Our Members

Accenture is a global leader in Artificial Intelligence (AI) and Mission Reinvention, employing over 779,000 strategists, technologists, and domain experts across 120+ countries to serve 9,000+ clients in nearly all major industries and core business functions. Accenture Federal Services, our U.S.-based company, brings these capabilities to missions of national importance. With more than 13,000 people and 40+ years of experience supporting the U.S. Government, we deliver technology-driven outcomes while meeting stringent security and compliance requirements. We have been a trusted partner of the U.S. Department of Energy (DOE) and National Laboratories for more than 10 years, Across the scientific sector, our portfolio spans nearly every federal scientific agency, with active partnerships across DOE HQ, NNSA, the national labs, NSF, NOAA, CDC, NIH, USSF, VA, USPTO, DOD, NIST, NASA, and USAF. At DOE, this includes our CBOSS BPA, which continues to drive mission impact at scale.

Accenture is proud to be a member of Genesis Mission Consortium, committed to serving as a solution integrator. In this role, we integrate leading technologies, data, and stakeholders to deliver scalable, cohesive outcomes. Our focus is on providing solutions that scale across DOE, National Laboratories, and the Genesis ecosystem through the following services: program management; platform strategy, onboarding, and optimization; data curation and management; scientific workflow automation; and mission adoption. Accenture is excited to offer a Unified Discovery Platform (currently in Beta) to Genesis partners that brings together leading technology solutions into a single, seamless, secure platform to accelerate scientific research.

The Astera Institute is a science and technology philanthropy dedicated to accelerating discovery by experimenting with how research is funded and executed, including new ways of publishing methods, data, and results that do not rely on traditional peer-review platforms. We are fully committed to the principles of open science and the importance of FAIR (Findable, Accessible, Interoperable, and Reusable) scientific outputs.

Within the Genesis Mission Consortium, Astera brings deep expertise in open science infrastructure, AI-ready data systems, and the development of tools and platforms for the rapid publication of usable scientific information. Our open science team is actively building tools, frameworks, and policies that anticipate an AI-native future for science communication.

Astera's contributions to the Genesis Mission are twofold. First, we offer a technical and advisory capacity to help Genesis Mission teams develop automated workflows for data capture, annotation, and deposition alongside open publishing infrastructure already in operation. This provides a concrete path toward addressing the challenges of slow dissemination, poor data standardization, and the absence of machine-readable outputs. Second, Astera is contributing GPU compute credits through pre-purchased capacity on Voltage Park's cloud infrastructure, available to Astera partners for AI model training, inference, and large-scale scientific computing workloads.

Together, these contributions support the Genesis Mission's vision of integrating advanced AI infrastructure and scientific datasets into a coordinated, high-impact discovery engine.

Dataerai ("data-array") was founded on a conviction that the next era of discovery and innovation will be defined by how quickly we can turn the world's most complex scientific and engineering data into fuel for AI. From research laboratories to factory floors, the bottleneck for AI-driven progress is no longer computing power or algorithms—it is access to high-quality, AI-ready data.

Dataerai provides the infrastructure that removes this bottleneck. Our platform automatically captures data and rich metadata from instruments, simulations, manufacturing systems, and analysis pipelines at the moment of generation, organizing them into consistent, machine-readable formats with built-in traceability. Designed for distributed environments, the platform allows organizations to keep data securely on-premises or in the cloud while connecting it through a shared layer for search, discovery, and collaboration, all without centralizing or duplicating sensitive data.

Today, much of the data produced by federal investments is used once and never again, making it an enormous untapped national asset. As a member of the Genesis Mission Consortium, Dataerai is working with the Department of Energy to change that. Dataerai contributes expertise in data infrastructure, interoperability, attribution, and provenance to make scientific and engineering data discoverable, accessible, reusable, and AI-ready. We are advancing automated data curation so scientific results are AI-ready from the moment they are created; building the high-throughput data backbones behind digital twins and autonomous laboratories; and developing new ways to track how data assets are used, making visible the full return on America's R&D investments.

Founded by leaders in AI for science, data infrastructure, and national technology policy, Dataerai serves national laboratories, federal agencies, universities, and industry alike to connect the nation's data so that every experiment makes the next one smarter.

