Do you have an analog cell for which you are struggling to bring the parametric yield to 100% without significantly increasing design time and/or transistor area ?
If so, I will come to your company site and, for only $2,031 (less than what you would pay an undergraduate intern), cut the difference between 100% and the parametric yield by two or more in less than a month, without increasing transistor area by more than 10%. So, if, for example, the parametric yield of your cell is currently 50%, I will bring its parametric yield 75% or more. If the parametric yield of your cell is 90%, I will bring it to 95% or more. If you hand me a cell with 98% yield, I will raise the yield to 99% ore more.
What if I don't achieve the above target in less than a month ? In that case, you pay nothing.
Terms and Conditions:
The work month has to be a calendar month, starting the first, second or third day of the month, and ending the last day of the month.
On the first day of work, you have to provide me with all of the following:
1. An HSpice, Spectre or Eldo (SCAM** Simulator) netlist that you used to run Monte Carlo simulations.
2. Whatever statistical analysis you have performed with SCAM** Statistical Vaporware***, including mismatch analysis if any.
3. An office environment (cubicle or office), with a computer and access at least one license to all of the tools mentioned above.
4. The ability for me to install NGSpice and whatever other software I need.
To get started, contact us
* Transistor Accounting: the number of transistors is the number of transistors that will ultimately be in the manufactured circuit. So, if you have a netlist with 9 transistors and a behavioral model that will ultimately be implemented in manufacturing with thousands of transistors, that's a thousands transistors circuit, NOT an analog cell with few than 10 transistors.
** SCAM: Defined in the the glossary
*** Statistical Vaporware: Defined in the the glossary