Fixed formatting in subset download tutorial

Andrew Delman · Andrew Delman · commit 475fa2778813 · 2023-12-22T18:54:32.000-08:00
diff --git a/ECCO-ACCESS/Downloading_ECCO_datasets_from_PODAAC/Tutorial_Python3_Downloading_ECCO_Subsets.ipynb b/ECCO-ACCESS/Downloading_ECCO_datasets_from_PODAAC/Tutorial_Python3_Downloading_ECCO_Subsets.ipynb
@@ -4022,8 +4022,7 @@
        "       46, 47])</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>k</span></div><div class='xr-var-dims'>(k)</div><div class='xr-var-dtype'>int32</div><div class='xr-var-preview xr-preview'>0</div><input id='attrs-70fa81fd-2c0b-4f46-9d00-66f35c83fbea' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-70fa81fd-2c0b-4f46-9d00-66f35c83fbea' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-6d7c9c04-dc9d-471a-92f4-2b00ead98b71' class='xr-var-data-in' type='checkbox'><label for='data-6d7c9c04-dc9d-471a-92f4-2b00ead98b71' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>axis :</span></dt><dd>Z</dd><dt><span>long_name :</span></dt><dd>grid index in z for tracer variables</dd><dt><span>swap_dim :</span></dt><dd>Z</dd><dt><span>coverage_content_type :</span></dt><dd>coordinate</dd><dt><span>origname :</span></dt><dd>k</dd><dt><span>fullnamepath :</span></dt><dd>/k</dd></dl></div><div class='xr-var-data'><pre>array([0])</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>k_l</span></div><div class='xr-var-dims'>(k_l)</div><div class='xr-var-dtype'>int32</div><div class='xr-var-preview xr-preview'>0</div><input id='attrs-f76ca955-5ba7-4d2f-bcc9-5aad91047a0f' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-f76ca955-5ba7-4d2f-bcc9-5aad91047a0f' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-d09bc91e-b953-401c-aa4a-a6ea87bfb2ac' class='xr-var-data-in' type='checkbox'><label for='data-d09bc91e-b953-401c-aa4a-a6ea87bfb2ac' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>axis :</span></dt><dd>Z</dd><dt><span>c_grid_axis_shift :</span></dt><dd>-0.5</dd><dt><span>swap_dim :</span></dt><dd>Zl</dd><dt><span>coverage_content_type :</span></dt><dd>coordinate</dd><dt><span>long_name :</span></dt><dd>grid index in z corresponding to the top face of tracer grid cells (&#x27;w&#x27; locations)</dd><dt><span>comment :</span></dt><dd>First index corresponds to the top surface of the uppermost tracer grid cell. The use of &#x27;l&#x27; in the variable name follows the MITgcm convention for ocean variables in which the lower (l) face of a tracer grid cell on the logical grid corresponds to the top face of the grid cell on the physical grid.</dd><dt><span>origname :</span></dt><dd>k_l</dd><dt><span>fullnamepath :</span></dt><dd>/k_l</dd></dl></div><div class='xr-var-data'><pre>array([0])</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>k_p1</span></div><div class='xr-var-dims'>(k_p1)</div><div class='xr-var-dtype'>int32</div><div class='xr-var-preview xr-preview'>0 1</div><input id='attrs-d524efa5-ac72-45c2-a0d5-8dd2b9962332' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-d524efa5-ac72-45c2-a0d5-8dd2b9962332' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-b95d6df6-9e65-4fde-8d61-8cebad149ea1' class='xr-var-data-in' type='checkbox'><label for='data-b95d6df6-9e65-4fde-8d61-8cebad149ea1' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>axis :</span></dt><dd>Z</dd><dt><span>long_name :</span></dt><dd>grid index in z for variables at &#x27;w&#x27; locations</dd><dt><span>c_grid_axis_shift :</span></dt><dd>[-0.5  0.5]</dd><dt><span>swap_dim :</span></dt><dd>Zp1</dd><dt><span>comment :</span></dt><dd>Includes top of uppermost model tracer cell (k_p1=0) and bottom of lowermost tracer cell (k_p1=51).</dd><dt><span>coverage_content_type :</span></dt><dd>coordinate</dd><dt><span>origname :</span></dt><dd>k_p1</dd><dt><span>fullnamepath :</span></dt><dd>/k_p1</dd></dl></div><div class='xr-var-data'><pre>array([0, 1])</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>k_u</span></div><div class='xr-var-dims'>(k_u)</div><div class='xr-var-dtype'>int32</div><div class='xr-var-preview xr-preview'>0</div><input id='attrs-1d036285-ffc9-4b21-a5e5-f1befdde289a' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-1d036285-ffc9-4b21-a5e5-f1befdde289a' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-dc4341d2-ef19-40f2-bb75-b37b2670c0b9' class='xr-var-data-in' type='checkbox'><label for='data-dc4341d2-ef19-40f2-bb75-b37b2670c0b9' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>axis :</span></dt><dd>Z</dd><dt><span>c_grid_axis_shift :</span></dt><dd>0.5</dd><dt><span>swap_dim :</span></dt><dd>Zu</dd><dt><span>coverage_content_type :</span></dt><dd>coordinate</dd><dt><span>long_name :</span></dt><dd>grid index in z corresponding to the bottom face of tracer grid cells (&#x27;w&#x27; locations)</dd><dt><span>comment :</span></dt><dd>First index corresponds to the bottom surface of the uppermost tracer grid cell. The use of &#x27;u&#x27; in the variable name follows the MITgcm convention for ocean variables in which the upper (u) face of a tracer grid cell on the logical grid corresponds to the bottom face of the grid cell on the physical grid.