Dell Technologies is a trusted infrastructure and innovation partner supporting the Department of Energy’s Mission Genesis Consortium through AI-ready high-performance computing, scalable data infrastructure, and secure platform integration. Dell’s role is to help DOE and its national laboratories operationalize the Genesis vision by connecting advanced compute, data, and AI capabilities that accelerate scientific discovery, strengthen national security research, and advance energy innovation.

The Illinois Quantum and Microelectronics Park (IQMP) is a first-of-its-kind innovation campus dedicated to accelerating the development, scale-up, and commercialization of quantum technologies and advanced microelectronics. Located in Illinois and anchored by an ecosystem of industry, academia, national laboratories, government partners, manufacturers, suppliers, and end users, IQMP is designed to bridge the gap between research breakthroughs and real-world deployment.

As a member of the Genesis Mission Consortium, IQMP will support technology development, workforce training, supply chain growth, and public-private partnerships across the quantum and advanced computing ecosystem, with a special focus on the intersection of quantum and AI. IQMP brings together stakeholders spanning quantum computing, quantum networking, quantum sensing, microelectronics, high-performance computing (HPC), artificial intelligence, advanced manufacturing, and supporting infrastructure to address critical challenges in technology maturation, integration, and commercialization.

Periodic Labs’ core strength is the integration of deep expertise across three tightly coupled pillars: AI/ML, experimental and computational materials science, and autonomous laboratory operations. Staff from each pillar will be available to collaborate with consortium members and National Labs on Genesis Mission challenges.

Periodic Labs’ platform can bring a unified intelligence layer to DOE-funded scientific projects and National Labs, allowing DOE to retain and organize data under a singular platform, train models on that data, unify their data systems, and unlock DOE-guided agentic capabilities for the scientists and engineers supported by DOE.

Schmidt Sciences is a nonprofit organization founded in 2024 by Eric and Wendy Schmidt that works to accelerate scientific knowledge and breakthroughs with the most promising, advanced tools to support a thriving planet. The organization prioritizes research in areas poised for impact including AI and advanced computing, astrophysics, biosciences, climate, and space—as well as supporting researchers in a variety of disciplines through its science systems program.

Ames National Laboratory integrates materials science, chemistry, condensed matter physics, and computational science to connect discovery with scalable solutions for national priorities in energy, manufacturing, and critical materials.

Ames Laboratory’s decades of leadership in AI/ML tools for accelerated materials discovery are integrated with the Genesis Mission vision for intelligent, high-performance scientific infrastructure, accelerating breakthroughs that translate to real-world impact. Our expertise in materials science and engineering, rare earth science, automated chemistry, and critical materials supports Genesis Mission priorities, particularly those involving critical materials with implications for economic resilience and national security. To reduce foreign supply chain dependence, Ames leverages its leadership in key multi-laboratory efforts, such as the Critical Materials Innovation Hub and the Minerals to Materials Supply Chain Research Facility (METALLIC), and Ames Laboratory’s unique capabilities including the Materials Preparation Center and the Advanced Magnet Facility. Employing the Genesis methodology—coupling human insight with AI-guided discovery—we will rapidly deliver mission-ready alloys, permanent magnets, and composites for national defense and advanced manufacturing, while also focusing on optimizing resource recovery and creating high-performance substitutes.

Ames National Laboratory’s efforts in materials discovery integrates AI/ML, computational approaches, genetic algorithms, and high-performance computing. We are leaders in the development and application of high-performance computational chemistry, and are leveraging quantum computing to predict both chemical and correlated material behavior. Our efforts in Genesis will integrate these developments with AI models to accelerate prediction and synthesis of new molecules and materials with transformative properties, in order to advance biological approaches for critical material recovery, elucidation of catalyst behaviors, performance of alloys in extreme environments, and discovery and understanding of quantum materials that challenge our present understanding.

