The following is EM trigger tower noise EM: ETA= 1 PHI= 1:16 77. 73. 70. 77. 83. 85. 91. 93. 95. 91. 86. 83. 77. 71. 73. 79. 1 PHI=17:32 75. 79. 81. 94. 96. 103. 104. 110. 109. 105. 101. 96. 94. 81. 79. 75. EM: ETA= 2 PHI= 1:16 78. 74. 71. 78. 84. 86. 92. 94. 96. 92. 87. 84. 78. 72. 74. 79. 2 PHI=17:32 76. 80. 82. 95. 97. 104. 105. 111. 110. 105. 102. 97. 95. 82. 80. 76. EM: ETA= 3 PHI= 1:16 80. 76. 73. 79. 85. 88. 94. 96. 97. 94. 88. 85. 80. 74. 76. 81. 3 PHI=17:32 77. 82. 83. 96. 98. 105. 107. 113. 112. 107. 104. 98. 96. 83. 82. 77. EM: ETA= 4 PHI= 1:16 82. 79. 76. 82. 88. 90. 96. 98. 100. 96. 91. 88. 82. 76. 78. 84. 4 PHI=17:32 80. 84. 86. 99. 101. 108. 109. 115. 114. 109. 107. 101. 99. 86. 84. 80. EM: ETA= 5 PHI= 1:16 86. 82. 80. 86. 92. 94. 100. 102. 104. 100. 95. 92. 86. 80. 82. 87. 5 PHI=17:32 83. 88. 89. 102. 105. 111. 113. 119. 118. 113. 110. 104. 102. 89. 88. 83. EM: ETA= 6 PHI= 1:16 72. 68. 66. 71. 77. 79. 84. 86. 87. 84. 80. 77. 72. 66. 68. 73. 6 PHI=17:32 71. 75. 77. 88. 88. 94. 96. 101. 101. 96. 94. 88. 88. 77. 75. 71. EM: ETA= 7 PHI= 1:16 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 7 PHI=17:32 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. 45. EM: ETA= 8 PHI= 1:16 181. 180. 179. 180. 181. 183. 184. 185. 185. 184. 183. 181. 180. 179. 180. 181. 8 PHI=17:32 183. 184. 185. 186. 188. 189. 190. 191. 191. 190. 189. 188. 186. 185. 184. 183. EM: ETA= 9 PHI= 1:16 158. 156. 155. 156. 158. 159. 160. 161. 161. 160. 159. 158. 156. 155. 156. 158. 9 PHI=17:32 159. 160. 161. 163. 164. 165. 166. 168. 168. 166. 165. 164. 163. 161. 160. 159. EM: ETA= 10 PHI= 1:16 143. 142. 141. 142. 143. 145. 146. 147. 147. 146. 145. 143. 142. 141. 142. 143. 10 PHI=17:32 145. 146. 147. 149. 150. 151. 152. 154. 154. 152. 151. 150. 149. 147. 146. 145. EM: ETA= 11 PHI= 1:16 136. 135. 134. 135. 136. 138. 139. 140. 140. 139. 138. 136. 135. 134. 135. 136. 11 PHI=17:32 138. 139. 140. 141. 143. 144. 145. 146. 146. 145. 144. 143. 141. 140. 139. 138. EM: ETA= 12 PHI= 1:16 133. 132. 130. 132. 133. 134. 135. 137. 137. 135. 134. 133. 132. 130. 132. 133. 12 PHI=17:32 134. 135. 137. 138. 139. 141. 142. 143. 143. 142. 141. 139. 138. 137. 135. 134. EM: ETA= 13 PHI= 1:16 132. 130. 129. 130. 132. 133. 134. 136. 136. 134. 133. 132. 130. 129. 130. 132. 13 PHI=17:32 133. 134. 136. 137. 138. 139. 141. 142. 142. 141. 139. 138. 137. 136. 134. 133. EM: ETA= 14 PHI= 1:16 101. 100. 99. 100. 101. 102. 103. 104. 104. 103. 102. 101. 100. 99. 100. 101. 14 PHI=17:32 102. 103. 104. 105. 106. 107. 108. 109. 109. 108. 107. 106. 105. 104. 103. 102. EM: ETA= 15 PHI= 1:16 99. 99. 98. 99. 99. 100. 101. 102. 102. 101. 100. 99. 99. 98. 99. 99. 15 PHI=17:32 100. 101. 102. 103. 104. 105. 106. 107. 107. 106. 105. 104. 103. 102. 101. 100. EM: ETA= 16 PHI= 1:16 99. 98. 97. 98. 99. 100. 101. 102. 102. 101. 100. 99. 98. 97. 98. 99. 16 PHI=17:32 100. 101. 102. 103. 104. 105. 106. 106. 106. 106. 105. 104. 103. 102. 101. 100. EM: ETA= 17 PHI= 1:16 54. 54. 53. 54. 54. 55. 55. 56. 56. 55. 55. 54. 54. 53. 54. 54. 17 PHI=17:32 55. 55. 56. 56. 57. 57. 58. 58. 58. 58. 57. 57. 56. 56. 55. 55. EM: ETA= 18 PHI= 1:16 53. 52. 52. 52. 53. 53. 54. 54. 54. 54. 53. 53. 52. 52. 52. 53. 18 PHI=17:32 53. 54. 54. 55. 55. 56. 56. 57. 57. 56. 56. 55. 55. 54. 54. 53. EM: ETA= 19 PHI= 1:16 52. 51. 51. 51. 52. 52. 53. 53. 53. 53. 52. 52. 51. 51. 51. 52. 19 PHI=17:32 52. 53. 53. 54. 54. 55. 55. 56. 56. 55. 55. 54. 54. 53. 53. 52. EM: ETA= 20 PHI= 1:16 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 20 PHI=17:32 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. EM: ETA= 21 PHI= 1:16 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 21 PHI=17:32 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. EM: ETA= -1 PHI= 1:16 79. 73. 71. 77. 83. 86. 91. 95. 93. 91. 85. 83. 77. 70. 73. 77. -1 PHI=17:32 75. 79. 81. 94. 96. 101. 105. 109. 110. 104. 103. 96. 94. 81. 79. 75. EM: ETA= -2 PHI= 1:16 79. 74. 72. 78. 84. 87. 92. 96. 94. 92. 86. 84. 78. 71. 74. 78. -2 PHI=17:32 76. 80. 82. 95. 97. 102. 105. 110. 111. 105. 104. 97. 95. 82. 80. 76. EM: ETA= -3 PHI= 1:16 81. 76. 74. 80. 85. 88. 94. 97. 96. 94. 88. 85. 79. 73. 76. 80. -3 PHI=17:32 77. 82. 83. 96. 98. 104. 107. 112. 113. 107. 105. 98. 96. 83. 82. 77. EM: ETA= -4 PHI= 1:16 84. 78. 76. 82. 88. 91. 96. 100. 98. 96. 90. 88. 82. 76. 79. 82. -4 PHI=17:32 80. 84. 86. 99. 101. 107. 109. 114. 115. 109. 108. 101. 99. 86. 84. 80. EM: ETA= -5 PHI= 1:16 87. 82. 80. 86. 92. 95. 100. 104. 102. 100. 94. 92. 86. 80. 82. 86. -5 PHI=17:32 83. 88. 89. 102. 104. 110. 113. 118. 119. 113. 111. 105. 102. 89. 88. 83. EM: ETA= -6 PHI= 1:16 73. 69. 67. 73. 77. 80. 85. 88. 87. 85. 80. 78. 72. 67. 69. 73. -6 PHI=17:32 72. 76. 77. 89. 89. 94. 96. 101. 101. 96. 95. 89. 89. 77. 76. 72. EM: ETA= -7 PHI= 1:16 73. 70. 68. 73. 77. 78. 83. 84. 84. 83. 78. 77. 73. 68. 70. 73. -7 PHI=17:32 75. 78. 79. 88. 85. 89. 91. 94. 94. 91. 89. 85. 88. 79. 78. 75. EM: ETA= -8 PHI= 1:16 188. 182. 179. 188. 196. 200. 209. 212. 212. 209. 200. 196. 188. 179. 182. 188. -8 PHI=17:32 192. 199. 201. 219. 214. 222. 226. 233. 233. 226. 222. 214. 219. 201. 199. 192. EM: ETA= -9 PHI= 1:16 165. 158. 155. 164. 172. 176. 185. 189. 189. 185. 176. 172. 164. 155. 158. 165. -9 PHI=17:32 168. 175. 177. 196. 191. 199. 203. 210. 210. 203. 199. 191. 196. 177. 175. 168. EM: ETA=-10 PHI= 1:16 151. 144. 141. 150. 158. 162. 171. 175. 175. 171. 162. 158. 150. 141. 144. 151. -10 PHI=17:32 154. 161. 163. 182. 177. 185. 189. 196. 196. 189. 185. 177. 182. 163. 161. 154. EM: ETA=-11 PHI= 1:16 143. 137. 134. 143. 151. 155. 164. 168. 168. 164. 155. 151. 143. 134. 137. 143. -11 PHI=17:32 147. 154. 156. 175. 170. 178. 181. 189. 189. 181. 178. 170. 175. 156. 154. 147. EM: ETA=-12 PHI= 1:16 140. 133. 130. 139. 148. 152. 161. 164. 164. 161. 152. 148. 139. 130. 133. 140. -12 PHI=17:32 144. 151. 153. 171. 167. 174. 178. 186. 186. 178. 174. 167. 171. 153. 151. 144. EM: ETA=-13 PHI= 1:16 139. 132. 129. 138. 147. 151. 159. 163. 163. 159. 151. 147. 138. 129. 132. 139. -13 PHI=17:32 142. 149. 152. 170. 165. 173. 177. 184. 184. 177. 173. 165. 170. 152. 149. 