Online or onsite, instructor-led live Quantum Computing training courses demonstrate through interactive discussion and hands-on practice the fundamentals of Quantum Computing as participants progress through the development of simple quantum programs.
Quantum Computing training is available as "online live training" or "onsite live training." Online live training (also known as "remote live training") is conducted via an interactive, remote desktop. Onsite live training can be conducted locally at customer premises in Michigan or in Govtra corporate training centers in Michigan.
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Detroit, MI - Renaissance Center
400 Renaissance Center, Detroit, United States, 48243
The GM Renaissance Center is conveniently located in downtown Detroit and easily accessed by car via Interstates 75 or 94, with secure underground parking available on site. Travelers flying into Detroit Metropolitan Airport (DTW) can expect a 25–30 minute trip by taxi or rideshare via I‑94. Public transit is efficient: the Detroit People Mover stops directly at the Renaissance Center station, and DDOT routes 3 and 9 serve nearby Jefferson Avenue. Pedestrian skywalks provide safe indoor access from downtown hotels, parking garages, and the riverwalk.
Ann Arbor, MI – Regus - South State Commons I
2723 S State St, Ann Arbor, United States, 48104
Regus South State Commons I is conveniently located off I‑94 via Exit 177 (State Street), with easy access to downtown Ann Arbor and surrounding suburbs. The building offers free on-site surface parking for guests. From Detroit Metropolitan Airport (DTW), the venue can be reached in approximately 20–25 minutes by taxi or rideshare via I‑94 West. Local public transit service (TheRide) operates Route 24 along South State Street, with a stop within a short 2-minute walk of the building.
Grand Rapids, MI - Regus – Calder Plaza
250 Monroe Ave NW, Grand Rapids, United States, 49503
The venue sits centrally at 250 Monroe Avenue NW in downtown Grand Rapids, easily accessed by car via US‑131 or I‑196—with connections via Monroe or Ottawa exits—and offers shared underground and surface parking. From Gerald R. Ford International Airport, take I‑96 East then I‑196 West into the city; the drive is about 20 minutes. Public transit through Rapid bus routes stops near Monroe or Ottawa Avenue, just a short walk from the Regus entrance; the downtown area is pedestrian-friendly.
Lansing, MI - Regus - One Michigan Avenue
120 North Washington Square, Lansing, United States, 48933
The venue is located in the heart of Lansing’s central business district at 120 North Washington Square, easily accessible by car via I‑496 or US‑127 with convenient street parking and a nearby parking ramp. From Capital Region International Airport (LAN), the location is approximately a 12‑minute drive west via I‑96 and US‑127, with taxis and rideshares readily available. Public transit users can take CATA bus routes that stop just a block away on Washington or Grand Avenue, offering seamless access to the venue.
Quantum error correction is a foundational approach for ensuring reliable computation on noisy quantum hardware.
This instructor-led, live training (online or onsite) is aimed at advanced-level specialists who wish to design, test, and optimize fault-tolerant quantum algorithms using Google Willow for government applications.
On successful completion of this training, participants will be able to:
Apply quantum error correction principles using real and simulated Willow environments for government projects.
Construct and analyze logical qubits for fault-tolerant computation in public sector workflows.
Evaluate the performance of quantum codes under different noise models to enhance governance and accountability.
Develop workflows for scalable, resilient quantum algorithm design tailored for government use.
Format of the Course
Expert-led discussions supported by technical demonstrations aligned with public sector needs.
Extensive applied exercises focused on error correction and stability testing for government applications.
Hands-on experimentation with Google Willow in a dedicated quantum-lab environment designed for government use.
Course Customization Options
If your organization requires a tailored version of this training, please contact us for customization options to better align with specific public sector requirements.
Quantum cryptography is an emerging security paradigm that leverages the principles of quantum mechanics.
This instructor-led, live training (online or onsite) is aimed at intermediate-level specialists who wish to design secure systems using quantum-resistant and quantum-enhanced techniques on Google Willow for government applications.
Upon completion of this training, participants will be able to:
Build quantum-safe communication workflows using Google Willow.
Evaluate quantum threats to classical security protocols.
Apply quantum key distribution concepts to modern infrastructures for government.
Implement and test quantum-enhanced cryptographic primitives.
Format of the Course
Instructor-led presentations and guided discussions.
Extensive hands-on exercises and applied problem-solving.
Practical experimentation using Google Willow in a controlled lab setup for government.
Course Customization Options
To tailor this training to your organization’s needs, please contact us for customization options.
This instructor-led, live training in Michigan (online or onsite) is designed for government participants at the beginner level who wish to gain a foundational understanding of quantum computing, explore Google Willow’s capabilities, and learn how to initiate quantum programming efforts.
By the end of this training, participants will be able to:
Comprehend the core principles of quantum computing and qubits.
Examine Google Willow and its advancements in quantum error correction.
Develop and execute basic quantum programs using Qiskit.
Recognize practical applications of quantum computing for government use cases.
This instructor-led, live training in Michigan (online or onsite) is designed for government business and technology leaders at beginner to intermediate levels who seek to understand the fundamentals of quantum computing and its potential impact on industries such as cryptography, logistics, and financial modeling. Participants will learn how quantum computing could be applied within their sectors.