Brookhaven National Laboratory’s nearly 3,000 staff are driven by a common vision: Harnessing AI-accelerated discovery to be the Nation’s leading national lab for scientific breakthroughs that secure America’s future. With seven Nobel Prize-winning discoveries and 79 years of pioneering research, BNL is a multi-program laboratory that brings unique strengths and capabilities to the DOE lab system. The Lab’s science and operations staff work together to implement a bold vision centered on AI-accelerated discovery science, aligned with national priorities and the Genesis Mission. BNL has a key role in advancing DOE’s mission with a focus on U.S. supremacy in discovery science; AI for science and science of AI; quantum information science; onshoring microelectronics; scaling the biotechnology revolution, and securing America’s critical mineral supply. Brookhaven researchers and industry partners will take on key roles in tackling Genesis Mission science and technology challenges related to manufacturing advanced microelectronics, operating and securing the electric grid, and exploring connections between the smallest building blocks of matter and the largest structures in the universe, among other efforts. Brookhaven will provide critical contributions through its DOE Office of Science user facilities, including the National Synchrotron Light Source II, Center for Functional Nanomaterials, and Relativistic Heavy Ion Collider.

Fermilab is America’s particle physics and accelerator laboratory, keeping the nation at the forefront of discovery and innovation. Building on decades of pioneering work in particle physics and accelerator technology, this U.S. Department of Energy national laboratory also drives breakthroughs in artificial intelligence, quantum science, advanced computing, and next generation microelectronics — technologies that power progress in industry, medicine, energy, and national security. Through this combination of scientific depth and technological leadership, Fermilab helps address some of society’s most pressing challenges. The lab is also a hub for innovation, collaboration, and technological advances, bringing together scientists, engineers, and partners.

Fermilab’s contributions to the Genesis Mission build on this foundation of innovation driven by the needs of particle physics, detector development, accelerator science, theory, and quantum information. These frontier challenges have shaped a powerful AI ecosystem that aligns naturally with the goals of the Genesis Mission.

Fermilab’s core AI strengths include intelligent edge sensing through efficient AI and microelectronics co-design enabling nanosecond-to-millisecond decision-making; advanced control and operations powered by surrogate modeling, optimization, and low latency feedback; and robust, interpretable AI grounded in uncertainty quantification and domain adaptation. The lab also operates one of the world’s largest scientific data platforms, efficiently serving more than one exabyte of data per year to global experiments.

By combining these capabilities — extreme environment microelectronics, cutting-edge AI, quantum and advanced computing expertise, and leadership in data-intensive science — Fermilab offers the Genesis Mission a uniquely integrated environment where frontier technologies, extreme-scale data, and high precision scientific instrumentation accelerate discovery and enable transformative new technologies.

Idaho National Laboratory is one of the U.S. Department of Energy's (DOE's) national laboratories. The laboratory performs work in each of DOE's strategic goal areas: energy, national security, science and environment. INL is the nation's leading center for nuclear energy research and development.

Within the Genesis Mission Consortium, INL leads Prometheus — the grand challenge focused on delivering nuclear energy that is faster, safer, and cheaper. Prometheus applies artificial intelligence across the full nuclear reactor lifecycle, from design and licensing through manufacturing, construction, and operations, targeting at least a 2x acceleration in deployment timelines and more than 50% reduction in operational costs.

INL's contributions to the Consortium extend well beyond Prometheus. With a workforce of more than 6,000 experts, INL brings capabilities across advanced energy systems, grid resilience, cybersecurity, digital engineering, and national security — available to support working groups, pilot efforts, and collaborative initiatives across the Consortium. Members have access to unique laboratory facilities and research infrastructure, including test beds, demonstration environments, and specialized user facilities, all governed by standard DOE user agreements.

INL also contributes modeling, simulation, and digital engineering capabilities for system-level analysis and risk-informed decision support, alongside high-performance computing resources and applied AI and machine learning tools operating within secure data environments. These capabilities are complemented by INL's extensive intellectual assets — technologies, software, data, and domain expertise — which INL leverages to advance technology transfer and help move Consortium-relevant innovations toward real-world deployment.

Through advanced computation, network facilities, and data integration, Lawrence Berkeley National Laboratory (Berkeley Lab) is supporting the Department of Energy’s Genesis Mission, a historic national effort to build the world’s most powerful scientific platform to accelerate discovery, strengthen national security, and drive energy innovation. Founded in 1931 on the belief that the biggest problems are best addressed by teams, Berkeley Lab is committed to groundbreaking research focused on discovery science and solutions for abundant and reliable energy supplies. The lab’s expertise spans materials, chemistry, physics, biology, earth and environmental science, mathematics, and computing. Researchers from around the world rely on the lab’s world-class scientific facilities for their own pioneering research. Berkeley Lab is a multiprogram national laboratory managed by the University of California for the U.S. Department of Energy’s Office of Science.

