![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAA64AAAViCAIAAACNnjbQAAAACXBIWXMAABYlAAAWJQFJUiTwAAAgAElEQVR42uzdr28bh/vA8buvXNA6KNJJJtVyrAN1iFlCS6ZKY5F8nsb2FwStIJYNPGQwElI2NbY0PJWMNkMmS0lZXHUg2knVQN0SS/cBlvLt2rRL4ti9H68XaqNIsZ87O+889iVBAAAAlRRmWWYKAABU0P8ZAQAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAKxTzQiACgrD0BDWJssyQ8BThAe4FAbI2zP4xBBW3BMtQ6C40jQ1hM+Loqjod8EbJAAAqCgpDACAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAgGXUSnAfwjB0IIsiyzJDoFLCsJXjx+PEAQKkcElMXp86nDnX2owNgWpK0zRXtyeKIgcFIPAGCQAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGODKnj59OhqN5vO5UQAf6/f7x8fH5iCFAcrpn3/+6XQ6d+/eFcTAx168eLG7u7u9vS2IpTBAaZ2dnQli4FNOTk4EcTWFWZYV/j6EYRAEk9enDueX0tqMDYECaTQaZ2dnQRBk2WT1T1CtIAjSNM3VBKIoWufdh2JpNpsnJyc5fOTmUBRFRS9JW2GW9W721hAolkUHA1xo0cFURM0IWNLt+p1LruRbm3EJXoWgcEajUafTOf9vs9k8PDzc3d01mbXxwCfPkiQZj8fn/22324PBII692imFAcplEcE7OztGAXxsEcFbW1tGIYUBRDAggik/l82xPt4gwRcxm83q9fqFzxsum1vP3ffAp6BPES6bu8yTicvmAHLt429yAJ4ikMIAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAgPWqGQHAqkVRZAgAOWQrDABARdkKA6xQlk0MASC3bIUBAJDCAAAghQEAQAoDAEA5uWwOYIXCsJXb2+aSPgBbYQAAKspWGGDl0jTN1e3xJz8AFmyFAQCQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDDA9U2n09lsZg7AhZ4/fz6fz81BCgOU0x9//LGxsdHv9wUx8LGffvrp7t27o9FIEEthgNLqdruCGLjQ2dlZp9MRxNUUZllW+PsQhkEQTF6fOpxfSmszNgQKpNfrdbvdIAiybLL6J6hWEARpmuZqAlEUrfPuQ4E0Go3hcNjpdHL4yM2hKIqKXpJSGClMdUlhKQyfIYWrkMLeIMGy3s3eGgLF0m63DQH4lF6vZwjVYSvM+rQ24xKcbxTOaDRavNa5iODBYLC1tbV43rAVXs/d98Anz5IkGY/H5xG8v79fr9cXTxG2wpd5Min6A7zmKAJVcB7BRgF87DyCjaJqpDBQcvfv3z89PRXBwIW+++67x48fi2ApDFDaFDYE4FO++eYbQ6gyl80BACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAANalZgQAqxZFkSEA5JCtMAAAFWUrDLBCWTYxBIDcshUGAEAKAwCAFAYAACkMAADl5LI5gBUKw1Zub5tL+gBshQEAqChbYYCVS9M0V7fHn/wAWLAVBgBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIA1zefzw0B8BSBFAaq6Ndff02SZDqdGgXwse+//77f789mM6OQwgDlNB6P4zgWxMCFut3uxsaGIJbCAIIYEMSCuELCLMsKfx/CMAiCyetTh/NLaW3GhkARZdlk9U9QrSAI0jTN1R2Pomiddx8KKm+P3ByKoqjoJWkrzLLezd4aAgCl0Wg0DKE6akbAkm7X71xyJd/ajEvwKgSFMxqNOp3O+X97vd7+/v7GxobJrI0HPnmWJMl4PD6P4OFwuLe3d+vWLZORwgClsojger1uFMAHziO4VpNGUhhABAPVEEXR0dGRCJbCAOWUJIkhAJ/y888/G0KVuWwOAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBgpWpGALBqURQZAkAO2QoDAFBRtsIAK5RlE0MAyC1bYQAApDAAAEhhAACQwgAAUE4umwNYoTBs5fa2uaQPwFYYAICKshUGWLk0TXN1e/zJD4AFW2EAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDHB9x8fHx8fH5gBcaDQaTadTc5DCAOX08uXL3d3d7e1tQQx87LfffovjOEkSQSyFAUrr5OREEAOfMh6PBXE11YyA5bU240t+ZhiGxsUXD+Jms2kU6+SBT4GCeDwet9tto6gOW2GgikFsCMBngtgQpDBc1rvZW0OgQBqNxtHRkTkAF2o2m8+ePTOH6vAGCZZ1u35n8vr0Mp/Z2oyzLDMx1mw0GnU6nUUED4fDvb29Wq22+Ajr4YFPniVJslgDN5vNw8PDnZ0dM5HCAKXyfgSbBvABESyFAUrrwYMHr169EsHAhQaDwdbWljlIYYByiqLIEIBP0cEV57I5AACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAMC61IwAYNWiKDIEgByyFQYAoKJshQFWKMsmhgCQW7bCAABIYQAAkMIAACCFAQCgnFw2B1RXGLYMAaDKbIUBAKgoW2GgirIsK8pNTZLk3r17BwcHjhrAjQsL9P3gk/chDIMgmLw+dThzrrUZl+B8g3WaTqdxHAdB8ObNm3q9biCwzrRI09QoPi+KoqJ/Z/cGCYD8evTo0eIfw+HQNABu/sceW2HWxlYYruR8JbxgMQxrTgtb4f9kKwzAqpyvhBcshgFu/sceW2HWxlYYLu+DlfCCxTCsMy1shf+TrTAAK/HBSnjBYhjgZvllagC5M5/PHz58+PDhwyAIOp1OEARHR0fGAnDjvEGC9fEGCbj2U5zHDqz/cecNEv/JGyQAAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgBc2nQ6NQQAKQxQuQhOkiSOY6MAWJI/vAxQpAh+9OjReDw2CgApDFDpCF78bdgievPmTb1ed1gBKQzAfyvZ2yF0MJAT3isMUAC9Xs8QAKQwQBUdHBy8efPmgyDOCssBBaQwAFdQr9cvDGIApDCAIAbgasISvFC1uIZ68vrU4cy51mbshVG43lOcxw6s/3GXpqlRfF4URUV/drIVBgCgoqQwAABSGAAApDAAAEhhAACQwgAAIIUBAKDoakYAkDfz+fyvv/56/yPT6XTxj62tLfMBkMIA5X1qrtW+/fbbk5OT84/EcRwEQbPZ/PPPP80H4KZ4gwRAHh0eHl7ygwBIYYBS2dnZaTab73+k2Wzu7OyYDIAUBii/D3bAVsIAUhigKt5fDFsJA0hhgGo53wRbCQOsgt8gAZBf54thK2EAKQwfCsPQENYjyzJnjhvs5AGkMOTtu+zEEFbfYS0nD84coHy8VxgAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAILdqRgCXEYatfN6wLJs4Os4cJw/A9dgKAwBQUbbCcAVpmubnxkRR5Ig4c5w8AMuwFQYAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCEARB0O/3Z7OZOXBVx8fHx8fH5gCAFKbAut3uxsaGIOaqXr58ubu7u729LYgBkMIIYqro5OREEAPwgZoRsLzWZnzJzwzD8KaCuNvt9no9w1+bmzp2eQjiZrPpgAIQ2ApTaN1uNwiC+XxuFFw1iA0BACnMDXg3e/tFvm673T49PQ2CoFbz4gZX0Gg0jo6OzAGAwBskWN7t+p3J69PLfGZrM86y7Npf6PwF+na7PRgMtra2DH+dljl2X9ZoNOp0OosIHg6He3t7tVpt8REApDAUhgjmet6PYNMAQApTPKenpyKYa3jw4MGrV69EMABSmALTwVxPFEWGAMCFXDYHAIAUBgAAKQwAAFIYAACkMABAuTx9+nQ2m5mDFAYAqJwnT55sbGz0+31BLIUBAKqo2+0K4mrye4UBWK3zv5oO+Q/ibrfb6/WMojpshQEA/hXEhiCFAQAqp9FoHB0dmUN1eIMEAKuVZZkhkFtJkozH40UED4fDvb29Wq3W6XRMRgoDAJTf+xFsGlIYAKAqfvzxx19++UUES2EAgMq5f/++IUhh4FKiKDIEnDkApeE3SAAAUFG2wnApWTYxBJw5ACVjKwwAgBQGAAApDAAAUhgAAMrJZXNwKWHYyucNc1WWM8fJA3BttsIAAFSUrTBcQZqm+bkx/mqDM8fJA7AkW2EAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDEEQBNPp1BC4hjRN5/O5OQAghSmwOI6TJBHEXNXvv/9+9+7d0WgkiAGQwhTYeDwWxFzD2dlZp9MRxAB8oGYELK+1GV/yM8MwvJEgHo/H7XZ7MBgY/trcyLHLQxDv7+8Ph0MHFIDAVpjiWmyIgyCw5OMaQWwOAEhhbsC72dsv9aV7vV4QBLWaFze4mmazaQgABN4gwfJu1+9MXp9e5jNbm3GWZdf+Qu+/QN/r9fb39+v1erfbdQjWY5lj92WNRqPzNXCz2Tw8PNzZ2SnB+z0AkMJUznkEGwVXch7BRgGAFEYEUxVfffXVs2fPRDAAUpgCOzg4MASuQQQD8CkumwMAQAoDAIAUBgAAKQwAAFIYAKBcZrOZIUhhAIAq+uGHH5IkmU6nRiGFAQAqZzwex3EsiKvJ7xUGYLX8mWuKEsTj8bjdbg8GA9OoDlthAID/D+I4js1BCgMAVFGz2TSE6vAGCQBWK