What is Computer-aided design

Computer-aided design (CAD) refers to the use of computer technology to assist in the creation, modification, analysis, or optimisation of a design. CAD software is widely used in various industries, including architecture, engineering, product design, and manufacturing. The primary goal of CAD is to increase the efficiency and accuracy of the design process.

We can take projects at the interface of CAD and calculation software (strength calculations, stress analyses, etc.), as well as at the interface of CAD-CRM, CAD-ERP.

Computer-aided design advantages

Computer-aided design (CAD) offers numerous advantages across various industries. Here are some key benefits:

  • Design Iteration and Optimisation: CAD systems allow for easy modification and iteration of designs. Designers can quickly explore different variations and optimise their designs based on factors such as performance, cost, and manufacturability.
  • Simulation and Analysis: CAD software supports various simulation and analysis tools, allowing designers to assess the performance and behaviour of their designs under different conditions. This helps in identifying and addressing potential issues before the physical prototype stage.
  • Documentation and Visualisation: CAD systems generate detailed and standardised documentation, including 2D drawings, schematics, and blueprints. This documentation is crucial for communication with other stakeholders, such as manufacturers, contractors, and regulatory bodies.

Computer-aided design key features

Key features and capabilities of CAD software include:

  • Drafting and Drawing: CAD software allows designers to create detailed and precise 2D and 3D drawings of objects and systems. This includes the ability to produce technical drawings, schematics, and blueprints.
  • Modelling: CAD enables the creation of 3D models of objects or structures. These models can be manipulated and viewed from different angles, providing a more comprehensive understanding of the design.
  • Visualisation: CAD tools often include rendering capabilities, allowing designers to generate realistic images and animations of their models. This helps in presenting designs to clients, stakeholders, or team members.
  • Simulation and Analysis: CAD software can simulate the behaviour of designs under various conditions. This can include stress analysis, thermal analysis, fluid dynamics, and other engineering simulations to ensure the design meets specified criteria.
  • Collaboration: CAD systems often support collaboration among multiple designers or teams. This can involve version control, shared access to design files, and real-time collaboration features.
  • Parametric Design: CAD allows designers to create parametric models, where the relationships between different elements are defined. This enables easy modification of designs by adjusting parameters, which can be particularly useful in iterative design processes.
  • Data Exchange: CAD software supports the import and export of various file formats, facilitating collaboration between different software tools and ensuring compatibility across different stages of the design and manufacturing process.

Computer-aided design process

InStandart’s working process includes these phases:

  • Sign an NDA
  • Share project details
  • Scope of work agreement
  • Sign a contract
  • Interact with our team
  • Get results according to the stages of the work
  • Pay stages fee
  • Enjoy the top-quality result

Advantages of working with InStandart

We develop a variety of applications for these systems that allow you to improve certain properties of the system. Or to automate some processes to reduce human participation in the design process, and design time.

  • Skilled and Experienced CAD Professionals: Our team comprises highly trained CAD professionals with extensive experience in various sectors. They are well-versed in different CAD software and can provide superior design solutions to meet your needs.
  • Customised Design Solutions: We understand that every project has unique requirements. Therefore, we offer bespoke CAD services tailored to your design needs and business goals.
  • High-Quality Output: We prioritise quality in every project we undertake. Our team uses advanced techniques to produce detailed, accurate, and high-quality CAD drawings and models.
  • State-of-the-art Tools and Software: We use the latest CAD software and technologies to provide the best design solutions. This allows for accurate modelling and offers the benefits of modern features like 3D visualisation and simulation.
  • Scalability: Whether you require CAD services for a one-time project or need ongoing assistance for larger projects, we can scale our services to meet your demands. Our robust team and resources enable us to handle projects of any size.
  • Time and Cost Efficiency: By outsourcing your CAD needs to us, you can save significant amounts of time and costs related to hiring, training, and maintaining an in-house CAD team. This allows you to focus on core business activities, boosting overall productivity.
  • Fast Turnaround: We understand the importance of timelines in design and manufacturing processes. Our team is committed to delivering projects within the stipulated deadlines and maintaining quality.
  • Ongoing Support: We provide continuous support and maintenance for the CAD designs we create. If you require any changes or updates or have any design issues, our team is always ready to help.
  • Compliance with Industry Standards: Our CAD professionals adhere strictly to industry standards and norms while creating designs. This ensures that the designs are accurate, reliable, and compliant with your industry’s specific standards.

Computer-aided design technologies


CAD is widely used in various industries, including architecture, engineering, manufacturing, product design, automotive, aerospace, and more.

CAD facilitates faster design iterations, precise measurements, and the ability to visualise designs in 2D or 3D. It also allows for easy collaboration and sharing of design data.

We follow industry standards and best practices to ensure the accuracy of CAD designs. Regular quality checks and validation processes are implemented to catch and correct any discrepancies.

Yes, we can optimise designs for factors like cost, materials, and manufacturing processes. Simulation tools are also employed to analyse and improve the performance of designs.

We take data security seriously and implement measures such as secure file transfer, restricted access, and confidentiality agreements to ensure the protection of client design data.

Yes, we can provide support for prototyping and manufacturing by ensuring that CAD designs are compatible with the specific requirements of these processes. This includes considerations for materials, tolerances, and production methods.
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