142. EM: ETA=-14 PHI= 1:16 106. 101. 99. 106. 112. 115. 122. 124. 124. 122. 115. 112. 106. 99. 101. 106. -14 PHI=17:32 109. 114. 116. 130. 126. 132. 135. 140. 140. 135. 132. 126. 130. 116. 114. 109. EM: ETA=-15 PHI= 1:16 105. 100. 98. 104. 111. 114. 120. 123. 123. 120. 114. 111. 104. 98. 100. 105. -15 PHI=17:32 108. 113. 114. 128. 125. 130. 133. 139. 139. 133. 130. 125. 128. 114. 113. 108. EM: ETA=-16 PHI= 1:16 104. 99. 97. 104. 110. 113. 120. 122. 122. 120. 113. 110. 104. 97. 99. 104. -16 PHI=17:32 107. 112. 114. 128. 124. 130. 133. 138. 138. 133. 130. 124. 128. 114. 112. 107. EM: ETA=-17 PHI= 1:16 57. 55. 53. 57. 60. 61. 65. 66. 66. 65. 61. 60. 57. 53. 55. 57. -17 PHI=17:32 58. 61. 62. 69. 67. 70. 71. 74. 74. 71. 70. 67. 69. 62. 61. 58. EM: ETA=-18 PHI= 1:16 55. 53. 52. 55. 58. 60. 63. 64. 64. 63. 60. 58. 55. 52. 53. 55. -18 PHI=17:32 57. 59. 60. 67. 65. 68. 70. 72. 72. 70. 68. 65. 67. 60. 59. 57. EM: ETA=-19 PHI= 1:16 54. 52. 51. 54. 57. 59. 62. 63. 63. 62. 59. 57. 54. 51. 52. 54. -19 PHI=17:32 56. 58. 59. 66. 64. 67. 69. 71. 71. 69. 67. 64. 66. 59. 58. 56. EM: ETA=-20 PHI= 1:16 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. -20 PHI=17:32 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. EM: ETA=-21 PHI= 1:16 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. -21 PHI=17:32 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. The following is HD trigger tower noise HD: ETA= 1 PHI= 1:16 298. 293. 289. 298. 306. 309. 317. 318. 320. 316. 310. 306. 299. 291. 293. 300. 1 PHI=17:32 296. 301. 303. 319. 321. 329. 330. 338. 337. 331. 327. 320. 320. 303. 301. 294. HD: ETA= 2 PHI= 1:16 308. 303. 299. 308. 316. 319. 327. 328. 330. 325. 320. 315. 309. 300. 303. 309. 2 PHI=17:32 305. 311. 313. 329. 331. 339. 340. 348. 347. 341. 337. 330. 330. 313. 311. 304. HD: ETA= 3 PHI= 1:16 325. 319. 316. 325. 333. 336. 344. 344. 347. 342. 337. 332. 326. 317. 320. 326. 3 PHI=17:32 322. 328. 330. 346. 348. 355. 357. 364. 364. 358. 354. 347. 347. 330. 328. 321. HD: ETA= 4 PHI= 1:16 329. 323. 320. 329. 337. 339. 347. 348. 351. 346. 340. 336. 330. 321. 324. 330. 4 PHI=17:32 326. 331. 333. 349. 351. 359. 361. 368. 367. 361. 358. 350. 350. 333. 331. 325. HD: ETA= 5 PHI= 1:16 182. 177. 176. 181. 187. 188. 193. 194. 196. 193. 189. 186. 182. 176. 178. 182. 5 PHI=17:32 179. 182. 184. 195. 196. 201. 203. 207. 207. 203. 201. 196. 195. 184. 182. 179. HD: ETA= 6 PHI= 1:16 201. 200. 199. 200. 201. 202. 203. 204. 204. 203. 202. 201. 200. 199. 200. 201. 6 PHI=17:32 201. 203. 204. 205. 207. 208. 209. 210. 210. 209. 208. 206. 205. 204. 203. 201. HD: ETA= 7 PHI= 1:16 371. 369. 367. 369. 371. 373. 375. 377. 377. 375. 373. 371. 369. 367. 369. 371. 7 PHI=17:32 373. 375. 377. 379. 380. 382. 384. 386. 386. 384. 382. 380. 379. 377. 375. 373. HD: ETA= 8 PHI= 1:16 288. 286. 284. 286. 288. 290. 292. 294. 294. 292. 290. 288. 286. 284. 286. 288. 8 PHI=17:32 290. 292. 294. 295. 297. 299. 301. 303. 303. 301. 299. 297. 295. 294. 292. 290. HD: ETA= 9 PHI= 1:16 225. 224. 223. 224. 225. 227. 228. 229. 229. 228. 227. 225. 224. 223. 224. 225. 9 PHI=17:32 227. 228. 229. 230. 232. 233. 234. 235. 235. 234. 233. 232. 230. 229. 228. 227. HD: ETA= 10 PHI= 1:16 262. 261. 260. 261. 262. 264. 265. 266. 266. 265. 264. 262. 261. 260. 261. 262. 10 PHI=17:32 264. 265. 266. 268. 269. 270. 272. 273. 273. 272. 270. 269. 268. 266. 265. 264. HD: ETA= 11 PHI= 1:16 262. 261. 260. 261. 262. 264. 265. 267. 267. 265. 264. 262. 261. 260. 261. 262. 11 PHI=17:32 264. 265. 267. 268. 269. 271. 272. 274. 274. 272. 271. 269. 268. 267. 265. 264. HD: ETA= 12 PHI= 1:16 244. 242. 241. 242. 244. 245. 246. 248. 248. 246. 245. 244. 242. 241. 242. 244. 12 PHI=17:32 245. 246. 248. 249. 251. 252. 254. 255. 255. 254. 252. 251. 249. 248. 246. 245. HD: ETA= 13 PHI= 1:16 236. 234. 233. 234. 236. 237. 239. 240. 240. 239. 237. 236. 234. 233. 234. 236. 13 PHI=17:32 237. 239. 240. 242. 243. 244. 246. 247. 247. 246. 244. 243. 242. 240. 239. 237. HD: ETA= 14 PHI= 1:16 223. 222. 220. 222. 223. 225. 226. 227. 227. 226. 225. 223. 222. 220. 222. 223. 14 PHI=17:32 225. 226. 227. 229. 230. 232. 233. 235. 235. 233. 232. 230. 229. 227. 226. 225. HD: ETA= 15 PHI= 1:16 210. 209. 207. 209. 210. 212. 213. 215. 215. 213. 212. 210. 209. 207. 209. 210. 15 PHI=17:32 212. 213. 215. 216. 218. 219. 220. 222. 222. 220. 219. 218. 216. 215. 213. 212. HD: ETA= 16 PHI= 1:16 202. 201. 199. 201. 202. 204. 205. 206. 206. 205. 204. 202. 201. 199. 201. 202. 16 PHI=17:32 204. 205. 206. 208. 209. 211. 212. 214. 214. 212. 211. 209. 208. 206. 205. 204. HD: ETA= 17 PHI= 1:16 118. 117. 116. 117. 118. 119. 119. 120. 120. 119. 119. 118. 117. 116. 117. 118. 17 PHI=17:32 119. 119. 120. 121. 122. 122. 123. 124. 124. 123. 122. 122. 121. 120. 119. 119. HD: ETA= 18 PHI= 1:16 115. 114. 114. 114. 115. 116. 117. 117. 117. 117. 116. 115. 114. 114. 114. 115. 18 PHI=17:32 116. 117. 117. 118. 119. 119. 120. 121. 121. 120. 119. 119. 118. 117. 117. 116. HD: ETA= 19 PHI= 1:16 113. 112. 111. 112. 113. 113. 114. 115. 115. 114. 113. 113. 112. 111. 112. 113. 19 PHI=17:32 113. 114. 115. 116. 116. 117. 118. 118. 118. 118. 117. 116. 116. 115. 114. 113. HD: ETA= 20 PHI= 1:16 106. 105. 105. 105. 106. 107. 108. 108. 108. 108. 107. 106. 105. 105. 105. 106. 20 PHI=17:32 107. 108. 108. 109. 110. 110. 111. 112. 112. 111. 110. 110. 109. 108. 108. 107. HD: ETA= 21 PHI= 1:16 73. 72. 72. 72. 73. 73. 74. 74. 74. 74. 73. 73. 72. 72. 72. 73. 21 PHI=17:32 73. 74. 74. 75. 75. 76. 76. 77. 77. 76. 76. 75. 75. 74. 74. 73. HD: ETA= -1 PHI= 1:16 300. 293. 291. 299. 306. 310. 316. 320. 318. 317. 309. 306. 298. 289. 293. 298. -1 PHI=17:32 294. 301. 303. 320. 320. 327. 331. 337. 338. 330. 329. 321. 319. 303. 301. 296. HD: ETA= -2 PHI= 1:16 309. 303. 300. 309. 315. 320. 325. 330. 328. 327. 319. 316. 308. 299. 303. 308. -2 PHI=17:32 304. 311. 313. 330. 330. 337. 341. 347. 348. 340. 339. 331. 329. 313. 311. 305. HD: ETA= -3 PHI= 1:16 326. 320. 317. 326. 332. 337. 342. 347. 344. 344. 336. 333. 325. 316. 319. 325. -3 PHI=17:32 321. 328. 330. 347. 347. 354. 358. 364. 364. 357. 355. 348. 346. 330. 328. 322. HD: ETA= -4 PHI= 1:16 330. 324. 321. 330. 