Intern- AI-Driven Control & Intelligence

Position TitleSummer Intern – AI-Driven Control & IntelligencePosition Short DescriptionThe internship focuses on accelerating next-generation AI-driven control and intelligence development for advanced multi-phase power supply units (PSUs), including six-phase Vienna rectifier architectures for AI rack and data center applications. The intern will support AI/ML-based control development, coordinated multi-phase control strategies, adaptive mode switching, phase reconfiguration, modeling, and Model-in-Loop (MIL) validation activities. The role also includes contributing to invention disclosures, experimental datasets, and data-backed intellectual property generation supporting Vertiv's H3 innovation roadmap.Position SummaryWe are seeking a highly motivated summer intern to support advanced R&D activities in intelligent and AI-enabled control systems for next-generation AI infrastructure. The intern will work closely with research engineers to develop and validate control strategies for multi-phase Vienna rectifier-based PSU architectures targeting high-efficiency, scalable, and fault‑tolerant AI rack systems.The internship will emphasize AI-assisted control development, adaptive operational optimization, coordinated multi-phase control, and system-level modeling for advanced PSU architectures. The candidate will support simulation, Model-in-Loop (MIL) validation, data analysis, and prototype-oriented algorithm evaluation aimed at accelerating H3-to-H2 technology transition and strengthening the innovation and patent pipeline.ResponsibilitiesSupport development of AI/ML-based control algorithms for advanced multi-phase PSU architectures and six-phase Vienna rectifier systems.Assist in development and validation of:Multi‑phase coordinated control strategiesAdaptive mode switching methodsDynamic phase reconfiguration techniquesLoad‑aware intelligent power management algorithmsDevelop simulation models and reduced‑order models.Perform Model-in-Loop (MIL) validation and controller performance evaluation.Analyze transient, steady‑state, efficiency, thermal, and fault‑response behavior of advanced PSU systems.Generate and organize experimental/simulation datasets for AI‑driven control training and validation.Support prototype‑oriented feasibility studies and design validation activities.Collaborate with cross‑functional R&D teams working on H3 innovation initiatives for AI infrastructure and next‑generation technologies.QualificationsRequired QualificationsPursuing MS or PhD in:Electrical EngineeringMechanical EngineeringControl SystemsComputer EngineeringMechatronicsRelated engineering disciplineFamiliarity with simulation/modeling tools such as:MATLAB/SimulinkBasic programming experience in:PythonMATLABC/C++Strong analytical, problem‑solving, and technical communication skills.Preferred QualificationsExperience with:AI/ML control developmentDigital control implementationAI/ML-based control techniquesReinforcement learning or adaptive controlExposure to:Model‑in‑Loop (MIL)Hardware‑in‑Loop (HIL)Digital twin conceptsAI infrastructure or data center power systemsInterest in advanced R&D, innovation, and patent generation activities.Prior research publications or hands‑on laboratory experience in power electronics or intelligent control systems is a plus.Expected OutcomesAccelerated development of AI‑driven control frameworks for AI rack PSUs.Validated models and datasets supporting intelligent controller development.Improved readiness for H3 → H2 technology transition.Enhanced invention disclosure and patent generation pipeline.Faster evaluation of adaptive multi‑phase architectures and intelligent power delivery strategies.Equal Opportunity EmployerVertiv is an Equal Opportunity/Affirmative Action employer. We promote equal opportunities for all with respect to hiring, terms of employment, mobility, training, compensation, and occupational health, without discrimination as to age, race, color, religion, creed, sex, pregnancy status (including childbirth, breastfeeding, or related medical conditions), marital status, sexual orientation, gender identity / expression (including transgender status or sexual stereotypes), genetic information, citizenship status, national origin, protected veteran status, political affiliation, or disability. If you have a disability and are having difficulty accessing or using this website to apply for a position, you can request help by sending an email to help.join@vertiv.com.Work AuthorizationNo calls or agencies please. Vertiv will only employ those who are legally authorized to work in the United States. This is not a position for which sponsorship will be provided. Individuals with temporary visas such as E, F‑1, H‑1, H‑2, L, B, J, or TN or who need sponsorship for work authorization now or in the future, are not eligible for hire.#J-18808-Ljbffr

