The Standard Model of particle physics requires nine lepton and quark masses as inputs, but does not incorporate neutrino masses required by neutrino oscillation observations. This analysis addresses these problems, e...The Standard Model of particle physics requires nine lepton and quark masses as inputs, but does not incorporate neutrino masses required by neutrino oscillation observations. This analysis addresses these problems, explaining Standard Model particle masses by describing fundamental particles as solutions of Einstein’s equations, with radii 1/4 their Compton wavelength and half of any charge on rotating particles located on the surface at each end of the axis of rotation. The analysis relates quark and lepton masses to electron charge and mass, and identifies neutrino masses consistent with neutrino oscillation observations.展开更多
设 M 是连通的、可定向的、完备的3维 C~∞黎曼流形,C:M→S^4(1)是从 M 列4维单位球面 S^4(1)中的等距浸入.主曲率 h_1,h_2,h_3满足 h_1=h_2=R(常数).本文证明了:浸入或者是全脐的,或者是无脐点的;若浸入是全脐的.或无脐点且 h_3为常数,...设 M 是连通的、可定向的、完备的3维 C~∞黎曼流形,C:M→S^4(1)是从 M 列4维单位球面 S^4(1)中的等距浸入.主曲率 h_1,h_2,h_3满足 h_1=h_2=R(常数).本文证明了:浸入或者是全脐的,或者是无脐点的;若浸入是全脐的.或无脐点且 h_3为常数,则 M 可完全确定:若 h_3不是常数,则 M 微分同胚于 E^4中环准超环面.展开更多
针对多时钟数字系统提出了一种新颖的产生测试矢量的方法——安全充分捕获技术(Safe and CompleteCapture Technology,S&CCT).该方法对电路系统中的时钟按照一定的标准分为等效时钟和串行时钟,然后确定正确的时钟捕获顺序.使用并发...针对多时钟数字系统提出了一种新颖的产生测试矢量的方法——安全充分捕获技术(Safe and CompleteCapture Technology,S&CCT).该方法对电路系统中的时钟按照一定的标准分为等效时钟和串行时钟,然后确定正确的时钟捕获顺序.使用并发故障模拟器从逻辑上和时序上对生成的测试矢量进行仿真,测试矢量生成器使用该仿真信息,以避免生成失效测试矢量.实验证明,S&CCT与传统方法相比,测试矢量数目减少50%左右,不仅大大减少了测试矢量的数目,对电路的硬件开销也几乎没有影响.展开更多
文摘The Standard Model of particle physics requires nine lepton and quark masses as inputs, but does not incorporate neutrino masses required by neutrino oscillation observations. This analysis addresses these problems, explaining Standard Model particle masses by describing fundamental particles as solutions of Einstein’s equations, with radii 1/4 their Compton wavelength and half of any charge on rotating particles located on the surface at each end of the axis of rotation. The analysis relates quark and lepton masses to electron charge and mass, and identifies neutrino masses consistent with neutrino oscillation observations.
文摘设 M 是连通的、可定向的、完备的3维 C~∞黎曼流形,C:M→S^4(1)是从 M 列4维单位球面 S^4(1)中的等距浸入.主曲率 h_1,h_2,h_3满足 h_1=h_2=R(常数).本文证明了:浸入或者是全脐的,或者是无脐点的;若浸入是全脐的.或无脐点且 h_3为常数,则 M 可完全确定:若 h_3不是常数,则 M 微分同胚于 E^4中环准超环面.
文摘针对多时钟数字系统提出了一种新颖的产生测试矢量的方法——安全充分捕获技术(Safe and CompleteCapture Technology,S&CCT).该方法对电路系统中的时钟按照一定的标准分为等效时钟和串行时钟,然后确定正确的时钟捕获顺序.使用并发故障模拟器从逻辑上和时序上对生成的测试矢量进行仿真,测试矢量生成器使用该仿真信息,以避免生成失效测试矢量.实验证明,S&CCT与传统方法相比,测试矢量数目减少50%左右,不仅大大减少了测试矢量的数目,对电路的硬件开销也几乎没有影响.
