Instruction Sequence Based Non-uniform Complexity Classes

Bergstra, Jan A.; Middelburg, Cornelis A.

doi:10.7561/sacs.2014.1.47

Cited by 17 publications

(63 citation statements)

References 26 publications

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“…n . 5 From this, it follows immediately that u ∼ e v implies X ∼ f Y . P Axioms for effectual equivalence are given in Table 6.…”

Section: Proofmentioning

confidence: 83%

“…In [5], we actually used the methods 0/0, 1/1, and i / i , but denoted them by set:0, set:1 and get, respectively. In [6], we actually used, in addition to these methods, the method c/c, but denoted it by com.…”

Section: Instructions For Boolean Registersmentioning

confidence: 99%

“…For Boolean registers that serve as input register, we used in [5,6] only primitive instructions from I br ({ i / i }). For Boolean registers that serve as output register, we used in [5,6] only primitive instructions from I br ({0/0, 1/1}).…”

Section: Instructions For Boolean Registersmentioning

confidence: 99%

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2016

SACS

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In previous work carried out in the setting of program algebra, including work in the area of instruction sequence size complexity, we chose instruction sets for Boolean registers that contain only instructions of a few of the possible kinds. In the current paper, we study instruction sequence size bounded functional completeness of all possible instruction sets for Boolean registers. We expect that the results of this study will turn out to be useful to adequately assess results of work that is concerned with lower bounds of instruction sequence size complexity.

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“…n . 5 From this, it follows immediately that u ∼ e v implies X ∼ f Y . P Axioms for effectual equivalence are given in Table 6.…”

Section: Proofmentioning

confidence: 83%

Section: Instructions For Boolean Registersmentioning

confidence: 99%

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2016

SACS

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“…the function 0, satisfying 0(0) = 0 and 0(1) = 0; -the function 1, satisfying 1(0) = 1 and 1(1) = 1; In [7], we actually used the methods 0/0, 1/1, and i / i , but denoted them by set:0, set:1 and get, respectively. In [8], we actually used, in addition to these methods, the method c/c, but denoted it by com.…”

Section: The Case Of Instructions For Boolean Registersmentioning

confidence: 99%

Axioms for Behavioural Congruence of Single-Pass Instruction Sequences

Bergstra¹,

Middelburg²

2017

SACS

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In program algebra, an algebraic theory of single-pass instruction sequences, three congruences on instruction sequences are paid attention to: instruction sequence congruence, structural congruence, and behavioural congruence. Sound and complete axiom systems for the first two congruences were already given in early papers on program algebra. The current paper is the first one that is concerned with an axiom system for the third congruence. The presented axiom system is especially notable for its axioms that have to do with forward jump instructions.

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“…In [5], we presented an approach to computational complexity in which algorithmic problems are viewed as Boolean function families that consist of one n-ary Boolean function for each natural number n and the complexity of such problems is assessed in terms of the length of finite single-pass instruction sequences acting on Boolean registers that compute the members of these families. The instruction sequences concerned contain only instructions to set and get the content of Boolean registers, forward jump instructions, and a termination instruction.…”

Section: Introductionmentioning

confidence: 99%