Position TitleSummer Intern – AI-Driven Control & IntelligencePosition Short DescriptionThe internship focuses on accelerating next-generation AI-driven control and intelligence development for advanced multi-phase power supply units (PSUs), including six-phase Vienna rectifier architectures for AI rack and data center applications. The intern will support AI/ML-based control development, coordinated multi-phase control strategies, adaptive mode switching, phase reconfiguration, modeling, and Model-in-Loop (MIL) validation activities. The role also includes contributing to invention disclosures, experimental datasets, and data-backed intellectual property generation supporting Vertiv's H3 innovation roadmap.Position SummaryWe are seeking a highly motivated summer intern to support advanced R&D activities in intelligent and AI-enabled control systems for next-generation AI infrastructure. The intern will work closely with research engineers to develop and validate control strategies for multi-phase Vienna rectifier-based PSU architectures targeting high-efficiency, scalable, and fault‑tolerant AI rack systems.The internship will emphasize AI-assisted control development, adaptive operational optimization, coordinated multi-phase control, and system-level modeling for advanced PSU architectures. The candidate will support simulation, Model-in-Loop (MIL) validation, data analysis, and prototype-oriented algorithm evaluation aimed at accelerating H3-to-H2 technology transition and strengthening the innovation and patent pipeline.ResponsibilitiesSupport development of AI/ML-based control algorithms for advanced multi-phase PSU architectures and six-phase Vienna rectifier systems.Assist in development and validation of:Multi‑phase coordinated control strategiesAdaptive mode switching methodsDynamic phase reconfiguration techniquesLoad‑aware intelligent power management algorithmsDevelop simulation models and reduced‑order models.Perform Model-in-Loop (MIL) validation and controller performance evaluation.Analyze transient, steady‑state, efficiency, thermal, and fault‑response behavior of advanced PSU systems.Generate and organize experimental/simulation datasets for AI‑driven control training and validation.Support prototype‑oriented feasibility studies and design validation activities.Collaborate with cross‑functional R&D teams working on H3 innovation initiatives for AI infrastructure and next‑generation technologies.QualificationsRequired QualificationsPursuing MS or PhD in:Electrical EngineeringMechanical EngineeringControl SystemsComputer EngineeringMechatronicsRelated engineering disciplineFamiliarity with simulation/modeling tools such as:MATLAB/SimulinkBasic programming experience in:PythonMATLABC/C++Strong analytical, problem‑solving, and technical communication skills.Preferred QualificationsExperience with:AI/ML control developmentDigital control implementationAI/ML-based control techniquesReinforcement learning or adaptive controlExposure to:Model‑in‑Loop (MIL)Hardware‑in‑Loop (HIL)Digital twin conceptsAI infrastructure or data center power systemsInterest in advanced R&D, innovation, and patent generation activities.Prior research publications or hands‑on laboratory experience in power electronics or intelligent control systems is a plus.Expected OutcomesAccelerated development of AI‑driven control frameworks for AI rack PSUs.Validated models and datasets supporting intelligent controller development.Improved readiness for H3 → H2 technology transition.Enhanced invention disclosure and patent generation pipeline.Faster evaluation of adaptive multi‑phase architectures and intelligent power delivery strategies.Equal Opportunity EmployerVertiv is an Equal Opportunity/Affirmative Action employer. We promote equal opportunities for all with respect to hiring, terms of employment, mobility, training, compensation, and occupational health, without discrimination as to age, race, color, religion, creed, sex, pregnancy status (including childbirth, breastfeeding, or related medical conditions), marital status, sexual orientation, gender identity / expression (including transgender status or sexual stereotypes), genetic information, citizenship status, national origin, protected veteran status, political affiliation, or disability. If you have a disability and are having difficulty accessing or using this website to apply for a position, you can request help by sending an email to help.join@vertiv.com.Work AuthorizationNo calls or agencies please. Vertiv will only employ those who are legally authorized to work in the United States. This is not a position for which sponsorship will be provided. Individuals with temporary visas such as E, F‑1, H‑1, H‑2, L, B, J, or TN or who need sponsorship for work authorization now or in the future, are not eligible for hire.#J-18808-Ljbffr

• 

• Government Careers