Ticket #47: press_cp0.xml

File press_cp0.xml, 99.1 KB (added by flip, 8 years ago)
Line 
1<vespa_export version="1.0.0">
2    <!--
3This XML file is in Vespa Interchange File Format (VIFF). You can download
4applications that read and write VIFF files and learn more about VIFF here:
5http://scion.duhs.duke.edu/vespa/
6
7It was created with Vespa version 0.3.3.
8-->
9    <timestamp>2012-05-18T10:29:23</timestamp>
10    <comment />
11    <dataset id="424d017d-03bf-4232-afd7-b2255747bd9d" version="1.0.0">
12        <blocks>
13            <block_raw id="f1772d1c-668a-472d-89a4-f87a2a5afb2d" version="1.0.0">
14                <filename>/Users/me/w/duke/sample_data/press_cp_svs_data/press_cp0.rsd</filename>
15                <data_type>complex64</data_type>
16                <dim>4096</dim>
17                <dim>1</dim>
18                <dim>1</dim>
19                <dim>1</dim>
20                <sweep_width>3906.25</sweep_width>
21                <frequency>63.718249</frequency>
22                <resppm>4.7</resppm>
23                <midppm>4.7</midppm>
24                <echopeak>0.0</echopeak>
25                <nucleus>1H</nucleus>
26                <seqte>26.0</seqte>
27                <flip_angle>90.0</flip_angle>
28                <slice_thickness>15.0</slice_thickness>
29                <slice_orientation_pitch>Tra</slice_orientation_pitch>
30                <slice_orientation_roll />
31                <image_position>-0.0</image_position>
32                <image_position>7.258</image_position>
33                <image_position>-29.109</image_position>
34                <image_dimension>20.0</image_dimension>
35                <image_dimension>20.0</image_dimension>
36                <image_dimension>20.0</image_dimension>
37                <image_orientation_row>0.0</image_orientation_row>
38                <image_orientation_row>-0.242</image_orientation_row>
39                <image_orientation_row>0.97</image_orientation_row>
40                <image_orientation_col>0.0</image_orientation_col>
41                <image_orientation_col>-0.97</image_orientation_col>
42                <image_orientation_col>-0.242</image_orientation_col>
43                <data data_type="complex64" encoding="xdr zlib 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TvXWeUV6tHOYVZ5qWoNuWWaVfoMizyQFyjPL8mRD/HBdfoLy8Wy0odOtpKXG6hv4fDC/CYv9DDm7MbnoYMCpR0+Dt+RJ0OwP6SyQ9yBb8NnPBOj3K2lv2mk+Bie3FMcIEy4Lu1OsVjIvam9CsW31JChg/Pkq9i4/pxfDuO6g/iwFfZP1yzyc+wZiM0b7xfJBF4PoAndna3Sw99jyOmLkzPl6o5WeR9bryzoIrN5f438vz6pg/ytW115HSz657WQ59Auij+2D7PqVYlN8tUg3bGorBxF3XvGdS7iX4B+GHQlX7eD90H4N4z4tKCWhRZEyfrk2sNxftmtcYjc/3aA7INtO8F0B+w+XN0qJzPOVnjjEHn31RdWeYK83MJ7D34+jga4gX230Q0/Tr0hH4AfL7j7k/H+oHYXhbSQ97Gvwtk8eR4c1Qfn2+G/xvDh6poBegz8Oet+kd4k6I7sCX+2+/SJjKa+x/oqiNnwYoWjt40E+MLhtmivWirqtjsVRAp2Pd0TKbqDh5w7v5pdicPl/zINnxEkN9mKxWOtqpzmKxZ30p7KvsOfi3n4sjl4aUI82nPv1n9eyJ68nnhYKF89UyRXwaMdwNVStMxA/H+BerO4a7F8An9uBzd/E7MTr/rlzdq/yn/J1/sHfXpo50cyh/XY5/vlj4X39fIdouTX4LkefJ76plVvgv+SY0v0GBEsZ/0SqEeBn+norkj4ZR7fW8HVx9SfgG3RsiX5UQYeKUeO5m9oIy4Q/6dZUpbF38/gxlfJ69uPIqVOnP7GzxOITz48v5i58//LlEvAfmHTSLlxRaBuYZz14Dd83SM5E91Q8VS07I5eLj/xriik7ylX84UYBx+XuWDV7NRi2+FQoyU8HX7BaszCz2Xq3jFngOM/9kSa88Hr97sKTRt4/qbJC3Npjyi5IanITF2ZJzeFFXbJ4vNFz4JER+LQ314kHsEf8WClPX5ugR2D8HFTcnQy4zWlJo6/8VxWgL+HcE0LOP5LrvuCtX49xCaXwI/HahfLjfBTGr5JJxfmEBdPnxdyFXX2Gly6C666fbONXDW6WN5HJ7k/eqFbzWA5M6hYDwGHY+C3gsxb4nZcrryzoIv2mPry7281xF9okhfkwavg+9fp98UT8u/8rHAxFPuzzrYQl7Dvd+bU4HdPbIn8gs/PwSld0YR/UufDsPksnNGH9wewdRqcfAX/98TGPz+OlF1Zy0/w7QjqxV/UmraZBTKfuhwL7q41j5U66/2ZePZinMe9zshaXHel3C2xBH+euhokWjTLkX/MriK82H322H2xol+kXHvUql0BzzO7F4kM4rAAHmtHvfkGrngDP2zZXiQXkX/4QG6Eq92sfyrzJlET38HPc+C5FO45wudLthXLHDh9OTx/n/kVz/yXEyLXXLLrZdE/7dA7gWtuy3ro+hf0D5Xof4MnxorZ1PGgQ4EiKLNEjzhQ7FQ6sWxiBXM69tyZW9d0jbguT8dYnG78lbnTb/YzqspTlQLNZ/hjzT8vzC3k3/vVnmsNLBVlvy+solw0tqOpg0ba5PtJRWIg6+4FT24DJ1H1Q2V5lQNwVSNysgbvu4HzUfDNQrhm9XJqPTVmMXn1AXV2Hvm4ju8O0AOtIyYG/lC4OkQ/9DHzH4d/JtuKpQl/lSH3r4CLT5jvFPx8gbqwJahY1oV/ffirCuPdfiVfPCIeR8HzSda3LaxQLEfL7aVfP0dc9oPjBvQHR+C+2th4fEWguHs2Sp6H42qBuyv4dzr2HGXet1nPXuppJez4GT4sT7yevvuryMUfd4bVEKf4/vzUG+I38vlypUAxmz7voWHR/PR5hSOlcMLPwd1zRQB+DxziMLbEhMg/m0aarfrekmcXXXGOxd+77xaLfmjs1Fy7sZ37Fre3mZf25sj524vMT4nLAsNixDkL5dKaAYaT17mHAj0fo9dFrl1UdgTKCHIhgJxsirZpBq57YoudvG4BDwaDjxZ8LumZE7hmCJpqA3W1LvhIRNtU4LOprMmFv7fjj9f4ez9c2j+xWB5EBw2Gr34mL4Lw47Ur+WIu/HBArRN/rcavHfl8yy+B2mnsPnGqWAQ99sv98PYQ8nBplkXM4bpvjthEjb4lMnNDG89A1rurzwthIZ9nUWf9+Gs+MbcTj50ZAaIncT39ZYDzL/oQH++7cv1h1pmIn7clFwrnxji5PsYitlMXDiwPEvt5PZ1YrKlxT00KMsfAsea3L8x3eT1ypsgMAJ+7zvlN+iy5Iy/QrIwdm6pbxav4dck6qxhHvVk4qkRs5fv3Wb8N/7THN6FjQ2Vv+qCfWN/n74WV1qcVXYvFTuZbCi5DyPsJdcJEFvctR6PF834f+J0JlndWtolc/H8cvB1S/IRGV/bthgProX8PjPOL71k3Wkbk8HqW91/hr+NPgg0X1+3I9ptbwfn27kXmRe7PLLxvNCLu10O7iK/x5054Zh7XubcVm2NYx4drn5t+rp+ba/ekJdyWy+l5fXz/JXlAvyiH5oSIHlwHh4uP8N87IyPEeF6TLBbxFby25ZJd3GTcbduKxU14X+mdfeTVhtgSkQwOz1Gfv2Cd2aPviA2q7wYHs/HPmvtFxlHmWRNQYiaTX7taBxl38feaA0Fmx9SmciW9YTI8sLWB3wjD/vTfrM4HXH/idon5KnH+bkOAGY//Z6+xai35fOCZIq2FJ1d+2DooY5Uat59duw1vHphTLCqmB8il8MwI4joB+3bgN7SveIM8Wj/Or2Vy3Sd/hWkHmX/ilXznSuWHLcVGRXC5vnWQ+RHrn8982dj5Jn5VeTt6ot3shx1J1MP18PT4sEKvZWOEfCO50NyCX2Z/GmyGpQbK8VfyDWV3nd0hmsH4UY3x56VIkXc4W6ujOcQfcbkZ7S21ZAN4cRn46Il/S6iHjQ4EiURyMSYmwnmy5KGM2hqmXcGe+rtDxCz8+T/8r/qkMd2LtOPYX3ntc9GH9bxd7bnIgb/mvwve4Jm43SHG39zXICrP1MDJxCk2bQPXO2MitMvc3+C4tXS/zJlZYCYR7+Z6sdaI62uDz33gtsp7Ydoetfdw3GpcupUvq619rm3j/lp8vonPm6CrFhLnlmBTJ+9bwSetyfv6Z4rEC/zUCA4Jhxffam8TXnDyGbw/i3HfIR4/sI4PxoeIHPLkjawIcZ7PPyX/U4j7njJ+US6zRC7tbNUqMV+jrAhtPTgYk1x4QukNt9ti1uF6OFj7iLjD3WIg4wmLRXuT7/tvDROteB0Oj/+EH1vn20Q35ihMKTAjWG/Q4DxjAuvs/Uq+MTEBbV4nzHz1UqSskBPiyYE/+icXejqX+OUc+HMP845dmae14LX7r3nOvdSxBpkFxtuM39JvNf7ldfwXVlP12ouG2Mwc/D4/rsicDo7Hx0SYLYnLq/AL9Vu8uBRpHmmXLbbYi4wraUXiAfEwef037ammcFu+s9WTyfgtweM57GsYlSc2g7s+Y0PFt8SnjRv/NcsRjxhrPvgrsyNUrEXX1DAsYh+4655ZINJ5fffGc1EVvhrVt8D4H+ubt6XY7IWfU6/ZTCt+Ta5dbLyAR9ceCjS3gJe9msXsgJ3wj1EHf6+oEGy2AC+z0H0b+L77FJt5mfrwGfmwn/xZYLGY8/CrlfUdvuYQBbl28xL5rRGXRGz7DrxVzywRO/l8DfbXJa/3Uz+rNg4xk7jOYlhM7/ZcsXpsqDmjXIF4zd1a2xMTIn4xqhoVmD+IOuZinfkPQo11zkJxqEeU8XCkTYwxqprvbowTTyfaPcWsq0+dMG0+fuv5Sr6pcFPjvTDzNnGslm43JXUx9kyRUYO44SdjNeO2q/bck0x+D/EVa/e5r2ZMhAjVgsS9vTnafXeoyCTO/93KFw+ZOxLeqDEpSNRhvPojI7Qb4L8SvNySOMSBtyziPQDcq33mCcet4i3iPQVc/U6dHkjebSZ+nQfnaV7yXutVmOG3lJcjmtvN+dSI1aeKzRfw/IJUu1mMP9qPDzFd8NPr4NPaPECOWZlnXlf1eFm+10Y/EJZc6LXBXdsn2r2x2PB3uQIzD36Pwj83WB/aXFuPf/6eYjO+Zd6wG8/NxeCskDj1xF+n7UWawnFYul0sgF+qDX+uTcF/AX+FmVXA1PORESb1VhT0izT/IE8jd4eYb4OXJvm2jBzsrn2h0FzDdf58m3ktLldkoP8NsHnbYvGGkdsl2HsU7X8N+8s5AsVvvH/LeU+cQ7e08eSKzVpVbS9xvJwV4XSU+MWjlALnXfz9z6VIj8J5ZEyE8Qv2P3RbjCfkQ7fop0YxeEieaM+YX5IvQ5KKtATsr1InLN5W8lgG1gkzdvDeDm5HUo8agK8N4GwAdi4lXp3rh5qdwOHDdtnGT/g/lDxYTPyaPQsybeieeny/BHw7ud4EN9VYvw887gdfQ1Obimvtss2h8EUG7y/A1+d7RJn1qQMVDgQ5r2P3D6zDbgkUFSf4tWjWNRz9dYrxy/itnqfkb8OUArEKnFjgYxfj3D8bZTrwS1FUnuINcbVHlPYVOFtJXkU99ovTh7PNH4l3PLjdjd8HjA/R3md9MeiW6eTlsMRiIxX8Jna2mifAS2XyI2dvjnj4INT8m/wPA/fzqR0Dybcm5FO7rAjzLTD8fbMcM5m4TkiPNU3er+f71djzjDhWSw8Qd7SqZuO+t8S/jEOeiqvw033ie4Z1L8Qv5X/NM+YbQeJHe5E5Hw5Cs5l74NJd5Hcd1nGU/B3H6yreX8CeTPBzBnuCwNVacBRCPRxMXjjw72sTLos7XJdCLv2dVmSuIddmukPNeu7W4g3nPW0CfqysBWmPnIXax0aQB57XToPfgCybNtsIMmx8Hx5dpB1hPmqJ9jV2XegRJQbz/s7hbHEcPqxLXenLPE+xM4S8fmvEdXMN630S/dSsD056w+dr4L26erFxjfuu46dYvr+D3d+Ab2qv6cW/tfHPcMW3jNMf+0OwuxieOwXeg6lt492tTRfzzDwbZSSDhwL8I8Hb3L05Zs0sm/E1tucbQU5s1c4zD72yOWrEdXGFeHTlOnpLbSh5EWOxZIBncZ/PneArmrxrTPzL4L/l+PPraw5vcE6I9qon19zsLh3TCGK+p+R/A+c9WYl5pzIuNc50Me7AjXEmvbmolFlirgIHHcDlI/z04aVII53X7ay3PnZvIC/WGUHqWaDnjKWiNklzmGvSnopV+OkReN/Puj/F7mHc90FCnujBevtvjNOeE6/vJ9pLX/vht4PomGzy9CxcUDO6SHw10W60577T23Od5SyB0roxQgSDs+35Ns/GkofayZgQUzD/QvJpEHm2f4jD/DD6qTbZWWhuBr9hjkCznco7eGwX8Z5E/DKHOMRS1mlGPxU/HM42vmAd5fqWmFF9S7TkW/lmA3Cdwno+xC9riNt0eOdzcPODUVW4sP9r8mwIvhjKvMv6RRoZjIsGVn2pOAh+6+C/o3G5nlR3tPi0XEHGJezfyed9mM9LXJYS90WM2xf/LoEXanH9eXjtpFo3/hzFPEvI7zPYD9+Zl9DK+XG55rIpNjHkUqS2cKTNc8xSMT7cUt4Is1Q0Z1LLmrlDjZpg4Efy4FXm+Yx8+xdMX4gJUTpeO88apzEPa1PPV4QlNdAsC54XuS2eWwm3VR6JFqznHDn5IdcRU+1jzaG9pzmMdvhhLfOuZYx/koqOawHhmjnSZqZRW/cZQeZx1uNjHQ8Y41BSkbc1tbg38b5NLfnDWRifwXzTyhUYJfDwxL63zO2sOxl+SAYXKxW/P/Zr+dhYDz+tsBd5HqCXQi0WYzf+2AfeqvP5FvzSFp9T342SW/nOOEug4XSHaoxpjodv/safXuzYT97tI94bmX8uuiKC15+574d22d4ItO0+rt97NipDxatZeqy2jPc7FLfi3zxwvoA4XHIWOheWPFSfqWdTxtiEPO0Y+HyEZiwCV5vgtfbkC/2d6OC8Z9IvOa+VPDQ+tFRU/9R+hNE5Ic+obanoPO6ONj8EPx+5Wxtu1r+2X6RzOeuZDU+35jXWec/ZzRLS5YillvYQHDmwpzP+2T0ywijG7yuTioyhvI6fcNnsC77JEXMNMZqF/34CD+fw3xw4qzu4Ttyea4Y3DzD/JDeSEm6bm8mDn8iPr3Pt2hnGHcR8SXCAblTV0D7aAmJILwWrFJoRE/xiLTU1HRvD+Nvx2K/8JyalNjV+jAnRroF5uyPQuOws9Iy0WJzfWBoad7m2YlqRNpc4DSNecdhpEAdyS1BTjDnc8yVx/QBegIvN+viqqhZkvj7hstp7MHaNtDnH41/dWWikpBUpPJtRqYHaVuyqhg97aA5Pd0ugORQ8fgMPcq8ooK7Rz4lYcDQ736atvJXvOW9pKJajd/vg+3HkJ7penckwylDvKm2MMHaiA34mvuHox0bNcgz0gbaZOYLgfi/4FWB7Hq+x+IU+yOwCXsbDW9+Bh6m8fsLnp2NC4g9YyqtnB8amtCIjBH5LzLcZ34GLxKyI+OPY/g51pwJ5NYh4j4DfqjcP0Ipu5Rtva474V0oeO+e7Q50PLRUzZjNOK0+uMdiTq/ZOzFdYK7gxR2H7j4wX2LfEeMJ9vfgsOrPEWMff88n5/uRRPzgznDiuo1+sxqtb+QNc3sXHt4hpNWpAbfJh1TXHiXxLLbF2iCPjF+YYBv5iFXazIoxzjDUEvw8E1zGaw3kn4bZ2h3VV4H0u848CE4lci941fufzcsQnzlmY0Zz5eqfHGnuJ6w6tqgG3aLuprWlwzw/4GH1noOOFHb9io3p+7kwBhxnkbAfW0pK87Om85xmLXrvJWg/CJ2WzbGYynKjyaSe+toCPxmC52cs6aU7ku4VoihYjrhux2FYe/5bPsjkXJOSZO6hfw5l/BHlXnbEO2Yvif8C3Bv4qR31rwDoa8jn8qnAkrpBTV0fajPfQAuklD8216JK3yJEF4BY+0NaC49rM62YNG+g7YtG5v4GB5GsObTDXJJB7LbCzPz5IBi/KpjRwvA88zaJurIP/4sjT1+DFu+DLxlqqsb7d5Kc1PcDcDa9/wvd2fDU6tanWlDpY3hGouNTYA6aqwxnHsH0K87fFrjPYvlHVMPTcO+B2GfEtII+PrcxTPa85CJ5Px7ZW1NvlzL+KOnATu0qm2DzwkZpbm8O4ir+nsi4wITzYjx4R/fDxAvD7PXPXsFT0/Mw1TnDzHlhfBk6fgokyxIz1iOXwwjFsmQi+R+baM6gfRncwgQ43qc3GCE9ufD9ewZVxHn+gT8xZxHzhrfzSMVIehGrg2huMVqWXMOeTm1nYSR03O5PHm9E8t+CphuThH2lFzr3UIxexo38VEv3BNR4H4ysuq4AWOknM01nvNrTC94zzDmuZE5er0Zcprav9xus7+CZG1VLsD6EH4DsRQ14vzorwNAd/7/DdJMZuDsZnsI7d3L+DurLEHdrFojCcZfNsw9ZJ6MjbzFWPcecwRk3y8SrxBmMeapYaVyvjyXXOJXc+4XP1j/eaBXwOwl8R2LcFO31cuwL7R8Bloax7BTHaZ2nobF/iN9/Hxh3w5UXmVTV64ITLziLioYEX58Y4zyV0hI4dC7ifuqodxL9t4dIEPvubtXp6RDm/JMfLY9sC8PMfODnKNQ1Z7zijapftJTfFsnIFngfUtI7cN9aomrG6JN9cDKY+ZO3z43Lj87g/dXuuoXShnXH+JbcD0XK52L0Knu7BeBNGXM+YyOscNFMf5p0Zl2v8yWsSWHXBh6Pg5dfJjfvkUUDfEsV54k13a9XviVnokT4b406sstQyuxED8KmVhbPWkAt9uIec074GU48Yv4+7dTyayYTjnVt5taUGxr8Jv77FNb2IiUZ9fBNuSKU+DQU/0eTYbPIknl7jwvZc7SF81IixToJ9cKrmMApU/oLto87S/R7nb5aG5jvw1T2u7c53QdSGWMa9yVrWwG9edHsnVe/x53NwfNoIUvdpW3n/DDzUBTcVWPNr5Ew4ObyJ2I2B99EMIobXpGY5ivvU3p+2H1sOqV4EbA+xWDqVFP5osA7lV2WPcz91ax396VzsOgxfptALB1F/y1ELm8HnIYxfBA9vAVtvgqs1e3OMOuiyQ+Spgd73w3krY0Kcf2ED/YyYxuuhZjlaHnFAa5jhrH8R92+gVkcRr7rEaTv6I41aAD8aceToB0rL4J8ibEpzFnZR41KnDOqeZyPr/g+/c59zLdcOJx9Hlvi1vu7Q+O9K8jWJTQ54eSic/hPjFYObMPhWZ/wD+HI7+V2XdVSGr79i/Evg+AOw+x+2ecFFtxHXtWGMofrjZQ9CRQ2uM7B9Nv7/Cr+FZdnEanuR8SkcNBMdTV44Z6OrGhK/eDhzPvZRh5yn0QFjiV9TcPWMa234Gx2Ep4JU7TWrZJY4N+FDej/tsuID+OY2vjmIX87Dq2XRoZm8riOGXdV+CLx9AR6jZxRb4Xb0lfYdc/Wknqs8aA3PN6H2TOH9dfxQjbFPgiXyRyMPtTR8cRh/V44uMjOinzrv4Lv9YJZ+UmtJ3V1ODlzimj/AUxS2BltCPGcZP4NxblI/hpEXl3j9PqUgvhjObanyhby8BQa/wj9l+oJZxqpHHelHPXiTHP8TPwbRy8Sh29KxcTV1zMEYbji/IxqgCnFoR/zLEK+p+Hca/LQg7anZeWOc08CnGniui196JuSpfUvRAI5sV65Ae5O5B1AnnsBz36v6yrpc2AceDTRxhupL4RxtDbheQczfIxebwj/JK/M8R7mGvsRoTb7cII70BOYA6tFrXN8fGxtvjDP+wcf4wJxHjQrDpgD88oDYNNUcJ+AvYzPrHcV8/Zlf6ck3yKnc/+cPNJfqcUQq9ewbcmiCJVDVBWeG0oX96D3R6xXQqnCROdl5T9VZU6PHK9M8wJlJrWkOl7x6KdKZRc18hxwgL4UF7TaYvKxNbXGDyWD8uJGxZk2xacV8XwZMtsi1OxPJ10Ur8zQ/65ihdCk+7g3+lb5oATcNi37q+Z3eADxqX4OzQ6wtCnyofYhq6NnB5Ijqc+Yezvao+SOwH7tVfTB+4u9J/GvGeh6wPsULAk0Sj72/0G+hZ1XNNO6xtvVui5is9i20qmJ/vk0I8jmZWlFL1W14rUp6gHM1uPqb+ePhrvFgtje8jEYSHenD/rEXaSfAbDbz5YODj8DSAjT+VGrbbXeoh3qkenTjKLF1ZJaoPWWBTnZSUzRwpp6JG+gYD3XIIEfMOPLbUHUTO6pT795HK1FDjCvkfl136xNwinEZreB7iSXjKr4h582ycF4hr1+yLp18iUEvVee7QeTLOuaZqDmERBvs4rMqqqcA502ZbwjzjeD9GHLyM16xzXhKzr+JXt7EeMPhmKdcVx0t8CvYesG/RdSGP4jlHvr2A+T6bjSDBX2xDh99CMe4iYfy9+/tsktr2VVsmsu8SeCSHsB8JT1A2Kg9leDc1mC4C7k/kFz5iTHHUQNqNg/IKCjJF2+nx5b2LFuw7TrxWL4yz1jJNfOVj8ndbuRcL3drbbGq/+BhKVxwhrUvIKdbUqMj3KEZ64jVtiEO8S6xIk+MY8yPJjK/WZmnzkRm7MCfc1R/zVxLWc84sHea+KueuxWY3Anf/ZBSYDwGa1XpL3KYvyL6VGdOq9ui9lA1dJz25OU+kzGbOAezTgf5tpye77KloaZ0Uj38+oTv38FHao0T4J9eat8JjDnRVBvdFs9V/AYXmQvpA+vx2SL4PxXNrTi4I/65gS0V0gO0OfiiTbMczxbW2oo462j9Q3D6krTS+iccKleIx1fg6A58Up2aOIx5IqghxYxXSH/9O1j9Dv2z3B1tqP0KtU8WA980JMe7M+YksP4EPOAXz1/uaC0fGxrh72pwpA8s0MuY+1MKFG85L6CjT7PuCPjaNsGvRYDLTGJqhV9uEHcP/kDvxC+n3lJrtRzs70k8xsIp3cBljOJbtO4s8BYENl6BnwfApdQX0cDd2rOSWrGH+2YyTnnmCgB/68k3ON+s4AgUtXhd1y9SW+gu3SsyTmB3lcd+51XWuI08fSWzxBvYq1AEwUU3qVHR+KcJ/niFnHkXn7aFu9Zj50f4M4qxZtqLMq6im5qjKdvjh3Sub0VcFtiLzA68R2NpdYhvX+z6Dz9Es+5a+LkxOI8GC72oqc/QKwmFP4rKE/xmF8Y38MksxqHH1FR/yhyeH5hrO9pR7Y0cGeIo9d2f+KYq636CLltwOFs0Q8eqPcp95HxTtf9LHcQn4tQ1h3oOr3SHKZl3EZqiOrrjd+Z5h8rdj5rRGUzM4ZrPsGkxHPUNa3WS99T80j0V1Uckkb8F5MpF4rVvol1Y4eBJ6PwO2KlqSxW4tgFrFqy1OWNuoB7OwO4WaOx5E+2luvIzOCqKvtyLtlc2PX6pE0zyUwuA++A/jRom0MViEJ+txI6W5Njn3HMeTD5iDfXhkPfA+Lfk2ce87mMMxVM9yJOvmKMhORPvvFe6jwu+lXbSyGOtB9il34nfainvyUjIc/5I7aqYVpShMddH5IXS3NQ9sxq5ga4RrzG20hhTLRUzvoZzVxO/MuTlK2DqdWx9io9Te0RpB7h2PtrFhS4i3xSeNTST2RA+nMP9DfCH6sOjHYFd7lNn32G+N+COekoj0D8OJR6/W8o76Z+VLjYucA/9lbYDnL2u9hrgsP7M3wksvAG2QuEU91h0acnDE5csumgB//6FDT3gt5GM3Qy/3cAGdKKWi5/3sH4DPluNDaET/MafjP8z81zmPXVCPdNXewbmCvJqLOufx2sq3NWKz9VzO7U3rPZqmrK++qxrCDlfi3z8BJ83oO8PpL8SL3tIpeeNc/AG9U1EkoO/4rMAMKD2JJf2i/S8Rg+UCB4+xt+/UEcD4J5r2N6QeVLw4V76uDjW3ok4Jp+NKtVaFam7B4nFUuydn1RUun+TyP2be0SZp7Sq5mrymBxTfCj6oXWrwmtvM1/VCX7RBLwvAENoCyME/g5kfR9hu9pbmJdv05YRr8+Iz2v4qhUc/JiaWxGcrVH4A+vDyYd28MhxNOEc/i1TmGOtgdFF2ihiUwmeb8i1y+AoW3qA6vGMSsyDbjLXwJk30Rlb+S4aPmmBfbOY8z3wvYlcPst6EvDlAbREM+yGG+IfWUK0HLVvhvaJwqYG5F8h11VCS3rRSK8Q+8HU+9n2Iie9Uue0kmmlvUVj5Xs+pxc3WIfaexAz0X+h1M3R2EO9ozIGZaBxjGPEZyH1I4k4dGAt6uz/QGrITGz7GD9+TpzV3g58qfSylv1yn8x4j/mMgHCzDLwbgk3jub8Pa0sdGyreVM98iKMDnpiJhuuCDhyCPf6oPPOvB6EyCF31U1KR2pNX/YIHvaMdJI676QFVHXsN/NWEP9qA5QOMPQ67qmG70qvdWUsrdPTv+GMPdbsbPib3DD/f9eRepSe+ph7YicOH3E//Je7uzfFUoz8awfcDVO/Dut1guir5Jvlbh08awlGM7bTADTqY89LfoQ8VZ5sduG/W2aiMv6hDx/ge/SVG4WO0o5kcledBM5r3zkaJ2WjvX6jb6rnUFLQqvafWB1zQuxjfMB8aT3GTU/V3TZhzFp8XY6sLHtyC/epcQAu+C1e1jb/pj7XK6LCerHE09VL1lkMnXPZQN81KaUUeNLixHf9UIbdO4Y+79I7J4LN3Ql78IWL1PRhtBWZnsh5qgHMVNTuF8QXxrE+vT39kwA0eL5xQCRyYxKA2NQeeNQ8z/wZ6arSwmEOsBsGhHq6/xjq6gSV4RixAm/jwfTXsmUWfkcsaVmDzMTALzkQv4khPoi1mXDCrneLz5YyVgYZaTx1dTh/0Kn1ac9axDh0Qx72pvK5FvzxmvXZLoJk60a76TWMun3/R95aB5hQTGLcO/D6OebFD6RJzPmPOvuZQddYcDY+pe+jlje/gvNYl/i6rLLWc/yXcLtVtr7O+cHKoNjk9kKqwF/8QV2cvS2DGTTgpkF5kEjk7Ch+kg396ZZGyN0dpK/WczTO75KF6nmFE0J+pGhOaHtDlTMlNc8fIiIyT1NIficchuKEm/mif2lQjRsZI6s01bO+PPlmGb5RO2sWaxsDTy4khPbhIJO/oVcQEeqCh5NNkslQ9R6qKrfOa5cS7if+mqDyjEfXmrKqP2LCffMzEr5WJSyOwTX+nzsiICnDGKfixC5zhh3c74Zf16hnpg1AzmrxEI5o14MQwNIgLfTYYbtwA51nBzW/UGqUZk9ESK+GDGdi4E2yp3mtDVJ7zCTzWjnvu8t0K8j0NPwWg7/pjNz2ZcWCk7YShnj2yhpC0ovgN+FQndt3xla6esSYVxQ9A38ONSk+Z8+HvEeTTUPL1IutVfWwt/q2hJ+sINq/Q54BN4284pRx8XJ/8qIOW2VuuICOXefowTi36h/dK/OoZotqr1E4Tg29v5ccrzU4tNtReVylvE9eK+KY5fSL41/aTDwqfoY/9msr1ecThLfg3KrrIKS0hnqP0ZLfhAqUlk3hdytrDtCANbeUpoT6oZ9RoUs9c9AP+MiNSA0VZtXcKpvaDM3U2IIL4+5gnEKydQ3PcLslXXCVi0KgHqI1VwBu6VLuLzRmsz1C63d06YwV5D5eKci+5Ts3jVDxJbTHQnWZTYlZWPTNk/BD8hK5Qz6ZUfTe9WREZ9S21THpuU5twWfWYzqXweQC69yY8/FVWhLiuzu4Qo2qP/cZE5piH79z4DmwJ+nYRylp2oI/Rhs4QtJ2TWKVec4jx1PVd1A/VoyVRx4+SH83h/mbwfDi+DWLOyvTKvejRUvHBFDAxGzx9Ts/Yn2sXof/a4ovfqUOFxPUrrqH2aKzB/DDXHq/sXsK81C5zLzk3gfy+jB6oRa+l9jxTtarOSuA0DX8p7n+m9v6xvwe8B0eLQGrAH6pfYOwn6tnCNYfhZ03foA/AucKL0kHidWrJHPTNr9i2k3lqcI0AV2PTY7XHfPbd9lxBnRNt8N9VYspc5jdw1gepTc2mzntqz057FwylgM+xYOczcvtH+Lw996tn/E24Tj3DVvs9B+G90Xx/gnuO89375E+g6nGYpzm14nfG14jhGXBTQIwDwNXXaJqfH4Qa1VhHFp+NYe0bV+Y5fy95KE6NLd2zEl3xeSTxLkMev87fs4n/Ca7PgX/ymuWo3l5sWZknRoLpEcRjMj3cZfw8Fz5zw9+DGXcAHDWSz8hpLZH4P8UmtLvKFU1xelB0kdGOmnEQfp1Brsbyz82Y4eD2A+6LAOOr4N8BrAnOEj3gfPoIUT010HmYvKmJv9Wz1w/h7S3ovGXwkC8u14lWVPurRiTXjkLX0tcY++CzR/jwY3w1jvjbGHswmCgm3qqWz0176iHPxVcjI9SzPdxp8bjBNj2wsxGa+R7XNANvV3g9Qd2eOuGy6Apu1tBnteHf9nyb2Vbh+EFolyQ4m35Xa2KpGL+6JF/t+RhZcHJb4vYh+QE2MhpbysswZTu89R88Z0OHtGT9s/HtDneoN6i9TaNnMz8ln+efjdJuqB6bGjoG33XA12cSbosJ1JnmfL5vZZ5xhdd16swFsS94ubfheUa/OZD7m1C3VB+RwtrRc6quluZwJ+LaBP3UAK16BltOxuWaXaiVK/CP2oNfjlZTefDg5bNkLYmaBzeZ3yYVZfTDtkNxudpusKJq/6K0IllRV918rriUbzNmqD03akOwI1BbT51Ad2tbiIEHLshUtZgaMIZ1H6WmSOoL2PL8kpDn+aLEH78OPTQXLIe99FtpvJpTK0JZQzhxC4E/6AfFu+SD2itRz2eoS54j6BCV2x+xrm30r2/AJ2q//SxjXIAT2sA3xNUYinapBL6ox+o5sjktPbbLNUstbTb4eC89VpaPifC8II+H47svWEMSPebr9INqjlT8dIxa+Sf9r9qTU3sye/hsCPYsoc52Rr9kTLGZg+CdG0qvMr/SRR3w/VLyp4C1v0GfU4/r46hdSmu9gj0/cl0GcbsEvuqBdbRdaT/iVXsT1DB4wYjEZjdaYC51ryPjHWVdxKb0XOJQeDUF7LRWz36pSeo8yTftso0q5OE6+gJ6Mu0HeGYaYw9nzer8zyYwrs7roI21Q9im+pCnxHIza/sBDbwO/ExFI5eb4HcmwUeR2JQAt6FbRT10xl3u+YI8e4v51Fmfd8oVONurvWNsUjoG7WtY0YeehNsGPZDzB3WuhfirfvNT8qeTspl8H6jwT86nqn1G7KtLXkWDq9laVWMy/iiDxnMRj4nwiYE/0I/marCu9ttvgf1w5vrFHXoi3aKrfRLRTuEJXFyBZ8dg84V22VpX5q2NbttOTFqy3gr4wk5NVPY9oE8ZRzy6kZ/v48O/+Pw0WDmWcFvLuJXvXIgf6pHbVag9lbn/bTSr2oMdAtrR0GI5WnIwa/qc3OmG/+lvtAFoHnU/uBN29BD1Uj2zcyv8jcPPB/DdMXUehPmULq9AzdnCWq2ZJcZatWeB3UoHky+lZx66wxPUZ9W3er7GF6N53526p57hT4SPusGr9PLmPrdFsxF7FTN0rnaAddzCjiBe/0ZjxKbHGr8R849Yj5X6vI37g+jXFZ8ng5MJ+Fjt8f+KfYvgGj436mLDLOrCWrRaKOuty72zhzhEWa7vyHg9wS4624xRNRUfn3KHZsSArTzmSwKnaBNzs6pX3DeL+/anPTV6suaL4KgldXM16/2e+oSWVWdPnHvQRonYS72KP4Ku4Z9REfwNYF1JQxylz+g3wz2qnnWAA06BP+Kp0SNrr+DD9mo/CGydpy576XvPo3eXgMkTYGoddVk9R1+BPevTSs+Xib3UH3U29X24uQY6Yyx23bcXibkr89TzEPEGuOjDeJPgmUFcM5V6ibY1muCjX4nbF/R4TjCs44u34bDO1J+68ND/Rlz3LGYtAdj+M/5VOHCAg0FcR56KI9hXm7E2UeMc4GQGvlL1fSF4Ql+LHsw7E+4vHmk7Tg/uTKc+u8jbYHhA1b36fH9b7QtMtJtB6Mue9BRXWWMIGhM+dW6hTqS7oz090K/oPe0n9awfm/erHKJXrti3RPi4byprQSOI5MPZZjS+Rv+IhvDNWD6Lxi+jmHMo9nwMpykNR48v4uG5JorH8EkoOikJLVyfe6Opy2uNoC7lSk6I0dR9+l2xHY01HU1JbLXx6jwhvUIduJlYOWuCpzlgIgxb5lBvalM31NlJtb8+F3ztfBAqLrbLNr30A/u4LzGlwGxM3QtR51KYuyK2GvR6ldXZQvTYDbBRjrWexaZZxL4++KInU2d9xbHD2Wq/X+0da1a1r8p7n6oX8NYUYqaeP55hfWUf+1Vea784C+NnluSLr0dGqP5bPMqKiP+e9257kfYVeFP72eoMzwB4fySY+XZkhIEdx0oKf8yYQn09xvtccuMmc4TRfzXER+gH559g4gd6hqnEowHzzcQ3qpZ8bFT1zCt5qPnJhc3UyoWqz+ca9INT7WOmcC+6R/tbPTsEL/CJmAiOR6taw2c3yVtqbcZ4S/mM3+kXf4bH/lD7SWlFGT0stcRK/KjOusFThtKmq685tMvk/zr8SQ+klSe/5mBzInGcjI/U8zl6VA0faXXhrB280qdqs7l2AN+jSdWzc9EVHLRplpOBr4xfuFedwZlOHF/ve8uZg38i+5Y4fWCRfjxDnevx8/ojcf8cDLzFdUl7c0z17EntO0+Hm5sy50L8sRQt9xSdc4peYC0ctg1f7GI9RWBY5769aAq1J1ypeYBxGJxVzrKZb4HLt6hNVRWHOgtP5Fp07RrrQOt61uHb1nAMNdyIhPerE3O177aJHE7js6msfw26oSOaNpK8mDTiuvo/usS57bknwLM6h5bRGb8eQ1t9gP1W+pEycLIP3h1JDHowdgj++ZL50D9af9WfYW8J/tJVn4Ctb424Lh05IWZTeGQe+ab2Kr5qly1iRlw3zhKTJeSKDyxVgyd8PaI8W7nHBpYboD3hX2dLerclxKxjVkQXdS4sEV7+BV9tVf00NVXldBn4vFidsWA9XcB/c/K7Ke9fsE4vWPiOPjEV36/FbnWmoAaxPfTyWYx2DBvKUxeoe9p84rEELjrJazX6gGpcMwhOID9Kz7o70gNUbVG/N9Ty+AcmBLrabEddugk2HrN2Nd50NNIaxlO5WX2CX2lCZzb4aYOP7hK3NGwPY730hOrMqnafOoPfDWqgmY6ubo8G60mPsYgYDcLGs9Ru1T/Npi9WZzID+Yz+w7jOXOPQcirmf2KPxucn1Fkrrn2dPJmPDpjJfE3Qtovomz5g/D/glz30DZ9RT5uSny2wqwv4Us+BhmyMc85WZ9nJCSvr3k2eB6QHiP+hFRz4+Q31zIg4diJ/XEZQPLrMuYLcnggGFmDrd9j5LtotjLy8ONLmXKTqDvUebSXWwXkBcBI8VFpvAhnXiq6dxDp3EN+PsQVMKl1ceh7oGLbuoH4GZJb+vzSeS9SCyurZZd8Sw888aFS1h2X0Awtt4cUwfEwfI17LtatnfqrPyHi35LHSO4ba905EPwVz3wB6Cj9aT2kK+lNnFnjfAKbQ3KIq2v14TEgG+eLcR11Tca7NHPCP8Z7mcDYv8Zc+dzxHztK3lz4j2kT/Nzff5hxuCVT9pLlkb456PmtWRo/ctDTU1FnfVdiwhtisB9esR6hzCUkvcSdapMd6vFx3Cd2F741ErmuEfiYfTNZiNsA/6D5DPZe5OTJCnX2V5ZblG+oZ//WkIoVb8Qs5tByf9obrfCkF2l78rXivL37ZRq2ohi5qSw1dRf3NAgtf4ttG5Ndh1vJdXK4nRtUS4pSiaja9poc8CqdXVedsa/Yt0Zbgh8+J5W6wU4u+YBVaBC2gzk6pXkao/z8o5LhV7L7mEKn4I5ScWBqVZwarfV1ymjqufa/qNFotAazdBx87iIWOfkzG1v+Rx9XQCpt6RImKaMz1zNU+K8LzK/lSC2yd5/oT+Ps9eE7Vn71a6flt7R/GAE/GNjA/Xz1PU3sMYHUaObWbXCR2nq3ogVR3tEaf5lmh9nbUGR64B41mXAdPS+jz1bme2vTU6jzqEdascb/SiZWJG/VdW0gdsIGDGqz5nnp+g29f51/K4Wyhzp/A1WYj8HtRnZUDa13w+++sfzE5RvzUnqnZA720mPWrOFYCAw6wb4dXssD1IK6ri5ZJIKZT0UT/S8hz7uDzqn1LzAP9ItW5FXMT9UY9x+iKPdRYEYvfb6zM0+hFxIJmOZ6T+NqqzmnAJfNUjdCClC5S+/jaD+BxMvHdC47RVqZ6Dq36pLLqWT758Ih1ZaNfJ4LvFOoBmks9My19thUFjk9iSzlsX0JO96OG1Ccm6nzdaGzZzZxuxh8KN7zFZ/+o52Hkdlv0ucdiOXG/5KanMbb1pa/qBy+OZJ7jas+POtcMn8OD2kb8PAobzhFTFd83sBXu0C6+fGaqqb3lb8DEqrGh6vyZmAd/3jwbJWo4wN2kILEKHB14WWvMetjRjnoWj0+30LduwD9rH4SqWi3oBc2P4K8Y+odP8Tf9tTGYuMKR6hmqszp2Dud79XxX/cZjImv5Cvx+DcepHKmQHmDOH+JwHiHPXwHj3RgjgzqrziGPoS9U52AFufMmMVT9kM0SWHp+UwO3iv+XsJZrvCrN3gz8fIA/DqnzMfQ7e8htpSWItZaszouBRXXWPIt4ZjJm/st9LVM9j94DPorhuLe5/7I7VFrXPvf0YJx3WMNfXOfAX6oO32Kuq/QTB+gRJ8N1OepMInk2xN3aXBOXa2S9xHTpeS2FPXLHXKXOKTgCzSr8i0OnqWcKq7iGHBcrtuca+dh+HE06Bh91Aifq7Pm/as9zpE1pR+0BOhwuFF+yPrXHs24idYa1PCFu9DDGt2BuKvHCPxmH0BS1+HuLOveifjuCPtDxfz00TV/yaTI9pjobnAI3XoODVJ4OJY/SqE/qd79u7kXjK943wLaWhJ11yP//KZvApTor8trL3y84T6pn+OD+AvVfaecEeolvJ9rVmeGMn9BxaAWxlr6oNjzqQIe/E/20dM+oFlpC7QvHaA7PK5ZAD5pf248eUr/dU70DuSri8N95Pr+m6tMEf+le+VtoTjSGuYi4fs3n9FYiGa7di5/fw8al8OQcfKM+n/0gVP02oXSfujmx68B6VsBnH8DVC6kx8+CSKObc4Y52BjJnCmsYxhrUc7Py0UWaOqs3CdyHovt/JD5Z9IxXuX/bFJtmA5/qvF42/imHP1eiOVqyxs5olhjitpS17YNfK1Pv1H7mAHCvzvuqPhY9Y9BPiyFwvvpN1Q/8G0xsztNn9MPHi5hjYUqBcRhtCXeU/nbjG7QBazGXYMNWxh0Glj9F53cj1o3ggGR1xic91ryD3uwE3mKp141L/M4Y/Kl6JLAkssGBEzxMYRylE+9hO/2C2qfRosHRtn6Rxjy1N4YmWUMOql7iKjZ9RG/cm5r0vVZVi+czdb5NPcc4ih3qOVI0HPaG6j+Mqk4/vhzC+N0uRar66DlEPt1HX9/Brw/LFSitqH7XZLxLLOgLDPWbPOqf2Y3192Adi+klfiGuC7fnqv+XRJ2z18h/EY+v6oOdYktIPJyhJeFL+kn1f3wZfT25xjRqUAr8h25SZ6u13tj5brMc9bsBsQgeQD+os9FGPjUf/6q8037jb3Xe60/WWJ08PJNUpJWoPbgJlz0q1+bQLxyhxh0FG4vUeRi0Az2h5wd3tDkNezozfhr6D41V2r/ZqQ1h6QFGXfj7+suznqV1Vp0hak5e98SP9D1GpDrnSGwHM8cy5v4ebTEd/+2g/x6F3+Fx9X8SxFdGl6uzbp8xTiO+38r3Shf8B99iY2mff47v1XnlVeDUiqZQ2mN9SoF6FixOU/fVc48vuW6/ev6G5lHneNSZ3nP4rSo+07CHXlqdXTer87k6a5RKnwo/aeWZV523jabuLGqXbUxEv6lnw19zzZopNtEFPZ1BvI7hmy2sIfX/z/m9Aa+G4F+40lxBHg6jLqgz7Tu5Vz0npQao89ul55VaEB8fmtPkc/paLQJcgJX47JJSnxkP1G93wJ3ah4P/xf9YC/5QZw/U7yu1ivSD37COzeo33FNsZjOu+YAaq3oW9XyoI7kQCE+pfYu3iYnaV1vD39+mFR03AsJV36etoxb8BsbU70sS4QX1+xt13iH6sb+0Zqj/8zEGrCnNqn7vHMTa0uCg2NSm2mw+G2Wp6Pkdv8+Ex9Ga0rY1TPVugn5b+5vPGbP0+b76jU5dcD4XPpzNmgW4zQfjAS/3ncQAcjxX+Vw9d+e1K9/fU7+1YY3dqXk3iGFN+hsBl7Tn+p3qt9mMP533Spuo34MtBsMZ1MjNrKcBuPxWqyr6gVMJb45gPOqipp7/qX3G8fiSfqDLSMtc8XpqU+d2tMNa4jqmXIEzmTgEoJfd8NBvql/Dzj/IdfSWcZv3PxPzvuhtte+1Et3I9zIAvf8h435GLxUH3qvQU6jfIGcS/wzs2IkdZ9FBO+GLmnBiOrFSvw/anGuPV7/tmLUyz6P2YOEI0Zd6tACfpzHn3+D9S3A1i7w9ejbKuKrwhlZWmjMD7dwdPu9PLcwlFzaQn+gGYyj2e9W+uduieL/Urgqs/Qf8tjKr9NmMaIweakW9VGfWK6nnPOBjF1ghhtqn+M9OnV1Jfo9Fc6nzku+ApTrwZwI11FC/8Yx+qn4rqe3knmv0O9R77e2EPFn5Qaj2Bff/Rx2CGwUqWe3hax3QyugG9Vwtfif4/oweIg9+rE8/2I61nlL9F7q548uz4Or3dFo6sWxd4jc+wd41Z6PMutSYgz2izPfJmxN2+jfGO+IufUasfltgRrEGVRfJV6WnzY/wcXXwfA2f9QEn6AyzPPfUVGfF8c9UeKw9/t1Njs2nDlT05Kpnqer8X2m9PYBdy6iLY4n/c/jyADadIf8Xk6vfM9d+4tMSf+5jHQPhg3D8O4f8U+dZfyY2rbDzyNko9bzH+YKYJ6AlazBePfJwA9e2BCcrqJ0Nskp/12So5yv55NZ88DqXv7Owtb3SPIxXukfG2P3gqyvEd6M6z5H21DkeO0eps4vY42YNHuqLB9ztapdtdueeiuCQHDOXMcdscmIMft/P/Q3giA/drdUZEsXpSotmLCnJV7/j8pxGm46Bu9VzOuqpeq5e+hurMHL/F/V7D7j0Kzg0lLrYmLo3hDqr6lht8LueudqhwbXop/HqvB6voin89z6vrfHn+2AOvi2td2XgKDCrfsOibcKv6D7FjaWabxe1bydrUs888/EF95U+Uy2TWWLSl4vJ6iw6efUwqagUR/+AN5keq85hGPU0hzkv7al5FKyqOF6gznyKXh77cp9R9AKrpbFDb7TFdwfoD/9lvmbMkazOO7Ie1mWWpZ4tg4O+VRqMvL/Dv0R8XBZ8f8E8kvWfORul9k1EW/hgE76P9eTGq7N98c57HpXXTeGDEPJyF9c0Mqp2VvahwUt7zBOMDQ5OJJXcFJHqNy7Eagxrvo0vmmHvfuwZT25ewEa1911RaWJiq55buMj5V8hraoy5NqVAjMAfaH51TlNsIQeHK20B55YnP9W5YAu+S8IP08CTjk3vEaMWznvqt1Ke4+Svg/ptI5fUGfv69Gxl6W7JPcWLxgI4qSXXV6MmkAtGNnZ/g0/Uma9yzQOMR8RHnTVWPfgp/KjOXI0m/8rz3SXsjUltWto/Fq3Mw+MOkdzv5TNUeuDSPnYQekw9t1rDOpbgd5P8PU6eJ8A3UY5A7TPyZwM+r0HvCY7UGSpzJxqpD7XHl3BbPU/UVjDeX2DyFusOmeD3qN8JHCdeD7Fx/dhQVSfNiMwS9Zxa/f7bo+JwlLXQ66jzldpY8E49EB0Z63dVp6lv1DnVd6jxzX3w+LfqWQj27U97qrUgh9RvI57Qf8C34kLaU0P9Hyu96G96sMb+6pwMMepGPM7TW/zKuO2Y+yL5cY7vTlI31L4+vbEw0GfwurDQw8+Ez5fxfTBYWAEnDiRv+jPmAXDHvaIXvvqP1zXbc80v8c839DK3VW8H19kzS9TZb20bNV09Ez3K+Er/ruG1Nz3HQWJzAj+r37Sp/bkE8LPJXqR+WyLbZEVkqN96Ho7KE9XU/3einnlSh2pnRXgDehWKWHo9J3W8lbu1Vsi6Z9mJPbh4C61bG1+jrcQX1AS1pzj3bJRzFjlJ7Dz+kofODywh6nfMQke/dYQLXkttakQxv9qL3oSdan/2Szhlg+rD1XMA1myjV/yQ9a3em1N6Pi+I2k9fb74+4rrmIl5B8NcS6lM1LchcMNHuWQNnqd8ygUtVX0vPKUXAVwuJ4bOShyIAX6pnU1Oc94xe6sw9Yy6kV5tOTNS5lwTsUOc3/6K3elXpLuL6OWsaAe6/xZ59rPco8y0jbs9Hlv5WVCuBmxJ5PYV/C/NtRijr+J6Yv8s65qI/J6JJDPjdop71wEUx6jkANipNXJccDiafPlX7Qdiw7la+et6nzWPuLlx7Cfvq0DOQe+oMi6Z+T76kXbYzl1y9Qg/yLdep8z690VSvgBvqj3GIeHSBB8IYJ5v10KcYdfEx/ZtxhnnQcOo3nc4baII/GVfVEpXjF8Dyd9S3ttg2nuteZd1T0IPlHvvFwXyb2Ri+oD6V7vk0VmeC0U4zGXsp86nfBp4gb18lLxahl2qSW1ux0ULtR5eIs/YisYpaOJl8cjD2UsZ4Ja2oVDsoLlXnvnOYexfcOYox0X1KR4uKxHoBmE6hT1W/GVa/5c9Q557JRcV3vdWZb/xqBRfqPPxysE3NFE2yIjw/qudwbot6hiMuTbQb24nPV2BzFTiY3PeWtpD3qbl2839gLQT8fE/t2omeeNcSeAI96Gyt9uKxsyJxXqb6H3KhMZil/hjq/Poo/v4dXtEVF1Cr1T4oPjGUxpoHt3/Lmsfjv3zWPwneUGs8pnpF8uGFpaF6Vq5+s6KtZWz6MK2R2g9kvJ/HhorybouZQK6eUxji7w7k24uYkNLzCrbHfrUGj3r2pWp9ntqLwaYB+G0K+E6En45qVT370UJlqa1J1MQ3ybfu+PMtsGRwveIU+n3tHvhS9fwP5gcfpb8PqZhlM+ml1G/5Ss80NAX3LVgj44qF6pX1TOt7K/5f6vO32Fd/wmXVi5Seq90Ctj6EH9Q+yR/qtzvoBuqOqERNuQy+1e/hLqi94CxbhqqPi8EK/CsEcYhKDVTYVPtmpbpf7cNsZu2lvx2Ny3UmU4PKgEkdDHXiGrSq2EwtyVCcQm29D36pyeqcXfw5NExv7h+Mvliv9nXo6x+pc4TgcoQl0GzL+uxg2cT/9MriMWtcS7yc8IX6rZ36jXM2GkydQQEf6lmhUL9XUv93Sx0+28srvUfps8lIek5Vt+BEMZTPlUamd3QSI3XGQT3rE4vpU5aSv4+5LjEqz7CA32lcf/Sa40Rziy6+gPce8l0P7NrJ9+pc7MWXzy4FsTeKwPTBKTZttdp7OZwtvkZXqf+zBD+abeGaU6oXoab3I35ocPEmmK5OTtAfm2H4PgNcKa3biPfwU8ZuS3mzJdd543JNegHF5ab6/fD7G+MyQiy1jBD1O0IwoXqTVOr0cXy9vl22+m2Yx24JdC6jTwqlJiuNO7tcgWcZPBzLnHGsvxb+Vpq2Z99b4h737GScHHw6HN3aletehfMmoT93k4cb+Hsy/uzGPZ+PuO6MpobcgAf6Ky3L3ENZ+wR15o9cewq+t5JXFmri/7V07lFV1VkcvyyuAtdQaGhw8IVISyWfRdlD7jk/HNQeI9aoYzmJjTVi6ZiZZY0twBBHREOknAzDV4niCqq11LHknmPlUnuoqS1tMtAc9c4ypbHIArrz+Z7bH6zLhXvO+f3287v3b+99D0Lf6cS/6tFfM/xSKCyfQRz+MfKzFfnmOc4PThdrD/5nHNdOwOZG0JE74f9p2Qj5kvzI+y2+Mo/PN6KDqt0GE7op+E/xbQd7TkZ/ZH+Eue7Web3OR1nfjWCR0Xy+DPwxHr1fgH4SOwjH2ZHiQKgdu1anWJX3jcj7JXg2jb1WImMDNgz06quasYOaAaEzYuWH+6KHmkkSQE4OoXcJxG3HuX4r636HZ89v7K8+GNXsevFdd+w2uub1jaYQX+0DdynH1IBd3IqP0iyxi7xWE09t19kp+z7D2jXbpxi82gd6noNeGaw/Hb4Vs8Zs/NwgeFeEf1Tfm7AssuWAtbwz9B9UR4c+lmDvH+RZ/1jW6byAfDeB3f/AGl9lj1nEWLu5LzS0FoMhJ/O/MvD0O/BA93RYy4Vo/56VAQ91XjMMW/cI9mcMsfV/uE6zaLxZPGCmNs2+4jnYFtFdveXuYnD1MPX4cC0xvPMFuoKfcxcTzz7A/rDdTnPztdzk1DavF6AKPyE+JF/psM5Cw0PwVOdt1Xz+LDLRATZWvvNVZGEyvq3+ZJKj+ug10EnnKnewHsVgLxNPRfBDl/HNB3lObe1VnUdYE1jLYfwZuuFsRt5LuPZZnvk9MjAH+c4G+/4Nfc1RnS1/s/Cd01X3oLkr8GEd+ERY9FNkAuxk/w8a6fxxv+q7sbvxXDMCG/EVn30cOqpWvRy5UJ5tCnFOsur5sfGqqboFG7ZRszKwbeBN6yKydhzZQJY8P/YX9F/0HYuNtvCzD0GLfHimGVvV2Pap/GzCJqg/vRJ7H4N9q+Kak9wLPff6Z0YiL0saLplK8JHq+OrwMbOxj7nYZuy8N7tDNR33YpfVH09MrhyDzrdD6ke7Fdr8iTh7A/fE37qS/wTo0Zf1EfvbOr/vCa+IqZW/ttuRjVLs0HCef9bnU67E7Y8c2uCc4LzPlfM3qcQFOY39VTMauuzLcoeoBgl9/Q59Yt/yzdJ39fuoZlT96d7ciVJkdlG/q03EnF7drmqRS+GhcrR17ENxXyW4QT3bEfiCn7ezkCFbfTDoyuldYZ0D53aHBopdXLD8YPXqKNfHs7dhs/FvThu2PE91ycqvJ/nVzyocKOzapJqNq9AtPZqLNpnImmzohkWxpiw6h8OMQ88HEbM+Ag2uBzHtVg04fFC9ouo+vioM6KxqX49u7Y6BXsMa+yvnLxkwieyhq+ofscEVqkXXXIRKf+hH7qX8CZjW1ZnuF/C9AF1aFa0BUU+TuQv5PQx+1Zm1cMIR5DwNf/8JtCpkP5qlhd3T+YFqgcxpO80G3+mszR2KnuxBtsH/qu/3ZhpCN1OMP8aumN7EYjqLO4QctEHf16BBDLZVdTrgF6PZHpexp5mRDvsoe5iIHmnO1VJ4gz4Lt7tx+RGTjQ2YDz3CfH4l93XQmcCVDmcJv49GRq5rjDE6N9C5jWo7FuDTVQ8zAD9EnGsrt6TcMTLp9YD3ge8R1luAPOt8UDmdQ8R7m3ndA422/DpbTDMSsINend39+Own4OlEzaqBluN5zgZi7YX83rcxxgHfev1g6oknvgzBK+WNnRrVeqC/imNuhZ6Z6G49MjMduZ6KnNUgX9pbJrjide49Bjko4t7qx/83vNzDZwPzOpqSWEdXX7xmxej7ttSvEdwIRnsUug5STINMZiHrDxEjlEC/w9jL9eCvtXx2KP7rfmShnH0JU6onQLPn4hpjJMPe/ErV5D6B/J1hLVlHUkLbJH/Y7Vm+GzQHyVmCvVmTHm8pR9U3ya85GjbYzKlGnp612tUfollE7lJ8ZhH3r8MXDgWH/wJmxK4YcIriVm8mVxP3U/xWvihWcYk342gCWG4k/rnXiBjrW9ZpeH7CjNigcuCaD9mv0i8+mIprXv+TuRm5PUhcqlr0w9BwBTI9CRuahk6MZE0N8PgT7vM1NtiPDUXPNGdaONzkQftz8KYF+kZU/3Yg1WmD18hz6Gv0f6D6kaFP9/yI+yA0eYzng7/c8WCehsKAu0qzkLEPmejmYOhm2E9QZ6RXOlydSx7F/ynn+i9otoN1LGQdYCzN7nCrweg7+Hwma1Lt0qfEd3rWS9iX8/Be+jMC/2eplh6+7j2Qal69FmufRb5KiZM/4J4PY1vPoXPKJzzFnhUTHdG5tJ1kxqg2B1lNYA/pyFTX2k6rGRpvwHZNxZ6MQRbeSI8PHvclO/ms68f0+NBa8MZ70f5Ur5ZjHHZE52mPqe8OH5iD31YtbMDuol44dxN4bsjwS0HVyajXhzjDieMZW5Z1qiZfcwa9OlzVRizn9Sjx9hz4nVlwKjQFPxkfzd8ZV/6Z54GZ7buQT2QJ0fBZb2gWEHKyGH7VwMsr8OY0nFUt43r8hHIx6LDiW93TlKC7YBnb+G7Q3ALnGbBTP50lc/0KbELtSz95+ypd1tlUgf5vqb3qDkFv58C7e3jtA9/U77cOfzh7w8DcmBXt7o3ct7wwEPoIGjWw3o+h9Tv4wx6h1tzh4zo1U87cgn70QtaxM7L/Onsxm8AUnTxrJdj4adXOa+4eeOtj1SWw5p+h64+saz2feR6/8Tz3Vm5tPXryNXbmLOstY12KJw9AV3TLeU4zVvA1qi9+gXVWp7Z5NW27eC6xoa2+lSnqw2ENr3OvGUVtFj7SCUOfemKs1cQW08ACvbFPf0dvhrUkOnOxhcQYmvHjPoNdGlVw6r2i9s8U85qXD6SqBlr5c9WTqD/T1jwA1UmuZt39kdNs1v4ivC7H5mcQl9yGPxqLTPeY12H6wS/NbK3BbqvX5t7WuCBxR6gF/QcjKd51K7FNLaz3O/6/m/V9OyM2t7sNlmN/+E+T7qQ17Qd3KdcU0xijnLHOZu3XwJrqIayF35maAcHf0GNDbKJ5HerfN370FtujOmI7B5yzGvsWw09lYcCpIcZAdoKqi5iJHA3FXu/FfoSQ4/+yn038/jPrnwyG+1xzWbDDF7Cn73KdehTe53fNoBoKpjqPbV2IfVLuvZ696tzAZt+VqW3qITb7wVAJYPcUbPRK+Kp5CdeBe2eiV8snprg5Or9R7wa0lU9egL7cRKw6AnqC9TWX263d2mo0i0vnTLdj7+6EJlOh8xua+8T6utldNNtcsbh5Exv3NOv4Bh9ernPAGbFePav6B2aCY/Hr9nLNukCmhREnQGto5OWUwVw6+1e9g9mOfdt+0ZspZXantrk+1heGPvWandEYYw3Bp85CJmTHsdN2VfQcx30OuT7FmkrQ+WnsAT9hyolzXuFZmdgdxbHHn4yzfgMmvB+bopk/rNv+CdruhGZpxEiPqXYVGXxxWafmGbg38Ldu0JWYxjlT681ECj2FDZrFWtS3WMNaT4NfhuAzNe/6k0Wx+p41W7M3UvMjIeykvrfRmcDnwVvuVPDwTPz+WORG/n57wyW7Bt5kYweCyLTi4kToPorYdK96ENifbNEfi7PV92vyeGYAXCP/9yU0exsa+ZGzdU6XvSd9GUHV6w5GL1+DJvIj6JDXI98Tvte1xmmOqXL3queVrrhrWuP0fQvONsUb7GUe2FDzURPzI9ZOX5bXx9AzWm8dSsHXdW+J9WxdMfIA1tUMHdOj0u9823zN2iRcrD4ZbKaw2l+JuXXOcWJtmzuP98/gD5QTHW+dV6+R8j6mcmurm6u5erw+zKtm74EhdEZvNkPXbepV4R4PwM/MIynujIJT6l131JOrGs8/w+tevF+lfhXV0cDnbORdfcK6RjNTcrjuvmifmNML37VUfajoV5jr6rB76iEtwPeuQmbLhJGxM+/xI9/wFp97XWdC0E8zVjWfb+PUaB/Cg/hKzb5VbZGLX1D/VFB7BPeD051G7vEhdH2bz1nQ9PiusGZImJJfz9vrCgPBD/EH9eBVdF9nz+rj0xwTd4DyYPBafc5gIW/ezxbuZeOHvtR5lnpr+fzg4mxvTuYJ/sce1BdpPgB/shezj1hScVMYus5Hvo5hD8by+9Ps4V5kVTlcrUc1yxfhqXpuJvM7+3WnoR/4Ls3Y1NwAVzUewkkVyEg/1jdeczU0O0azRLGJC3x+5X2cSvz5Z74s1cW489n39ax7BTQ9ilwrR9aKPF1FBm8GN+cJZ2LjP9V8P523L+vUHDrzOP7hHtWvK9/Ctd3xY49iw4+ozoy/jVC9GjqiupyN+EzkyNFMtD7waB3rXOKkefVkmpm1GPlQ/Fc9KuzNIFI+BFqauQWn7Fd47s9Wu9fHVqq6FdY4ChzwAfueRCzwvWot+SnCrqufrlex1yemMzQvVzoMGt6ND4bvdjs/yq+of0j0qQI3JYD5f6s8EzwoJ2ZYjs8hZrJSfp3LpLkSC/BHpciYej7wB+7v+nVqRmtQM0tng6NUv92T+92O31yp2TbIWoWdFlIvP7hbOWM34XBEOXHFcKrLMOvtNOEkr0cM325XCGty3SQwZHVhQPGPs5tr1+IDEqNx+74Bl+LN1okp+3oXe3ZNvt+bTXECm34L71Xfe1kzJ7luMvbtGOvdg57b2EP18dTtCrsP41f2TEyxuvn8qk0yo1sSZf+dYzyfGFZ9uupFsTbBP/y4gy9Vn4N3rvIm8rcTfuXh1/CtmrGk70lWDZs5oRp41q+8y0Gu+4rnLYLvvcBNmstwMHLNeRueDstvDqnfSz3/qq8ZjG5PgsZPQjfVX/0eXWrhOVfZm3rBNV9Fc1eJ7VUf4uTxDM3WzoJfKy4G1Oduhiouxfat5voGcJ7L89Vjr9qkfcR8GZrxw/t4ZGYgz9F8z7fYl3C7MGkQ7PUNe8c2WQXElsvRNz/xSy16cBjc+wXrLeD/soc34V9ria/wtYpVTA9411N0R7Z2s+e50X53twB/PBs+s39zE89xork5bwaXzrH/Gc1pqsbXqeK+mte582SSzpC8fAUxmPqUdA6g+XdB9NZq1ewt7qXzyeuQ4VnI27FdYVM1I9E6Riyr/PkFaOTIbo0Ku7fh78/hZ8AtysnrnE4zJVzhjq5Jfs0PVV7AKeHvilFWI2tjWA/y6/UfpBD/z2eNyieXEVM1Y1fqCwPKpZld12It1Qvdzf+S8XU3Y5c1B3gntG1GBpJDrarP9c42NIcVm+ZKtkdg59EFrw4oh/XFYrfSkvyuzsEUL7+LTq4YFc7tM+YXfdepmY4fLixqC47GBi9FPzOis51Ur6HzJWFt5QCcj3TWrtkTvF+I/7gv0uHcYbX/H1lqtKM=</data>
44                <header>[FILE INFORMATION]
45ascii_header_version=2.08
46data_blocks=1
47data_format= xdr
48data_type= complex float
49software_version= 
50total_data_bytes=        32768
51total_data_sets=        1
52
53[PATIENT INFORMATION]
54patient_name=
55patient_id=000000001
56patient_birthdate=  ;(DD/MM/YY)
57patient_age=99
58patient_sex=M
59patient_weight=99   ;(kg)
60study_code=
61
62[IDENTIFICATION INFORMATION]
63bed_move_date=01/01/1998    ;(DD/MM/YY)
64bed_move_time=00:00:00  ;(h:mm:ss)
65bed_move_fraction=0.000
66comment_1=
67comment_2=
68institution_id=
69measure_date=01/01/1998 ;(DD/MM/YY)
70measure_time=00:00:00   ;(h:mm:ss)
71parameter_filename=
72sequence_filename=
73study_type=spec
74sequence_type=si
75
76[MEASUREMENT INFORMATION]
77averages=          256
78chemical_shift_factor_column=0.419  ;(mm/ppm)
79chemical_shift_factor_line=0.419    ;(mm/ppm)
80chemical_shift_factor_partition=0.934   ;(mm/ppm)
81echo_position=0.000
82echo_time_1=        26.000000
83flip_angle=90   ;(degrees)
84frequency=        63718249.
85image_contrast_mode=unknown
86inversion_time_1=0.00   ;(ms)
87kspace_mode=warp_spheric
88measured_slices=2
89measured_echoes=1
90nucleus=1H     
91prescans=2
92receiver_gain=115.77    ;(dB)
93ft_scale_factor=0.001052
94receiver_coil=CP Head                   
95repetition_time_1=        1500.0000
96saturation_bands=0
97sweep_width=        3906.2500
98transmitter_voltage=79.873  ;(V)
99total_duration=1839.939 ;(s)
100image_dimension_line=240.000    ;(mm)
101image_dimension_column=240.000  ;(mm)
102image_dimension_partition=15.000    ;(mm)
103image_position_sagittal=-0.000  ;(mm)
104image_position_coronal=7.258    ;(mm)
105image_position_transverse=-29.109   ;(mm)
106image_normal_sagittal=0.000
107image_normal_coronal=-0.242
108image_normal_transverse=0.970
109image_column_sagittal=0.000
110image_column_coronal=-0.970
111image_column_transverse=-0.242
112measure_size_spectral=         4096
113measure_size_line=        1
114measure_size_column=        1
115measure_size_partition=        1
116region_dimension_line=        20.000000
117region_dimension_column=        20.000000
118region_dimension_partition=        20.000000
119region_position_sagittal=-0.000 ;(mm)
120region_position_coronal=0.000   ;(mm)
121region_position_transverse=0.000    ;(mm)
122slice_distance=0.000    ;(mm)
123slice_thickness=0.000;(mm)
124
125[DATA INFORMATION]
126current_slice=1
127number_echoes=1
128number_inversions=1
129number_slices=1
130data_size_spectral=         4096
131data_size_line=        1
132data_size_column=        1
133data_size_partition=        1
134image_dimension_line=        20.000000
135image_dimension_column=        20.000000
136image_dimension_partition=        20.000000
137image_position_sagittal=0.00000
138image_position_coronal=7.25800
139image_position_transverse=-29.1090
140region_position_sagittal=-0.000 ;(mm)
141region_position_coronal=7.258   ;(mm)
142region_position_transverse=-29.109  ;(mm)
143slice_distance=-30.000  ;(mm)
144slice_thickness=15.000;(mm)
145slice_orientation_pitch=Tra
146slice_orientation_roll=
147
148[END]
149</header>
150                <block_raw_settings version="1.0.0" />
151            </block_raw>
152            <block_basic id="0becdaf4-5874-48d4-998a-c0f0d03fb2ab" version="1.0.0">
153                <block_basic_settings version="1.0.0">
154                    <auto_b0_range_start>1.7</auto_b0_range_start>
155                    <auto_b0_range_end>3.4</auto_b0_range_end>
156                    <auto_phase0_range_start>1.85</auto_phase0_range_start>
157                    <auto_phase0_range_end>2.25</auto_phase0_range_end>
158                    <auto_phase1_range_start>2.75</auto_phase1_range_start>
159                    <auto_phase1_range_end>3.6</auto_phase1_range_end>
160                    <auto_phase1_pivot>2.01</auto_phase1_pivot>
161                    <metinfo version="1.0.0">
162                        <source>default</source>
163                        <source_id>default</source_id>
164                        <line>
165                            <full_name>acetate</full_name>
166                            <abbreviation>ac</abbreviation>
167                            <spins>3.0</spins>
168                            <concentration>2.0</concentration>
169                        </line>
170                        <line>
171                            <full_name>alanine</full_name>
172                            <abbreviation>ala</abbreviation>
173                            <spins>4.0</spins>
174                            <concentration>1.0</concentration>
175                        </line>
176                        <line>
177                            <full_name>alanine-name</full_name>
178                            <abbreviation>ala</abbreviation>
179                            <spins>4.0</spins>
180                            <concentration>1.0</concentration>
181                        </line>
182                        <line>
183                            <full_name>aspartate</full_name>
184                            <abbreviation>asp</abbreviation>
185                            <spins>2.0</spins>
186                            <concentration>2.0</concentration>
187                        </line>
188                        <line>
189                            <full_name>atp</full_name>
190                            <abbreviation>atp</abbreviation>
191                            <spins>7.0</spins>
192                            <concentration>1.0</concentration>
193                        </line>
194                        <line>
195                            <full_name>choline</full_name>
196                            <abbreviation>cho</abbreviation>
197                            <spins>9.0</spins>
198                            <concentration>3.0</concentration>
199                        </line>
200                        <line>
201                            <full_name>choline_name</full_name>
202                            <abbreviation>cho</abbreviation>
203                            <spins>9.0</spins>
204                            <concentration>3.0</concentration>
205                        </line>
206                        <line>
207                            <full_name>choline_truncated</full_name>
208                            <abbreviation>cho</abbreviation>
209                            <spins>9.0</spins>
210                            <concentration>3.0</concentration>
211                        </line>
212                        <line>
213                            <full_name>choline2</full_name>
214                            <abbreviation>cho</abbreviation>
215                            <spins>9.0</spins>
216                            <concentration>3.0</concentration>
217                        </line>
218                        <line>
219                            <full_name>creatine</full_name>
220                            <abbreviation>cr</abbreviation>
221                            <spins>3.0</spins>
222                            <concentration>7.0</concentration>
223                        </line>
224                        <line>
225                            <full_name>crea</full_name>
226                            <abbreviation>cr</abbreviation>
227                            <spins>3.0</spins>