Lawrence Livermore National Laboratory is supporting the U.S. Department of Energy’s Genesis Mission by building AI-enabled capabilities and leveraging its high-performance computing resources to accelerate design, simulation and manufacturing workflows across national security, fusion energy and advanced materials. Through agentic simulation tools, AI-driven molecular discovery, surrogate modeling and reinforcement learning, LLNL is demonstrating how closed-loop discovery workflows can compress development timelines while maintaining rigorous human oversight in support of deterrence and national security missions. LLNL is also advancing AI-enabled production capabilities, including manufacturing diagnostics, additive manufacturing optimization and AI-based quality control systems that connect design to fabrication. Complementary efforts in federated learning, secure coding assistants and knowledge-graph extraction help strengthen the American Science & Security Platform foundation that Genesis seeks to scale. LLNL is also playing a central role in helping establish the Platform, contributing technical leadership across key pillars including Infrastructure, Models, Data and Partnerships, and enabling secure, unified access to computing resources, scientific data and facilities across the DOE enterprise. Together, these initiatives position LLNL as a key contributor to the Genesis Mission and to building a secure, AI-enabled national discovery infrastructure.

The U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is dedicated to innovating and accelerating the nation’s energy solutions in hydrocarbons, geothermal energy, and critical minerals production. With research sites in Albany, Oregon; Morgantown, West Virginia; and Pittsburgh, Pennsylvania, NETL operates as one laboratory to apply its expertise in subsurface materials and processes, materials engineering, energy conversion, systems analysis, computational science, and program deployment to implement DOE programs across the nation and advance energy technologies. The Lab further strengthens its impact by engaging with industry, academia, and other stakeholders through four strategically located Centers of Excellence: Coal, Critical Minerals and Advanced Alloys, Oil & Gas, and Geothermal. Through its collaborations and world-class research, NETL is strengthening national energy security and contributing to an America that leads the world with affordable, reliable, and secure energy to fuel human prosperity. NETL supports the Genesis Mission through leadership and technical expertise. NETL personnel serve on the Data Leadership Pillar's expert advisory team and have been instrumental in fostering interagency collaboration and establishing partnership agreements with Genesis Mission leadership. As part of the Modeling Consortium, NETL co-leads the CM2US seed modeling team, bringing key critical minerals and materials expertise to the resource discovery, materials discovery, and supply resiliency foundation modeling effort. NETL also actively informs and supports the Integrated Partnership Provisioning Framework, ensuring robust federal partnership agreements, and leads the data governance task team under the Database Services effort, developing recommendations for open data policies, AI-readiness, data provenance, and security strategies. NETL's Energy Data eXchange (EDX) is a key infrastructure partner for Genesis Mission's American Science Cloud (AmSC) platform, integrating millions of public-facing data resources.

As the largest science and energy laboratory for the U.S. Department of Energy (DOE), Oak Ridge National Laboratory (ORNL) is leveraging AI across its scientific portfolio to strengthen the nation’s energy, security, and competitiveness.

ORNL researchers are embedding AI directly into scientific workflows, developing explainable methods that deliver near-real-time insight in areas such as quantum materials, nuclear energy, and cybersecurity. This work moves beyond traditional data analysis toward autonomous science, where AI helps guide experiments, modeling, and decision-making to reduce time to solution. In parallel, ORNL is developing secure-by-design architectures with built-in guardrails to help protect against misuse and adversarial threats.

To enable the Genesis Mission, ORNL is charting new pathways for AI-driven science through the American Science Cloud, a secure, connected, science-optimized platform linking DOE computing and experimental facilities.

These advances are possible through ORNL’s exascale computing resources. In addition to the Frontier exascale system at ORNL, two new systems—Lux and Discovery—will advance the Genesis Mission. Planned for 2026, Lux will expand DOE’s near-term AI capacity and accelerate progress on Genesis priorities including fusion, fission, materials, quantum, advanced manufacturing, and the grid. Expected in 2028, Discovery will advance high-performance modeling and simulation integrated with AI, while paving the way for the convergence of high-performance computing (HPC), AI, and quantum computing.

By advancing the Genesis Mission, ORNL is helping ensure AI remains a secure, reliable partner in discovery and that the United States continues to lead scientifically and economically.

