Answers to the questions of my universe and anything...
Well, my global aim is to create an unified dynamic system modeling program in Haskell.
There are also other topics, like cryptography and electronics hardware, that I may develop along the way to this so called unified dynamic systems modeler.
folder | description |
---|---|
HW | Hardware development |
SW | Software development |
- Loudon Kyle, Mastering algorithm with C, O'REILLY, April 2002
- Mecklenburg Robert, Managing Projects with GNU Make, O'REILLY, November 2004
- Lipovača Miran, Learn You a Haskell for Great Good!, No Starch Press, 2011
- B. Mark, 64-bit assembly programming for Linux, Sharanych Media, 2020
- P. Horowitz & W. Hill, The Art of Electronics, Cambridge University Press, 2015
- S. Dusausay, L'Electronique par la simulation, 2023
- Jon B. Hagen, Radio Frequency Electronics, Cambridge University Press, 2009
- Cryptography Algorithms in C
- Biologic dynamic systems modeler in Haskell
- Electronic circuits modeler in C
- Unified systems modeler in Haskell
flowchart TB
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classDef orange fill:#fc822b,stroke:#000,stroke-width:2px,color:#fff
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B2(Electronique par la simulation):::blue
B3(Radio frequency electronics):::blue
B4(Mastering algorithm with C):::blue
B5(CGP Math):::blue
B6(Learn you a Haskell for great good!):::blue
O1(LTspice reference simulations):::orange
O2(C based circuits modeler):::orange
O3(Biologic dynamic systems modeler):::orange
O4(Unified dynamic system modeler in Haskell):::orange
O5(Cryptography in C):::orange
B1 ---> B2 & O1
B2 ---> B3 & O1
B3 ---> O1
O1 ---> O2
B3 ---> O2
B4 ---> O2
B5 ---> O3
B6 ---> O3
O3 ---> O4
O2 ---> O4
B4 ---> O5