228                            <concentration>7.0</concentration>
229                        </line>
230                        <line>
231                            <full_name>creb</full_name>
232                            <abbreviation>cr2</abbreviation>
233                            <spins>2.0</spins>
234                            <concentration>7.0</concentration>
235                        </line>
236                        <line>
237                            <full_name>creatine2</full_name>
238                            <abbreviation>cr2</abbreviation>
239                            <spins>2.0</spins>
240                            <concentration>7.0</concentration>
241                        </line>
242                        <line>
243                            <full_name>dss</full_name>
244                            <abbreviation>dss</abbreviation>
245                            <spins>9.0</spins>
246                            <concentration>1.0</concentration>
247                        </line>
248                        <line>
249                            <full_name>dss-phony1</full_name>
250                            <abbreviation>dsp1</abbreviation>
251                            <spins>9.0</spins>
252                            <concentration>1.0</concentration>
253                        </line>
254                        <line>
255                            <full_name>eamine</full_name>
256                            <abbreviation>eami</abbreviation>
257                            <spins>4.0</spins>
258                            <concentration>1.0</concentration>
259                        </line>
260                        <line>
261                            <full_name>ethanol</full_name>
262                            <abbreviation>etoh</abbreviation>
263                            <spins>3.0</spins>
264                            <concentration>2.0</concentration>
265                        </line>
266                        <line>
267                            <full_name>ethanol_tms</full_name>
268                            <abbreviation>etoh</abbreviation>
269                            <spins>3.0</spins>
270                            <concentration>2.0</concentration>
271                        </line>
272                        <line>
273                            <full_name>ethanol_shift</full_name>
274                            <abbreviation>etoh</abbreviation>
275                            <spins>3.0</spins>
276                            <concentration>2.0</concentration>
277                        </line>
278                        <line>
279                            <full_name>ethanol_pure</full_name>
280                            <abbreviation>etoh</abbreviation>
281                            <spins>3.0</spins>
282                            <concentration>2.0</concentration>
283                        </line>
284                        <line>
285                            <full_name>ethanol_ttable_h2o</full_name>
286                            <abbreviation>etoh</abbreviation>
287                            <spins>3.0</spins>
288                            <concentration>2.0</concentration>
289                        </line>
290                        <line>
291                            <full_name>gaba</full_name>
292                            <abbreviation>gaba</abbreviation>
293                            <spins>2.0</spins>
294                            <concentration>2.0</concentration>
295                        </line>
296                        <line>
297                            <full_name>glucose-alpha_is</full_name>
298                            <abbreviation>glca</abbreviation>
299                            <spins>1.0</spins>
300                            <concentration>1.0</concentration>
301                        </line>
302                        <line>
303                            <full_name>glucose-alpha</full_name>
304                            <abbreviation>glca</abbreviation>
305                            <spins>1.0</spins>
306                            <concentration>1.0</concentration>
307                        </line>
308                        <line>
309                            <full_name>glucose-beta</full_name>
310                            <abbreviation>glcb</abbreviation>
311                            <spins>1.0</spins>
312                            <concentration>1.0</concentration>
313                        </line>
314                        <line>
315                            <full_name>glutamate</full_name>
316                            <abbreviation>glu</abbreviation>
317                            <spins>2.0</spins>
318                            <concentration>10.0</concentration>
319                        </line>
320                        <line>
321                            <full_name>glutamine</full_name>
322                            <abbreviation>gln</abbreviation>
323                            <spins>2.0</spins>
324                            <concentration>1.0</concentration>
325                        </line>
326                        <line>
327                            <full_name>glycine</full_name>
328                            <abbreviation>gly</abbreviation>
329                            <spins>2.0</spins>
330                            <concentration>1.0</concentration>
331                        </line>
332                        <line>
333                            <full_name>glycerophosphocholine</full_name>
334                            <abbreviation>gpc</abbreviation>
335                            <spins>18.0</spins>
336                            <concentration>5.0</concentration>
337                        </line>
338                        <line>
339                            <full_name>gpc</full_name>
340                            <abbreviation>gpc</abbreviation>
341                            <spins>18.0</spins>
342                            <concentration>5.0</concentration>
343                        </line>
344                        <line>
345                            <full_name>gpc-pc</full_name>
346                            <abbreviation>gpc</abbreviation>
347                            <spins>9.0</spins>
348                            <concentration>3.0</concentration>
349                        </line>
350                        <line>
351                            <full_name>gpcholine3</full_name>
352                            <abbreviation>gpc</abbreviation>
353                            <spins>18.0</spins>
354                            <concentration>5.0</concentration>
355                        </line>
356                        <line>
357                            <full_name>gsh</full_name>
358                            <abbreviation>gsh</abbreviation>
359                            <spins>10.0</spins>
360                            <concentration>1.0</concentration>
361                        </line>
362                        <line>
363                            <full_name>h2o</full_name>
364                            <abbreviation>h2o</abbreviation>
365                            <spins>2.0</spins>
366                            <concentration>60.0</concentration>
367                        </line>
368                        <line>
369                            <full_name>histidine</full_name>
370                            <abbreviation>his</abbreviation>
371                            <spins>7.0</spins>
372                            <concentration>1.0</concentration>
373                        </line>
374                        <line>
375                            <full_name>histamine</full_name>
376                            <abbreviation>him</abbreviation>
377                            <spins>7.0</spins>
378                            <concentration>1.0</concentration>
379                        </line>
380                        <line>
381                            <full_name>homocarnosine</full_name>
382                            <abbreviation>hom</abbreviation>
383                            <spins>1.0</spins>
384                            <concentration>1.0</concentration>
385                        </line>
386                        <line>
387                            <full_name>lactate</full_name>
388                            <abbreviation>lac</abbreviation>
389                            <spins>2.0</spins>
390                            <concentration>1.0</concentration>
391                        </line>
392                        <line>
393                            <full_name>lactate-ph=6.6</full_name>
394                            <abbreviation>lac</abbreviation>
395                            <spins>2.0</spins>
396                            <concentration>1.0</concentration>
397                        </line>
398                        <line>
399                            <full_name>lipid</full_name>
400                            <abbreviation>lip</abbreviation>
401                            <spins>3.0</spins>
402                            <concentration>200.0</concentration>
403                        </line>
404                        <line>
405                            <full_name>myo-inositol</full_name>
406                            <abbreviation>m-ino</abbreviation>