A U.S. Department of Energy National Laboratory managed by Princeton University, the Princeton Plasma Physics Laboratory (PPPL) is tackling the world’s toughest science and technology challenges using plasma, the fourth state of matter. The Lab conducts essential research across a full range of plasma applications, whether it’s developing fusion as a potentially limitless power source, creating the next generation of materials for microelectronics and quantum sensors and devices, or electrifying chemical and materials manufacturing processes.

PPPL’s research brings together theory, computation, and experimentation to advance plasma sciences and the development of practical fusion energy. Across its departments, PPPL integrates foundational plasma physics, high-fidelity simulation, AI, and large-scale experimental research to understand and control complex, multi-scale plasma behavior. This work spans predictive modeling of plasma stability, the development of advanced computational frameworks and physics-informed AI, and experimental validation across a global network of tokamak facilities. By combining data from world-leading experiments with advanced modeling and machine learning, PPPL is building a data-rich laboratory that accelerates scientific discovery, supports reactor design, and drives progress toward commercially viable fusion energy.

We’re a proud partner of the Genesis Mission, using our deep expertise in AI, computational modeling, and digital engineering to advance U.S. competitiveness and national security. Our involvement with the Genesis Mission is primarily focused on using AI for fusion — speeding the development of a fusion pilot plant. We’re developing a new computational infrastructure called STELLAR AI to speed up computer simulations, a digital twin or virtual model of the Lab’s primary fusion experiment: the National Spherical Torus Experiment-Upgrade (NSTX-U), and developing critical surrogate and foundation models for fusion systems. PPPL also brings together experts from around the world to explore how AI is accelerating the path to commercial fusion power with the AI4Fusion Colloquium, an online lecture series.

Sandia National Laboratories is a federally funded research and development center that supports the national security mission of the United States through science, engineering, and technology development. Within the Genesis Mission Consortium, Sandia’s role is centered on applying artificial intelligence, advanced computing, and digital engineering capabilities to high-consequence national security problems, particularly those relevant to the National Nuclear Security Administration.

Sandia brings a combination of mission depth and technical breadth that is unique to Genesis. This includes expertise in weapons engineering, digital engineering, high-performance computing, modeling and simulation, advanced manufacturing, data systems, and secure mission execution. Sandia also has strong experience integrating research and development capabilities into operational mission environments, which is essential for translating AI concepts into usable tools and workflows.

In the Genesis Mission, Sandia is contributing in both platform development and mission application. On the platform side, Sandia supports the development of infrastructure, models, and data capabilities needed to enable secure, mission-relevant AI use across the complex. On the application side, Sandia is helping define and execute high-impact use cases and Mission Science and Technology Challenges, including areas related to design and production integration, engineering workflow acceleration, manufacturing, data exploitation, and safety-basis modernization.

Sandia’s contribution to the Consortium is not limited to technical development. The laboratory also plays an important coordinating role by helping connect mission users, platform developers, and partner institutions across the tri-lab and DOE/NNSA environment. Through this combination of mission understanding, technical execution, and systems integration, Sandia is positioned to help ensure the Genesis Mission delivers practical, scalable capability in support of national security and broader government needs.

Savannah River National Laboratory brings decades of expertise in nuclear materials management, environmental cleanup, national security, and advanced chemical processing to the Department of Energy’s Genesis Mission. SRNL researchers and their partners are committed to driving the development of AI models to accelerate research and development in key national mission areas.

As one of the 17 national laboratories mobilized for this historic endeavor, SRNL harnesses the power of artificial intelligence to advance multidisciplinary applied sciences that support critical DOE and NNSA missions. This includes advancements in nuclear and critical materials, tritium, and isotope sciences vital for developing weapons production technology and securing the nation. Our work directly enhances national security, environmental stewardship, and energy resilience, ultimately strengthening America's leadership and competitiveness.

SRNL’s new Advanced Manufacturing Collaborative is a state-of-the-art facility among the lab’s myriad capabilities available to support Genesis Mission success. The AMC will build partnerships with government, academia and industry at local, regional and national levels. Working together with these sectors, the AMC will serve as an innovation incubator that will commercialize solutions to real-world challenges.

The Genesis Mission exemplifies the spirit of discovery and collaboration that defines SRNL. Together, we are advancing the solutions that will define the next era of innovation.