336. 340. 346. 351. 348. 347. 339. 337. 329. 320. 323. 329. -4 PHI=17:32 325. 331. 333. 350. 350. 358. 361. 367. 368. 361. 359. 351. 349. 333. 331. 326. HD: ETA= -5 PHI= 1:16 182. 178. 176. 182. 186. 189. 193. 196. 194. 193. 188. 187. 181. 176. 177. 182. -5 PHI=17:32 179. 182. 184. 195. 196. 201. 203. 207. 207. 203. 201. 196. 195. 184. 182. 179. HD: ETA= -6 PHI= 1:16 202. 199. 197. 203. 207. 210. 214. 217. 216. 215. 210. 208. 202. 197. 198. 203. -6 PHI=17:32 203. 207. 209. 220. 217. 222. 224. 228. 228. 224. 222. 217. 220. 209. 207. 204. HD: ETA= -7 PHI= 1:16 362. 357. 354. 363. 369. 373. 379. 382. 382. 380. 373. 369. 362. 354. 356. 363. -7 PHI=17:32 364. 371. 373. 389. 383. 389. 392. 398. 398. 392. 389. 383. 387. 373. 371. 366. HD: ETA= -8 PHI= 1:16 277. 273. 270. 278. 284. 287. 293. 296. 296. 294. 287. 284. 277. 270. 272. 278. -8 PHI=17:32 279. 285. 287. 302. 297. 303. 306. 311. 311. 306. 302. 297. 301. 287. 285. 281. HD: ETA= -9 PHI= 1:16 218. 214. 211. 219. 224. 228. 234. 237. 237. 235. 228. 225. 218. 211. 213. 219. -9 PHI=17:32 220. 226. 228. 243. 238. 244. 247. 252. 252. 247. 243. 238. 242. 228. 226. 221. HD: ETA=-10 PHI= 1:16 261. 255. 252. 261. 269. 273. 280. 284. 284. 282. 273. 270. 261. 252. 254. 261. -10 PHI=17:32 264. 271. 273. 292. 285. 293. 296. 303. 303. 296. 292. 286. 291. 273. 271. 265. HD: ETA=-11 PHI= 1:16 254. 248. 245. 254. 261. 265. 272. 276. 275. 273. 265. 262. 254. 245. 247. 254. -11 PHI=17:32 256. 263. 265. 283. 277. 284. 287. 294. 294. 287. 283. 277. 282. 265. 263. 257. HD: ETA=-12 PHI= 1:16 235. 230. 227. 236. 243. 247. 254. 258. 258. 256. 247. 244. 235. 227. 229. 236. -12 PHI=17:32 238. 245. 247. 266. 259. 266. 270. 276. 276. 270. 266. 260. 264. 247. 245. 239. HD: ETA=-13 PHI= 1:16 228. 222. 219. 229. 236. 240. 247. 251. 251. 249. 240. 237. 228. 219. 222. 229. -13 PHI=17:32 231. 238. 240. 259. 252. 259. 263. 269. 269. 263. 259. 253. 257. 240. 238. 232. HD: ETA=-14 PHI= 1:16 215. 209. 206. 216. 223. 227. 234. 238. 237. 235. 227. 223. 215. 206. 208. 216. -14 PHI=17:32 218. 225. 227. 245. 239. 246. 250. 256. 256. 250. 245. 239. 244. 227. 225. 219. HD: ETA=-15 PHI= 1:16 202. 197. 194. 203. 210. 214. 222. 226. 225. 223. 214. 211. 202. 194. 196. 203. -15 PHI=17:32 205. 212. 214. 233. 226. 234. 237. 244. 244. 237. 233. 227. 232. 214. 212. 206. HD: ETA=-16 PHI= 1:16 194. 189. 186. 195. 202. 207. 214. 218. 217. 215. 207. 203. 194. 186. 188. 195. -16 PHI=17:32 197. 204. 207. 225. 218. 226. 230. 236. 236. 230. 225. 219. 224. 207. 204. 198. HD: ETA=-17 PHI= 1:16 114. 111. 109. 114. 118. 120. 123. 125. 125. 124. 120. 118. 114. 109. 110. 114. -17 PHI=17:32 115. 119. 120. 129. 125. 129. 131. 134. 134. 131. 129. 126. 128. 120. 119. 116. HD: ETA=-18 PHI= 1:16 111. 108. 107. 111. 115. 117. 120. 122. 122. 121. 117. 115. 111. 107. 108. 111. -18 PHI=17:32 112. 116. 117. 126. 123. 126. 128. 131. 131. 128. 126. 123. 125. 117. 116. 113. HD: ETA=-19 PHI= 1:16 108. 106. 104. 109. 112. 114. 118. 120. 120. 119. 114. 113. 108. 104. 105. 109. -19 PHI=17:32 110. 113. 114. 124. 120. 124. 126. 129. 129. 126. 124. 121. 123. 114. 113. 110. HD: ETA=-20 PHI= 1:16 102. 99. 98. 102. 106. 108. 112. 114. 113. 112. 108. 106. 102. 98. 99. 102. -20 PHI=17:32 103. 107. 108. 117. 114. 118. 120. 123. 123. 120. 117. 114. 117. 108. 107. 104. HD: ETA=-21 PHI= 1:16 64. 63. 62. 64. 66. 67. 69. 70. 70. 70. 67. 66. 64. 62. 63. 64. -21 PHI=17:32 65. 67. 67. 72. 70. 72. 73. 75. 75. 73. 72. 71. 72. 67. 67. 65. ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ From: MSUHEP::PI "Red Boy.." 27-NOV-1990 15:51:29.03 To: LAURENS CC: Subj: NOISE PROGRAM. Hi Philip, The noise program is in [pi.analyz]noise.for, you need CCINT.CAB and CCRO.CAB . They both in the same directory. The noise data is in the same directory, name noise-250ns.dat. I have checked, the cc cable in these data files are same as D0 using. let me know if you have more question. Bo ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ From: MSUHEP::ABOLINS "Le Gros Matou" 28-NOV-1990 11:39:41.02 To: EDMUNDS,ABOLINS CC: BROCK Subj: Noise and money Dan, To be precise, let us use 3.0 as the scaling factor. Go ahead and spend $2K on 71-1532 to keep moving forward. Maris ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ From: MSUHEP::ABOLINS "Le Gros Matou" 4-DEC-1990 16:27:41.82 To: MSUHEP::TRIGGER CC: ABOLINS Subj: RE: noise figures Philippe: I have stared at the matter and conclude that the proper formula to use is (0.22 +0.33C*sqrt(t1/t2)), where t1 and t2 are relative sampling times. Thus if we are to compare to Harry's numbers then t1 = 3.5 microsec and t2 = 2.5 microsec as the integration time during the first run was t1 and during the second t2. Amities, Maris ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ PROGRAM NOISE C- Created 5-JUL-1989 by David Gregory C- Noise takes a given coordinate given in terms of IETAC, LAYERC C and IPHIC and returns values for capacitance (including the C cable contribution), uranium noise, electronic noise and C total noise. Note: The files CCINT.CAB and CCRO.CAB C are needed to run this program. C IMPLICIT NONE C---------------------------------------------------------------------- REAL EMTRGNOISE(-21:21,1:32),FHTRGNOISE(-21:21,1:32) REAL EM2(-21:21,1:32),FH2(-21:21,1:32) REAL CAPS,AREA,SF,UNOISE,ELNOISE,TNOISE,TCAP,TAURO,CABINT,CABRO REAL GAREA, TRUNS, TRELNS, TRTNS, TAUTR INTEGER I,J,IETAC,LAYERC,IPHIC,IRG,JETA, JETAC, IESIGN, JPHI INTEGER L1ETAC,L1PHIC CHARACTER*4 REGION CHARACTER*1 TYPE CHARACTER*2 PLACE COMMON/ARRAYS/ CAPS(39,17),AREA(39,17),SF(39,17) COMMON/CAB/CABINT(2,4,17,32), CABRO(2,39,32) C Fill arrays CALL ARRAY CALL CABLE C C 28-NOV-1990 Philippe Laurens, MSU. C the ratio of noise in trigger tower vs full readout (due to bandwidth C correction) has been chosen to be 3.0 C TAURO = 2500.0 ! Sampling time in nanoseconds for read out channels. C Original: TAUTR = 250.0 ! Sampling time in nanoseconds for trigger towers. TAUTR = TAURO / 3.0**2 ! Sampling time in nanoseconds for trigger towers. C PRINT *, &'Do you want a readout channel or a trigger tower?' PRINT *, 'Type R or T.' 76 READ 78, TYPE 78 FORMAT (A) IF (TYPE.EQ.'R'.OR.TYPE.EQ.'r') THEN GO TO 15 ELSE IF (TYPE.EQ.'T'.OR.TYPE.EQ.'t') THEN GO TO 115 ELSE PRINT *, 'Please type "R" or "T". ' GO TO 76 ENDIF C C Ask for the coordinates. Note, the function JETA compensates for the C fact that there are two values for eta =12 or 14. C 15 PRINT *, ' Enter coordinate in this format. & (IETAC=0 means end program.)' PRINT *, ' (IETAC=99 & means do trigger tower.)' PRINT *, ' IETAC, LAYERC, IPHIC & (IPHIC=0 means ignore cables.)' READ 77, IETAC,LAYERC,IPHIC 77 FORMAT (I3,I3,I3) IF(IETAC.EQ.0) GO TO 99 IF(IETAC.EQ.99) GO TO 115 JETAC = JETA(IETAC) IF (IETAC.GT.37.OR.IETAC.LT.