A mathematical theory of synchronous concurrent algorithms

Thompson, Benjamin Criveli

January 1987

A synchronous concurrent algorithm is an algorithm that is described as a network of intercommunicating processes or modules whose concurrent actions are synchronised with respect to a global clock. Synchronous algorithms include systolic algorithms; these are algorithms that are well-suited to implementation in VLSI technologies. This thesis provides a mathematical theory for the design and analysis of synchronous algorithms. The theory includes the formal specification of synchronous algorithms; techniques for proving the correctness and performance or time-complexity of synchronous algorithms, and formal accounts of the simulation and top-down design of synchronous algorithms. The theory is based on the observation that a synchronous algorithm can be specified in a natural way as a simultaneous primitive recursive function over an abstract data type; these functions were first studied by J. V. Tucker and J. I. Zucker. The class of functions is described via a formal syntax and semantics, and this leads to the definition of a functional algorithmic notation called PR. A formal account of synchronous algorithms and their behaviour is achieved by showing that synchronous algorithms can be specified in PR. A formal account of the performance of synchronous algorithms is achieved via a mathematical account of the time taken to evaluate a function defined by simultaneous primitive recursion. A synchronous algorithm, when specified in PR, can be transformed into a program in a language called FPIT. FPIT is a language based on abstract data types and on the multiple or concurrent assignment statement. The transformation from PR to FPIT is phrased as a compiler that is proved correct; compiling the PR-representation of a synchronous algorithm thus yields a provably correct simulation of the algorithm. It is proved that FPIT is just what is needed to implement PR by defining a second compiler, this time from FPIT back into PR, which is again proved correct, and thus PR and FPIT are formally computationally equivalent. Furthermore, an autonomous account of the length of computation of FPIT programs is given, and the two compilers are shown to be performance preserving; thus PR and FPIT are computationally equivalent in an especially strong sense. The theory involves a formal account of the top-down design of synchronous algorithms that is phrased in terms of correctness and performance preserving transformations between synchronous algorithms specified at different levels of data abstraction. A new definition of what it means for one abstract data type to be 'implemented' over another is given. This definition generalises the idea of a computable algebra due to A. I. Mal'cev and M. 0. Rabin. It is proved that if one data type D is implementable over another data type D', then there exists correctness and performance preserving compiler mapping high level PR-programs over D to low level PR-programs over D'. The compilers from PR to FPIT and from FPIT to PR are defined explicitly, and our compilerexistence proof is constructive, and so this work is the basis of theoretically well-founded software tools for the design and analysis of synchronous algorithms.

519.5

Synchronous algorithm theory

Artificial intelligence solutions for models of dynamic land use change

Wu, Ning

January 2012

No description available.

333

Algorithms for Stable Matching Problems toward Real-World Applications / 現実世界での応用に向けた安定マッチング問題のアルゴリズム

Hamada, Koki

23 March 2022

京都大学 / 新制・課程博士 / 博士(情報学) / 甲第24030号 / 情博第786号 / 新制||情||133(附属図書館) / 京都大学大学院情報学研究科知能情報学専攻 / (主査)准教授 宮崎 修一, 教授 岡部 寿男, 教授 阿久津 達也, 教授 湊 真一 / 学位規則第4条第1項該当 / Doctor of Informatics / Kyoto University / DFAM

algorithm theory

computational complexity

stable matching problems

almost stable matchings

lower quotas

strategy-proofness

noncrossing matchings

007

Výpočetní historie Turingových strojů a jejich generování gramatikami s rozptýleným kontextem / Computational Histories of Turing Machines and Their Generation by Scattered Context Grammars

Kajan, Dušan

January 2015

The purpose of this thesis is to show a method, that would transform given Turing machine into propagating scattered context grammar, which language contains all valid computational histories of that particular Turing machine. Afterwards this thesis deals with questions arising from existence of such algorithm, especially in regards to the current knowledge about power of propagating scattered context grammars. Practical examples and implementation of proposed algorithm is also part of this thesis.

Process Control in High-Noise Environments Using A Limited Number Of Measurements

Barajas, Leandro G.

January 2003

The topic of this dissertation is the derivation, development, and evaluation of novel hybrid algorithms for process control that use a limited number of measurements and that are suitable to operate in the presence of large amounts of process noise. As an initial step, affine and neural network statistical process models are developed in order to simulate the steady-state system behavior. Such models are vitally important in the evaluation, testing, and improvement of all other process controllers referred to in this work. Afterwards, fuzzy logic controller rules are assimilated into a mathematical characterization of a model that includes the modes and mode transition rules that define a hybrid hierarchical process control. The main processing entity in such framework is a closed-loop control algorithm that performs global and then local optimizations in order to asymptotically reach minimum bias error; this is done while requiring a minimum number of iterations in order to promptly reach a desired operational window. The results of this research are applied to surface mount technology manufacturing-lines yield optimization. This work achieves a practical degree of control over the solder-paste volume deposition in the Stencil Printing Process (SPP). Results show that it is possible to change the operating point of the process by modifying certain machine parameters and even compensate for the difference in height due to change in print direction.

Affine estimator

Algorithm theory

Constrained conjugated gradient method

Control law generation

Control values

Function evaluation

High noise environment

Hybrid control algorithm

Least squares

LS

Multiple function evaluations

Noise

Printed circuit board manufacturing

Process control

Stencil printing processes

Windowed smoothed block form