We check your circuit board
before the factory builds it.
Before a factory builds an electronic circuit board, we check the design for costly mistakes and get the files ready to manufacture. We catch the errors, prepare the files, and give the factory a version that's ready to build — from a first prototype to the most complex 110-layer boards.
- Max layer count
- 110
- Min trace / space
- 2 mil
- Impedance control
- ±5%
- Nets routed / board
- 40k+
- DFM engineering desk
- 24/7
- Years pre-manufacturing
- 12+
Max layer count
Min trace / space
Impedance control
Nets routed / board
DFM engineering desk
Years pre-manufacturing
// New here? The plain version
What we do, in plain English.
Think of us as the proofreaders and print-shop for circuit boards: we catch the errors and prepare the files before anything gets made in copper.
What is a circuit board?
The flat board inside almost every electronic device — from phones to cars. It holds the chips and connects them with tiny printed copper 'wires'. Engineers call it a PCB (printed circuit board).
What do we actually do?
Designers send us their board files. We inspect them for problems a factory can't fix on its own, clean up the files, and hand back a version that's safe and ready to build.
Why it saves money
One missed mistake can wreck an entire production run — weeks of delay and thousands of dollars wasted. Catching it before manufacturing is far cheaper than after.
Who we help
Everyone from a startup building its very first prototype to aerospace and chip-testing teams making the most complex boards in the world.
// How it works
From your files to finished boards — in four steps.
Every project follows the same checked path. Nothing reaches the factory without a signed, recorded sign-off at each step.
- 01
You send your files
Upload your board design. We open it and rebuild a complete, accurate picture of every layer.
Gerber RS-274X, ODB++ and IPC-2581 packages ingested; apertures normalized and the layer stack reconstructed.
- 02
We check it for mistakes
We hunt for design errors that would make the factory build it wrong — and flag every one for you.
Trace spacing, annular rings, acute slivers and hanging copper audited against per-class IPC rules.
- 03
You see a clear price
You get an itemized quote up front — no surprises about what drives the cost.
A deterministic engine resolves material, layer and finish multipliers into a transparent, itemized quote.
- 04
It's ready to build
We hand the factory clean, approved files — so your boards come out right the first time.
Panelized, coupon-embedded datasets are released to fabrication under audit-logged engineering sign-off.
// Core capabilities
Engineering services, not order-taking.
Each engagement is owned by a pre-manufacturing engineer. Read the deep detail on any capability, then bring us your hardest board.
Gerber & ODB++ CAM Processing
Like getting a rough manuscript print-ready, we take a designer's raw board files and tidy them up so a factory can actually build the circuit board.
Fab-ready panels and verified netlists that drop straight into your fabricator's line.
Read the engineering detailDFM & DRC Analysis
Like a proofreader for your circuit board — we catch the tiny design mistakes that would make a factory build it wrong, before they ruin a whole batch.
A yield-safe design that clears the fab's rule deck on the first pass.
Read the engineering detailHDI & Microvia Engineering
We design the tiny, tightly packed circuit boards found inside phones and smartwatches, fitting microscopic connections into a space smaller than a fingernail.
Reliable HDI stackups that break out fine-pitch BGAs without yield-killing aspect ratios.
Read the engineering detailControlled Impedance Design
Like sizing water pipes just right so nothing leaks or echoes, we shape the copper wires on a board so fast signals travel cleanly without errors.
Signal traces that hit their target impedance across process variation, proven by TDR coupons.
Read the engineering detailATE Loadboard & Probecard Design
We build the giant, extremely complex circuit boards that factories use to test computer chips and make sure each one works before it ships.
First-pass loadboards that mate to the tester and hold signal integrity across tens of thousands of nets.
Read the engineering detailCAM Scripting & Tooling Automation
Like a robot that handles boring paperwork, we write custom software to automate slow, repetitive board-prep tasks so they finish faster with fewer mistakes.
Repeatable, scripted CAM flows that cut manual touches and eliminate operator-to-operator variance.
Read the engineering detail// Who we help
Industries we help.
From aircraft and medical devices to cars and everyday smart gadgets — we adapt our checks to what each industry demands.
Aerospace & Defense PCB CAM
Circuit boards for aircraft, satellites, and defense equipment, where a single failure could be catastrophic, so everything is built to the strictest standards.
Medical Device PCB CAM
Circuit boards for medical equipment like monitors and implants, where safety and reliability are tightly regulated because people's lives depend on them.
Automotive Electronics PCB CAM
Circuit boards for cars, built to survive engine heat, constant road vibration, and many years of daily driving without ever letting you down.
Consumer & IoT PCB CAM
Circuit boards for everyday smart gadgets and connected home devices, made in huge quantities at low cost while staying small and reliable.
// Compliance
Certified for the work that cannot fail.
Quality Management System
High-Reliability Acceptance
Aerospace Quality Standard
// Engineering desk
Headquartered in Ahmedabad, India.
- Ahmedabad, INIndia · Headquarters
A DFM engineer is on desk 24 hours a day — for clients worldwide.
// Common questions
Engineering FAQ.
The questions our engineers field most before a first CAM run. Something more specific? Ask the desk directly.
In plain terms: before a factory makes your electronic circuit board, we review the design for mistakes, fix the files, and make sure it can be built correctly. It's like having a proofreader and print-shop for circuit boards.
It's the flat board inside almost every electronic device. It physically holds the chips and other parts and connects them with tiny printed copper lines. Almost everything electronic — phones, cars, medical devices — runs on one.
No. Send us whatever files your designer produced and tell us what you're building. We'll explain everything in plain language, flag anything risky, and guide you to a board that's ready to manufacture.
We ingest Gerber RS-274X, ODB++ (v7/v8), IPC-2581 Rev C and legacy RS-274D with aperture files. Netlists are cross-verified against IPC-D-356.
Standard rigid stacks up to 32 layers, HDI builds with sequential lamination, and specialized ATE loadboards up to 110 layers routing 40,000+ nets.
Yes. We build field-solver-driven stackups holding single-ended and differential targets to ±5%, with impedance test coupons embedded in every panel.
We operate under strict controlled-data handling protocols — NDA coverage, per-program access isolation and full audit logging on every job.
A 24/7 engineering desk returns first-pass DFM findings within hours for standard designs; complex HDI and ATE reviews are scheduled with a dedicated engineer.
We build custom Perl/Python tooling and HyperTooling engine runtimes that codify fab-specific rule decks into deterministic, version-controlled jobs.
Bring us the board
that keeps you up at night.
Send us your design files and tell us what you're building. A real engineer reviews it and replies with what they found — usually within hours.
- A real engineer's review in hours, not days
- Your files kept private and securely handled
- A clear, itemized price — no surprises