-37) THEN PRINT *, 'This is out of range in the IETAC value.' PRINT * GO TO 15 ENDIF IF (LAYERC.LT.1.OR.LAYERC.GT.17) THEN PRINT *, 'This is out of range in the LAYERC value.' PRINT * GO TO 15 ENDIF IF (IPHIC.LT.0.OR.IPHIC.GT.64) THEN PRINT *, 'This is out of range in the IPHIC value.' PRINT * GO TO 15 ENDIF IF (CAPS(JETAC,LAYERC).EQ.-1.0) THEN PRINT *, 'There is nothing at this coordinate.' PRINT * GO TO 15 ENDIF C C Find the noise values. CALL LOCATE(REGION,IRG,JETAC,LAYERC,CAPS(JETAC,LAYERC)) JPHI = (IPHIC + 1) / 2 CALL NOISES(JETAC,LAYERC,JPHI,TCAP,UNOISE,ELNOISE,TNOISE,TAURO &,IRG) PRINT 10, REGION PRINT 20, TCAP PRINT 24, AREA(JETAC,LAYERC) PRINT 30, UNOISE PRINT 40, ELNOISE PRINT 50, TNOISE PRINT * PRINT * GO TO 15 C 115 PRINT *, ' Enter coordinate in this format. & (L1ETAC=0 means end program.)' PRINT *, ' & (L1ETAC=99 means do readout channel.)' PRINT *, ' L1ETAC, L1PHIC, "EM" or "FH" & (L1PHIC = 0 means ignore cables.)' READ 38, L1ETAC,L1PHIC,PLACE 38 FORMAT (I4,I3,A2) IF(L1ETAC.EQ.0) GO TO 99 IF(L1ETAC.EQ.99) GO TO 15 IF (L1ETAC.GT.21.OR.L1ETAC.LT.-21) THEN PRINT *, 'This is out of range in the L1ETAC value.' PRINT * GO TO 115 ENDIF IF (L1PHIC.LT.0.OR.L1PHIC.GT.32) THEN PRINT *, 'This is out of range in the L1PHIC value.' PRINT * GO TO 115 ENDIF IF (PLACE.EQ.'em') PLACE = 'EM' IF (PLACE.EQ.'fh') PLACE = 'FH' IF (.NOT.(PLACE.EQ.'EM'.OR.PLACE.EQ.'FH')) THEN PRINT *, 'Must type either "EM" for the electromagnetic & region or "FH" for the fine hadronic region.' PRINT * GO TO 115 ENDIF CALL TRIGGER(L1ETAC,L1PHIC,PLACE,TCAP,TRUNS,TRELNS,TRTNS,TAUTR &,GAREA) c--------------------------------------------------------------------- C goto 133 C ADD BY Bo Pi. 1-NOV-90 C DO A LOOP OVER ALL THE TRIGGER TOWER DO L1ETAC = -21,21 if (L1ETAC .EQ. 0 ) GOTO 123 DO L1PHIC = 1,32 PLACE = 'EM' CALL TRIGGER(L1ETAC,L1PHIC,PLACE,TCAP,TRUNS,TRELNS,TRTNS,TAUTR &,GAREA) EMTRGNOISE(L1ETAC,L1PHIC) = NINT(TRTNS/50)*50 EM2(L1ETAC,L1PHIC) = TRTNS PLACE = 'FH' CALL TRIGGER(L1ETAC,L1PHIC,PLACE,TCAP,TRUNS,TRELNS,TRTNS,TAUTR &,GAREA) FHTRGNOISE(L1ETAC,L1PHIC) = NINT(TRTNS/50)*50 FH2(L1ETAC,L1PHIC) = TRTNS END DO 123 CONTINUE END DO C CALL HISNOISE(EMTRGNOISE,FHTRGNOISE,EM2,FH2) WRITE(111,*) 'The following is EM trigger tower noise' DO I = 1, 21 WRITE(111,111) 'EM: ETA=', I, 'PHI= 1:16', (EM2(I,J),J = 1,16) WRITE(111,111) ' ', I, 'PHI=17:32', (EM2(I,J),J = 17,32) END DO DO I = 1, 21 WRITE(111,111) 'EM: ETA=',-I,'PHI= 1:16', (EM2(-I,J),J = 1,16) WRITE(111,111) ' ',-I,'PHI=17:32', (EM2(-I,J),J = 17,32) END DO WRITE(111,*) 'The following is HD trigger tower noise' DO I = 1, 21 WRITE(111,111) 'HD: ETA=', I, 'PHI= 1:16', (FH2(I,J),J = 1,16) WRITE(111,111) ' ', I, 'PHI=17:32', (FH2(I,J),J = 17,32) END DO DO I = 1, 21 WRITE(111,111) 'HD: ETA=',-I,'PHI= 1:16', (FH2(-I,J),J = 1,16) WRITE(111,111) ' ',-I,'PHI=17:32', (FH2(-I,J),J = 17,32) END DO 111 FORMAT( A11, I3, A11, 16F6.0 ) 133 continue c---------------------------------------------------------------- C PRINT 20, TCAP PRINT 24, GAREA PRINT 30, TRUNS PRINT 40, TRELNS PRINT 50, TRTNS PRINT * PRINT * GO TO 115 C 10 FORMAT (1X,'Region is : ',A4) 20 FORMAT (1X,'Capacitance = ',F11.4,' pF') 24 FORMAT (1X,'Ganged Area = ',F11.4,' in2') 30 FORMAT (1X,'Uranium Noise = ',F11.4,' MeV') 40 FORMAT (1X,'Electronic Noise = ',F11.4,' MeV') 50 FORMAT (1X,'Total Noise = ',F11.4,' MeV') 99 PRINT *, ' Program ended.' C END C C This function is necessary so that negative values of eta can be C used without doubling the size of several arrays. C INTEGER FUNCTION JETA(I) IF (I.EQ.-12) THEN JETA = 38 ELSE IF (I.EQ.-14) THEN JETA = 39 ELSE JETA = ABS(I) ENDIF END C SUBROUTINE ARRAY REAL CAPS,AREA,SF REAL DEDXAR, DEDXU, DEDXG10, DEDXCU, UCCEM, UCCFH, UECEM, & UECFH, CUCCCH, CUECCH, ARGCC, ARGECEM, ARGECIH, ARGEC, & G10CC, G10ECEM, G10ECIH, G10EC COMMON/ARRAYS/ CAPS(39,17), AREA(39,17), SF(39,17) INTEGER I, J, IETAC, LAYERC C C CAPS are capacitances. A -1 means there are no pads at this C location. A 0 means the capacitance is unknown so far. C Note, the line number is the IETAC number for the data line. C The first array number doesn't necessarily correspond because C -12 is differnt from +12 and -14 and +14 are likewise. Hence C 38 corresponds to -12 and 39 to -14. C C WARNING: The ECOH data are estimates only!!! The actual data does C not exist yet (as of 7/31/89.) The real data will have C to be put in as soon as it exists. C C 1 DATA (CAPS(1,I), I=1,17)/ 169.2,176.4,172.5,234.3, & 166.5,232.7,1121.8,-1.0,-1.0,-1.0,3508.4,3700.6, & 3729.0 ,-1.0,3799.6, -1.0,-1.0/ 2 DATA (CAPS(2,I), I=1,17)/167.8,177.1,171.2,234.7,166.8, & 234.8,1131.5,-1.0,-1.0,-1.0,3601.1,3756.7,3776.3, & -1.0,3828.1,-1.0,-1.0/ 3 DATA (CAPS(3,I), I=1,17)/ 174.7,182.9,181.1,238.3,177.7, & 238.7,1167.5, -1.0, -1.0, -1.0,3648.9,3847.4,3871.3, & -1.0,3943.1, -1.0, -1.0/ 4 DATA (CAPS(4,I), I=1,17)/ 175.8,184.5,177.8,242.3,175.1, & 243.5,1183.3 ,-1.0, -1.0,-1.0,3754.2,3920.1,3974.1, & -1.0,4048.8, -1.0, -1.0/ 5 DATA (CAPS(5,I), I=1,17)/ 184.9,194.0,191.1,248.9,189.3, & 251.6,1239.6,-1.0,-1.0,-1.0,3872.6,4059.3,4120.1,-1.0, & 4181.7,-1.0,-1.0/ 6 DATA (CAPS(6,I), I=1,17)/ 189.0,199.2,190.8,257.5,189.9, & 261.2,1278.4, -1.0, -1.0, -1.0,4048.9,4258.8,4265.9, & -1.0,3146.4, -1.0, -1.0/ 7 DATA (CAPS(7,I), I=1,17)/ 201.8,211.7,206.8,267.8,207.0, & 272.8,1348.9, -1.0, -1.0, -1.0,4243.7,4441.7,4485.3, & -1.0, -1.0, -1.0, -1.0/ 8 DATA (CAPS(8,I), I=1,17)/ 