Altair Inspire, developed by SolidThinking which was acquired by Altair, is software for Generative Design/Topology Optimization, and rapid simulation solution for design engineers. It is designed to enhance the concept development process by enabling simulation-driven design to increase a product’s efficiency, strength and manufacturability. This can lead to reduced costs, development time, material consumption, and product weight.
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aPriori Technologies
Score 8.7 out of 10
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aPriori provides design and sourcing Insights to unlock and identify new opportunities for reducing product cost and carbon footprint, optimizing manufacturing and supply chain risk, and improving design engineering and sourcing teams’ productivity. Their automated Insights Platform is used to reduce time to market, meet sustainability targets, and accelerate revenue growth. What are Manufacturing Insights? aPriori’s Manufacturing Insights Platform simulates each step of the…
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LabVIEW
Score 9.2 out of 10
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National Instruments headquartered in Austin offers LabVIEW, a systems engineering software platform and toolkit.
$407
per year
Pricing
Altair Inspire
aPriori Technologies
National Instruments LabVIEW
Editions & Modules
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aP Pro
Custom
aP Design
Custom
aP Generate
Custom
aP Analytics
Custom
LabView Base
$407
per year
LabView Full
3,206
per year
LabView Professional
5,344
per year
Offerings
Pricing Offerings
Altair Inspire
aPriori Technologies
LabVIEW
Free Trial
No
No
No
Free/Freemium Version
No
No
No
Premium Consulting/Integration Services
No
Yes
No
Entry-level Setup Fee
No setup fee
Optional
No setup fee
Additional Details
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More Pricing Information
Community Pulse
Altair Inspire
aPriori Technologies
National Instruments LabVIEW
Features
Altair Inspire
aPriori Technologies
National Instruments LabVIEW
Computer-Aided Design Software
Comparison of Computer-Aided Design Software features of Product A and Product B
This software is incredibly intuitive and really does provide a great finished product. The software runs relatively quickly and will usually throw an error right away, which is a nice feature. I didn't use the geometry editing parts of the software, but it looks promising to be able to edit files directly in the program.
From my experience aPriori is a classical algorithm in data mining. It is used for mining frequent itemsets and relevant association rules. Also, it is devised to operate on a database containing a lot of transactions, for instance, items brought by customers in a store. Whereas aPriori requires high computation if the itemsets are very large and the minimum support is kept very low and the entire database needs to be scanned.
LabView is a great tool to connect your sensors to your data aquisition hardware. It makes it really easy to set-up a data acquisition routine that meets your individual requirements. I, as an engine researcher, find it very well suited for engine experimentation. For any other programming needs, i.e. not data acquisition, I would not recommend using LabView because of its graphical programming architecture. The architecture makes it a great tool for Data Aquisition but puts at a disadvantage when it comes to other computational tasks, e.g. making a thermodynamic engine model. For those applications having text-based programming is better suited
Sheet Metal-Process Group, Transfer Die is at the Best, which gives detailed operation setup for the Parts as well as shows the number of parts in the Sheet i.e nested Loop thereby reducing the Scrap as well (Scrap Management)
Forging-Steel: Very good for for medium and complex medium Hot Forging type parts. Machine overhead data is very detailed where facts are used for the negotiation i.e Electricity Rate, Power, Labour Rate, Maintenance rate, etc.
Surface Treatment / Other Secondary Process such as powder coating, wet coat, electro plating: These all work well. We can also use masking options the treatment, In the event of of any leak tests or X-Ray inspections, we can add the process which will then account the pre/post operation time for the treatments
2-Model Machining: Machines and routing combinations are huge and can be used to determine the most economic way to produce these parts. We can also override to find the supplier methodology and cost. It gives very detailed information on the feed rate, speed rate, and power capacity.
Geometric Dimensioning and Tolerating (GD&T) can be added on the GCD's which will help detect the super finishing process, which is another advantage. In the current 2016 R2 SP, aPriori can detect it from the CAD Models
Design to Cost feature, provides the design engineers as well as cost engineers to understand the which feature take most cycle time and whether changing that feature reduces the complexity in machining thereby cycle time can be reduced
I think the tools to create CAD are a bit difficult to use. Consequently, it is now easier to develop the part in other software, which is bad since we need to use more than one tool at a time.
Not to Lose the Position of Product Cost Management Importance
Make Costing Simple and Ease
Traceablitlity of Previous Costed
Helps Design Engineers to actually look for the Which Feature contributes for the Most Cycle Time and help Design Engineers to re-design the CAD Model and look for the changes in the Cycle Time and the Machining parameters
I'm fairly happy with the product. My company appreciates the ability to customize the software, as well as manage our own data points for costs, machines, and materials. The coding aspect is not too difficult as well, though there are some issues with the availability of some information that could be improved.
When I needed clarification on how do use a feature or best way to define the constraints for a design problem, the response was quick and solved my needs.
Overall, I'm generally satisfied with the response and results that I get from aPriori support. They are intuitive, and try to understand what it is I'm trying to do, or how the problem is affecting me or my organization. They also are very available across the globe, as my team is located in multiple regions.
aPriori team helped a lot for the implementation, as they were on remote and helping for the file run and implementing the same on remote. aPriori team extrended full support for the implementation resolving the bottleneck and bugs if any during installing the software's also, they provide professional services in order to resolve some technical issue
Working Model, MathCad, Dynamic Designer, Algor, and Mathlab had poor UI's and poor ways to define actuator and motor motion profiles. The force results and vectors were not easy to input into the FEA software. SOLIDWORKS Motion does not have an excellent way to define a linear actuator or its motion profile. Altair provides a UI that guides you through defining your linear actuator or motor's motion profile quickly.
aPriori is covering a lot of different processes instead of being an expert in only one. It can read geometric [information] directly from the CAD file so there's no need for manual entry or the risk of a mistake that comes with that. It provides data in a lot of different regions around the world this keeping the data up to date.
We chose LabVIEW over MATLAB due to the integration with hardware and the graphical programming interface. Also, the ability to use LabVIEW with FPGAs and real-time processors without having to make large changes to the code base or swapping to a separate programming environment was a big benefit since we don't know what hardware will be suitable for each customer application.
The main negative impact is that it is costly, a waste of time to hold a vast number of candidate sets with many frequent itemsets, low minimum support, or large itemsets.
We use NI's data acquisition hardware as well which has made it possible to get whatever experimental data we need to get for our studies.
LabView has made it possible for us to post-process and tailor the raw data to our specific needs.
With a responsive customer support team, NI allows us to expand our data acquisition and post-processing capabilities to carry out the kind of research projects that we would want.