8syQyC3kiQZj8fnEXx4eLizs+NdPVIYAKAqziPYKKQwAEBV3Lt379mzZyJYCgMAVM7BwYEhVJnL5gAAqChbYbiCKIoMAWcOgBSGasmyiSHgzAEoGW+QAABACgMAgBQGAAApDAAAUhgAAErEb5CASwnDVj5vmF9Q4Mxx8gBIYViHNE3zc2P8qlpnjpMHYEneIAEAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBAClNh29vbx8fH5sBVjUajfr8/m82MAgApTFGdnJzs7u4KYq6h2+1ubGwIYgCkMIIYQSyIAQiCIAizLCv8fQjDIAgmr08dzi+ltRl/ka/bbDZPTk6ybLKW06wVBEGapvkZexRFQRCs8+6Xzxqml8MzZ50nz+Lul+AbDZXLozDM4SM3h6IoKvoD3FaYZb2bvf1SX/rvv/8OgmA+nzsKAMA11IyAJd2u37nkSr61GS/zs+PiZ/SFRqMxHA739vZu3bpVqzmN16G4P/ePRqNOp3P+33a7PRgM4jh2TAHQEBTMeQQrYK5qEcFbW1tGAYAURgQjggGQwlAEr169EsFcw97eXpIk5gDAx1w2R3F+btPBOHMAkMIAACCFAQBACgMAgBQGAAApDADwSf1+//j42BykMABA5bx48WJ3d3d7e1sQS2EAgCo6OTkRxNVUnl+32dqMHU6AHArD0BAoUBA3m02jqA5bYQCAfwWxIVRHGbbCWZY5kADA8trt9mAwiGMvNUthALgJFhbkWZIk4/H4PIK3trbMRAoDAFSFCJbCAABV9Pjx43q9bg6V5bI5AKC6dHDF2QrDFURRZAg4cwBKw1YYAICKshWGS8myiSHgzAEoGVthAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAMiNmhFQdGHYMgScPABcg60wAAAVZStMsWVZZgg4cwC4HlthAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYACD/nj59OpvNzEEKAwBUzpMnTzY2Nvr9viCWwgAAVdTtdgVxNYVZlpkCy55GYWgIAJRDr9frdrtBEKRpahqfF0VR0UtSCiOFAeACUrgKKewNEizLa0kAlEaj0Tg6OjKH6rAVBgCqK0mS8Xi8iODhcLi3t1er1RavdtoK/6cSbIVrjiIAUGXvR7BpVI2tMABQXc+fP//6668/iGBb4Uty2RwAQNlI4eqksMvmAACoKCkMAIAUBgAAKQwAAFIYAACkMAAASGEAACg6v1cYAODfeRSGhnBJfq8wAAAU88ceW2EAAKrJVhgAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAKSwEQAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAAApbAQAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQCQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgBAChsBAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAkMIAACCFAQBACnUz40cAAAHBSURBVAMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAAkMIAACCFAQBACgMAgBQGAAApDAAAUhgAAKQwAABIYQAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAABSGAAApDAAAEhhAACQwgAAIIUBAEAKAwCAFAYAACkMAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBgAAKQwAAFIYAACkMAAASGEAAJDCAAAghQEAQAoDAIAUBvhfu3VIAAAAACDo/2tnWGCCSQCwwgAAYIUBAMAKAwCAFQYAACsMAABWGAAAKywBAABWGAAArDAAAFhhAACwwgAAYIUBAMAKAwCAFQYAACsMAABWGAAArDAAAFhhAACwwgAAYIUBAMAKAwCAFQYAACsMAABWGAAArDAAAFhhAACwwgAAYIUBAMAKAwCAFQYAwAoDAIAVBgAAKwwAAFYYAACsMAAAWGEAALDCAABghQEAwAoDAIAVBgAAKwwAAAAAwCQmb+5+YQaergAAAABJRU5ErkJggg==)
71M6541D/F/G and 71M6542F/G Data Sheet
138 Rev 4
Figure 46: CE Data Flow: Squaring and Summation Stages
I0
W0
SQUARE
W1
VAR0
VAR1
V0
I1
I0SQ
V0SQ
I1SQ
SUM
I0SQSUM_X
V0SQSUM_X
I1SQSUM_X
SUM
W0SUM_X
W1SUM_X
VAR0SUM_X
VAR1SUM_X
Σ
Σ
Σ
Σ
Σ
Σ
Σ
SUM_SAMPS=2520
MPU
F0
I
2
I
2
V
2