210.8,221.0,211.0,281.2,211.9, & 286.6, 1430.7,0.0, -1.0,0.0, 4460.5, 4678.8, 2270.6, & -1.0,1679.0, -1.0, -1.0/ 9 DATA (CAPS(9,I), I=1,17)/ 226.1,238.6,232.1,296.0,233.7, & 302.6, 1521.5,0.0,0.0,0.0, 4715.6, 1223.7, -1.0, -1.0, & 3777.0,453.0, -1.0/ 10 DATA (CAPS(10,I), I=1,17)/ 241.2,253.1,239.0,312.3,242.2, & 320.9, 1649.6, 0.0, 0.0,0.0, 2173.2, -1.0, -1.0, -1.0, & 3434.0, 2753.0, -1.0/ 11 DATA (CAPS(11,I), I=1,17)/ 259.8,274.7,264.3,332.2,267.0, & 342.5, 1426.4, 0.0, 0.0, 0.0,1185.8, -1.0, -1.0, -1.0, & 2574.0, 3360.0, 2414.0/ 1201 DATA (CAPS(12,I), I=1,17)/ 292.8,251.0,248.4,343.5, -1.0, & -1.0, -1.0, 0.0,0.0,0.0,5359.3, 2997.8, -1.0, -1.0, & 520.0, 3802.0,3216.0/ 1202 DATA (CAPS(38,I), I=1,17)/ 336.2844, 288.7543,-1.,-1.,288.2660, & 385.9626,-1.,0.,0.,0., & 5359.25,2997.75,-1.,-1.,440., !IETACC=12- & 5430.0,5330.0/ 13 DATA (CAPS(13,I), I=1,17)/8*-1,2*0,4170.40,4853.75,4687.00,1265.00 *,-1,2980.,5200.0/ 1401 DATA (CAPS(14,I), I=1,17)/4*-1,1135.978,1135.978,955.395,-1,0,-1 *,3298.50,3774.50,4389.75,5299.75,926.75 !IETACC=14+ &,-1,2560.0/ 1402 DATA (CAPS(39,I), I=1,17)/2*-1,1135.978,1135.978,2*-1,955.395, *-1,0,-1,3298.50,3774.50,4389.75,5299.75,926.75 &,-1,2560.0/ !IETACC=14- 15 DATA (CAPS(15,I), I=1,17)/220.830,667.918,1795.534,1795.534 *,1650.018,1650.018,2474.631,3*-1,2649.25,3060.00,3423.50,3911.00 *,2743.50,2*-1/ 16 DATA (CAPS(16,I), I=1,17)/730.305,738.923,1527.175,1527.175 *,1423.349,1423.349,2122.169,3*-1,1814.75,2450.25,2820.00,3150.50 *,4201.00,2*-1/ 17 DATA (CAPS(17,I), I=1,17)/612.703,623.705,1335.518,1335.518 *,1261.201,1261.201,1869.534,3*-1,1635.8,1325.50,2719.00,2552.50 &,3209.25,2*-1/ 18 DATA (CAPS(18,I), I=1,17)/524.988,537.875,1198.350,1198.350 *,1145.246,1145.246,1688.132,3*-1,2991.2,1544.5,-1,1979.75 &,2572.25,2*-1/ 19 DATA (CAPS(19,I), I=1,17)/459.210,473.603,1100.463,1100.463 *,1062.803,1062.803,1558.294,3*-1,2584.8,2891.4,1906.5,-1 &,1977.50,2*-1/ 20 DATA (CAPS(20,I), I=1,17)/409.745,425.354,1031.238,1031.238 *,1004.914,1004.914,1466.202,3*-1,2365.6,2496.2,2696.6,2256.6 &,1209.50,2*-1/ 21 DATA (CAPS(21,I), I=1,17)/372.541,389.140,0983.091,0983.091 *,0965.149,0965.149,1401.958,3*-1,2167.1,2294.5,2428.9,2481.1 &,682.9,2*-1/ 22 DATA (CAPS(22,I), I=1,17)/344.631,362.041,0950.543,0950.543 *,0938.815,0938.815,1358.375,3*-1,2037.8,2107.7,2230.4,2327.5 &,1860.4,2*-1/ 23 DATA (CAPS(23,I), I=1,17)/323.810,341.890,0929.566,0929.566 *,0922.454,0922.454,1330.159,3*-1,2118.7,1975.6,2050.2,2140.6 &,1744.8,2*-1/ 24 DATA (CAPS(24,I), I=1,17)/308.420,327.057,0917.177,0917.177 *,0913.480,0913.480,1313.371,3*-1,2131.5,2047.4,1936.7,1980.6 &,1595.8,2*-1/ 25 DATA (CAPS(25,I), I=1,17)/297.204,316.305,0911.136,0911.13 *,0909.953,0909.953,1305.049,3*-1,2007.4,2064.1,1996.4,1864.7 &,1452.0,2*-1/ 26 DATA (CAPS(26,I), I=1,17)/289.196,308.686,0909.758,0909.758 *,0910.404,0910.404,1302.957,3*-1,1896.1,1933.5,2009.7,1915.4 &,1371.5,2*-1/ 27 DATA (CAPS(27,I), I=1,17)/283.655,303.472,1271.421,3*-1,1305.394 *,3*-1,1809.0,1831.0,1875.8,1914.6,1332.7,2*-1/ 28 DATA (CAPS(28,I), I=1,17)/280.003,300.097,1209.759,3*-1 *,1311.067,3*-1,1728.6,1735.5,1784.3,1804.7,1341.1,2*-1/ 29 DATA (CAPS(29,I), I=1,17)/277.793,298.122,1162.077 *,3*-1,1318.986,3*-1,1665.6,1675.6,1695.8,1708.9,1308.5,2*-1/ 30 DATA (CAPS(30,I), I=1,17)/276.675,297.204,1125.463 *,3*-1,1328.401,3*-1,1623.2,1614.7,1635.0,1627.5,1243.6,2*-1/ 31 DATA (CAPS(31,I), I=1,17)/276.376,297.076,1097.610 *,3*-1,1338.738,3*-1,1589.4,1574.4,1573.9,1566.8,1190.7,2*-1/ 32 DATA (CAPS(32,I), I=1,17)/276.683,297.530,1076.678 *,3*-1,1349.566,3*-1,1560.7,1539.5,1540.9,1510.8,1139.8,2*-1/ 33 DATA (CAPS(33,I), I=1,17)/331.487,351.833,1442.930 *,3*-1,1507.024,3*-1,1876.9,1901.8,2031.3,2048.8,1660.4,2*-1/ 34 DATA (CAPS(34,I), I=1,17)/316.275,337.043,1297.916 *,3*-1,1482.136,3*-1,1822.4,1843.2,1953.0,1981.8,1569.5,2*-1/ 35 DATA (CAPS(35,I), I=1,17)/307.363,328.428,1205.236 *,3*-1,1470.876,3*-1,1780.0,1783.8,1893.8,1906.5,1490.6,2*-1/ 36 DATA (CAPS(36,I), I=1,17)/10*-1,1661.7,1670.8,1695.6,1708.5 &,1287.4,2*-1/ 37 DATA (CAPS(37,I), I=1,17)/10*-1,-1,-1,1601.7,1615.0,1238.5 &,2*-1/ C C AREA are areas. A '-1' means there are no pads at this C location. A '0' means the area is unknown so far. C Note, the line number is the IETAC number*10 for the data line. C The first array number doesn't necessarily correspond because C -12 is differnt from +12 and -14 and +14 are likewise. Hence C 38 corresponds to -12 and 39 to -14. Note: some of the data C is not in the correct units so I correct for it after the data C statements. C 1011 DATA (AREA(1,I), I=1,17)/40.58275,42.53912,34.27767, & 43.03570,36.52262,43.13282, 279.80829,-1.,-1.,-1., & 839.52893, 914.35699, 945.56329,-1.,1014.12592, & -1,-1/ 2011 DATA (AREA(2,I), I=1,17)/40.65170,42.60564,35.10696, & 43.37562,35.39602,43.69126, 280.82770,-1.,-1.,-1., & 864.42786, 932.15460, 958.73260,-1.,1029.46753, & -1,-1/ 3011 DATA (AREA(3,I), I=1,17)/42.45964,44.48425,37.43425, & 44.12830,37.94566,44.68674, 291.46671,-1.,-1.,-1., & 882.45325, 959.51428, 984.81085,-1.,1050.10559, & -1,-1/ 40 DATA (AREA(4,I), I=1,17)/42.77397,44.82936,36.90800, & 45.34230,37.64175,46.14354, 295.34509,-1.,-1.,-1., & 908.99725, 980.10187,1014.85553,-1.,1081.73804, & -1,-1/ 50 DATA (AREA(5,I), I=1,17)/45.46828,47.62812,40.10245, & 47.04190,41.01409,48.03738, 312.06961,-1.,-1.,-1., & 945.71924,1018.97357,1054.50830,-1.,1124.45605, & -1,-1/ 60 DATA (AREA(6,I), I=1,17)/46.68147,48.91896,40.44336, & 49.20282,41.59959,50.46538, 322.18021,-1.,-1.,-1., & 991.33752,1076.98547,1098.75452,-1.,797.30853, & -1,-1/ 70 DATA (AREA(7,I), I=1,17)/50.34953,52.71456,44.50498, & 51.84934,45.92802,53.40326, 343.10361,-1.,-1.,-1., & 1051.64807,1128.91052,1159.48511,-1.,-1., & -1,-1/ 80 DATA (AREA(8,I), I=1,17)/53.28446,55.07892,45.77976, & 55.03003,47.44739,56.85103, 364.63300,0.,-1.,0., & 1111.27783,1196.85901, 560.47461,-1.,60., & 2*-1/ 90 DATA (AREA(9,I), I=1,17)/56.56567,59.94804,50.86420, & 58.79342,52.77640,60.88151, 387.72830,0.,0.,0., & 1182.72180, 262.06119,-1.,-1.,405., & 60.0,-1/ 100 DATA (AREA(10,I), I=1,17)/61.28864,63.48816,53.20626, & 