Difference between revisions of "Verification of aTAM systems"

Revision as of 20:25, 10 July 2013

Several "verification problems" (answering the question of whether or not a given system has a specific property) have been studied in relation to the aTAM, and characterized by their complexity. Among them are: 1) Does aTAM system \(\mathcal{T}\) uniquely produce a given assembly? This was shown to require time polynomial in the size of the assembly and tile set by Adleman, et al. in ^[1]. 2) Does aTAM system \(\calT\) uniquely produce a given shape? This was shown to be in co-NP-complete for temperature 1 by Cannon, et al. in \cite{Versus} and co-NP-complete for temperature 2 in ^[2] by Cheng, et al. 3) Is a given assembly terminal in aTAM system \(\mathcal{T}\)? This was shown to require time linear in the size of the assembly and tile set in Cite error: Closing </ref> missing for <ref> tag

^[2]

^[3]

^[2]

^[4]

</references>

↑ Cite error: Invalid <ref> tag; no text was provided for refs named ACGHKMR02
↑ ^2.0 ^2.1 ^2.2 Qi Cheng, Gagan Aggarwal, Michael H. Goldwasser, Ming-Yang Kao, Robert T. Schweller, Pablo Moisset de Espan\'es - Complexities for Generalized Models of Self-Assembly
SIAM Journal on Computing 34:1493--1515,2005
Bibtex
Author : Qi Cheng, Gagan Aggarwal, Michael H. Goldwasser, Ming-Yang Kao, Robert T. Schweller, Pablo Moisset de Espan\'es
Title : Complexities for Generalized Models of Self-Assembly
In : SIAM Journal on Computing -
Address :
Date : 2005
Cite error: Invalid <ref> tag; name "AGKS05g" defined multiple times with different content
↑ Leonard Adleman, Qi Cheng, Ashish Goel,, Ming-Deh Huang - Running time and program size for self-assembled squares
pp. 740--748,2001
Bibtex
Author : Leonard Adleman, Qi Cheng, Ashish Goel,, Ming-Deh Huang
Title : Running time and program size for self-assembled squares
In : -
Address :
Date : 2001
↑ Sarah Cannon, Erik D. Demaine, Martin L. Demaine, Sarah Eisenstat, Matthew J. Patitz, Robert Schweller, Scott M. Summers, Andrew Winslow - Two Hands Are Better Than One (up to constant factors)
Technical Report, Computing Research Repository (1201.1650),2012
http://arxiv.org/abs/1201.1650
Bibtex
Author : Sarah Cannon, Erik D. Demaine, Martin L. Demaine, Sarah Eisenstat, Matthew J. Patitz, Robert Schweller, Scott M. Summers, Andrew Winslow
Title : Two Hands Are Better Than One (up to constant factors)
In : Technical Report, Computing Research Repository -
Address :
Date : 2012

[ACGHKMR02-1] Cite error: Invalid <ref> tag; no text was provided for refs named ACGHKMR02

[AGKS05g-2] 2.0 ^2.1 ^2.2 Qi Cheng, Gagan Aggarwal, Michael H. Goldwasser, Ming-Yang Kao, Robert T. Schweller, Pablo Moisset de Espan\'es - Complexities for Generalized Models of Self-Assembly
SIAM Journal on Computing 34:1493--1515,2005
Bibtex
Author : Qi Cheng, Gagan Aggarwal, Michael H. Goldwasser, Ming-Yang Kao, Robert T. Schweller, Pablo Moisset de Espan\'es
Title : Complexities for Generalized Models of Self-Assembly
In : SIAM Journal on Computing -
Address :
Date : 2005
Cite error: Invalid <ref> tag; name "AGKS05g" defined multiple times with different content

[AdChGoHu01-3] Leonard Adleman, Qi Cheng, Ashish Goel,, Ming-Deh Huang - Running time and program size for self-assembled squares
pp. 740--748,2001
Bibtex
Author : Leonard Adleman, Qi Cheng, Ashish Goel,, Ming-Deh Huang
Title : Running time and program size for self-assembled squares
In : -
Address :
Date : 2001

[Versus-4] Sarah Cannon, Erik D. Demaine, Martin L. Demaine, Sarah Eisenstat, Matthew J. Patitz, Robert Schweller, Scott M. Summers, Andrew Winslow - Two Hands Are Better Than One (up to constant factors)
Technical Report, Computing Research Repository (1201.1650),2012
http://arxiv.org/abs/1201.1650
Bibtex
Author : Sarah Cannon, Erik D. Demaine, Martin L. Demaine, Sarah Eisenstat, Matthew J. Patitz, Robert Schweller, Scott M. Summers, Andrew Winslow
Title : Two Hands Are Better Than One (up to constant factors)
In : Technical Report, Computing Research Repository -
Address :
Date : 2012

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@@ Line 1: / Line 1: @@
 Several "verification problems" (answering the question of whether or not a given system has a specific property) have been studied in relation to the aTAM, and characterized by their complexity.  Among them are:
+) Does aTAM system $\mathcal{T}$ uniquely produce a given assembly?  This was shown to require time polynomial in the size of the assembly and tile set by Adleman, et al. in <ref name=ACGHKMR02 />.
-) Does aTAM system $\mathcal{T}$ uniquely produce a given assembly?  This was shown to require time polynomial in the size of the assembly and tile set by Adleman, et al. in <ref name=ACGHKMR02 />.
+) Does aTAM system $\calT$ uniquely produce a given shape?  This was shown to be in co-NP-complete for temperature 1 by Cannon, et al. in \cite{Versus} and co-NP-complete for temperature 2 in <ref name=AGKS05g /> by Cheng, et al.
-) Does aTAM system $\calT$ uniquely produce a given shape?  This was shown to be in co-NP-complete for temperature 1 by Cannon, et al. in \cite{Versus} and co-NP-complete for temperature 2 in <ref name=AGKS05g /> by Cheng, et al.
+) Is a given assembly terminal in aTAM system $\mathcal{T}$?  This was shown to require time linear in the size of the assembly and tile set in <ref name=ACGHKMR02>
-) Is a given assembly terminal in aTAM system $\mathcal{T}$?  This was shown to require time linear in the size of the assembly and tile set in <ref name=ACGHKMR02>
+) Given an aTAM system $\calT$, does it produce a finite terminal assembly?  An infinite terminal assembly?  These were both shown to be uncomputable in <ref name=Versus />.
-) Given an aTAM system $\calT$, does it produce a finite terminal assembly?  An infinite terminal assembly?  These were both shown to be uncomputable in <ref name=Versus />.

Difference between revisions of "Verification of aTAM systems"

Revision as of 20:25, 10 July 2013

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