Search results: 6349
- Teacher: Hernz Ramones
Category: CEIT
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: Jayson Uncad
Category: CEIT
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: Jayson Uncad
Category: CEIT
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: Jayson Uncad
Category: CEIT
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: Jayson Uncad
Category: CEIT
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: CC_Jhumel Ignas
Category: Carmona Campus
Sets, Functions and related operations to computer programming. It construct sound and arguments in propositional and predicate logic by applying appropriate rules of inference given sample intelligent software. Construct, valid mathematical proof using mathematical induction, direct proof and proof by contradiction to simplify programs and prove program correctness.
Category: Trece Martires Campus
This course introduces the foundations of discrete mathematics as they apply to computer science. Topic includes sets, functions, and relations, and related operations to computer programming. Construct sound arguments in propositional and predicate logic by applying appropriate rules of inference given sample intelligent software. Construct valid mathematical proofs using mathematical induction, direct proof and proof by contradiction to programs and prove program correctness.
- Teacher: CEIT_Joy Peji
Category: CEIT
The course introduces the students to the mathematical tools of logic and induction, and to the basic definitions and theorems concerning relations, functions, and sets. Particular emphasis is placed on inductive definitions and proofs, with application to problems in computer science.
- Teacher: Flordeluna Merlan
Category: Naic Campus
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: RC_Jenerry Abad
Category: CCATCampus
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: RC_Jenerry Abad
Category: CCATCampus
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: RC_Jenerry Abad
Category: CCATCampus
This course introduces the student to the mathematical tools of logic and induction, and to the basic definitions and theorems concerning relations, functions, and sets. Emphasis is placed in inductive definitions and proofs, with applications to problems in Computer Science
- Teacher: Jay Ryan Mapanao
Category: Carmona Campus
- Teacher: CEIT_Joneil Baculod
Category: CEIT
The course is a continuation of Discrete Structures I. It provides the background in combinatorics and probability theory required in design and analysis of algorithms, in system analysis, and in other areas of computer science.
- Teacher: Flordeluna Merlan
Category: Naic Campus
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: RC_Jenerry Abad
Category: CCATCampus
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: RC_Jenerry Abad
Category: CCATCampus
This course is not yet visible to your students. Please don't forget to set the course visibility settings to "Show" when your course is ready. Refer to "4.1.1 HOW TO MANAGE COURSE SETTINGS" of the Teacher's Guide.
- Teacher: Myra Famini
Category: Carmona Campus
Digital Logic Design is a course that provides an overview of the principles underlying number system, logic gates, fixed–Point representation, Boolean Function, Boolean Algebra, Combinational and Sequential Logic Circuits, Flip-Flops, Registers, and PLA (programmable logic arrays).
- Teacher: Flordeluna Merlan
Category: Naic Campus