Tenney norm: Difference between revisions

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The Tenney norm of a ratio ''n''/''d'' is given by

~~<math>~~\log_2 (nd)~~</math>~~

$$\log_2 (nd) $$

=== Vector form ===

The Tenney norm of a [[harmonic limit|''p''-limit]] [[monzo]] {{nowrap|'''m''' {{=}} {{monzo| ''m''1 ''m''2 … ''m''π (''p'') }}}} (π being the {{w|prime-counting function}}) is given by

~~<math>~~

$$

\norm{H \vec m}_1 \\

\begin{align}

= \abs{m_1} + \abs{m_2} ~~\abs{~~\log_2 (3)} + \ldots + \abs{m_{\pi (p)}} \log_2 (p) \\

\norm{H \vec m}_1 &= \abs{m_1} + \abs{m_2} \log_2 (3) + \ldots + \abs{m_{\pi (p)}} \log_2 (p) \\

= \log_2\left(2^{\abs{m_1}} \cdot 3^{\abs{m_2}} \cdot \ldots \cdot p^{\abs{m_{\pi (p)}}}\right)

&= \log_2\left(2^{\abs{m_1}} \cdot 3^{\abs{m_2}} \cdot \ldots \cdot p^{\abs{m_{\pi (p)}}}\right)

~~</math>~~

\end{align}

$$

where ''H'' is the transformation matrix such that, for the prime basis {{nowrap|''Q'' {{=}} {{val| 2 3 5 … ''p'' }}}},

where ''H'' is the transformation matrix such that, for the prime basis {{nowrap| ''Q'' {{=}} {{val| 2 3 5 … ''p'' }} }},

~~<math>~~H = \operatorname {diag} (\log_2 (Q))~~</math>~~

$$ H = \operatorname {diag} (\log_2 (Q)) $$

== Examples ==

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* [[Generalized Tenney norms and Tp interval space|Generalized Tenney norms and T''p'' interval space]]

== ~~Notes~~ ==

== References ==

@@ Line 7: / Line 7: @@
 The Tenney norm of a ratio ''n''/''d'' is given by
-<math>\log_2 (nd)</math>
+$$\log_2 (nd) $$
 === Vector form ===
 The Tenney norm of a [[harmonic limit|''p''-limit]] [[monzo]] {{nowrap|'''m''' {{=}} {{monzo| ''m''<sub>1</sub> ''m''<sub>2</sub> … ''m''<sub>π (''p'')</sub> }}}} (π being the {{w|prime-counting function}}) is given by
-<math>
+$$
-\norm{H \vec m}_1 \\
+\begin{align}
-= \abs{m_1} + \abs{m_2} \abs{\log_2 (3)} + \ldots + \abs{m_{\pi (p)}} \log_2 (p) \\
+\norm{H \vec m}_1 &= \abs{m_1} + \abs{m_2} \log_2 (3) + \ldots + \abs{m_{\pi (p)}} \log_2 (p) \\
-= \log_2\left(2^{\abs{m_1}} \cdot 3^{\abs{m_2}} \cdot \ldots \cdot p^{\abs{m_{\pi (p)}}}\right)
+&= \log_2\left(2^{\abs{m_1}} \cdot 3^{\abs{m_2}} \cdot \ldots \cdot p^{\abs{m_{\pi (p)}}}\right)
-</math>
+\end{align}
+$$
-where ''H'' is the transformation matrix such that, for the prime basis {{nowrap|''Q'' {{=}} {{val| 2 3 5 … ''p'' }}}},
+where ''H'' is the transformation matrix such that, for the prime basis {{nowrap| ''Q'' {{=}} {{val| 2 3 5 … ''p'' }} }},
-<math>H = \operatorname {diag} (\log_2 (Q))</math>
+$$ H = \operatorname {diag} (\log_2 (Q)) $$
 == Examples ==
@@ Line 62: / Line 63: @@
 * [[Generalized Tenney norms and Tp interval space|Generalized Tenney norms and T<sub>''p''</sub> interval space]]
-== Notes ==
+== References ==
 <references />