Hi to All! I am interested to this thread due to my previous experience in Layout Design of Integrated Circuit. I believed each tool has its own layout design database file and converting it to gds file can perform drc and lvs. the challenge is the rule checker from the technology provider(fab process). if we can figure out Standard Analog Cells for IC designers in 90nm, 45nm and down is very good to us using electric. Any derivation of circuit we can perform by simulating through electric the PMOS amd NMOS. Have soneone tried this in their design house?
Best Regards, Joselito On Mon, Sep 2, 2019, 6:36 PM Alexandre Rusev <[email protected]> wrote: > One of possible approaches to implement freepdk (and other PDK-s techns) > for electric may be converting various technology descriptions from > Cadence format, using any available PDK. > The generic PDK from Cadence is one of possible variants. > > https://perso.telecom-paristech.fr/mathieu/ICS904_TP_LAYOUT/html/_static/doc/gpdk045_drc.pdf > > We also can take look at simpler PDK-s likes freely available organic > process PDK > http://opdk.umn.edu/tutorial2.html > > Helpfull docs on Cadence DRC and tech format descriptions I found > in Utah> > http://www.cs.utah.edu/~rfonnesb/ee6961/docs/ > > We also need to look at technology layers manual (with usefull figures in > it;) ) to edit electric technology file. > > > > Looking for information in google I encounted a nice piece of educational > CAD which calls MicroWind > http://www.microwind.net/ > > This is eduactional only and tool, yet it demonstrates main features of > various submicrone technologies, rule files a the text files and are freely > available. > > https://github.com/shmmy/vlsi/tree/master/vlsi_2011/MW3.1.7/MW3.1.7/rules > > Besides coding correct DRC rules we need to make ensure that our electric > tech description exports the GDS layers needed to the target fab to create > working layout. > > For this purpose we need to generate some reference layouts with > cadence tools (as long as we are porting cadence oriented pdk-s to > electric) > > We also need to exchange with EDIF netlist format between electric and > cadence/calibre and compare LVS results of both cads. > > We also need to extract SPICE models for ELDO or Spectre model files which > are typically provided with cadence oriented PDK-s. > > Generally may be we need to start with simpler point - just to look at > DRC description examples for Cadence, Microwind, TaannerEDA and code > technology layers for Electric... > > I am working on that last (simplified) approach... > adding their layers > https://www.eda.ncsu.edu/wiki/FreePDK45:Layers > and implementing their rules > https://www.eda.ncsu.edu/wiki/FreePDK45:Contents > may be NOT a "rocket science" itself, but it looks like that I have now > full access to all FreePDK45 resources, not being an academic user. > > We need detail information on sheet resistance, parasitic capacitance and > so on. > > It still not clear which fab will produce chips designed for this PDK :( > > > > Support of fab-s models in NGSpice is aso an issue, at the moment I do not > know how to simulate their "new fasioned" BSIM model with LEVEL 53 > > > > > > -- > You received this message because you are subscribed to the Google Groups > "Electric VLSI Editor" group. > To unsubscribe from this group and stop receiving emails from it, send an > email to [email protected]. > To view this discussion on the web visit > https://groups.google.com/d/msgid/electricvlsi/CACoSTq%2BXx7umeo8Bo4do3sD0Z0vope018sdmiGTwp-0BcmpY-Q%40mail.gmail.com > <https://groups.google.com/d/msgid/electricvlsi/CACoSTq%2BXx7umeo8Bo4do3sD0Z0vope018sdmiGTwp-0BcmpY-Q%40mail.gmail.com?utm_medium=email&utm_source=footer> > . > -- You received this message because you are subscribed to the Google Groups "Electric VLSI Editor" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/d/msgid/electricvlsi/CALy8%2BG4JuHMCLQpKVT2vJ_pZJbw818yDAwLOjufnYAd_NKq-9w%40mail.gmail.com.
