Difference between revisions of "Algebra of Systems"

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This where things get related to [[composition]]<ref>[https://youtu.be/8zk0yS8Jp5w?t=2485 All continuous functions can be composed of Lambda Calculus]</ref>.
This where things get related to [[composition]]<ref>[https://youtu.be/8zk0yS8Jp5w?t=2485 All continuous functions can be composed of Lambda Calculus]</ref>.
  All Computable/Continuous Functions can be composed using Lambda Calculus and arithmetics. Arithmetics gives you the power of analyzing Gödel numbers and other kinds of structures.
  All Computable/Continuous Functions can be composed using Lambda Calculus and arithmetics. Arithmetics gives you the power of analyzing Gödel numbers and other kinds of structures.
==Number 0,1 is related to K and S respectively==
The arithmetic mechanism can be represented using [[SK Combinators]], therefore, each can be related to a specific kind of number<ref>[https://youtu.be/8zk0yS8Jp5w?t=2555 S and K as numbers]</ref>.


=References=
=References=

Revision as of 05:43, 20 January 2022

Algebra of Systems[1] is a paper based on Koo's thesis[2].

A Concise Algebra for automating engineering tasks

This year 2009 paper summarized the following statement in the conclusion:

In Laws of programming[3], Hoare et al. questioned whether a small set of algebraic laws can be directly useful in a practical engineering design problem. The absence of a tool that can bridge the cognitive gap between mathematical abstractions and engineering problems may have been the main reason for their conservative attitude.

The above statement echos who Dana Scott[4] was saying in the 2018 Lambda Conference.

A lookup table as a enumerable function

He said in this lecture[5]:

If that lookup table is enumerable, that is a good definition of say that the enumeration operation is computable. ... So that computability here is on the same plane with enumerability.


Always think positively

He said the following[6]:

Don't think of divergence and all of that. ... You can only achieve what can possibly achieve. Don't think of things that cannot be done. This is the way how enumeration works. Working with the positives. Of course, you can think of complementary sets.

This is also where one can starting relating to the laws of composition.

Lambda Calculus allows you to notate Least Fixed Points

There is a well-foundedness as he mentioned at about 39 minutes into this video. He started talking about [7]. There is a connection between or Least Fixed Point of , and lambda calculus.

All Computable/Continuous Functions can be composed using Lambda Calculus

This where things get related to composition[8].

All Computable/Continuous Functions can be composed using Lambda Calculus and arithmetics. Arithmetics gives you the power of analyzing Gödel numbers and other kinds of structures.

Number 0,1 is related to K and S respectively

The arithmetic mechanism can be represented using SK Combinators, therefore, each can be related to a specific kind of number[9].

References

  1. Koo, Hsueh-Yung Benjamin; Simmons, Willard; Crawley, Edward (Nov 16, 2021). "Algebra of Systems as a Meta Language for Model Synthesis and Analysis" (PDF). local page: IEEE TRANSACTIONS ON SYSTEMS, MAN, AND CYBERNETICS. 
  2. Koo, Hsueh-Yung Benjamin (31 Jan 2005). A Meta-language for Systems Architecting (PDF) (Ph.D.). local page: MIT. Retrieved July 18, 2021. 
  3. Hoare, C. A. R.; Hayes, I. J.; He, Jifeng; Morgan, C. C.; Roscoe, A. W.; Sanders, J. W.; Sorensen, I. H.; Spivey, J. M.; Sufrin, B. A. (Aug 1987). "Laws of Programming" (PDF). 30 (8). local page: ACM. 
  4. Scott Commenting on a small algebra for combinators
  5. If the giant lookup table is enumerable ...
  6. Always think positively
  7. Least Fixed Point and Lambda Calculus
  8. All continuous functions can be composed of Lambda Calculus
  9. S and K as numbers

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