About Us
Mastering the Digital Engineering Multiverse
- Our work in the Digital Engineering Space spans more than 3 decades and encompasses more then 50 client projects.
- We are a compilation of Senior Engineering Systems Analysts, each of us with greater than 20 years of Experience. We are built to do the hard stuff! – Sr. Strategy Analysts, Sr, Solution Architects, Sr. Process Analysts, Sr. Program Managers
- The depth and breadth of experience we possess spans multiple industry segments and multiple PLM Platforms. Our staffs will never be learning on your nickel – Aerospace & Defense, Automotive, Consumer Packaged Goods, Power & Energy, High Tech – PLM (3D Experience, Teamcenter, Windchill, ARAS) MBSE, MBD, MBE, SPDM, …)
- Competitive rates. Our virtual office model and Sr. Staff formula have enabled a dramatic reduction in Bricks & Mortar as well as Management Layers enabling us to provide our services at very competitive rates.
- State of the Art Execution Methods –AGILE PLUS.Our “Fully Threaded Execution Method” is a significant advancement of the AGILE and SAFe methodologies. Our advanced methodology will reduce the Time and Cost to Value of your initiative while increasing the Quality, User Experience and Value proposition of the delivered process and application capability.
- Deep Engineering System and Process Domain Expertise. The breadth of process an application experience we possess enables our design and delivery of a much more highly Transformative Engineering System Environment.
Our Mission
- Tailor our Execution Method to optimize our clients time and cost to value
- Deliver a real measurable return on our clients investment
- Focus on the importance of the end-to-end user experience
- Drive our clients to Lean/Pull Process Environments – because they really deliver
- Never fail to deliver a process and application environment built to drive continuous process improvement
- Be better than our competitors at planning, designing, and configuring a nimbler PLM Environment that can be extended and upgraded at a much lower time and cost to value
Industry Domain Expertise
PLM Trends in Aerospace & Defense
The Aerospace and Defense (A&D) industries are seeing several vital trends in Product Lifecycle Management (PLM) that
are shaping the future of these sectors. Here are some of the most significant trends:
Digital Transformation: The integration of digital tools and technologies is a major trend. This includes the use of digital
twins, which are virtual replicas of physical systems that allow for real-time monitoring and simulation1. Digital
transformation helps in optimizing the entire lifecycle of products, from design to decommissioning.
Advanced Analytics and AI: The use of advanced analytics and artificial intelligence (AI) is becoming increasingly
important. These technologies help in predictive maintenance, improving the reliability and lifespan of aerospace and
defense systems1. AI can also assist in optimizing design processes and supply chain management.
Internet of Things (IoT): IoT is playing a crucial role in PLM by enabling better connectivity and data collection from various
components and systems2. This connectivity allows for more efficient monitoring and management of assets throughout
their lifecycle.
Sustainability and Compliance: There is a growing emphasis on sustainability and regulatory compliance. PLM systems
are being designed to ensure that products meet environmental regulations and sustainability goals1. This includes tracking
the use of materials and ensuring that manufacturing processes are environmentally friendly.
Collaboration and Integration: Enhanced collaboration tools and integration capabilities are vital for PLM in the A&D
industries. These tools facilitate better communication and coordination among different teams and stakeholders, leading to
more efficient project management and product development3.
Cybersecurity: With the increasing reliance on digital tools and data, cybersecurity has become a critical concern. PLM
systems are being equipped with robust security measures to protect sensitive information and ensure the integrity of data
throughout the product lifecycle1.
These trends are driving significant advancements in the A&D industries, helping organizations to improve efficiency,
reduce costs, and enhance the performance and reliability of their products. Are there any specific trends you’re particularly
interested in exploring further? Contact US
PLM Trends in Sustainable Energy
In the Sustainable Energy industries, several key trends are shaping the future of Product Lifecycle Management (PLM):
Digital Twins and Virtual Twins: These technologies are crucial for improving traceability, quality control, and decisionmaking. They enable the simulation of real-world scenarios to optimize performance and predict maintenance needs1.
AI and Generative AI: AI is enhancing predictive capabilities and data organization within PLM. AI agents can analyze data
in real-time, providing suggestions to optimize processes and maintain regulatory compliance1.