63.13954,55.40753,65.54327, 422.12299,0.,0.,0., & 508.77881,-1.,-1.,-1.,531., & 202.0,-1/ 110 DATA (AREA(11,I), I=1,17)/65.85182,69.63528,59.40244, & 68.11695,61.93723,70.88486, 367.44379,0.,0.,0., & 101.65,-1.,-1.,-1.,432.0, & 595.0,578.0/ 1211 DATA (AREA(12,I), I=1,17)/75.79004,64.81390,56.21120, & 72.92020,-1.,-1.,-1.,0.,0.,0., & 567.08,298.50,-1.,-1.,36., !IETACC=12+ & 613.,609.0/ 1212 DATA (AREA(38,I), I=1,17)/75.79004,64.81390,-1.,-1.,56.21120, & 72.92020,-1.,0.,0.,0., & 567.08,298.502,-1.,-1.,36., !IETACC=12- & 613.,609.0/ 130 DATA (AREA(13,I), I=1,17)/8*-1,2*0,426.83,508.68,497.28,115.54 *,-1,282.0,584.0/ 1411 DATA (AREA(14,I), I=1,17)/4*-1,14.474,14.474,37.063,-1,0,-1 *,328.65,382.50,454.73,565.60,92.83,-1,280.0/ !IETACC=14+ 1412 DATA (AREA(39,I), I=1,17)/2*-1,14.474,14.474,2*-1,37.063,-1,0,-1 *,328.65,382.50,454.73,565.60,92.83,-1,280.0/ !IETACC=14- 150 DATA (AREA(15,I), I=1,17)/18.431,59.729,22.563,22.563,19.930 *,19.930,96.120,3*-1,253.43,303.15,345.30,403.45,290.90,2*-1/ 160 DATA (AREA(16,I), I=1,17)/61.889,63.647,17.642,17.642,15.647 *,15.647,75.416,3*-1,160.33,232.00,275.60,317.90,451.43,2*-1/ 170 DATA (AREA(17,I), I=1,17)/48.918,50.309,13.902,13.902,12.371 *,12.371,59.619,3*-1,108.5,107.55,262.83,248.75,333.88,2*-1/ 180 DATA (AREA(18,I), I=1,17)/38.901,40.008,11.023,11.023,09.835 *,09.835,47.419,3*-1,288.6,96.2,-1,184.15,262.18,2*-1/ 190 DATA (AREA(19,I), I=1,17)/31.086,31.971,8.784,8.784,7.853,7.853 *,37.899,3*-1,230.2,287.7,105.4,-1,193.80,2*-1/ 200 DATA (AREA(20,I), I=1,17)/24.938,25.649,7.027,7.027,6.293,6.293 *,30.410,3*-1,187.8,230.9,284.8,153.6,111.50,2*-1/ 210 DATA (AREA(21,I), I=1,17)/20.069,20.642,5.639,5.639,5.056,5.056 *,24.478,3*-1,147.0,189.6,227.0,279.7,53.0,2*-1/ 220 DATA (AREA(22,I), I=1,17)/16.190,16.653,4.536,4.536,4.071,4.071 *,19.742,3*-1,122.1,149.1,186.9,223.0,173.5,2*-1/ 230 DATA (AREA(23,I), I=1,17)/13.087,13.462,3.655,3.655,3.283,3.283 *,14.971,3*-1,99.4,123.2,146.9,183.4,186.1,2*-1/ 240 DATA (AREA(24,I), I=1,17)/10.595,10.899,2.950,2.950,2.651,2.651 *,12.933,3*-1,78.1,100.8,122.9,145.6,152.2,2*-1/ 250 DATA (AREA(25,I), I=1,17)/8.587,8.834,2.382,2.382,2.141,2.141 *,10.486,3*-1,64.8,80.3,99.2,121.3,122.4,2*-1/ 260 DATA (AREA(26,I), I=1,17)/6.966,7.166,1.925,1.925,1.731,1.731 *,8.409,3*-1,53.3,65.3,79.4,98.4,98.9,2*-1/ 270 DATA (AREA(27,I), I=1,17)/5.654,5.817,6.167,3*-1,6.909,3*-1 *,43.4,54.4,65.1,78.2,81.8,2*-1/ 280 DATA (AREA(28,I), I=1,17)/4.590,4.723,5.008,3*-1,5.612,3*-1 *,34.9,43.8,54.1,65.4,66.2,2*-1/ 290 DATA (AREA(29,I), I=1,17)/3.728,3.836,4.068,3*-1,4.560,3*-1 *,27.2,36.0,43.8,53.4,53.4,2*-1/ 300 DATA (AREA(30,I), I=1,17)/3.027,3.115,3.304,3*-1,3.705,3*-1 *,23.4,27.4,35.8,43.5,44.6,2*-1/ 310 DATA (AREA(31,I), I=1,17)/2.458,2.529,2.683,3*-1,3.010,3*-1 *,19.2,23.8,27.2,35.5,36.8,2*-1/ 320 DATA (AREA(32,I), I=1,17)/1.994,2.053,2.178,3*-1,2.444,3*-1 *,15.7,19.5,24.0,26.9,29.8,2*-1/ 330 DATA (AREA(33,I), I=1,17)/6.115,6.291,6.669,3*-1,7.471,3*-1 *,51.2,63.7,77.4,93.9,92.8,2*-1/ 340 DATA (AREA(34,I), I=1,17)/4.053,4.170,4.422,3*-1,4.957,3*-1 *,39.5,49.3,59.5,72.6,74.0,2*-1/ 350 DATA (AREA(35,I), I=1,17)/2.682,2.761,2.928,3*-1,3.284,3*-1 *,29.0,35.8,44.3,53.1,54.2,2*-1/ 360 DATA (AREA(36,I), I=1,17)/10*-1,9.9,15.7,16.3,21.4,22.3,2*-1/ 370 DATA (AREA(37,I), I=1,17)/10*-1,-1,-1,5.8,8.0,11.5,2*-1/ C C C Some of the data given to me were in cm^2 instead of in^2, C and some of the data were not doubled or ganged. I didn't C realize this at the time. Instead of retyping everything I C correct for it here. C DO 47 I= 15,35 DO 47 J= 1,7 IF (AREA(I,J).EQ.-1.) GOTO 47 AREA(I,J) = 2 * AREA(I,J) / 6.4516 47 CONTINUE DO 48 J= 11,15 DO 48 I= J,(J+7) IF (AREA(I,J).EQ.-1.) GOTO 48 AREA(I,J) = 2 * AREA(I,J) 48 CONTINUE DO 49 I= 15,35 AREA(I,7) = AREA(I,7) *2 * 8 IF (AREA(I,1).EQ.-1.0) GOTO 49 AREA(I,1) = 2 * 2 * AREA(I,1) AREA(I,2) = 2 * 2 * AREA(I,2) DO 49 J= 3,6 IF (AREA(I,J).EQ.-1.) GOTO 49 AREA(I,J) = 2 * 6 * AREA(I,J) 49 CONTINUE C C Initialize sampling ratio and sampling time C dE/dX for materials in MeV/cm DEDXAR = 1.51 * 1.4 DEDXU = 19.3 DEDXG10 = 2.7 DEDXCU = 11.85 C Thickness of materials in cm. UCCEM = 0.3 ! from Astur & Weerts UCCFH = 0.6 ! from Astur & Weerts UECEM = 0.3904 ! from Aihara (Weerts says 0.4cm) UECFH = 0.5994 ! from Astur & Ito CUCCCH = 4.648 ! from Astur & Ito CUECCH = 4.648 ! from Astur ARGCC = 0.46 ! from Astur ARGECEM = 0.4506 ! from Aihara ARGECIH = 0.4318 ! (=170mil) from Ito (estimate only) ARGEC = 0.4572 ! (=180mil) from Astur G10CC = 0.109 ! from Astur (Weerts says 0.125cm) G10ECEM = 0.43434 ! (=171mil) from Aihara G10ECIH = 0.42672 ! (=168mil) from Ito (Weerts says 170mil) G10EC = 0.1118 ! from Astur C C SF stands for sampling fraction. It varies according to C the region of the calorimeter. C DO 371 IETAC=1,39 DO 381 LAYERC=1,17 IF((IETAC.LE.13.OR.IETAC.EQ.38).AND.LAYERC.LE.7)THEN C Then in CCEM region SF(IETAC,LAYERC)=DEDXAR*ARGCC/(DEDXAR*ARGCC+DEDXU*UCCEM+ * DEDXG10*G10CC) ELSE IF(IETAC.LE.10.AND.LAYERC.GE.11.AND.LAYERC.LE.13)THEN C Then in CCFH region SF(IETAC,LAYERC)=DEDXAR*ARGCC/(DEDXAR*ARGCC+DEDXU*UCCFH+ * DEDXG10*G10CC) ELSE IF(IETAC.LE.6.AND.LAYERC.EQ.15)THEN C Then in CCCH region SF(IETAC,LAYERC)=DEDXAR*ARGCC/(DEDXAR*ARGCC+DEDXCU*CUCCCH+ * DEDXG10*G10CC) ELSE IF(((IETAC.GE.14.AND.IETAC.LE.37).OR.IETAC.EQ.39).AND. * LAYERC.LE.7)THEN C Then in ECEM SF(IETAC,LAYERC)=DEDXAR*ARGECEM/(DEDXAR*ARGECEM+DEDXU*UECEM+ * DEDXG10*G10ECEM) ELSE IF (IETAC.GE.(17+LAYERC-11).AND.IETAC.LE.37.AND.LAYERC & .GE.11.AND.LAYERC.LE.14) THEN C Then in ECIH uranium section SF(IETAC,LAYERC)=DEDXAR*ARGECIH/(DEDXAR*ARGECIH+DEDXU*UECFH+ * DEDXG10*G10ECIH) ELSE IF (IETAC.GE.20.AND.IETAC.LE.37.AND.LAYERC.EQ.15) THEN C Then in ECIH copper section SF(IETAC,LAYERC)=DEDXAR*ARGECIH/(DEDXAR*ARGECIH+DEDXCU* & CUECCH+DEDXG10*G10ECIH) ELSE IF (((IETAC.GE.LAYERC.AND.IETAC.LE.(LAYERC+5).OR.IETAC. & EQ.38.OR.IETAC.EQ.39).AND.LAYERC.GE.11.AND.LAYERC.LE.14). & OR.(IETAC.EQ.13.AND.LAYERC.EQ.14)) THEN C Then in ECMH uranium section SF(IETAC,LAYERC)=DEDXAR*ARGEC/(DEDXAR*ARGEC+DEDXU*UECFH+ * DEDXG10*G10EC) ELSE IF ((IETAC.GE.LAYERC.AND.IETAC.LE.