Learn more about SRNL's featured initiatives for the Genesis Mission at https://www.srnl.gov/srnl-genesis-mission/.

SLAC National Accelerator Laboratory, operated by Stanford University for the DOE Office of Science, explores how the universe works at the biggest, smallest and fastest scales and invents powerful tools used by scientists around the globe. Our research helps solve real-world problems and advances the interests of the nation.

SLAC’s premier facilities produce vast and uniquely varied scientific data sets that illuminate our world from the grand scale of the cosmos to the smallest scales of the motions of electrons. These data – along with the SLAC-Stanford ecosystem's expertise in algorithm development and its world-leading domain scientists – will fuel the AI revolution in science.

SLAC’s contributions to the Genesis Mission bring together advanced computing infrastructure, AI innovation, and data from world-leading scientific facilities to power the next generation of discovery. These coordinated efforts span fields from cosmology and particle physics to materials, catalysis, and critical mineral supply chains, and from accelerator control systems to time-resolved multi-modal data acquisition, strengthening U.S. leadership in AI-enabled science and technology.

Kansas City National Security Campus (KCNSC) is one of eight sites that comprise the National Nuclear Security Administration (NNSA). Our primary focus is manufacturing 80 percent of non-nuclear components that go into the nuclear stockpile. Along with safeguarding the country’s nuclear weapons, the KCNSC team leads other missions for the Department of Energy including providing products and services that support proliferation deterrence, supply chain management, and responsiveness to global threats.

The Nevada National Security Sites (NNSS), part of the U.S. Department of Energy’s (DOE) National Nuclear Security Administration (NNSA), is an enterprise of special-purpose, multi-mission, high-hazard experimentation facilities delivering technical and service solutions in partnership with the National Laboratories. Our collaborative work supports the government’s most important national security missions.

As the cornerstone of the nation’s Nuclear Security Enterprise, Pantex applies unique capabilities to ensure the effectiveness of the U.S. nuclear stockpile in support of the Nation’s nuclear deterrent. We accomplish this through executing nuclear explosive assembly and disassembly, special nuclear material testing and evaluations, and manufacturing and assessing high explosives at our historic site.

The Pantex mission has grown over the decades as other facilities closed and responsibilities for life-extension, surveillance, assembly and high explosives operations were moved to the site.

Since 1975, Pantex has been the nation’s primary assembly, disassembly, retrofit, and life-extension center for nuclear weapons. The last new nuclear weapon was completed in 1991. Since then, Pantex has safely dismantled thousands of weapons retired from the stockpile by the military and placed the resulting plutonium pits in interim storage.

Operations at Pantex are primarily conducted on 2,000 acres of the 18,000-acre site. Pantex has approximately 650 buildings, including specialized facilities in which maintenance, modification, disassembly, and assembly operations are conducted. The Pantex Plant maintains its own water-treatment, sewage, and steam-generating plants. Five wind turbines, each over 400 feet tall, generate enough power to support more than 60 percent of the Pantex Plant’s annual energy. The strength of Pantex lies in the dedication and patriotic commitment of its more than 4,700 full-time personnel.

As a National Nuclear Security Administration (NNSA) stewarded plant, dedicated to maintaining the highest possible safety and security standards, the Savannah River Site (SRS) is responsible for supporting our nation’s nuclear defense through its Savannah River Tritium Enterprise and its pit production mission; preventing nuclear weapon proliferation; environmental stewardship and cleanup; waste management; and disposition of nuclear materials. SRS is exploring tools, such as AI, to aid in innovation across its missions by helping to accelerate and de-risk work. Our vision is to use these tools to enhance efficiency, ensure safety, and unlock new operational capabilities.

The Y-12 National Security Complex is a premier manufacturing facility dedicated to making our nation and the world a safer place and plays a vital role in the Department of Energy’s Nuclear Security Enterprise.

Y-12 helps ensure a safe and effective U.S. nuclear weapons deterrent. We also retrieve and store nuclear materials, fuel the nation’s naval reactors, and perform complementary work for other government and private-sector entities.

Since 1943, Y-12 has played a key role in strengthening our country’s national security and reducing the global threat from weapons of mass destruction. Y-12 has evolved to become the complex the nation looks to for support in protecting America's future, developing innovative solutions in manufacturing technologies, prototyping, safeguards and security, technical computing and environmental stewardship.