By the end of this training, participants will be able to:
Comprehend the fundamental principles of quantum computing, including qubits and quantum entanglement.
Identify potential applications of quantum computing in cryptography, logistics, and financial modeling for government operations.
Gain insights into the current limitations and future developments of quantum technology for government use.
Understand the basics of quantum algorithms and their impact on addressing business challenges within public sector workflows.
This instructor-led, live training in Michigan (online or onsite) is designed for advanced-level professionals who seek to leverage quantum computing to enhance artificial intelligence capabilities for government.
By the end of this training, participants will be able to:
Understand hybrid AI-quantum systems and their potential applications in public sector workflows.
Implement quantum machine learning algorithms aligned with government standards.
Optimize AI models using quantum computing resources for enhanced governance and accountability.
Overcome challenges in scaling and integrating quantum AI systems within government operations.
This instructor-led, live training in Michigan (online or onsite) is aimed at beginner to intermediate-level AI professionals and researchers who wish to gain a foundational understanding of Quantum AI and its potential applications for government.
By the end of this training, participants will be able to:
Comprehend the fundamental principles of quantum mechanics as they pertain to quantum computing.
Understand the mechanisms of quantum algorithms and their implementation in practical scenarios.
Identify the transformative potential of Quantum AI across various industries, including public sector operations.
Construct a basic quantum machine learning model to address specific challenges for government.
Assess the ethical and technical challenges associated with Quantum AI in governmental contexts.
ProjectQ is an open-source quantum computing software framework in Python that enables users to design and translate quantum circuits into multiple backend quantum hardware or simulators. The framework supports advanced optimizations, compiler engines, and back-end targeting.
This instructor-led, live training (online or onsite) is aimed at intermediate-level developers who wish to understand and apply ProjectQ for practical quantum programming and back-end translation in a government context.
By the end of this training, participants will be able to:
Describe the architecture and purpose of ProjectQ for government applications.
Write quantum circuits using ProjectQ’s Python API.
Utilize ProjectQ’s compiler engines and optimizations.
Target different quantum back ends or simulators using ProjectQ.
Format of the Course
Interactive lecture and discussion.
Hands-on coding exercises and circuit building.
Live-lab implementation targeting simulator or hardware back ends.
Course Customization Options
To request a customized training for this course, please contact us to arrange.
In this instructor-led, live training in Michigan, participants will learn the fundamentals of quantum computing as they develop algorithms targeted for government use on quantum computers.
By the end of this training, participants will be able to:
Set up the necessary development environment to start creating quantum circuits for government applications.
Control gate behavior using the native counterpart of the gate.
Improve qubit inaccuracies using Cirq for government-specific tasks.
Write and execute a quantum circuit to run against a NISQ-based quantum computer simulator, tailored for government use.
This instructor-led, live training in Michigan (online or onsite) is designed for government computer scientists and engineers who wish to understand the principles behind quantum computing and apply them in developing algorithms for quantum computer implementations.
By the end of this training, participants will be able to:
Comprehend the fundamental concepts of quantum computing.
Apply quantum physics principles to computational methods.
Develop algorithms for quantum computers.
Efficiently solve computational problems using quantum computers.
Integrate quantum behaviors into existing computational models.
Recognize the potential of quantum computing in advancing other technologies.
In this instructor-led, live training in Michigan, participants will gain an understanding of the fundamentals of quantum computing and Q# as they work through the development of simple quantum programs for government use.
By the end of this training, participants will be able to:
Install and configure Microsoft’s Quantum Development Kit for government applications.
Comprehend the principles underlying quantum computing.
Develop, test, execute, and troubleshoot a quantum program using Q#, Visual Studio, and a local quantum computing simulator tailored for government needs.
This instructor-led, live training in Michigan (online or onsite) is aimed at computer scientists who wish to create, edit, and invoke a quantum circuit using IBM Quantum Experience for government.
By the end of this training, participants will be able to:
Set up the necessary development environment to start creating quantum circuits for government use.
Enhance the accuracy of qubits using IBM Quantum Experience and its simulations.
Manage gate behavior through the use of native gate counterparts.
Schedule the timing of gate events effectively.
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Testimonials (1)
Quantum computing algorithms and related theoretical background know-how of the trainer is excellent. Especially I'd like to emphasize his ability to detect exactly when I was struggling with the material presented, and he provided time&support for me to really understand the topic - that was great and very beneficial! Virtual setup with Zoom worked out very well, as well as arrangements regarding training sessions and breaks sequences. It was a lot of material/theory to cover in "only" 2 days, wo the trainer had nicely adjusted the amount according to the progress related to my understanding of the topics. Maybe planning 3 days for absolute beginners would be better to cover all the material and content outlined in the agenda. I very much liked the flexibility of the trainer to answer my specific questions to the training topics, even additionally coming back after the breaks with more explanation in case neccessary. Big thank you again for the sessions! Well done!
Giorgi Ediberidze
Course - Quantum Computing with IBM Quantum Experience
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