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Boolean Satisfiability Present and Future

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Title: Boolean Satisfiability Present and Future


1
Boolean Satisfiability Present and Future
  • Lintao Zhang
  • Microsoft Research SVC

2
SAT Introduction
  • Deciding the satisfiability of Boolean formulas
  • SAT Propositional ( usually in Conjunctive
    Normal Form (CNF) )
  • QBF With quantifiers
  • Many driving forces
  • Verification
  • Electronic Design Automation (EDA)
  • Artificial Intelligence
  • Operational Research
  • Physics ???
  • Where is SAT used in our context?
  • A basic building block for the reasoning engine
  • Reasoning on Boolean domain
  • Driving branching and backtracking for search
  • Model Checking
  • Decision Procedures
  • Etc.

3
SAT Solvers Current State-of-the-Art
  • Tremendous performance improvements on
    Propositional SAT solvers in the last decade
  • Speed increased by at least 3 orders of magnitude
  • We regularly solve SAT instances with tens of
    thousands variables and clauses
  • Example
  • Microprocessor verification, Bounded Model
    Checking, 14 Cycles
  • 1 million variables, 10 million literals
    initially
  • 200 million literals in added clauses
  • 30 million literals finally
  • 4 million clauses initially
  • 200k clauses added
  • 1.5 million decisions
  • 3 hours run time

4
SAT Solvers Current State-of-the-Art
  • Non performance related improvements of SAT
    solvers
  • Explanatory SAT solver
  • UNSAT Unsatisfiable core extraction
  • SAT Minimal model extraction
  • Interpolation using SAT solver
  • Checkable proof of unsatisfiability
  • On line progress report
  • In the last several years, SAT solver changed
    from a toy with only academic interest to become
    a powerful and feature rich deduction method
    capable of industrial strength applications.

5
Can we increase the SAT solver speed even more?
  • Yes. Better heuristics and better implementations
    are proposed everyday
  • But the improvements are incremental
  • DPLL is the dominating algorithm for SAT solving
    for more than 40 years
  • Basic DPLL algorithm is proposed in 1962
  • Learning and non-chronological backtracking
    (1996)
  • Careful implementation and tuning (2001)
  • 2-Literal Watching BCP, VSIDS decision heuristic,
    1-UIP learning, etc.
  • Whats going on?
  • Better decision/branching heuristics
  • Better learning and garbage collection schemes
  • Leverage the structure of the Boolean formula
  • Whats next?
  • We cannot bet on any breakthrough without
    fundamentally change the way the algorithm works
  • i.e. Dont bet on another 3 orders of magnitude
    speed up in the next 10 years.

6
SAT Solver as a White Box
  • Traditional usage of SAT as a Black Box
  • Translate the problem into a monolithic CNF
    instance
  • Throw it to the SAT solver and pray
  • Used to work well
  • To squeeze the last bit of performance out of a
    SAT solver, current applications need to treat
    SAT as a White Box
  • We need to use the knowledge about the
    application to help the SAT solver
  • Input to the SAT solver may be a Boolean formula
    combined with
  • Branching suggestions
  • Domain specific implications
  • Continuous interaction because of abstract and
    refinement
  • SAT engines need to be expandable, with cleanly
    defined interfaces.
  • What can the applications offer?

7
QBF Quantified Boolean Formulas
  • Many applications stress SAT solver because of
    quantifications
  • Eliminate quantification by expansion the
    formula becomes exponentially large
  • Eliminate quantification by solution enumeration
    SAT solver is bad at this
  • Unlike SAT, QBF just started to attract interests
    from researchers in the last couple of years
  • No predominant algorithm
  • DPLL search
  • Resolution
  • BDD
  • And many other approaches
  • Quantification elimination is hard (exponential
    in space), while deciding the satisfiability of a
    QBF may not be.
  • Will there be a breakthrough in the near future?
  • Much more probable than a breakthrough in SAT
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