(LAYERC+5).OR.IETAC.EQ. & 38.OR.IETAC.EQ.39).AND.LAYERC.EQ.15) THEN C Then in ECMH copper section SF(IETAC,LAYERC)=DEDXAR*ARGEC/(DEDXAR*ARGEC+DEDXCU*CUECCH+ * DEDXG10*G10EC) ELSE IF (((IETAC.GE.8.AND.IETAC.LE.(13+LAYERC-15)).OR.IETAC & .EQ.39).AND.LAYERC.GE.15) THEN C Then in ECOH SF(IETAC,LAYERC)=DEDXAR*ARGEC/(DEDXAR*ARGEC+DEDXCU*CUECCH+ * DEDXG10*G10EC) ELSE SF(IETAC,LAYERC)=0.0 END IF 381 CONTINUE 371 CONTINUE RETURN END C C SUBROUTINE CABLE INTEGER ISEC,IDEPTH,IESIGN,ILOC,JPHI,LAYERC,JPHIS,IETA REAL CABINT, CABRO,CABLEN,DUM1,DUM2,CCCAB(0:11,0:31) & ,ECCAB(0:10,0:31), CCCRO(0:11,0:31), ECCRO(12:44,0:31) & ,PI COMMON/CAB/ CABINT(2,4,17,32), CABRO(2,39,32) OPEN (UNIT=10, FILE='CCINT.CAB', STATUS='OLD') OPEN (UNIT=12, FILE='CCRO.CAB', STATUS='OLD') C Read in values which use the "Cable (HSEFD)" system of C coordinates. 14 READ(10,*,END=16) DUM1,ISEC,IDEPTH,CABLEN,DUM2 CCCAB(IDEPTH,ISEC) = CABLEN GO TO 14 16 CONTINUE C DO 24 I=0,36,12 DO 26 IETA=0,11 READ(12,*) CCCRO(IETA,I),CCCRO(IETA,I+1),CCCRO(IETA,I+2) & ,CCCRO(IETA,I+3),CCCRO(IETA,I+4),CCCRO(IETA,I+5) & ,CCCRO(IETA,I+6),CCCRO(IETA,I+7) 26 CONTINUE 24 CONTINUE C C Translate to a modified offline addressing scheme where: C JPHI = IPHIC / 2 C IESIGN = 1 if IETAC is positive (south calorimeter) C IESIGN = 2 if IETAC is negative (north calorimeter) C ILOC = 1 if in the CCEM,CCFH,CCCH,CCMG or IDC region C ILOC = 2 if in the ECEM,ECIH or ECMG region C ILOC = 3 if in the ECMH region C ILOC = 4 if in the ECOH region C DO 10 IDEPTH = 0,11 DO 20 ISEC = 0,31 IF (IDEPTH.LE.6) LAYERC = IDEPTH + 1 IF (IDEPTH.GE.7.AND.IDEPTH.LE.9) LAYERC = IDEPTH + 4 IF (IDEPTH.EQ.10) LAYERC = 15 IF (IDEPTH.EQ.11) LAYERC = 8 ! The massless gap C The cable system is rotated 90 deg. in phi from C the offline system. IF (ISEC.LE.23) THEN CABINT(2,1,LAYERC,ISEC+9) = CCCAB(IDEPTH,ISEC) ELSE CABINT(2,1,LAYERC,ISEC-23) = CCCAB(IDEPTH,ISEC) ENDIF 20 CONTINUE 10 CONTINUE C DO 40 ISEC = 0,31 DO 30 IETA = 0,11 C The cable system is rotated 90 deg. in phi from C the offline system. IF (ISEC.LE.23) THEN CABRO(2,IETA+1,ISEC+9) = CCCRO(IETA,ISEC) ELSE CABRO(2,IETA+1,ISEC-23) = CCCRO(IETA,ISEC) ENDIF 30 CONTINUE IF (ISEC.LE.23) THEN CABRO(2,38,ISEC+9) = CCCRO(11,ISEC) ELSE CABRO(2,38,ISEC-23) = CCCRO(11,ISEC) ENDIF 40 CONTINUE C C The ISEC's (phi dirrection) run in the opposite direction on C the south side of the calorimeter in the cable system but C not in the offline system. I compensate for that here. C DO 19 LAYERC = 1,17 DO 29 ILOC = 1,4 JPHIS = 16 DO 39 JPHI = 1,8 CABINT(1,1,LAYERC,JPHIS) = CABINT(2,1,LAYERC,JPHI) JPHIS = JPHIS - 1 39 CONTINUE JPHIS = 8 DO 49 JPHI = 9,16 CABINT(1,1,LAYERC,JPHIS) = CABINT(2,1,LAYERC,JPHI) JPHIS = JPHIS - 1 49 CONTINUE JPHIS = 32 DO 59 JPHI = 17,32 CABINT(1,1,LAYERC,JPHIS) = CABINT(2,1,LAYERC,JPHI) JPHIS = JPHIS - 1 59 CONTINUE 29 CONTINUE 19 CONTINUE C DO 18 IETAC= 1,39 JPHIS = 16 DO 38 JPHI = 1,8 CABRO(1,IETAC,JPHIS) = CABRO(2,IETAC,JPHI) JPHIS = JPHIS - 1 38 CONTINUE JPHIS = 8 DO 48 JPHI = 9,16 CABRO(1,IETAC,JPHIS) = CABRO(2,IETAC,JPHI) JPHIS = JPHIS - 1 48 CONTINUE JPHIS = 32 DO 58 JPHI = 17,32 CABRO(1,IETAC,JPHIS) = CABRO(2,IETAC,JPHI) JPHIS = JPHIS - 1 58 CONTINUE 18 CONTINUE C C WARNING: The cable lengths for the end cap do not exist yet!!! C The following lines are just a way to esimate these C lengths. The real lengths will have to be put in later. C PI = 3.141592654 DO 110 JPHI = 1,32 IF (JPHI.LE.8) THEN JPHIS = ABS(JPHI-3) ELSEIF (JPHI.GE.25) THEN JPHIS = 35 - JPHI ELSE JPHIS = ABS(JPHI-14) ENDIF DO 120 LAYERC = 1,7 CABINT(1,2,LAYERC,JPHI) = 150 + 40 * JPHIS * PI/32 CABINT(2,2,LAYERC,JPHI) = 150 + 40 * JPHIS * PI/32 120 CONTINUE DO 130 LAYERC = 11,14 CABINT(1,2,LAYERC,JPHI) = 140 + 40 * JPHIS * PI/32 CABINT(2,2,LAYERC,JPHI) = 140 + 40 * JPHIS * PI/32 CABINT(1,3,LAYERC,JPHI) = 140 + 60 * JPHIS * PI/32 CABINT(2,3,LAYERC,JPHI) = 140 + 60 * JPHIS * PI/32 130 CONTINUE DO 140 LAYERC = 15,17 CABINT(1,4,LAYERC,JPHI) = 140 + 60 * JPHIS * PI/32 CABINT(2,4,LAYERC,JPHI) = 140 + 60 * JPHIS * PI/32 140 CONTINUE DO 150 IETA = 12,39 CABRO(1,IETA,JPHI) = 65 CABRO(2,IETA,JPHI) = 65 150 CONTINUE 110 CONTINUE RETURN END C C SUBROUTINE LOCATE(RG,IRG,I,J,CAP) C This subroutine, given an eta and depth coordinate, returns the C region in which this coordinate is located. If it is empty it C returns 'none'. NOTE: This subroutine depends on the array caps C already having been filled. CHARACTER*4 RG INTEGER I,J,IRG REAL CAP IF ((I.LE.12.OR.I.EQ.38).AND.J.LE.7) THEN RG = 'CCEM' IRG = 1 ENDIF IF (I.LE.10.AND.J.GE.11.AND.J.LE.13) THEN RG = 'CCFH' IRG = 2 ENDIF IF (I.LE.6.AND.J.EQ.15) THEN RG = 'CCCH' IRG = 3 ENDIF IF (((I.GE.14.AND.I.LE.35).OR.I.EQ.39).AND.J.LE.7) THEN RG = 'ECEM' IRG = 4 ENDIF IF (I.GE.(17+J-11).AND.J.GE.11) THEN RG = 'ECIH' IRG = 5 ENDIF IF (I.GE.J.AND.I.LE.(J+5).AND.J.GE.11) THEN RG = 'ECMH' IRG = 6 ENDIF IF (I.GE.8.AND.I.LE.(13+J-15).AND.J.GE.15) THEN RG = 'ECOH' IRG = 7 ENDIF IF (J.EQ.8) THEN RG = 'CCMG' IRG = 8 ENDIF IF (J.EQ.9) THEN RG = 'IDC ' IRG = 9 ENDIF IF (J.EQ.10) THEN RG = 'ECMG' IRG = 10 ENDIF IF (CAP.EQ.-1.0) THEN RG = 'NONE' IRG = -1 ENDIF RETURN END C C SUBROUTINE TRIGGER(L1ETAC,L1PHIC,PLACE,TRTCAP,TRUNS,TRELNS &,TRTNS,TAU,GAREA) C C The TRIGGER subroutine sums the capacitance, area and noise C values of all the readout channels in a trigger tower. C INTEGER L1ETAC, L1PHIC, I, J, ILBEG, ILEND, IEBEG, IEEND &, IETAC, LAYERC, IRG REAL TCAP, UNOISE, ELNOISE, TNOISE, TRUNS, TRELNS, TRTNS, TAU REAL AREA, GAREA, SF, TRTCAP, CAPS, JETAC CHARACTER*2 PLACE CHARACTER*4 REGION COMMON/ARRAYS/ CAPS(39,17),AREA(39,17),SF(39,17) TRUNS = 0 TRELNS = 0 TRTNS = 0 GAREA = 0 TRTCAP = 0 C The electromagnetic section goes from layers 1-7. C The fine hadronic section goes from layer 11-14. IF (PLACE.EQ.'EM') THEN ILBEG = 1 ILEND = 7 ELSE ILBEG = 11 ILEND = 14 ENDIF C Here the summation limits are set in the eta coordinate. C There are two IETAC values for each L1ETAC value up to C L1ETAC=16 after which they are one to one. C IF (L1ETAC.GE.1) THEN IF (L1ETAC.LE.16) THEN IEBEG = L1ETAC * 2 - 1 IEEND = L1ETAC * 2 J = 2 ELSE IEBEG = 16 + L1ETAC IEEND = IEBEG J = 1 ENDIF ELSE IF (L1ETAC.GE.