Singularity Engineering is the premier Simulation Solutions Provider for the San Francisco Bay Area. We have worked with countless companies to help them speed up development, identify reliability issues, and optimize performance. We can certainly help you too. We help companies develop better wireless products faster. Whether you are integrating an off the shelf antenna or need a custom antenna to fit in a small form factor, we can help.
Singularity Engineering is the leader in bio-process simulations here in the San Francisco bay area. We cover the full range of computational fluid dynamics simulations for up and down stream applications. We help companies reduce risk, reduce cost and speed up development for the following applications. Failures during shock and vib testing is common and often leads to costly redesigns and months of delays.
We help companies identify potential failures during shock and vib testing through simulations. Heat is one of the main challenges in modern electronics design.
Singularity Engineering is the leader in bio-process simulations here in the San Francisco bay area. We cover the full range of computational fluid dynamics simulations for up and down stream applications. We help companies reduce risk, reduce cost and speed up development for the following applications. Failures during shock and vib testing is common and often leads to costly redesigns and months of delays.
We help companies identify potential failures during shock and vib testing through simulations. Heat is one of the main challenges in modern electronics design.
Services
After more than a decade at ANSYS as the lead applications engineer in the Bay Area, I decided to do more and do things a bit differently.
Provide full solutions - We focus on solving your problems, from conceptual design space exploration to simulation results validation, we are not done until you've found your solution.
Improve product development - We find partners in design, engineering and manufacturing so that we can help to improve the bay area product development eco-system.
We are a rapidly growing team with expertise in structural, fluid, thermal and electromagnetic simulations.
Provide full solutions - We focus on solving your problems, from conceptual design space exploration to simulation results validation, we are not done until you've found your solution.
Improve product development - We find partners in design, engineering and manufacturing so that we can help to improve the bay area product development eco-system.
We are a rapidly growing team with expertise in structural, fluid, thermal and electromagnetic simulations.
Many wireless systems starts with an off the shelf antenna such as a chip, PCB or dipole antenna.
Typically, you won't know how well it is going to work until the full system prototype is done.
Then you find out it isn't quite as good as you'd hoped.
Low communications data rate, high power use, mysterious dropped connection are some of the issues systems engineers struggle with.
We are uniquely able to predict the performance of your antenna system at the design stage.
This means you will finally have a chance to optimize and improve your wireless performance.
Typically, you won't know how well it is going to work until the full system prototype is done.
Then you find out it isn't quite as good as you'd hoped.
Low communications data rate, high power use, mysterious dropped connection are some of the issues systems engineers struggle with.
We are uniquely able to predict the performance of your antenna system at the design stage.
This means you will finally have a chance to optimize and improve your wireless performance.
Singularity Engineering is the unique provider for the full suite of PCBA reliability simulation solutions.
We combine the powerful solution capability of ANSYS Mechanical with the ease of use and rich dataset of DFR Sherlock to help customers tackle DFM (Design for manufacturability) and DFR (Design for reliability) concerns early on in the design process.
Thermal cycling induced solder joint fatigue has been the main source of electronics failure and the cause for numerous expensive product recalls.
We combine the powerful solution capability of ANSYS Mechanical with the ease of use and rich dataset of DFR Sherlock to help customers tackle DFM (Design for manufacturability) and DFR (Design for reliability) concerns early on in the design process.
Thermal cycling induced solder joint fatigue has been the main source of electronics failure and the cause for numerous expensive product recalls.
Electronics get hot.
We help you figure out the best way to cool it through convection, conduction and radiation.
Electronics assemblies can be exceedingly complex systems.
Having the right tools means you can tackle problems efficiently and get accurate results to ensure your devices' expected performance.
Electronics cooling challenges are becoming more common as form factors shrink and performance requirements go up.
Having workable cooling solutions figured out before you start cutting metal is a sure way to help meet your development deadlines.
We help you figure out the best way to cool it through convection, conduction and radiation.
Electronics assemblies can be exceedingly complex systems.
Having the right tools means you can tackle problems efficiently and get accurate results to ensure your devices' expected performance.
Electronics cooling challenges are becoming more common as form factors shrink and performance requirements go up.
Having workable cooling solutions figured out before you start cutting metal is a sure way to help meet your development deadlines.
Making sure your device is durable is one of the most basic goals for every mechanical engineer.
In the electronics industry we move fast and this puts a lot of pressure on the traditional design-prototype-test process.
With simulation we can predict the durability.
This helps you save money on prototypes and speed up your development time.
In our snap fit and connector simulations we can predict the insertion force, stress, deformation and durability of the system.
Best of all, these are pretty basic nonlinear contact models they they are accurate and runs very fast.
In the electronics industry we move fast and this puts a lot of pressure on the traditional design-prototype-test process.
With simulation we can predict the durability.
This helps you save money on prototypes and speed up your development time.
In our snap fit and connector simulations we can predict the insertion force, stress, deformation and durability of the system.
Best of all, these are pretty basic nonlinear contact models they they are accurate and runs very fast.
Reviews
Be the first to review Singularity Engineering.
Write a Review