407                            <spins>4.0</spins>
408                            <concentration>6.0</concentration>
409                        </line>
410                        <line>
411                            <full_name>n-acetyl-aspartate</full_name>
412                            <abbreviation>naa</abbreviation>
413                            <spins>3.0</spins>
414                            <concentration>12.0</concentration>
415                        </line>
416                        <line>
417                            <full_name>n-acetyl_aspartate</full_name>
418                            <abbreviation>naa</abbreviation>
419                            <spins>3.0</spins>
420                            <concentration>12.0</concentration>
421                        </line>
422                        <line>
423                            <full_name>n-acetylaspartate</full_name>
424                            <abbreviation>naa</abbreviation>
425                            <spins>3.0</spins>
426                            <concentration>12.0</concentration>
427                        </line>
428                        <line>
429                            <full_name>n-acetyl-aspartylglutamate</full_name>
430                            <abbreviation>naag</abbreviation>
431                            <spins>3.0</spins>
432                            <concentration>1.8</concentration>
433                        </line>
434                        <line>
435                            <full_name>n-acetyl_aspartylglutamate</full_name>
436                            <abbreviation>naag</abbreviation>
437                            <spins>3.0</spins>
438                            <concentration>1.8</concentration>
439                        </line>
440                        <line>
441                            <full_name>naag</full_name>
442                            <abbreviation>naag</abbreviation>
443                            <spins>3.0</spins>
444                            <concentration>1.8</concentration>
445                        </line>
446                        <line>
447                            <full_name>naag-name</full_name>
448                            <abbreviation>naag</abbreviation>
449                            <spins>3.0</spins>
450                            <concentration>1.8</concentration>
451                        </line>
452                        <line>
453                            <full_name>naag_truncated</full_name>
454                            <abbreviation>naag</abbreviation>
455                            <spins>3.0</spins>
456                            <concentration>1.8</concentration>
457                        </line>
458                        <line>
459                            <full_name>pcholine</full_name>
460                            <abbreviation>pcho</abbreviation>
461                            <spins>13.0</spins>
462                            <concentration>4.0</concentration>
463                        </line>
464                        <line>
465                            <full_name>peamine</full_name>
466                            <abbreviation>peam</abbreviation>
467                            <spins>4.0</spins>
468                            <concentration>1.0</concentration>
469                        </line>
470                        <line>
471                            <full_name>phenylalanine</full_name>
472                            <abbreviation>phe</abbreviation>
473                            <spins>1.0</spins>
474                            <concentration>1.0</concentration>
475                        </line>
476                        <line>
477                            <full_name>phosphocreatine</full_name>
478                            <abbreviation>pcr</abbreviation>
479                            <spins>1.0</spins>
480                            <concentration>1.0</concentration>
481                        </line>
482                        <line>
483                            <full_name>phosphorylcholine</full_name>
484                            <abbreviation>pc</abbreviation>
485                            <spins>9.0</spins>
486                            <concentration>5.0</concentration>
487                        </line>
488                        <line>
489                            <full_name>pyruvate</full_name>
490                            <abbreviation>pyr</abbreviation>
491                            <spins>1.0</spins>
492                            <concentration>1.0</concentration>
493                        </line>
494                        <line>
495                            <full_name>ref</full_name>
496                            <abbreviation>ref</abbreviation>
497                            <spins>1.0</spins>
498                            <concentration>1.0</concentration>
499                        </line>
500                        <line>
501                            <full_name>reference</full_name>
502                            <abbreviation>ref</abbreviation>
503                            <spins>1.0</spins>
504                            <concentration>1.0</concentration>
505                        </line>
506                        <line>
507                            <full_name>scy-inositol</full_name>
508                            <abbreviation>s-ino</abbreviation>
509                            <spins>3.0</spins>
510                            <concentration>2.0</concentration>
511                        </line>
512                        <line>
513                            <full_name>scyllo-inositol</full_name>
514                            <abbreviation>s-ino</abbreviation>
515                            <spins>3.0</spins>
516                            <concentration>2.0</concentration>
517                        </line>
518                        <line>
519                            <full_name>scyllo</full_name>
520                            <abbreviation>s-ino</abbreviation>
521                            <spins>3.0</spins>
522                            <concentration>2.0</concentration>
523                        </line>
524                        <line>
525                            <full_name>serine</full_name>
526                            <abbreviation>ser</abbreviation>
527                            <spins>3.0</spins>
528                            <concentration>2.0</concentration>
529                        </line>
530                        <line>
531                            <full_name>std_ethanol_h2o</full_name>
532                            <abbreviation>etoh</abbreviation>
533                            <spins>3.0</spins>
534                            <concentration>2.0</concentration>
535                        </line>
536                        <line>
537                            <full_name>succinate</full_name>
538                            <abbreviation>suc</abbreviation>
539                            <spins>1.0</spins>
540                            <concentration>1.0</concentration>
541                        </line>
542                        <line>
543                            <full_name>tatp</full_name>
544                            <abbreviation>atp</abbreviation>
545                            <spins>7.0</spins>
546                            <concentration>1.0</concentration>
547                        </line>
548                        <line>
549                            <full_name>taurine</full_name>
550                            <abbreviation>tau</abbreviation>
551                            <spins>2.0</spins>
552                            <concentration>2.0</concentration>
553                        </line>
554                        <line>
555                            <full_name>tcholine</full_name>
556                            <abbreviation>cho</abbreviation>
557                            <spins>9.0</spins>
558                            <concentration>3.0</concentration>
559                        </line>
560                        <line>
561                            <full_name>tcholine2</full_name>
562                            <abbreviation>cho</abbreviation>
563                            <spins>9.0</spins>
564                            <concentration>3.0</concentration>
565                        </line>
566                        <line>
567                            <full_name>tglycerophosphocholine</full_name>
568                            <abbreviation>tgpc</abbreviation>
569                            <spins>18.0</spins>
570                            <concentration>5.0</concentration>
571                        </line>
572                        <line>
573                            <full_name>thomocarnosine</full_name>
574                            <abbreviation>hom</abbreviation>
575                            <spins>1.0</spins>
576                            <concentration>1.0</concentration>
577                        </line>
578                        <line>
579                            <full_name>threonine</full_name>
580                            <abbreviation>thr</abbreviation>
581                            <spins>1.0</spins>
582                            <concentration>1.0</concentration>
583                        </line>
584                        <line>
