Design parts without the chaotic process.
Design parts without the chaotic process.
The quickest, most accessible, and highest impact way of optimising parts for manufacturing
The quickest, most accessible, and highest impact way of optimising parts for manufacturing
Without effio
With effio
Without effio
With effio
Hardware is Unproductive.
Engineers spend a lot of time reworking their designs due to manufacturability issues, which are detected quite late in the design process. Bad designs are followed by inefficient workarounds, ultimately leading to high costs and delays.
Manufacturability Issues are Caught Too Late
Manufacturability is often an afterthought, reviewed once a part is near-complete when only small changes are feasible.
effio creates a new paradigm where potential issues are caught in real-time to guarantee production-ready designs without costly rework or settling for suboptimal designs.
Manufacturability Issues are Caught Too Late
Manufacturability is often an afterthought, reviewed once a part is near-complete when only small changes are feasible.
effio creates a new paradigm where potential issues are caught in real-time to guarantee production-ready designs without costly rework or settling for suboptimal designs.
Hardware is inefficient.
The current state of hardware development projects are highly inefficient due to the lack of manufacturability of designs. Bad designs are followed by inefficient workarounds, ultimately leading to high costs and delays.
Issues are
Caught Late
In-House Talent
is Wasted
Reliability and
Production issues
effio Solves It.
effio integrates directly in common mechanical design software. The user is reminded to audit their current design, providing a button to export with one click.
CAD
Inputs
Summary
Feedback
effio integrates directly in common mechanical design software. The user is reminded to audit their current design, providing a button to export with one click.
CAD
Inputs
Summary
Feedback
effio Solves It.
effio integrates directly in common mechanical design software. The user is regularly reminded to audit their current design, providing a button to export with one click.
CAD
Inputs
Summary
Feedback
Design Better with effio.
Design Better with effio.
effio is a significantly better alternative to traditional methods of overcoming this problem. From on-demand analysis to unique recommendations, the tool is designed to help you cut costs and iterate faster, without disturbing workflows.
effio is a significantly better alternative to traditional methods of overcoming this problem. From on-demand analysis to unique recommendations, the tool is designed to help you cut costs and iterate faster, without disturbing workflows.
Speed of Feedback
Speed of Feedback
Accuracy of Insights
Accuracy of Insights
Thorough Analysis
Thorough Analysis
Prevention vs Reaction
Prevention vs Reaction
Scalability
Scalability
Ease of Access
Ease of Access
Consistency & Reliability
Consistency & Reliability
Time and Cost Needed
Time and Cost Needed
Overall Effectiveness
Overall Effectiveness
In-House Expertise
In-House Expertise
Supplier Feedback
Supplier Feedback
Prototype Testing
Prototype Testing
Plans for Everyone.
Custom pricing plans available for startups, and volume-based pricing available for large teams - contact us to discuss a tailored pricing plans
Individual | Up to 1 Seat
Free*
Near-instant manufacturability feedback
Access to CAD plugin
High-level summary statistics
Identification of problematic features
Summary of most common issues
Standard | Up to 5 Seats
£672/seat/year
Billed Monthly
Everything in Individual +
Feature-specific analysis and advice
Access to advanced input fields
Unit economics analysis tool
Support for collaborative workflows
Upgraded STEP File Protection
Plus | Unlimited Seats
£750/seat/year
Billed Annually
Everything in Standard +
Autogenerated Summary Reports
Advanced File Management System
Priority Customer Support
Plans for Everyone.
Custom pricing plans available for startups, and volume-based pricing available for large teams - contact us to discuss a tailored pricing plans
Individual | Up to 1 Seat
Free*
Near-instant manufacturability feedback
Access to CAD plugin
High-level summary statistics
Identification of problematic features
Summary of most common issues
Standard | Up to 5 Seats
£672/seat/year
Billed Monthly
Everything in Individual +
Feature-specific analysis and advice
Access to advanced input fields
Unit economics analysis tool
Support for collaborative workflows
Upgraded STEP File Protection
Plus | Unlimited Seats
£750/seat/year
Billed Annually
Everything in Standard +
Autogenerated Summary Reports
Advanced File Management System
Priority Customer Support
Hardware Industries.
Hardware Industries.
Manufacturability is a key concern in a wide range of industries. From Aerospace to Robotics, every company that produces a tangible outcome needs to think about designing in a cost effective, smart, and quick way.
Manufacturability is a key concern in a wide range of industries. From Aerospace to Robotics, every company that produces a tangible outcome needs to think about designing in a cost effective, smart, and quick way.
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Automotive
Optimise part designs to ensure peak performance and cost efficiency — mitigating costly rework and reducing tooling requirements.
CNC Milling: Machine precision engine brackets and transmission housings
Injection Moulding: Produce complex interior trim components with high repeatability
Medical Devices
Optimise part designs to ensure unparalleled reliability and regulatory compliance — reducing the risk of defects and internal QA burdens.
CNC Milling: Fabricate precision surgical instruments, implants, and diagnostic components
Injection Moulding: Manufacture robust plastic housings and intricate metal parts with tight tolerances
Consumer Electronics
Optimise part designs to achieve sleek aesthetics and dependable performance — cutting down on wasted material and lengthy design reviews.
CNC Milling: Craft custom enclosures, heatsinks, and internal supports
Injection Moulding: : Produce high-quality plastic casings and finely detailed components
Aerospace
Optimise part designs to meet stringent performance and weight standards — reducing the risk of defects and costly late-stage fixes.
CNC Milling: Manufacture high-precision structural components and complex tooling
Injection Moulding: Fabricate non-critical interior parts and composite components with repeatable accuracy
Robotics
Optimise part designs to enhance precision and integration—minimising rework and reducing complex tooling requirements
CNC Milling: Create custom brackets, sensor housings, and precision mechanical linkages
Injection Moulding: : Produce durable plastic components and lightweight structural parts essential for automation
Power and Energy
Optimise part designs to maximise efficiency and durability cutting production lead times and reducing material waste.
CNC Milling: Machine precision components for turbines, generators, and control systems
Injection Moulding: Fabricate resilient housings and connectors for robust energy systems
Frequently Asked Questions
Have more questions? Get in touch with the team!
Which industries does effio target?
How does effio detect manufacturability issues?
Does effio suggest ways of fixing issues it identifies?
How long does effio’s analysis take?
Does effio support assembly-related insights and challenges?
How does effio ensure its suggestions are accurate?
Which industries does effio target?
How does effio detect manufacturability issues?
Does effio suggest ways of fixing issues it identifies?
How long does effio’s analysis take?
Does effio support assembly-related insights and challenges?
How does effio ensure its suggestions are accurate?
Contact Us!
We would love to speak to individuals and enterprises interested in effio. Please fill the form and our team will respond within 24 hours.
Frequently Asked Questions
Have more questions? Get in touch with the team!
Which industries does effio target?
How does effio detect manufacturability issues?
Does effio suggest ways of fixing issues it identifies?
How long does effio’s analysis take?
Does effio support assembly-related insights and challenges?
How does effio ensure its suggestions are accurate?
Contact Us!
We would love to speak to individuals and enterprises interested in effio. Please fill the form and our team will respond within 24 hours.