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TCSB
2008

Robustness to Code and Data Deletion in Autocatalytic Quines

14 years 10 days ago
Robustness to Code and Data Deletion in Autocatalytic Quines
Abstract. Software systems nowadays are becoming increasingly complex and vulnerable to all sorts of failures and attacks. There is a rising need for robust self-repairing systems able to restore full functionality in face of internal and external perturbations, including those that affect their own code base. However, it is difficult to achieve code self-repair with conventional programming models. We propose and demonstrate a solution to this problem based on selfreplicating programs in an artificial chemistry. In this model, execution proceeds by chemical reactions that modify virtual molecules carrying code and data. Self-repair is achieved by what we call autocatalytic quines: programs that permanently reproduce their own code base. The concentration of instructions reflects the health of the system, and is kept stable by the instructions themselves. We show how the chemistry of such programs enables them to withstand arbitrary amounts of random code and data deletion, without aff...
Thomas Meyer, Daniel Schreckling, Christian F. Tsc
Added 15 Dec 2010
Updated 15 Dec 2010
Type Journal
Year 2008
Where TCSB
Authors Thomas Meyer, Daniel Schreckling, Christian F. Tschudin, Lidia Yamamoto
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