</dd><dt><span>origname :</span></dt><dd>k_u</dd><dt><span>fullnamepath :</span></dt><dd>/k_u</dd></dl></div><div class='xr-var-data'><pre>array([0])</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>nb</span></div><div class='xr-var-dims'>(nb)</div><div class='xr-var-dtype'>float32</div><div class='xr-var-preview xr-preview'>0.0 1.0 2.0 3.0</div><input id='attrs-84dcc519-81e8-4309-ad0b-c90e3f85f6fb' class='xr-var-attrs-in' type='checkbox' disabled><label for='attrs-84dcc519-81e8-4309-ad0b-c90e3f85f6fb' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-d422ae17-0e54-4713-8556-ac242268cf57' class='xr-var-data-in' type='checkbox'><label for='data-d422ae17-0e54-4713-8556-ac242268cf57' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'></dl></div><div class='xr-var-data'><pre>array([0., 1., 2., 3.], dtype=float32)</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>nv</span></div><div class='xr-var-dims'>(nv)</div><div class='xr-var-dtype'>float32</div><div class='xr-var-preview xr-preview'>0.0 1.0</div><input id='attrs-0d53cfd7-00c1-4a7e-9fc9-5c2f0fac5dce' class='xr-var-attrs-in' type='checkbox' disabled><label for='attrs-0d53cfd7-00c1-4a7e-9fc9-5c2f0fac5dce' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-bf8703fc-e208-450c-a5a1-f42f0b6d1a1b' class='xr-var-data-in' type='checkbox'><label for='data-bf8703fc-e208-450c-a5a1-f42f0b6d1a1b' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'></dl></div><div class='xr-var-data'><pre>array([0., 1.], dtype=float32)</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>tile</span></div><div class='xr-var-dims'>(tile)</div><div class='xr-var-dtype'>int32</div><div class='xr-var-preview xr-preview'>10</div><input id='attrs-5fc86189-47a2-4f5b-bc27-de047babc2cf' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-5fc86189-47a2-4f5b-bc27-de047babc2cf' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-82b7c1c7-4348-445f-97dc-9cc7c6b4cebe' class='xr-var-data-in' type='checkbox'><label for='data-82b7c1c7-4348-445f-97dc-9cc7c6b4cebe' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>long_name :</span></dt><dd>lat-lon-cap tile index</dd><dt><span>comment :</span></dt><dd>The ECCO V4 horizontal model grid is divided into 13 tiles of 90x90 cells for convenience.</dd><dt><span>coverage_content_type :</span></dt><dd>coordinate</dd><dt><span>origname :</span></dt><dd>tile</dd><dt><span>fullnamepath :</span></dt><dd>/tile</dd></dl></div><div class='xr-var-data'><pre>array([10])</pre></div></li><li class='xr-var-item'><div class='xr-var-name'><span class='xr-has-index'>time</span></div><div class='xr-var-dims'>(time)</div><div class='xr-var-dtype'>datetime64[ns]</div><div class='xr-var-preview xr-preview'>2004-08-01T12:00:00 ... 2006-10-...</div><input id='attrs-13654d62-bad9-424d-a7cf-f1405b939200' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-13654d62-bad9-424d-a7cf-f1405b939200' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-61e710ae-ef7b-461b-8f1c-6ed4cb752746' class='xr-var-data-in' type='checkbox'><label for='data-61e710ae-ef7b-461b-8f1c-6ed4cb752746' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>long_name :</span></dt><dd>center time of averaging period</dd><dt><span>axis :</span></dt><dd>T</dd><dt><span>bounds :</span></dt><dd>time_bnds</dd><dt><span>coverage_content_type :</span></dt><dd>coordinate</dd><dt><span>standard_name :</span></dt><dd>time</dd><dt><span>origname :</span></dt><dd>time</dd><dt><span>fullnamepath :</span></dt><dd>/time</dd></dl></div><div class='xr-var-data'><pre>array([&#x27;2004-08-01T12:00:00.000000000&#x27;, &#x27;2004-08-02T12:00:00.000000000&#x27;,\n",
        "       &#x27;2004-08-03T12:00:00.000000000&#x27;, ..., &#x27;2006-10-29T12:00:00.000000000&#x27;,\n",
        "       &#x27;2006-10-30T12:00:00.000000000&#x27;, &#x27;2006-10-31T12:00:00.000000000&#x27;],\n",
