FAQ
Pattern grading is the process of resizing a base pattern into a full size range while maintaining the garment’s fit, proportion, and style balance. It’s essential for mass production, ensuring consistency across all sizes with digital precision.
Converting a physical garment sample into a 3D model allows designers to visualize and modify styles virtually. It eliminates repeated sampling, reduces fabric waste, and speeds up product development.
Virtual sampling replaces physical prototypes with 3D garment simulations. It enables instant fit and drape visualization on digital avatars, cutting down development time and cost by up to 70%.
3D to 2D pattern conversion extracts accurate flat patterns from a 3D garment model. This digital workflow ensures perfect alignment between virtual prototypes and real-world cutting patterns.
CAD pattern digitizing converts paper patterns into editable digital CAD files using a digitizer or camera. It allows seamless pattern storage, modification, and sharing across global production teams.
Marker making and nesting optimize fabric usage by arranging patterns in the most efficient layout. It reduces fabric waste and improves cutting accuracy — vital for large-scale apparel manufacturing.
3D avatar fit checks test garment patterns on realistic body avatars, revealing tension points and ease distribution. Designers can adjust patterns digitally before any fabric is cut.
A Concept to Production Pack covers everything from initial design visualization, pattern development, grading, tech pack creation, and pre-production documentation — a complete end-to-end digital workflow.
It’s the process of scanning or digitizing an existing garment sample to generate precise digital CAD patterns. Ideal for re-engineering or reproducing legacy designs.
Pattern correction adjusts measurement errors, style details, or fit issues detected during sampling. Correcting digital patterns saves material costs and ensures consistent bulk production.
3D design presentation showcases virtual garments in high-resolution renders or turntable animations, allowing brands to visualize collections realistically before production.
Tech pack assistance includes preparing detailed documentation—measurements, trims, fabric specs, construction details, and visuals—so factories can produce garments accurately without miscommunication.
Annotation and labeling mark each pattern piece with essential production data—grainline, size, cut count, fabric code, and sewing direction—ensuring accuracy during cutting and stitching.
3D pattern simulation virtually stitches digital patterns into garments, allowing real-time drape and motion analysis before sampling. It’s key for sustainable, fast fashion development.
A pattern spec sheet documents the dimensions, seam allowances, and construction details for each pattern piece. It acts as a blueprint for cutting and sewing operations.
Pattern conversion refers to transforming file formats between different CAD systems or converting 2D patterns into 3D-ready models, maintaining full geometry and measurement accuracy.
A measurement chart defines body dimensions and size tolerances for each garment style. It ensures consistent fit across production batches and simplifies quality control.
Fashion sketches are interpreted into technical CAD patterns with correct proportions, seam placement, and ease allowance, turning design concepts into production-ready templates.
3D fit testing digitally evaluates garment patterns on virtual avatars, helping detect fitting issues early and reducing the need for multiple physical prototypes.
Pattern development transforms a design concept or sketch into accurate 2D patterns ready for sampling or production. It’s used by designers, tailoring units, and export manufacturers alike.
By scanning or referencing flat patterns from a physical sample, the design is rebuilt in 3D software. This enables digital visualization and fit validation before bulk production.
Pattern visualization and fit review involve previewing garments in 3D to assess style lines, drape, and silhouette accuracy. It bridges the gap between design and production.
2D to 3D pattern conversion turns flat CAD patterns into virtual garments. It helps designers validate fit, fabric behavior, and proportions instantly, without physical samples.
This service converts a flat fashion illustration into a 3D rendered garment, giving brands realistic visuals for client approval, marketing, or product presentations.
A sample fit review evaluates garment proportions, ease, and drape using either physical samples or virtual models. Adjustments are made in CAD before mass production to achieve perfect fit.