1 applications
* '''[[:Category:Ismael Faro Sertage|Ismael Faro Sertage]]''': 1 applications
* '''[[:Category:Michael Young|Michael Young]]''': 1 applications
* '''[[:Category:Manu Kurian|Manu Kurian]]''': 1 applications
* '''[[:Category:Ana Maxim|Ana Maxim]]''': 1 applications
* '''[[:Category:Diego Vrague Noble|Diego Vrague Noble]]''': 1 applications
 
=== Recent Patent Applications ===
 
Representative Quantum Computing patent applications from July 03 2025:
 
==== 20250217267. CHARACTERIZATION, ANALYSIS AND CATEGORIZATION OF QUANTUM PROGRAMS WITHOUT EXECUTING THEM ====
'''Applicant:''' International Business Machines Corporation
 
'''Abstract:''' Various systems and methods are presented herein regarding automatically utilizing characterized codes to characterize an undefined code. The undefined code can be computer instructions for implementa...
 
==== 20250217458. TRACKING QUANTUM-BASED INTERACTIONS ====
'''Applicant:''' Bank of America Corporation
 
'''Abstract:''' Systems, methods, and apparatus are provided for tracking user interactions in a quantum system. An authentication persona may be routed to a quantum processor. The quantum processor may generate a vi...
 
==== 20250217668. SAVING QUBITS BY OPTIMIZING ONE-HOT ENCODING GRANULARITY, RANGE, AND POINT DISTRIBUTION ====
'''Applicant:''' Dell Products L.P.
 
'''Abstract:''' A machine learning model is trained, using historical data, to generate distributions for integer variables of a problem. When a new problem or problem instance is presented, the model is used to pred...
 
==== 20250217687. OPTICALLY ADDRESSABLE MOLECULAR-SPIN QUBIT DILUTED IN A HOST MATRIX ====
'''Applicant:''' THE UNIVERSITY OF CHICAGO, MASSACHUSETTS INSTITUTE OF TECHNOLOGY


== Executive Summary ==
'''Abstract:''' A molecular-spin qubit includes a molecular color center having a ground state and an excited state. The ground state has non-zero spin with at least first and second sublevels. The molecular-spin qub...
 
==== 20250217688. Privacy-Preserving Quantum Computation Using Masked Quantum Circuit ====
'''Applicant:''' Google LLC
 
'''Abstract:''' Systems and methods for quantum computation are provided. In one example, performing quantum computation using a masked circuit can include obtaining, by a classical computing system, data indicative ...
 
== Market Implications ==


Quantum Computing represents 0.1% of all patent applications published on this date, indicating emerging innovation activity in this sector.
=== Innovation Intensity ===


== Key Technology Areas in Quantum Computing ==
With 10 applications, Quantum Computing shows moderate innovation activity, indicating steady technological progress and emerging market opportunities.


Patent applications in Quantum Computing typically involve innovations related to:
=== Competitive Landscape ===


* Quantum Computing
Innovation in Quantum Computing involves 11 organizations, indicating moderate competition with multiple established players and emerging companies.
* Quantum Processor
* Qubit
* Quantum Algorithm
* Quantum Gate
* Quantum Circuit
* Quantum Error
* Quantum Entanglement
* Quantum Superposition
* Quantum Annealing


== Market and Industry Implications ==
=== Technology Outlook ===


The level of patent activity in Quantum Computing suggests:
Emerging themes in Quantum Computing patents include: quantum, matrix, computing, code, state, suggesting future development in these areas.