-       "      dtype=&#x27;datetime64[ns]&#x27;)</pre></div></li></ul></div></li><li class='xr-section-item'><input id='section-c2c6710d-8536-4a2d-aaeb-0f94e2abd451' class='xr-section-summary-in' type='checkbox'  checked><label for='section-c2c6710d-8536-4a2d-aaeb-0f94e2abd451' class='xr-section-summary' >Data variables: <span>(1)</span></label><div class='xr-section-inline-details'></div><div class='xr-section-details'><ul class='xr-var-list'><li class='xr-var-item'><div class='xr-var-name'><span>THETA</span></div><div class='xr-var-dims'>(time, k, tile, j, i)</div><div class='xr-var-dtype'>float32</div><div class='xr-var-preview xr-preview'>nan nan nan ... 29.62 29.82 29.94</div><input id='attrs-722fd487-3a3c-4aa6-979f-9745fcd5e3f5' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-722fd487-3a3c-4aa6-979f-9745fcd5e3f5' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-79eb9040-08df-4e7d-ac64-de0081d9ea41' class='xr-var-data-in' type='checkbox'><label for='data-79eb9040-08df-4e7d-ac64-de0081d9ea41' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>long_name :</span></dt><dd>Potential temperature </dd><dt><span>units :</span></dt><dd>degree_C</dd><dt><span>coverage_content_type :</span></dt><dd>modelResult</dd><dt><span>standard_name :</span></dt><dd>sea_water_potential_temperature</dd><dt><span>comment :</span></dt><dd>Sea water potential temperature is the temperature a parcel of sea water would have if moved adiabatically to sea level pressure. Note: the equation of state is a modified UNESCO formula by Jackett and McDougall (1995), which uses the model variable potential temperature as input assuming a horizontally and temporally constant pressure of $p_0=-g \r",
-       "ho_{0} z$.</dd><dt><span>valid_min :</span></dt><dd>-2.9179372787475586</dd><dt><span>valid_max :</span></dt><dd>36.425140380859375</dd><dt><span>origname :</span></dt><dd>THETA</dd><dt><span>fullnamepath :</span></dt><dd>/THETA</dd></dl></div><div class='xr-var-data'><pre>array([[[[[      nan,       nan,       nan, ...,       nan,       nan,\n",
+       "      dtype=&#x27;datetime64[ns]&#x27;)</pre></div></li></ul></div></li><li class='xr-section-item'><input id='section-c2c6710d-8536-4a2d-aaeb-0f94e2abd451' class='xr-section-summary-in' type='checkbox'  checked><label for='section-c2c6710d-8536-4a2d-aaeb-0f94e2abd451' class='xr-section-summary' >Data variables: <span>(1)</span></label><div class='xr-section-inline-details'></div><div class='xr-section-details'><ul class='xr-var-list'><li class='xr-var-item'><div class='xr-var-name'><span>THETA</span></div><div class='xr-var-dims'>(time, k, tile, j, i)</div><div class='xr-var-dtype'>float32</div><div class='xr-var-preview xr-preview'>nan nan nan ... 29.62 29.82 29.94</div><input id='attrs-722fd487-3a3c-4aa6-979f-9745fcd5e3f5' class='xr-var-attrs-in' type='checkbox' ><label for='attrs-722fd487-3a3c-4aa6-979f-9745fcd5e3f5' title='Show/Hide attributes'><svg class='icon xr-icon-file-text2'><use xlink:href='#icon-file-text2'></use></svg></label><input id='data-79eb9040-08df-4e7d-ac64-de0081d9ea41' class='xr-var-data-in' type='checkbox'><label for='data-79eb9040-08df-4e7d-ac64-de0081d9ea41' title='Show/Hide data repr'><svg class='icon xr-icon-database'><use xlink:href='#icon-database'></use></svg></label><div class='xr-var-attrs'><dl class='xr-attrs'><dt><span>long_name :</span></dt><dd>Potential temperature </dd><dt><span>units :</span></dt><dd>degree_C</dd><dt><span>coverage_content_type :</span></dt><dd>modelResult</dd><dt><span>standard_name :</span></dt><dd>sea_water_potential_temperature</dd><dt><span>comment :</span></dt><dd>Sea water potential temperature is the temperature a parcel of sea water would have if moved adiabatically to sea level pressure. Note: the equation of state is a modified UNESCO formula by Jackett and McDougall (1995), which uses the model variable potential temperature as input assuming a horizontally and temporally constant pressure of $p_0=-g \\rho_{0} z$.</dd><dt><span>valid_min :</span></dt><dd>-2.9179372787475586</dd><dt><span>valid_max :</span></dt><dd>36.425140380859375</dd><dt><span>origname :</span></dt><dd>THETA</dd><dt><span>fullnamepath :</span></dt><dd>/THETA</dd></dl></div><div class='xr-var-data'><pre>array([[[[[      nan,       nan,       nan, ...,       nan,       nan,\n",
        "                 nan],\n",
        "          [      nan,       nan,       nan, ...,       nan,       nan,\n",
        "                 nan],\n",