Sustainability and Circular Economy: There is a strong focus on integrating sustainability metrics into product design and
development. This includes the use of Digital Product Passports and adherence to circular economy principles to minimize
waste and maximize resource efficiency1.
Interoperability and Connectivity: Integrating PLM with other enterprise systems like Supply Chain Management (SCM) and
Customer Relationship Management (CRM) is essential for better decision-making and optimizing product value
management1.
Decarbonization and Renewable Energy Integration: PLM systems are being used to support the development and
integration of renewable energy technologies, such as solar, wind, and battery storage, to meet decarbonization goals2.
Regulatory Compliance: Ensuring compliance with evolving environmental regulations is a major focus. PLM systems help
manage and document compliance throughout the product lifecycle2.
Cloud Adoption and Digital Threads: The adoption of cloud-based PLM solutions and the proliferation of Digital Threads
are transforming how product data is managed and utilized across the lifecycle1.
These trends are driving significant changes in how sustainable energy products are developed, managed, and optimized
throughout their lifecycle.
Is there a particular trend you’re interested in exploring further? Contact US
PLM Trends in Heavy Equipment
In the Heavy Equipment industries, several key trends are shaping the future of Product Lifecycle Management (PLM):
Digital Transformation: The integration of digital technologies is crucial for improving efficiency and innovation. This
includes the use of digital twins and virtual twins to enhance product development and lifecycle management1.
Electrification and Automation: There is a significant push towards electrification and automation of heavy equipment to
meet sustainability goals and improve operational efficiency1.
Regulatory Compliance: Meeting stringent safety and emissions regulations is a major focus. PLM systems are being
used to ensure compliance from the earliest stages of product design2.
Concurrent Engineering: Moving from serial development processes to concurrent engineering helps optimize workflows
and identify potential issues early, reducing costs and improving product quality2.
Sustainability and Efficiency: The industry is focusing on creating more sustainable and efficient products to meet
environmental targets and reduce resource consumption1.
Software-Driven Products: The shift towards software-defined products is increasing, with advanced software and
electronics replacing traditional hydromechanical systems1.
Global Collaboration: Enhancing collaboration across global teams and integrating various stages of product development
to streamline processes and improve innovation2.
These trends are driving significant changes in how heavy equipment is developed, managed, and optimized throughout its
lifecycle. Is there a particular trend you’re interested in exploring further? Contact US
PLM Trends in High Tech
In the High Tech industries, several key trends are shaping the future of Product Lifecycle Management (PLM):
Digital Twins and Virtual Twins: These technologies are becoming essential for improving traceability, quality control, and
decision-making. Virtual twins, powered by generative AI, allow for “what if” scenarios and proactive decision-making1.
AI and Generative AI: AI is enhancing predictive capabilities and data organization within PLM. AI agents can analyze data
in real-time, providing suggestions to optimize processes and maintain regulatory compliance1.
Interoperability and Connectivity: Integrating PLM with other enterprise systems like Supply Chain Management (SCM)
and Customer Relationship Management (CRM) is crucial for better decision-making and optimizing product value
management1.
Sustainability and Circular Economy: There’s an increasing focus on sustainability, with regulatory frameworks
mandating the use of Digital Product Passports and integrating sustainability metrics into product design to support circular
economy principles1.
Industry 5.0 and Engineering 5.0: This trend emphasizes a symbiotic relationship between technology and human
ingenuity, focusing on resiliency, human-focused interactions, and sustainability1.
Cloud Adoption and Digital Threads: The adoption of cloud-based PLM solutions and the proliferation of Digital Threads
are transforming how product data is managed and utilized across the lifecycle2.
Software-Driven Products: The centrality of embedded software and electronics design is increasing over traditional
mechanical structures1.
These trends are driving significant changes in how products are developed, managed, and optimized throughout their
lifecycle. Are there any specific trends you’re particularly interested in exploring further? Contact US
PLM Trends in Automotive & Transportation
The automotive industry is experiencing several key trends in Product Lifecycle Management (PLM) that are driving
innovation and efficiency. Here are some of the most vital trends:
Digital Twin Technology: Digital twins are virtual models of physical products that allow for real-time monitoring and
simulation. This technology helps in predicting performance, identifying potential issues early, and optimizing the design and
manufacturing processes1.
