Can you give a specific example of the sort of thing that the integral transformations code might be able to do?
Aaron Meurer On Mon, Mar 25, 2013 at 1:00 AM, Amit Jamadagni <bitsjamada...@gmail.com> wrote: > I would request someone to let me know if the above mentioned cases are > possible.And is there any other requirement for SoC.Thanks. > > > On Sun, Mar 24, 2013 at 4:37 PM, Amit Jamadagni <bitsjamada...@gmail.com> > wrote: >> >> It would be great if someone comments on the other ideas too.Thanks. >> >> >> On Sat, Mar 23, 2013 at 2:26 AM, Amit Jamadagni <bitsjamada...@gmail.com> >> wrote: >>> >>> >The dirac notation stuff is basically done. But the position and >>> >momentum stuff needs a lot of work. There was a bunch of work done >>> >previously and there is an open pull request that has some additional >>> >work. This is an important part of the code base, but just a warning: >>> >it is extremely difficult and you will have to have a very good >>> >understanding of quantum mechanics (probably at the graduate level or >>> >close to it) and know python well. If you are interested in this I >>> >would just start to dig into the code and the open pull request on the >>> >topic and see what you think needs to be done. >>> >>> I would like to add that it might be possible for me to understand >>> (though not completely sure) but if it is a combination of some graduate >>> maths and intermediate physics(in an attempt on reading Sakurai for QM) I >>> can give it a try. If there can be an hint of what level of physics we are >>> dealing with then I can decide so I would like to know a little about >>> this.And I would like to know if there is an implementation of quantum >>> related group theory (SU(2) SU(3) groups).Even though my knowledge about >>> these is pretty elementary I would like to know whether any work is possible >>> in this direction.Thanks. >>> >>> On Sat, Mar 23, 2013 at 2:03 AM, Amit Jamadagni <bitsjamada...@gmail.com> >>> wrote: >>>> >>>> Thanks, for the ideas on what to implement in the respective sectors.I >>>> would like to know about the implementation of the first topic that I >>>> posted. I guess the patch requirement(pull request numbered 1834 and 1900) >>>> has been done so I would like to know if there is any other requirement to >>>> satisfy to apply for SoC. And yes I would start off as soon as possible and >>>> come up with something by the end this or the beginning of the next month. >>>> >>>> >>>> On Sat, Mar 23, 2013 at 1:39 AM, Brian Granger <elliso...@gmail.com> >>>> wrote: >>>>> >>>>> Amit, >>>>> >>>>> Hi, welcome to SymPy! >>>>> >>>>> > 2.Quantum Mechanics module : >>>>> > (i) Adding more features to spin section (Sean Vig has given >>>>> > a lead >>>>> > on this and I am working my way out on what can be done).(Will come >>>>> > out with >>>>> > some ideas by the end of the month) >>>>> >>>>> OK great, Sean is definitely the person to work with on the spin >>>>> stuff. He would know exactly what needs to be done. >>>>> >>>>> > (ii) From the ideas page I find three topics interesting but >>>>> > have >>>>> > to work on this to get the understanding of what is going on >>>>> > Dirac Delta Notation, position and momentum basis (I >>>>> > have tried >>>>> > to understand the code in the pull request) symbolic quantum >>>>> > computing. >>>>> >>>>> The dirac notation stuff is basically done. But the position and >>>>> momentum stuff needs a lot of work. There was a bunch of work done >>>>> previously and there is an open pull request that has some additional >>>>> work. This is an important part of the code base, but just a warning: >>>>> it is extremely difficult and you will have to have a very good >>>>> understanding of quantum mechanics (probably at the graduate level or >>>>> close to it) and know python well. If you are interested in this I >>>>> would just start to dig into the code and the open pull request on the >>>>> topic and see what you think needs to be done. >>>>> >>>>> > Even the tensor module sounds pretty interesting but my understanding >>>>> > would >>>>> > be not be that mathematical as I have just used them in physics (I >>>>> > can work >>>>> > upon on it). >>>>> > >>>>> > Coming to the background I have in the subject I have been >>>>> > doing a >>>>> > course on Integral transforms back at the university and have done a >>>>> > course >>>>> > in quantum computation and have been guided by the professors in the >>>>> > area of >>>>> > Quantum Physics.I know this is very much not in place but I would >>>>> > work on >>>>> > the Quantum Physics part and would move through the code and figure >>>>> > out how >>>>> > it has to be done.I would like to know your view on this topic as >>>>> > there >>>>> > would be medium work done to both the modules (would like to know the >>>>> > take >>>>> > on the first one and is it possible to squeeze a project by >>>>> > contributing >>>>> > evenly to two modules rather than one (since neither both ideas would >>>>> > stand >>>>> > alone as a single long project).Thanks. >>>>> >>>>> There is additional work to be done on the quantum computing stuff: >>>>> >>>>> * Quantum error correction >>>>> * Quantum circuit simplification/optimization >>>>> * Better circuit drawing >>>>> * Use numba/cython/julia to generate fast code for simulating quantum >>>>> circuits. >>>>> >>>>> Hope this gives you an idea of where to start. >>>>> >>>>> Cheers, >>>>> >>>>> Brian >>>>> >>>>> > -- >>>>> > You received this message because you are subscribed to the Google >>>>> > Groups >>>>> > "sympy" group. >>>>> > To unsubscribe from this group and stop receiving emails from it, >>>>> > send an >>>>> > email to sympy+unsubscr...@googlegroups.com. >>>>> > To post to this group, send email to sympy@googlegroups.com. >>>>> > Visit this group at http://groups.google.com/group/sympy?hl=en. >>>>> > For more options, visit https://groups.google.com/groups/opt_out. >>>>> > >>>>> > >>>>> >>>>> >>>>> >>>>> -- >>>>> Brian E. Granger >>>>> Cal Poly State University, San Luis Obispo >>>>> bgran...@calpoly.edu and elliso...@gmail.com >>>>> >>>>> -- >>>>> You received this message because you are subscribed to the Google >>>>> Groups "sympy" group. >>>>> To unsubscribe from this group and stop receiving emails from it, send >>>>> an email to sympy+unsubscr...@googlegroups.com. >>>>> To post to this group, send email to sympy@googlegroups.com. >>>>> Visit this group at http://groups.google.com/group/sympy?hl=en. >>>>> For more options, visit https://groups.google.com/groups/opt_out. >>>>> >>>>> >>>> >>> >> > > -- > You received this message because you are subscribed to the Google Groups > "sympy" group. > To unsubscribe from this group and stop receiving emails from it, send an > email to sympy+unsubscr...@googlegroups.com. > To post to this group, send email to sympy@googlegroups.com. > Visit this group at http://groups.google.com/group/sympy?hl=en-US. > For more options, visit https://groups.google.com/groups/opt_out. > > -- You received this message because you are subscribed to the Google Groups "sympy" group. 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