<--- Back to Details
First PageDocument Content
Logic in computer science / Formal methods / Automated theorem proving / HOL / Logic for Computable Functions / Higher-order logic / Isabelle / Michael J. C. Gordon / Theorem Proving in Higher-Order Logics / Theoretical computer science / Mathematics / Applied mathematics
Date: 2009-08-23 14:58:44
Logic in computer science
Formal methods
Automated theorem proving
HOL
Logic for Computable Functions
Higher-order logic
Isabelle
Michael J. C. Gordon
Theorem Proving in Higher-Order Logics
Theoretical computer science
Mathematics
Applied mathematics

Add to Reading List

Source URL: www.cl.cam.ac.uk

Download Document from Source Website

File Size: 60,10 KB

Share Document on Facebook

Similar Documents

Logic / Non-classical logic / Mathematical logic / Metaphysics / Philosophical logic / Artificial intelligence / Description logic / Information science / Model theory / Modal logic / First-order logic / Web Ontology Language

Description Logics ILCS 2007 Introduction to Logic in Computer Science: Autumn 2007

DocID: 1xVOl - View Document

Deontic Logic in Computer Science Leon van der Torre & Jörg Hansen ESSLIAugust 2008

DocID: 1uHka - View Document

αKanren A Fresh Name in Nominal Logic Programming William E. Byrd and Daniel P. Friedman Department of Computer Science, Indiana University, Bloomington, IN 47408 {webyrd,dfried}@cs.indiana.edu

DocID: 1ux8H - View Document

23rd Annual IEEE Symposium on Logic in Computer Science Winning regions of higher-order pushdown games∗ A. Carayol† M. Hague‡

DocID: 1uwn4 - View Document

Introduction to higher-order computation Nordic Logic School, Stockholm, 2017 Mart´ın H¨otzel Escard´o Theory Group, School of Computer Science University of Birmingham, UK

DocID: 1ud4n - View Document