Increased Focus on Collaboration: Enhanced collaboration tools are becoming essential. These tools enable seamless
communication and data sharing among different teams and stakeholders, improving the efficiency of the design and
development processes2.
Artificial Intelligence (AI) and Machine Learning (ML): AI and ML are being integrated into PLM systems to enhance
decision-making, automate routine tasks, and provide predictive analytics. These technologies help in optimizing design,
manufacturing, and maintenance processes1.
Sustainability and Environmental Compliance: There is a growing emphasis on sustainability in the automotive industry.
PLM systems are being used to ensure that products meet environmental regulations and sustainability goals, such as
reducing carbon footprints and promoting the use of recyclable materials2.
IoT Integration: The Internet of Things (IoT) is playing a crucial role in PLM by enabling real-time data collection and
monitoring of vehicle components. This connectivity helps in predictive maintenance and improves the overall efficiency of
the product lifecycle1.
Cloud-Based PLM Solutions: The adoption of cloud-based PLM solutions is increasing. These solutions offer scalability,
flexibility, and cost-effectiveness, making it easier for automotive companies to manage their product data and processes1.
Cybersecurity: With the increasing reliance on digital tools and data, cybersecurity has become a critical concern. PLM
systems are being equipped with robust security measures to protect sensitive information and ensure data integrity
throughout the product lifecycle1.
These trends are helping automotive companies to innovate faster, reduce costs, and improve the quality and sustainability
of their products. Are there any specific trends you’re particularly interested in exploring further? Contact US
PLM Trends in Consumer Packaged Goods
PLM Trends in Consumer Packaged Goods
n the Consumer Packaged Goods (CPG) industries, several key trends are shaping the future of Product Lifecycle Management (PLM): Sustainability and Eco-Friendly Products: There is a growing demand for sustainable products and packaging. PLM systems are being used to integrate sustainability metrics into product design and development, ensuring compliance with environmental regulations and meeting consumer expectations1. Digital Transformation: The adoption of digital technologies, including digital twins and virtual twins, is enhancing product development and lifecycle management. These technologies help simulate real-world scenarios, optimize performance, and predict maintenance needs1. AI and Advanced Analytics: AI is being leveraged to enhance predictive capabilities, optimize processes, and improve decision-making. Advanced analytics help in understanding consumer preferences and trends, leading to more targeted and efficient product development2. Shorter Product Lifecycles: The CPG industry faces shorter product lifecycles and faster time-to-market pressures. PLM solutions help streamline the product development process, reduce time to market, and enhance collaboration across various functions2. Regulatory Compliance: Ensuring compliance with stringent regulations, especially in food and beverage, health, and beauty segments, is a major focus. PLM systems help manage and document compliance throughout the product lifecycle2. Personalization and Customization: There is an increasing demand for personalized and customized products. PLM systems enable companies to manage the complexity of personalized product offerings and ensure efficient production3. Cloud Adoption and Interoperability: The adoption of cloud-based PLM solutions and the integration of PLM with other enterprise systems like Supply Chain Management (SCM) and Customer Relationship Management (CRM) are essential for better decision-making and optimizing product value management2. These trends are driving significant changes in how CPG products are developed, managed, and optimized throughout their lifecycle. Is there a particular trend you’re interested in exploring further? Contact US
n the Consumer Packaged Goods (CPG) industries, several key trends are shaping the future of Product Lifecycle Management (PLM): Sustainability and Eco-Friendly Products: There is a growing demand for sustainable products and packaging. PLM systems are being used to integrate sustainability metrics into product design and development, ensuring compliance with environmental regulations and meeting consumer expectations1. Digital Transformation: The adoption of digital technologies, including digital twins and virtual twins, is enhancing product development and lifecycle management. These technologies help simulate real-world scenarios, optimize performance, and predict maintenance needs1. AI and Advanced Analytics: AI is being leveraged to enhance predictive capabilities, optimize processes, and improve decision-making. Advanced analytics help in understanding consumer preferences and trends, leading to more targeted and efficient product development2. Shorter Product Lifecycles: The CPG industry faces shorter product lifecycles and faster time-to-market pressures. PLM solutions help streamline the product development process, reduce time to market, and enhance