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首页> 外文期刊>Journal of Quantum Information Science >Tribonacci Quantum Cosmology: Optimal Non-Antipodal Spherical Codes & Graphs
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Tribonacci Quantum Cosmology: Optimal Non-Antipodal Spherical Codes & Graphs

机译:Tribonacci量子宇宙学:最佳非对映体球体代码和图表

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Degrees of freedom in deep learning, quantum cosmological, information processing are shared and evolve through a self-organizing sequence of optimal , non-antipodal , spherical codes, . This Tribonacci Quantum Cosmology model invokes four codes: 1-vertex, 3-vertex (great circle equilateral triangle), 4-vertex (spherical tetrahedron) and 24-vertex (spherical snub cube). The vertices are einselected centres of coherent quantum information that maximise their minimum separation and survive environmental decoherence on a noisy horizon. Twenty-four 1-vertex codes, , self-organize into eight 3-vertex codes, , which self-organize into one 24-vertex code, , isomorphic to dimensions of 24-spacetime and 12(2) generators of SU (5) . Snub cubical 24-vertex code chirality causes matter asymmetries and the corresponding graph-stress has normal and shear components relating to respective sides of Einstein’s tensor equivalence . Cosmological scale factor and Hubble parameter evolution is formalized as an Ostwald-coarsening function of time, scaled by the tribonacci constant (T≈1.839) property of the snub cube. The 24-vertex code coarsens to a broadband 4-vertex code, isomorphic to emergent 4-spacetime and antecedent structures in 24-spacetime metamorphose to familiar 4-spacetime forms. Each of the coarse code’s 4-vertices has 6-fold parallelized degrees of freedom (conserved from the 24-vertex code), , so 4-spacetime is properly denoted 4(6)-spacetime. Cosmological parameters are formalized: CMB h =H_(0)/100=T log(3)/3≈0.674 , Distance Ladder , , and . Due to 6-fold parallelization, the total matter density parameter is 6-fold heavier than the baryon density parameter, . A torrent of information-equivalent energy downloads from 6-fold faster 24-spacetime to 4(6)-spacetime. Consequent stress on 4(6)-spacetime causes it to resize its dynamic memory, expanding its cosmological scale. Ultimate coarsening of reality to , isomorphic to eternal time, is imminent for each observing agent in a Wheelerian participatory universe. DNA perhaps evolved from an 8 × 3-nucleotide primeval molecular code on the model’s 24 shared dimensions.
机译:深度学习,量子宇宙学,信息处理中的自由度通过最优,非对映性,球形代码的自组织序列共享和发展。这个 Tribonacci量子宇宙学模型调用四个代码:1个顶点,3个顶点(大圆等边三角形),4个顶点(球形四面体)和24个顶点(球形减振立方体)。顶点是选定的相干量子信息中心,可最大化其最小间隔并在嘈杂的地平线上幸免于环境退相干。 24个1-vertex码自组织为8个3-vertex码,它们自组织为24个时空维同构的24个vertex码和 SU的12(2)个生成器(5)。柔和的三次24顶点代码手性会导致物质不对称,并且相应的图形应力具有与爱因斯坦张量等效的各边有关的法向分量和剪切分量。宇宙尺度因子和哈勃参数演化被形式化为时间的奥斯特瓦尔德粗化函数,并通过缓冲立方体的特里波纳契常数(T≈1.839)进行缩放。 24顶点代码粗化为宽带4顶点代码,同构为出现的4时空,而24时空的变体的先行结构变为熟悉的4时空形式。每个粗略代码的4顶点具有6倍的并行自由度(从24顶点代码守恒),因此4时空正确地表示为4(6)时空。宇宙学参数被形式化:CMB h = H_(0)/ 100 = i T log(3)/3≈0.674,距离阶梯,和。由于6倍并行化,总物质密度参数比重子密度参数重6倍。大量信息等效的能量从更快的24时空下载到4(6)时空。对4(6)时空的持续压力导致其调整其动态记忆的大小,从而扩展了其宇宙学尺度。对于惠勒式参与性宇宙中的每个观测因子而言,现实的终极粗化到永恒的同构是迫在眉睫。 DNA可能是从模型的24个共享维度上的8×3核苷酸原始分子密码演变而来的。

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