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删除1字节 、 2022年4月28日 (四) 19:58
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as a function of the properties of the physical memristive network and the external sources. In the equation above, <math>\alpha</math> is the "forgetting" time scale constant, <math> \xi=r-1</math> and <math>r=\frac{R_\text{off}}{R_\text{on}}</math> is the ratio of ''off'' and ''on'' values of the limit resistances of the memristors, <math> \vec S </math> is the vector of the sources of the circuit and <math>\Omega</math> is a projector on the fundamental loops of the circuit. The constant <math>\beta</math> has the dimension of a voltage and is associated to the properties of the [[memristor]]; its physical origin is the charge mobility in the conductor. The diagonal matrix and vector <math>W=\operatorname{diag}(\vec W)</math> and <math>\vec W<\math> respectively, are instead the internal value of the memristors, with values between 0 and 1. This equation thus requires adding extra constraints on the memory values in order to be reliable.
 
as a function of the properties of the physical memristive network and the external sources. In the equation above, <math>\alpha</math> is the "forgetting" time scale constant, <math> \xi=r-1</math> and <math>r=\frac{R_\text{off}}{R_\text{on}}</math> is the ratio of ''off'' and ''on'' values of the limit resistances of the memristors, <math> \vec S </math> is the vector of the sources of the circuit and <math>\Omega</math> is a projector on the fundamental loops of the circuit. The constant <math>\beta</math> has the dimension of a voltage and is associated to the properties of the [[memristor]]; its physical origin is the charge mobility in the conductor. The diagonal matrix and vector <math>W=\operatorname{diag}(\vec W)</math> and <math>\vec W<\math> respectively, are instead the internal value of the memristors, with values between 0 and 1. This equation thus requires adding extra constraints on the memory values in order to be reliable.
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Caravelli-Traversa-Di Ventra方程是描述物理记忆网络和外部源性质的函数。在上述方程中,<math>\alpha</math>是“遗忘”时间尺度常数,<math>\xi=r-1</math>,<math>r =\frac{R\text_{off}}{R_\text{on}}</math>是记忆电阻器off状态和on状态极限电阻值之比,<math>\vec S</math>是电路源的矢量,<math>\Omega</math>是电路基本环路的投影。常数<math>\beta</math>具有电压的量纲,与记忆电阻器的特性有关;其物理原型是导体中的电荷迁移率。对角矩阵和向量 <math>W=\operatorname{diag}(\vec W)</math>和<math>\vec W</math>'''<font color="#32CD32">分别是记忆电阻器的内阻</font>''',值在0到1之间。因此,这个等式需要在'''<font color="32CD32">内存值</font>'''上添加额外约束以保证可靠性。
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Caravelli-Traversa-Di Ventra方程是描述物理记忆网络和外部源性质的函数。在上述方程中,<math>\alpha</math>是“遗忘”时间尺度常数,<math>\xi=r-1</math>,<math>r =\frac{R\text_{off}}{R_\text{on}}</math>是记忆电阻器off状态和on状态极限电阻值之比,<math>\vec S</math>是电路源的矢量,<math>\Omega</math>是电路基本环路的投影。常数<math>\beta</math>具有电压的量纲,与记忆电阻器的特性有关;其物理原型是导体中的电荷迁移率。对角矩阵和向量 <math>W=\operatorname{diag}(\vec W)</math>和<math>\vec W</math> '''<font color="#32CD32">分别是记忆电阻器的内阻</font>''',值在0到1之间。因此,这个等式需要在'''<font color="32CD32">内存值</font>'''上添加额外约束以保证可靠性。
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*Telluride Neuromorphic Engineering Workshop
 
*Telluride Neuromorphic Engineering Workshop
* CapoCaccia Cognitive Neuromorphic Engineering Workshop
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*CapoCaccia Cognitive Neuromorphic Engineering Workshop
* Institute of Neuromorphic Engineering
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*Institute of Neuromorphic Engineering
 
*INE news site.
 
*INE news site.
 
*Frontiers in Neuromorphic Engineering Journal
 
*Frontiers in Neuromorphic Engineering Journal
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