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SPARK 2014 repository for the CVC4 SMT solver.
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This is CVC4 release version 1.5. For build and installation notes, please see the INSTALL file included with this distribution. The project leaders are Clark Barrett (Stanford University) and Cesare Tinelli (The University of Iowa). For a full list of authors, please refer to the AUTHORS file in the source distribution. CVC4 is a tool for determining the satisfiability of a first order formula modulo a first order theory (or a combination of such theories). It is the fourth in the Cooperating Validity Checker family of tools (CVC, CVC Lite, CVC3) but does not directly incorporate code from any previous version. CVC4 is intended to be an open and extensible SMT engine. It can be used as a stand-alone tool or as a library. It has been designed to increase the performance and reduce the memory overhead of its predecessors. It is written entirely in C++ and is released under an open-source software license (see the file COPYING in the source distribution). *** Getting started with CVC4 For help installing CVC4, see the INSTALL file that comes with this distribution. We recommend that you visit our CVC4 tutorials online at: http://cvc4.cs.stanford.edu/wiki/Tutorials for help getting started using CVC4. *** Contributing to the CVC4 project We are always happy to hear feedback from our users: * if you need help with using CVC4, please refer to http://cvc4.stanford.edu/#Technical_Support. * if you need to report a bug with CVC4, or make a feature request, please visit our bugtracker at https://github.com/CVC4/CVC4/issues or write to the cvc-bugs@cs.stanford.edu mailing list. We are very grateful for bug reports, as they help us improve CVC4, and patches are generally reviewed and accepted quickly. * if you are using CVC4 in your work, or incorporating it into software of your own, we'd like to invite you to leave a description and link to your project/software on our "Third Party Applications" page at http://cvc4.cs.stanford.edu/wiki/Public:Third_Party_Applications * if you are interested in contributing code (for example, a new decision procedure implementation) to the CVC4 project, please contact one of the project leaders. We'd be happy to point you to some internals documentation to help you out. Thank you for using CVC4! *** The History of CVC4 The Cooperating Validity Checker series has a long history. The Stanford Validity Checker (SVC) came first in 1996, incorporating theories and its own SAT solver. Its successor, the Cooperating Validity Checker (CVC), had a more optimized internal design, produced proofs, used the Chaff SAT solver, and featured a number of usability enhancements. Its name comes from the cooperative nature of decision procedures in Nelson-Oppen theory combination, which share amongst each other equalities between shared terms. CVC Lite, first made available in 2003, was a rewrite of CVC that attempted to make CVC more flexible (hence the "lite") while extending the feature set: CVC Lite supported quantifiers where its predecessors did not. CVC3 was a major overhaul of portions of CVC Lite: it added better decision procedure implementations, added support for using MiniSat in the core, and had generally better performance. CVC4 is the new version, the fifth generation of this validity checker line that is now celebrating twenty-one years of heritage. It represents a complete re-evaluation of the core architecture to be both performant and to serve as a cutting-edge research vehicle for the next several years. Rather than taking CVC3 and redesigning problem parts, we've taken a clean-room approach, starting from scratch. Before using any designs from CVC3, we have thoroughly scrutinized, vetted, and updated them. Many parts of CVC4 bear only a superficial resemblance, if any, to their correspondent in CVC3. However, CVC4 is fundamentally similar to CVC3 and many other modern SMT solvers: it is a DPLL(T) solver, with a SAT solver at its core and a delegation path to different decision procedure implementations, each in charge of solving formulas in some background theory. The re-evaluation and ground-up rewrite was necessitated, we felt, by the performance characteristics of CVC3. CVC3 has many useful features, but some core aspects of the design led to high memory use, and the use of heavyweight computation (where more nimble engineering approaches could suffice) makes CVC3 a much slower prover than other tools. As these designs are central to CVC3, a new version was preferable to a selective re-engineering, which would have ballooned in short order. *** For more information More information about CVC4 is available at: http://cvc4.cs.stanford.edu/
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