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Video musical, realizado en su totalidad por Ziggy & the Noize (Omar González Salcedo). Video arte experimental. Duración 04:55. Música por Ziggy & the Noize (Omar González Salcedo). Formato Mp4.
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2408109078261
Mártyras II Intermezzo
08/10/2024
Mártyras II Intermezzo. Pista de música electrónica realizada en su totalidad por Ziggy & the Noize (Omar González Salcedo)
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2408109078254
Mártyras I Overture
08/10/2024
Mártyras I Overture, pista de música electrónica. Realizada en su totalidad por Ziggy & the Noize (Omar González Salcedo). Duración: 06:37.
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Abstract— This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in 𝒁𝒏; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
2408018952188
Delorean futuro
08/01/2024
Fan art del Delorean de la famosa saga de Regreso al futuro
Creative Commons Attribution-NonCommercial-NoDerivatives 4.0
This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in 𝒁𝒏; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in ; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in 𝒁𝒏; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in ; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in 𝒁𝒏; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
This paper describes the synthesis of a numerical method, to compute Modular Inverse Matrices and so, Modular Linear Equations Systems (with one, infinite or no-solution set), with no theoretical limit, in ; considering polynomial and logarithmic time computational complexity. The geometric interpretation of this, implies that elements, such as planes, lines and vectors of these spaces, interact in the n-dimensional grid. The interaction in the Grid, can only be possible in a discrete way; from one point to another, like digital states. On the other hand, this work also considers applied mathematics solving the ‘Gauss-Jacques’ function obtaining quaternionic linear equation in fields such as Modular Linear Algebra and Modular Multilinear Algebra. Based on research, it was concluded that this method is a math function, because its attributes described in this work. Furthermore, it can be coded in any computer language making libraries. The equation as a logic entity is validated using logic systems witnessing ‘Inverse Migration Field’ transport. This work constitutes a deep analysis in numerical methods, for modular inverse matrix computation as well as a prolegomenon to Modular Linear Algebra. Technological & Scientific uses and applications of this work are numerous.
Creative Commons Attribution-NonCommercial-ShareAlike 4.0
2407108590262
DANCE THROUGH THE NIGHT
07/10/2024
Canción instrumental de música estilo hardstyle titulada DANCE THROUGH THE NIGHT, creada por DJ FARLY
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2407108590200
DANCING IN THE SKY
07/10/2024
Canción instrumental de música estilo hardstyle titulada DANCING IN THE SKY, creada por DJ FARLY
All rights reserved
2407108590163
RIDE THE WAVES
07/10/2024
Canción instrumental de música estilo hardstyle titulada RIDE THE WAVES, creada por DJ FARLY
All rights reserved
2406218351732
FEEL THE BOON
06/21/2024
Canción de música techno titulada FEEL THE BOON, creada por DJ FARLY
All rights reserved
2406218351725
FEEL THE BOON Letra
06/21/2024
Letra de la canción de música techno titulada FEEL THE BOON, creada por DJ FARLY
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2406218351350
FEEL THE FIRE
06/21/2024
Canción de música techno titulada FEEL THE FIRE, creada por DJ FARLY
All rights reserved
2406218351343
FEEL THE FIRE Letra
06/21/2024
Letra de la canción de música techno titulada FEEL THE FIRE, creada por DJ FARLY
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2406208335988
Los maguechores
06/20/2024
Los maguechores es un juego de rol con sistema Forged in the Dark en que los personajes jugadores encarnarán a magos y brujas malvados que desean realizar un gran golpe para debilitar la orden mágica de Merlín.
Creative Commons Attribution-NonCommercial 4.0
2406058183395
FROM SHADOWS TO SUNSHINE
06/05/2024
Canción de música electrónica, edm, techno, titulada "FROM SHADOWS TO SUNSHINE", creada por DJ FARLY
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