collaboration across various functions2. Regulatory Compliance: Ensuring compliance with stringent regulations, especially in food and beverage, health, and beauty segments, is a major focus. PLM systems help manage and document compliance throughout the product lifecycle2. Personalization and Customization: There is an increasing demand for personalized and customized products. PLM systems enable companies to manage the complexity of personalized product offerings and ensure efficient production3. Cloud Adoption and Interoperability: The adoption of cloud-based PLM solutions and the integration of PLM with other enterprise systems like Supply Chain Management (SCM) and Customer Relationship Management (CRM) are essential for better decision-making and optimizing product value management2. These trends are driving significant changes in how CPG products are developed, managed, and optimized throughout their lifecycle. Is there a particular trend you’re interested in exploring further? Contact US
PLM Trends in Architectural Engineering & Construction
In the Architectural, Engineering, and Construction (AEC) industries, several key trends are shaping the future of Product Lifecycle Management (PLM): Digital Transformation: The integration of digital technologies, such as Building Information Modeling (BIM) and digital twins, is crucial for improving efficiency and innovation. These technologies help simulate real-world scenarios, optimize performance, and predict maintenance needs12. Sustainability and Green Building: There is a strong focus on sustainable construction practices and green building certifications. PLM systems are being used to integrate sustainability metrics into project design and development, ensuring compliance with environmental regulations and meeting client expectations2. Prefabrication and Modular Construction: The rise of prefabricated and modular construction methods is helping the industry address labor shortages and supply chain issues. PLM systems enable precise fabrication and assembly of building components in controlled environments, reducing construction time and costs1. Advanced Analytics and AI: AI and advanced analytics are being leveraged to enhance predictive capabilities, optimize processes, and improve decision-making. These technologies help in understanding project requirements and trends, leading to more efficient project management2. Interoperability and Collaboration: Integrating PLM with other enterprise systems and enhancing collaboration across global teams is essential for better decision-making and optimizing project outcomes. This includes seamless data sharing and communication among architects, engineers, contractors, and suppliers2 Regulatory Compliance: Ensuring compliance with evolving building codes and regulations is a major focus. PLM systems help manage and document compliance throughout the project lifecycle2. Cloud Adoption and Digital Threads: The adoption of cloud-based PLM solutions and the proliferation of Digital Threads are transforming how project data is managed and utilized across the lifecycle1. These trends are driving significant changes in how AEC projects are developed, managed, and optimized throughout their lifecycle. Is there a particular trend you’re interested in exploring further? Contact US
In the Architectural, Engineering, and Construction (AEC) industries, several key trends are shaping the future of Product Lifecycle Management (PLM): Digital Transformation: The integration of digital technologies, such as Building Information Modeling (BIM) and digital twins, is crucial for improving efficiency and innovation. These technologies help simulate real-world scenarios, optimize performance, and predict maintenance needs12. Sustainability and Green Building: There is a strong focus on sustainable construction practices and green building certifications. PLM systems are being used to integrate sustainability metrics into project design and development, ensuring compliance with environmental regulations and meeting client expectations2. Prefabrication and Modular Construction: The rise of prefabricated and modular construction methods is helping the industry address labor shortages and supply chain issues. PLM systems enable precise fabrication and assembly of building components in controlled environments, reducing construction time and costs1. Advanced Analytics and AI: AI and advanced analytics are being leveraged to enhance predictive capabilities, optimize processes, and improve decision-making. These technologies help in understanding project requirements and trends, leading to more efficient project management2. Interoperability and Collaboration: Integrating PLM with other enterprise systems and enhancing collaboration across global teams is essential for better decision-making and optimizing project outcomes. This includes seamless data sharing and communication among architects, engineers, contractors, and suppliers2 Regulatory Compliance: Ensuring compliance with evolving building codes and regulations is a major focus. PLM systems help manage and document compliance throughout the project lifecycle2. Cloud Adoption and Digital Threads: The adoption of cloud-based PLM solutions and the proliferation of Digital Threads are transforming how project data is managed and utilized across the lifecycle1. These trends are driving significant changes in how AEC projects are developed, managed, and optimized throughout their lifecycle. Is there a particular trend you’re interested in exploring further? Contact US