585                            <full_name>threonine-name</full_name>
586                            <abbreviation>thr</abbreviation>
587                            <spins>1.0</spins>
588                            <concentration>1.0</concentration>
589                        </line>
590                        <line>
591                            <full_name>tnaag</full_name>
592                            <abbreviation>naag</abbreviation>
593                            <spins>3.0</spins>
594                            <concentration>1.8</concentration>
595                        </line>
596                        <line>
597                            <full_name>tphosphorylcholine</full_name>
598                            <abbreviation>pc</abbreviation>
599                            <spins>9.0</spins>
600                            <concentration>5.0</concentration>
601                        </line>
602                        <line>
603                            <full_name>tryptophan</full_name>
604                            <abbreviation>trp</abbreviation>
605                            <spins>1.0</spins>
606                            <concentration>1.0</concentration>
607                        </line>
608                        <line>
609                            <full_name>tyrosine</full_name>
610                            <abbreviation>tyr</abbreviation>
611                            <spins>7.0</spins>
612                            <concentration>1.0</concentration>
613                        </line>
614                        <line>
615                            <full_name>valine</full_name>
616                            <abbreviation>val</abbreviation>
617                            <spins>9.0</spins>
618                            <concentration>1.0</concentration>
619                        </line>
620                        <line>
621                            <full_name>water</full_name>
622                            <abbreviation>h2o</abbreviation>
623                            <spins>2.0</spins>
624                            <concentration>60.0</concentration>
625                        </line>
626                        <line>
627                            <full_name>mark1</full_name>
628                            <abbreviation>mrk1</abbreviation>
629                            <spins>1.0</spins>
630                            <concentration>100.0</concentration>
631                        </line>
632                        <line>
633                            <full_name>mark2</full_name>
634                            <abbreviation>mrk2</abbreviation>
635                            <spins>1.0</spins>
636                            <concentration>100.0</concentration>
637                        </line>
638                        <line>
639                            <full_name>other1</full_name>
640                            <abbreviation>oth1</abbreviation>
641                            <spins>1.0</spins>
642                            <concentration>1.0</concentration>
643                        </line>
644                        <line>
645                            <full_name>other2</full_name>
646                            <abbreviation>oth2</abbreviation>
647                            <spins>1.0</spins>
648                            <concentration>1.0</concentration>
649                        </line>
650                        <line>
651                            <full_name>other3</full_name>
652                            <abbreviation>oth3</abbreviation>
653                            <spins>1.0</spins>
654                            <concentration>1.0</concentration>
655                        </line>
656                        <line>
657                            <full_name>other4</full_name>
658                            <abbreviation>oth4</abbreviation>
659                            <spins>1.0</spins>
660                            <concentration>1.0</concentration>
661                        </line>
662                        <line>
663                            <full_name>other5</full_name>
664                            <abbreviation>oth5</abbreviation>
665                            <spins>1.0</spins>
666                            <concentration>1.0</concentration>
667                        </line>
668                        <line>
669                            <full_name>other6</full_name>
670                            <abbreviation>oth6</abbreviation>
671                            <spins>1.0</spins>
672                            <concentration>1.0</concentration>
673                        </line>
674                        <line>
675                            <full_name>other7</full_name>
676                            <abbreviation>oth7</abbreviation>
677                            <spins>1.0</spins>
678                            <concentration>1.0</concentration>
679                        </line>
680                        <line>
681                            <full_name>other8</full_name>
682                            <abbreviation>oth8</abbreviation>
683                            <spins>1.0</spins>
684                            <concentration>1.0</concentration>
685                        </line>
686                        <line>
687                            <full_name>other9</full_name>
688                            <abbreviation>oth9</abbreviation>
689                            <spins>1.0</spins>
690                            <concentration>1.0</concentration>
691                        </line>
692                        <line>
693                            <full_name>pk000</full_name>
694                            <abbreviation>pk000</abbreviation>
695                            <spins>1.0</spins>
696                            <concentration>1.0</concentration>
697                        </line>
698                        <line>
699                            <full_name>pk001</full_name>
700                            <abbreviation>pk001</abbreviation>
701                            <spins>1.0</spins>
702                            <concentration>1.0</concentration>
703                        </line>
704                        <line>
705                            <full_name>pk002</full_name>
706                            <abbreviation>pk002</abbreviation>
707                            <spins>1.0</spins>
708                            <concentration>1.0</concentration>
709                        </line>
710                        <line>
711                            <full_name>pk003</full_name>
712                            <abbreviation>pk003</abbreviation>
713                            <spins>1.0</spins>
714                            <concentration>1.0</concentration>
715                        </line>
716                        <line>
717                            <full_name>pk004</full_name>
718                            <abbreviation>pk004</abbreviation>
719                            <spins>1.0</spins>
720                            <concentration>1.0</concentration>
721                        </line>
722                        <line>
723                            <full_name>pk005</full_name>
724                            <abbreviation>pk005</abbreviation>
725                            <spins>1.0</spins>
726                            <concentration>1.0</concentration>
727                        </line>
728                        <line>
729                            <full_name>pk006</full_name>
730                            <abbreviation>pk006</abbreviation>
731                            <spins>1.0</spins>
732                            <concentration>1.0</concentration>
733                        </line>
734                        <line>
735                            <full_name>pk007</full_name>
736                            <abbreviation>pk007</abbreviation>
737                            <spins>1.0</spins>
738                            <concentration>1.0</concentration>
739                        </line>
740                        <line>
741                            <full_name>pk008</full_name>
742                            <abbreviation>pk008</abbreviation>
743                            <spins>1.0</spins>
744                            <concentration>1.0</concentration>
745                        </line>
746                        <line>
747                            <full_name>pk009</full_name>
748                            <abbreviation>pk009</abbreviation>
749                            <spins>1.0</spins>
750                            <concentration>1.0</concentration>
751                        </line>
752                        <line>
753                            <full_name>pk010</full_name>
754                            <abbreviation>pk010</abbreviation>
755                            <spins>1.0</spins>
756                            <concentration>1.0</concentration>
757                        </line>
758                        <line>
759                            <full_name>pk011</full_name>
760                            <abbreviation>pk011</abbreviation>
761                            <spins>1.0</spins>
762                            <concentration>1.0</concentration>
763                        </line>
764                        <line>
