This is a very compact yet remarkably thorough overview of the gm/Id methodology. If you read and sketch out the concepts in Boris Murmanns book it dovetails very well with this overview and makes sense.
This is by far the best tutorial on gm / Id design methodology I have ever watched on UA-cam. Thanks a ton for your efforts and sharing your knowledge with us.
The gm/Id EDA tool looks as though it could be an ideal platform within which to embed a machine learning neural network that could be trained to design analog IC modules. The circuit optimised over many training runs according to meet a well defined spec that is enhanced to present the data as unambiguously as possible.
gm/ID Design Methodology already simplified the analog approach. This ADT toolbox will simplify the design further. It looks very promising and is the need of time in this area. Eagerly waiting to get hands-on on the tool. Though in weak inversion design, current density can be considered as a tunable parameter, I guess this tool takes into account all these. Furthermore, only time will tell how this tool scales up for system level designs.......
Wow ! very intuitive lecture on design methodology !! One doubt I have though , Vgs is considered will designing the current source right and then the current source is copied and used for forcing the current in other circuits?
Can you make a Tutorial on how to generate the LUT? I made the reference Netlist in LTspice, like shown in the Help Browser, but it says: "Error: [LUT Generation] No devices found in the netlist. Make sure all transistor names start with 'M' and their widths and lengths are correctly specified." But the name of my tranistor is M1 and its width is WN and its length LN.
It is general. Essentially, you are defining the parameters of every MOSFET using (L, gm/ID, ID), where gm/ID intuitively captures the inversion region and the design tradeoffs. Using (L, gm/ID, ID) you can easily lookup the corresponding W. The Analog Designer's Toolbox (adt.master-micro.com) makes this process easy and straightforward.
@@MasteringMicroelectronics Thank you but before using the Actual tool. It is a must that I have to learn deeply first the gm/id concept is there a reference for this Sir? Im gonna recommend this tool in my work once i got comfortable with this.
@@christianmontanogalvez1279 The purpose of this lecture is to clearly explain the gm/ID concept. Also please check the references mentioned towards the end of the lecture. The lecture slides and the labs provided in the link below are also useful: www.master-micro.com/mastering-microelectronics/courses/analog-ic-design If you are interested in customized content, please contact info@master-micro.com.
Will you open-source it, i would like to start using this soon and then start contributing :) This is the way how to build and guide our small but powerful community! :)
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This is a very compact yet remarkably thorough overview of the gm/Id methodology. If you read and sketch out the concepts in Boris Murmanns book it dovetails very well with this overview and makes sense.
This is by far the best tutorial on gm / Id design methodology I have ever watched on UA-cam. Thanks a ton for your efforts and sharing your knowledge with us.
Thank you :)
Please check the pdf and the survey links in the video description. Your feedback matters!
This is Hesham Omran. Please look up his IEEE publications on gm/ID methodology. We are truly fortunate to have him teach us this subject.
This webinar is very useful to the analog designers
Thanks sir
We are glad you found it useful :)
Please check the pdf and the survey links in the video description. Your feedback matters!
The gm/Id EDA tool looks as though it could be an ideal platform within which to embed a machine learning neural network that could be trained to design analog IC modules. The circuit optimised over many training runs according to meet a well defined spec that is enhanced to present the data as unambiguously as possible.
gm/ID Design Methodology already simplified the analog approach. This ADT toolbox will simplify the design further.
It looks very promising and is the need of time in this area. Eagerly waiting to get hands-on on the tool.
Though in weak inversion design, current density can be considered as a tunable parameter, I guess this tool takes into account all these. Furthermore, only time will tell how this tool scales up for system level designs.......
This video has helped me understand the current literature on this subject immensely. I am in your debt, Hesham.
now, it is time to recommend it to every single person in my life. 😂😂 thank you soooooooo muuuuuch siiiir!!!!
some really nice stuff for analog designers, explanation skills r just too good
Very insightful and easy to follow! Thank you, Hesham!
Thanks!
Please check the pdf and the survey links in the video description. Your feedback matters!
Excellent lecture sir. Couldn't ask for more.. Thanks a million. This is a great start for systematic analog design..
Amazing video, thank you very much!!
Commendable work. Thank you.
This is very helpful ! So nice!
Wow ! very intuitive lecture on design methodology !!
One doubt I have though , Vgs is considered will designing the current source right and then the current source is copied and used for forcing the current in other circuits?
Very useful!! Thanks Sir!
4 graphs LUTs could be merged in one only mapping region?
In slide 44, what you are plotting in X-axis? And how?
The x-axis is the gm/ID. You can do this easily using ADT: adt.master-micro.com/
How can I import my technology files to ADT sir?
Please send your question to ADT support from your dashboard.
Can you make a Tutorial on how to generate the LUT? I made the reference Netlist in LTspice, like shown in the Help Browser, but it says: "Error: [LUT Generation] No devices found in the netlist. Make sure all transistor names start with 'M' and their widths and lengths are correctly specified."
But the name of my tranistor is M1 and its width is WN and its length LN.
Please contact ADT support through your online dashboard and they will help you through this.
@@MasteringMicroelectronics okay i will, thank you
is this method powerful only for amplifiers? how about for comparators?
It is general. Essentially, you are defining the parameters of every MOSFET using (L, gm/ID, ID), where gm/ID intuitively captures the inversion region and the design tradeoffs. Using (L, gm/ID, ID) you can easily lookup the corresponding W. The Analog Designer's Toolbox (adt.master-micro.com) makes this process easy and straightforward.
@@MasteringMicroelectronics Thank you but before using the Actual tool. It is a must that I have to learn deeply first the gm/id concept is there a reference for this Sir? Im gonna recommend this tool in my work once i got comfortable with this.
@@christianmontanogalvez1279 The purpose of this lecture is to clearly explain the gm/ID concept. Also please check the references mentioned towards the end of the lecture. The lecture slides and the labs provided in the link below are also useful:
www.master-micro.com/mastering-microelectronics/courses/analog-ic-design
If you are interested in customized content, please contact info@master-micro.com.
Will you open-source it, i would like to start using this soon and then start contributing :) This is the way how to build and guide our small but powerful community! :)