Application Domain Expertise
Product Lifecycle Management
Product Lifecycle Management: DSA has implemented PLM Systems for three decades and possesses domain expertise across all of the Major PLM Platforms including Siemens Teamcenter, Dassault’s 3D Experience, PTC’s Windchill, ARAS Innovator
Model-based Systems Engineering
Requirements Driven Design: DSA can assist you to implement a Best-in-Class Requirements Engineering process that is tightly integrated to its dependent data sources/applications including Stakeholder Needs, System Modeling (SysML), Trade Studies, 3D Simulations and Tests and PLM to extend you end-to end Digital Thread. We are knowledgeable across multiple Requirements Management Applications including DOORS, TCRM, Polarion, Jama
Multi Domain Systems Engineering: Our highly skilled experts can assist you to establish your Model-based Systems Engineering Environment, Product Constructs and establish a Master Data Model for the end-to-end Systems Engineering process to enable a State of the Art Digital Thread to drive process automation and improvement opportunities through your Product Lifecycle. We posses domain expertise in the following applications; Cameo, Rhapsody, System Modeling Workbench
Continuous Verification & Validation: DSA is working with clients to streamline and automate the Product Verification and Validation processes including; Trade Studies (1D Simulations), Concept Prototyping, Product Testing e.g., FEA, DFMEA, PFMEA, Manufacturing Assessment Builds, Manufacturing Verification Builds. DSA can assist to you integrate your entire verification and validation suite of tools into a comprehensive Simulation and Test Data Management Environment including Siemens SimCenter, Dassaults’ 3D Experience
PLM & CAD Integration Getting the maximum value proposition from your MBSE Environment requires alignment of the Master Data Model across all MBSE related applications and into PLM. Failure to align the Data Model will substantially reduce the process automation opportunities that an aligned Digital Thread will provide. For more information regarding critical MBSE connections view our MBSE Page
Model-based Design
Model-based Design Standards: The first and perhaps most critical stage of implementation for MBD is the adoption of relative ASME Standards including Y14.5 (GD&T), Y14.41 (Digital Product Definition), and Y14.47 (Model Schema). DSA can assist you to understand these standards and apply them in context
CAD Data Quality Validation: Production of high quality Technical Data Packages mandates the electronic validation of your CAD Data Quality and the Derivative Files produced from your native 3D Models. Additionally CAD Data Quality along with Producibility Validation will substantially increase First Pass Yield through the entire Product Lifecycle. DSA can assist you to identify the specific CAD Data Quality and Derivative Validations required to drive a real measurable ROI. Additionally, we can assist you to fully integrate your CAD Data Quality into you CAD Data Management and ECO Processes to create an exception-based reporting environment that will reduce the high volume of administrative overhead typically associated with CAD Validation. DSA is familiar with a variety of CAD Data Quality Applications including; Elysium, CADIQ, Checkmate, ModelCheck, CAPVIDIA
Producibility Validation: Producibility Validation typically provides the largest ROI for the end-to-end MBD Environment and will substantially reduce issues at costly stages of the Product Lifecycle e.g., at Manufacturing Assessment Builds. DSA can assist you to conduct a detailed Root Cause Analysis of these Critical Stages to identify the specific Producibility Validation Check required to measurable increase ROI. DSA can additionally build and integrate the Producibility Validation Application into PLM. DSA is familiar with a variety of Producibility Validation Applications including Elysium, CADIQ, DFMPro
Technical Data Publishing: DSA can assist you to exploit the Y14.41 standard to specify your Model-based Definition across each of your Part Categories including Sheet Metal, Molded, Formed, Machined, Casted, Harness for both Make and Outsource Manufactured Parts. We can additionally build and integrate the TDP Application into PLM. DSA is familiar with a variety of TDP Applications including Elysium, Anark, ProStep.
CAD Utilities: There are a variety of CAD Utilities available today to extend your Model-based Design Environment. These tools range from production, validation and automated Healing of Native CAD and Derivative Data to the automated production of Bills of Characteristics and First Article Inspection Templates, as well as the conversion of 2D Drawings to 3D PMI. DSA can assist you to implement and integrate these tools into your CAD and PLM Environment. DSA is familiar with a variety of CAD Utilities Applications including; Elysium, CAPVIDIA, DISCUS, NX 2D to3D PMI Conversion
Our Digital Engineering Partner Community