765                            <full_name>pk012</full_name>
766                            <abbreviation>pk012</abbreviation>
767                            <spins>1.0</spins>
768                            <concentration>1.0</concentration>
769                        </line>
770                        <line>
771                            <full_name>pk013</full_name>
772                            <abbreviation>pk013</abbreviation>
773                            <spins>1.0</spins>
774                            <concentration>1.0</concentration>
775                        </line>
776                        <line>
777                            <full_name>pk014</full_name>
778                            <abbreviation>pk014</abbreviation>
779                            <spins>1.0</spins>
780                            <concentration>1.0</concentration>
781                        </line>
782                        <line>
783                            <full_name>pk015</full_name>
784                            <abbreviation>pk015</abbreviation>
785                            <spins>1.0</spins>
786                            <concentration>1.0</concentration>
787                        </line>
788                        <line>
789                            <full_name>pk016</full_name>
790                            <abbreviation>pk016</abbreviation>
791                            <spins>1.0</spins>
792                            <concentration>1.0</concentration>
793                        </line>
794                        <line>
795                            <full_name>pk017</full_name>
796                            <abbreviation>pk017</abbreviation>
797                            <spins>1.0</spins>
798                            <concentration>1.0</concentration>
799                        </line>
800                        <line>
801                            <full_name>pk018</full_name>
802                            <abbreviation>pk018</abbreviation>
803                            <spins>1.0</spins>
804                            <concentration>1.0</concentration>
805                        </line>
806                        <line>
807                            <full_name>pk019</full_name>
808                            <abbreviation>pk019</abbreviation>
809                            <spins>1.0</spins>
810                            <concentration>1.0</concentration>
811                        </line>
812                        <line>
813                            <full_name>pk020</full_name>
814                            <abbreviation>pk020</abbreviation>
815                            <spins>1.0</spins>
816                            <concentration>1.0</concentration>
817                        </line>
818                        <line>
819                            <full_name>pk021</full_name>
820                            <abbreviation>pk021</abbreviation>
821                            <spins>1.0</spins>
822                            <concentration>1.0</concentration>
823                        </line>
824                        <line>
825                            <full_name>pk022</full_name>
826                            <abbreviation>pk022</abbreviation>
827                            <spins>1.0</spins>
828                            <concentration>1.0</concentration>
829                        </line>
830                        <line>
831                            <full_name>pk023</full_name>
832                            <abbreviation>pk023</abbreviation>
833                            <spins>1.0</spins>
834                            <concentration>1.0</concentration>
835                        </line>
836                        <line>
837                            <full_name>pk024</full_name>
838                            <abbreviation>pk024</abbreviation>
839                            <spins>1.0</spins>
840                            <concentration>1.0</concentration>
841                        </line>
842                        <line>
843                            <full_name>pk025</full_name>
844                            <abbreviation>pk025</abbreviation>
845                            <spins>1.0</spins>
846                            <concentration>1.0</concentration>
847                        </line>
848                        <line>
849                            <full_name>pk026</full_name>
850                            <abbreviation>pk026</abbreviation>
851                            <spins>1.0</spins>
852                            <concentration>1.0</concentration>
853                        </line>
854                        <line>
855                            <full_name>pk027</full_name>
856                            <abbreviation>pk027</abbreviation>
857                            <spins>1.0</spins>
858                            <concentration>1.0</concentration>
859                        </line>
860                        <line>
861                            <full_name>pk028</full_name>
862                            <abbreviation>pk028</abbreviation>
863                            <spins>1.0</spins>
864                            <concentration>1.0</concentration>
865                        </line>
866                        <line>
867                            <full_name>pk029</full_name>
868                            <abbreviation>pk029</abbreviation>
869                            <spins>1.0</spins>
870                            <concentration>1.0</concentration>
871                        </line>
872                    </metinfo>
873                    <auto_prior version="1.0.0">
874                        <source>default</source>
875                        <source_id>default</source_id>
876                        <line>
877                            <check>true</check>
878                            <ppm>2.01</ppm>
879                            <area>0.51</area>
880                            <phase>0.0</phase>
881                            <lw>5.0</lw>
882                            <ppm_lim>0.0</ppm_lim>
883                            <area_lim>0.0</area_lim>
884                            <phase_lim>0.0</phase_lim>
885                            <lw_lim>0.0</lw_lim>
886                        </line>
887                        <line>
888                            <check>true</check>
889                            <ppm>3.01</ppm>
890                            <area>0.42</area>
891                            <phase>0.0</phase>
892                            <lw>5.0</lw>
893                            <ppm_lim>0.0</ppm_lim>
894                            <area_lim>0.0</area_lim>
895                            <phase_lim>0.0</phase_lim>
896                            <lw_lim>0.0</lw_lim>
897                        </line>
898                        <line>
899                            <check>true</check>
900                            <ppm>3.22</ppm>
901                            <area>0.4</area>
902                            <phase>0.0</phase>
903                            <lw>5.0</lw>
904                            <ppm_lim>0.0</ppm_lim>
905                            <area_lim>0.0</area_lim>
906                            <phase_lim>0.0</phase_lim>
907                            <lw_lim>0.0</lw_lim>
908                        </line>
909                    </auto_prior>
910                </block_basic_settings>
911                <dim>4096</dim>
912                <dim>1</dim>
913                <dim>1</dim>
914                <dim>1</dim>
915            </block_basic>
916            <block_spectral id="11f9d760-d49d-49a9-955b-b265062db214" version="1.0.0">
917                <block_spectral_settings version="1.0.0">
918                    <flip>false</flip>
919                    <chop>true</chop>
920                    <fft>true</fft>
921                    <zero_fill_multiplier>1</zero_fill_multiplier>
922                    <apodization>gaussian</apodization>
923                    <apodization_width>1.0</apodization_width>
924                    <amplitude>1.0</amplitude>
925                    <phase_1_pivot>2.01</phase_1_pivot>
926                    <dc_offset>0.0</dc_offset>
927                    <kiss_off_point_count>0</kiss_off_point_count>
928                    <kiss_off_correction>false</kiss_off_correction>
929                </block_spectral_settings>
930                <dim>4096</dim>
931                <dim>1</dim>
932                <dim>1</dim>
933                <dim>1</dim>
934                <frequency_shift_lock>false</frequency_shift_lock>
935                <phase_lock>false</phase_lock>
936                <phase_1_lock_at_zero>false</phase_1_lock_at_zero>
937                <kiss_off_correction>false</kiss_off_correction>
938                <phase_0 data_type="float64" encoding="xdr zlib base64" shape="1,1,1">eNpzyEtgAAEAB0oBDw==</phase_0>
939                <phase_1 data_type="float64" encoding="xdr zlib base64" shape="1,1,1">eNpjYIAAAAAIAAE=</phase_1>
940                <frequency_shift data_type="float64" encoding="xdr zlib base64" shape="1,1,1">eNpjYIAAAAAIAAE=</frequency_shift>
941                <data data_type="complex64" encoding="xdr zlib 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</data>
942            </block_spectral>
943        </blocks>
944    </dataset>
945</vespa_export>