* '''Emerging Field''': Quantum Computing represents early-stage innovation
The current patent activity level suggests Quantum Computing is in a early development phase with emerging applications and technologies.
* '''Future Potential''': Technology may see increased activity over time
* '''Niche Applications''': Focused on specific use cases or applications


== Related Technology Areas ==
== Related Technology Areas ==


Innovation in Quantum Computing often intersects with:
Innovation in Quantum Computing often intersects with other emerging technologies:


* [[Augmented Reality patent applications on 2025-07-03|Augmented Reality]] (7256 applications)
* '''[[Augmented Reality patent applications on 2025-07-03|Augmented Reality]]''': 7256 applications
* [[Semiconductors patent applications on 2025-07-03|Semiconductors]] (1504 applications)
* '''[[Semiconductors patent applications on 2025-07-03|Semiconductors]]''': 1504 applications
* [[Medical Devices patent applications on 2025-07-03|Medical Devices]] (235 applications)
* '''[[Medical Devices patent applications on 2025-07-03|Medical Devices]]''': 235 applications
* [[5G Technology patent applications on 2025-07-03|5G Technology]] (177 applications)
* '''[[5G Technology patent applications on 2025-07-03|5G Technology]]''': 177 applications
* [[Generative AI patent applications on 2025-07-03|Generative AI]] (115 applications)
* '''[[Generative AI patent applications on 2025-07-03|Generative AI]]''': 115 applications
* '''[[Renewable Energy patent applications on 2025-07-03|Renewable Energy]]''': 95 applications
* '''[[Autonomous Vehicles patent applications on 2025-07-03|Autonomous Vehicles]]''': 86 applications
* '''[[Cybersecurity patent applications on 2025-07-03|Cybersecurity]]''': 76 applications


== Innovation Timeline and Trends ==
== Analysis Tools ==


Patent applications in Quantum Computing reflect ongoing technological development cycles:
=== Search Resources ===


* '''Current Activity''': 10 applications published on July 03, 2025
* [https://wikipatents.org/index.php?search=Quantum+Computing+20250703 Search all Quantum Computing patents from July 03 2025]
* '''Technology Maturity''': Emerging stage
* [https://wikipatents.org/index.php?search=Quantum+Computing Browse all Quantum Computing patents]
* '''Innovation Intensity''': Low volume of new applications
* [[Special:CategoryTree/Quantum Computing Patent Applications|Browse by category]]


== See Also ==
== See Also ==


* [[Weekly Patent Application Summary]]
* [[20250703 Patent Applications Report for July 03 2025|Weekly Patent Summary]]
* [[Technology Trends in Patent Applications]]
* [[Technology Trends in Patent Applications]]
* [[Quantum Computing Industry Analysis]]
* [[Quantum Computing Industry Analysis]]
* [[Patent Analytics and Trends]]


[[Category:Quantum Computing]]
[[Category:Quantum Computing]]
[[Category:Quantum Computing Patent Applications]]
[[Category:Quantum Computing Patent Applications]]
[[Category:Technology Trends 2025]]
[[Category:Technology Trends 2025]]
[[Category:Patent Applications July 03, 2025]]
[[Category:Patent Applications July 03 2025]]
[[Category:Weekly Reports 2025]]

Latest revision as of 16:06, 7 July 2025

Quantum Computing Patent Applications on July 03 2025

Executive Summary

On July 03 2025, 10 patent applications related to Quantum Computing were published, representing 0.1% of all patent applications for the day. While representing a smaller percentage, this activity indicates emerging innovation in Quantum Computing.

Market Analysis

Leading Organizations

The top organizations driving Quantum Computing innovation include:

These 5 organizations account for 5 applications (50.0% of all Quantum Computing patents), indicating moderate concentration in the field.

Technology Deep Dive

Core Innovation Areas

Patent applications in Quantum Computing encompass several key innovation areas:

Emerging areas include:

Technical Classification Analysis

The most active CPC classifications in Quantum Computing include:

  • G06N10/70 (Quantum error correction, detection or prevention, e.g. surface codes or magic state distillation): 4 applications (40.0%)
  • G06N10/40 (Physical realisations or architectures of quantum processors or components for manipulating qubits, e.g. qubit coupling or qubit control): 3 applications (30.0%)
  • G06N10/60 (Quantum algorithms, e.g. based on quantum optimisation, quantum Fourier or Hadamard transforms): 2 applications (20.0%)
  • G06N10/20 (Models of quantum computing, e.g. quantum circuits or universal quantum computers): 2 applications (20.0%)
  • G06F11/3608 ({using formal methods, e.g. model checking, abstract interpretation (theorem proving): 1 applications (10.0%)
  • G06F21/31 (User authentication): 1 applications (10.0%)
  • G06N5/022 (Knowledge representation; Symbolic representation): 1 applications (10.0%)
  • G06N10/80 (Quantum programming, e.g. interfaces, languages or software-development kits for creating or handling programs capable of running on quantum computers; Platforms for simulating or accessing quantum computers, e.g. cloud-based quantum computing): 1 applications (10.0%)
  • G16C10/00 (Computational theoretical chemistry, i.e. ICT specially adapted for theoretical aspects of quantum chemistry, molecular mechanics, molecular dynamics or the like): 1 applications (10.0%)
  • G06F17/16 (Matrix or vector computation {, e.g. matrix-matrix or matrix-vector multiplication, matrix factorization (matrix transposition): 1 applications (10.0%)

Global Innovation Landscape

Innovation in Quantum Computing spans multiple countries:

  • US: 14 inventors (45.2%)
  • KR: 6 inventors (19.4%)
  • ES: 3 inventors (9.7%)
  • BR: 3 inventors (9.7%)
  • IN: 3 inventors (9.7%)
  • GB: 1 inventors (3.2%)
  • CN: 1 inventors (3.2%)

The United States accounts for 45.2% of inventors in Quantum Computing, showing significant but not dominant innovation activity.

Industry Collaborations

Notable collaborations in Quantum Computing include:

These collaborations represent 1 joint applications, indicating moderate industry cooperation in Quantum Computing.

Leading Inventors

Key inventors driving Quantum Computing innovation:

Recent Patent Applications

Representative Quantum Computing patent applications from July 03 2025:

20250217267. CHARACTERIZATION, ANALYSIS AND CATEGORIZATION OF QUANTUM PROGRAMS WITHOUT EXECUTING THEM

Applicant: International Business Machines Corporation

Abstract: Various systems and methods are presented herein regarding automatically utilizing characterized codes to characterize an undefined code. The undefined code can be computer instructions for implementa...

20250217458. TRACKING QUANTUM-BASED INTERACTIONS

Applicant: Bank of America Corporation

Abstract: Systems, methods, and apparatus are provided for tracking user interactions in a quantum system. An authentication persona may be routed to a quantum processor. The quantum processor may generate a vi...

20250217668. SAVING QUBITS BY OPTIMIZING ONE-HOT ENCODING GRANULARITY, RANGE, AND POINT DISTRIBUTION

Applicant: Dell Products L.P.

Abstract: A machine learning model is trained, using historical data, to generate distributions for integer variables of a problem. When a new problem or problem instance is presented, the model is used to pred...

20250217687. OPTICALLY ADDRESSABLE MOLECULAR-SPIN QUBIT DILUTED IN A HOST MATRIX

Applicant: THE UNIVERSITY OF CHICAGO, MASSACHUSETTS INSTITUTE OF TECHNOLOGY

Abstract: A molecular-spin qubit includes a molecular color center having a ground state and an excited state. The ground state has non-zero spin with at least first and second sublevels. The molecular-spin qub...

20250217688. Privacy-Preserving Quantum Computation Using Masked Quantum Circuit

Applicant: Google LLC

Abstract: Systems and methods for quantum computation are provided. In one example, performing quantum computation using a masked circuit can include obtaining, by a classical computing system, data indicative ...

Market Implications

Innovation Intensity

With 10 applications, Quantum Computing shows moderate innovation activity, indicating steady technological progress and emerging market opportunities.

Competitive Landscape

Innovation in Quantum Computing involves 11 organizations, indicating moderate competition with multiple established players and emerging companies.

Technology Outlook

Emerging themes in Quantum Computing patents include: quantum, matrix, computing, code, state, suggesting future development in these areas.

The current patent activity level suggests Quantum Computing is in a early development phase with emerging applications and technologies.

Related Technology Areas

Innovation in Quantum Computing often intersects with other emerging technologies:

Analysis Tools

Search Resources

See Also

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