Do you want to never have to hire us again as Robust IC Design Consultants ?
One step towards that goal is for your company to purchase our Standard Level Corporate Training: Robust Design of Circuits with fewer than 1,000 transistors*.
This training can only be purchased as an add on solution to our Standard Level Robust IC Design Solutions (Standard Level Parametric Yield Optimization, Standard Level Chip Area Reduction or Standard Level Performance Variability Reduction). It CANNOT be purchased separately. For an additional $3,880 (due only if the Standard Level Solution is successful), your design and CAD engineers will get 16 hours of on site instruction, as follows:
1) First Friday of the month, 3 PM to 5 PM: Problem Formulation.
Introduce the students (your design and CAD engineers) to the Robust IC Design problem (parametric yield optimization or transistor area reduction) that I will be working on that month as the Standard Level Solution. Explain to the students the importance of studying all the course material at https://RobustICDesignUniversity.com
2) Second Friday of the month, 3 PM to 5 PM: Q&A regarding Robust IC Design 101 from https://RobustICDesignUniversity.com
3) Third Friday of the month, 3 PM to 5 PM: Q&A regarding Robust IC Design 201 from https://RobustICDesignUniversity.com
4) Week after the Third Friday of the month:
4.a) Monday, 3 PM to 5 PM: Hands of resolution of the problem formulated the first Friday of the month.
4.b) Tuesday, 3 PM to 5 PM: Critic and Q&A regarding the resolution of the problem formulated the first Friday of the month.
4.c) Wednesday and Thursday, 3 PM to 5 PM: Bring Your Own Small Circuit (< 1,000 transistors*) to class:
One or two small Circuits will be selected among the ones brought to class by the students, and we will all try to optimize its yield and/or reduce its transistor area.
4.d) General Q&A about Robust IC Design:
Preference will be given to the Robust Design of Small Circuits (fewer than 1,000 transistors*).
But, time permitting, questions about Robust Design of ICs (<1,000 transistors*) will be answered too.
To get started, select one of our Standard Level Robust IC Design Solutions (Standard Level Parametric Yield Optimization, Standard Level Chip Area Reduction or Standard Level Performance Variability Reduction) and, in your email to achab@abdenourachab.
* 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 900 transistors and a behavioral model that will ultimately be implemented in manufacturing with thousands of transistors, that's a thousands transistors circuit, NOT an Circuit with few than 1,000 transistors.