-16) THEN IEBEG = L1ETAC * 2 IEEND = L1ETAC * 2 + 1 J = 2 ELSE IEBEG = -16 + L1ETAC IEEND = IEBEG J = 1 ENDIF ENDIF CALL LOCATE(REGION,IRG,IEBEG,ILBEG,CAPS(IEBEG,ILBEG)) DO 10 LAYERC = ILBEG,ILEND DO 20 IETAC = IEBEG,IEEND JETAC = JETA(IETAC) IF (CAPS(JETAC,LAYERC).EQ.-1.0) GO TO 20 CALL NOISES(IETAC,LAYERC,L1PHIC,TCAP,UNOISE,ELNOISE,TNOISE & ,TAU,IRG) C The summations are done here. Summing over phi is done simply by C multiplying by J=2 since both phi's have been approximated to C be the same. If L1ETAC>16 then there is only one phi value in C a trigger tower so J=1. C TRUNS = TRUNS + J * UNOISE**2 TRELNS = TRELNS + J * ELNOISE**2 TRTNS = TRTNS + J * (TNOISE)**2 TRTCAP = TRTCAP + J * TCAP GAREA = GAREA + J * AREA(JETAC,LAYERC) 20 CONTINUE 10 CONTINUE TRUNS = SQRT(TRUNS) TRELNS = SQRT(TRELNS) TRTNS = SQRT(TRTNS) RETURN END C C SUBROUTINE NOISES(IETAC,LAYERC,JPHI,TCAP,UNOISE,ELNOISE, &TNOISE,TAU,IRG) INTEGER IETAC, LAYERC, I, J, JPHI, IESIGN, ILOC, IRG REAL TCAP, UNOISE, ELNOISE, TNOISE, TAU, CAPS, AREA, SF, AREAM2 &, S, CABINT, CABRO, CAPNF, JETAC, DNDC COMMON/ARRAYS/ CAPS(39,17),AREA(39,17),SF(39,17) COMMON/CAB/ CABINT(2,4,17,32), CABRO(2,39,32) C See comments in the locate and cable subroutines for definitions C of IRG and ILOC. IF (IRG.EQ.1.OR.IRG.EQ.2.OR.IRG.EQ.3.OR.IRG.EQ.8.OR.IRG.EQ.9) & ILOC = 1 IF (IRG.EQ.4.OR.IRG.EQ.5.OR.IRG.EQ.10) ILOC = 2 IF (IRG.EQ.6) ILOC = 3 IF (IRG.EQ.7) ILOC = 4 C Find the total capacitance. C Note, the internal cable capacitance is 55 pF/foot , the read out C cable capacitance is approximately 19 pF/foot and the cable C lengths are in inches. C IESIGN = 1 IF (IETAC.LT.0) IESIGN = 2 JETAC = JETA(IETAC) TCAP = CAPS(JETAC,LAYERC) + CABINT(IESIGN,ILOC,LAYERC,JPHI)*55/12 & + CABRO(IESIGN,JETAC,JPHI)*19/12 C Select the scope of the contribution to electronic noise. IF (JPHI.EQ.0) TCAP=CAPS(JETAC,LAYERC) C C Find the uranium noise. C AREAM2 = AREA(JETAC,LAYERC)/1550.0031 ! AREA IN METERS**2 UNOISE = 0.0 ! SET DEFAULT IF(LAYERC.GE.15)GO TO 98 C Then there is copper there and no uranium noise. S = SF(JETAC,LAYERC) IF (S.EQ.0.) S = 1000.0 ! This avoids dividing by zero. UNOISE = 0.12*SQRT(AREAM2*TAU)/S 98 CONTINUE C C Find the electronic noise. Capacitance needs to be converted C from pF to nF. The formula is taken from D0 note 459 page 4 C which assumes a sampling time of 3500 ns. DNDC scales as C one over the square root of the sampling time. C CAPNF = TCAP / 1000. DNDC = 0.38 * SQRT(3500.0) / SQRT(TAU) ELNOISE = (0.22 + DNDC*CAPNF) / S C C Find total incoherent (random) noise. TNOISE = SQRT(UNOISE*UNOISE+ELNOISE*ELNOISE) RETURN END ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ CCINT.CAB ~~~~~~~~~ 319.01, 15, 0, 319, -0.01 31.6, 15, 1, 319, 1.4 315.85, 15, 2, 319, 3.15 314.8, 15, 3, 319, 4.22 313.72, 15, 4, 319, 5.28 312.65, 15, 5, 319, 6.35 310.23, 15, 6, 319, 8.77 319.01, 16, 0, 319, -0.01 317.6, 16, 1, 319, 1.4 315.85, 16, 2, 319, 3.15 314.78, 16, 3, 319, 4.22 313.72, 16, 4, 319, 5.28 312.65, 16, 5, 319, 6.35 310.23, 16, 6, 319, 8.77, 14 296.37, 14, 0, 296.5, 0.13 294.95, 14, 1, 296.5, 1.55 293.19, 14, 2, 296.5, 3.31 292.11, 14, 3, 296.5, 4.39 291.04, 14, 4, 296.5, 5.46 289.96, 14, 5, 296.5, 6.54 287.53, 14, 6, 296.5, 8.97 296.37, 17, 0, 296.5, 0.13 294.95, 17, 1, 296.5, 1.55 293.19, 17, 2, 296.5, 3.31 292.11, 17, 3, 296.5, 4.39 291.04, 17, 4, 296.5, 5.46 289.96, 17, 5, 296.5, 6.54 287.53, 17, 6, 296.5, 8.97, 14 288.86, 15, 11, 289, 0.14 288.86, 16, 11, 289, 0.14, 2 284.51, 13, 0, 284.5, -0.01 283.06, 13, 1, 284.5, 1.44 281.27, 13, 2, 284.5, 3.23 280.17, 13, 3, 284.5, 4.33 279.07, 13, 4, 284.5, 5.43 277.96, 13, 5, 284.5, 6.54 275.49, 13, 6, 284.5, 9.01 284.51, 18, 0, 284.5, -0.01 283.06, 18, 1, 284.5, 1.44 281.27, 18, 2, 284.5, 3.23 280.17, 18, 3, 284.5, 4.33 279.07, 18, 4, 284.5, 5.43 277.96, 18, 5, 284.5, 6.54 275.49, 18, 6, 284.5, 9.01, 14 275.82, 11, 0, 276, 0.18 274.39, 11, 1, 276, 1.61 272.62, 11, 2, 276, 3.38 271.53, 11, 3, 276, 4.47 270.45, 11, 4, 276, 5.55 269.36, 11, 5, 276, 6.64 266.9, 11, 6, 276, 9.1 275.82, 20, 0, 276, 0.18 274.39, 20, 1, 276, 1.61 272.62, 20, 2, 276, 3.38 271.53, 20, 3, 276, 4.47 270.45, 20, 4, 276, 5.55 269.36, 20, 5, 276, 6.64 266.9, 20, 6, 276, 9.1, 14 266.11, 14, 11, 266.5, 0.39 266.11, 17, 11, 266.5, 0.39, 2 260.65, 12, 0, 261, 0.35 259.19, 12, 1, 261, 1.81 257.39, 12, 2, 261, 3.61 256.27, 12, 3, 261, 4.73 255.17, 12, 4, 261, 5.83 254.05, 12, 5, 261, 6.95 251.57, 12, 6, 261, 9.43 260.65, 19, 0, 261, 0.35 259.19, 19, 1, 261, 1.81 257.39, 19, 2, 261, 3.61 256.27, 19, 3, 261, 4.73 255.17, 19, 4, 261, 5.83 254.05, 19, 5, 261, 6.95 251.57, 19, 6, 261, 9.43, 14 253.74, 0, 0, 254, 0.26 252.68, 0, 1, 254, 1.32 251.28, 0, 2, 254, 2.72 250.56, 0, 3, 254, 3.44 249.86, 0, 4, 254, 4.14 249.14, 0, 5, 254, 4.86 247.06, 0, 6, 254, 6.94 253.93, 13, 11, 254, 0.07 253.93, 18, 11, 254, 0.07 253.74, 31, 0, 254, 0.26 252.68, 31, 1, 254, 1.32 251.28, 31, 2, 254, 2.72 250.56, 31, 3, 254, 3.44 249.86, 31, 4, 254, 4.14 249.14, 31, 5, 254, 4.86 247.06, 31, 6, 254, 6.94, 16 245.43, 11, 11, 245.5, 0.07 245.43, 20, 11, 245.5, 0.07, 2 242.67, 1, 0, 243, 0.33 241.67, 1, 1, 243, 1.33 240.32, 1, 2, 243, 2.68 239.66, 1, 3, 243, 3.34 239.01, 1, 4, 243, 3.99 238.34, 1, 5, 243, 4.66 236.32, 1, 6, 243, 6.68 242.67, 30, 0, 243, 0.33 241.67, 30, 1, 243, 1.33 240.32, 30, 2, 243, 2.68 239.66, 30, 3, 243, 3.34 239.01, 30, 4, 243, 3.99 238.34, 30, 5, 243, 4.66 236.32, 30, 6, 243, 6.68, 14 227.46, 0, 11, 229.5, 2.04 229.96, 12, 11, 229.5, -0.46 229.96, 19, 11, 229.5, -0.46 227.46, 31, 11, 229.5, 2.04, 4 216.98, 1, 11, 219, 2.02 218.86, 10, 0, 219, 0.14 217.4, 10, 1, 219, 1.6 215.6, 10, 2, 219, 3.4 214.48, 10, 3, 219, 4.52 213.37, 10, 4, 219, 5.63 212.25, 10, 5, 219, 6.75 209.77, 10, 6, 219, 9.23 218.86, 21, 0, 219, 0.14 217.4, 21, 1, 219, 1.6 215.6, 21, 2, 219, 3.4 214.48, 21, 3, 219, 4.52 213.37, 21, 4, 219, 5.63 212.25, 21, 5, 219, 6.75 209.77, 21, 6, 219, 9.23 216.98, 30, 11, 219, 2.02, 16 215.72, 2, 0, 216, 0.28 214.67, 2, 1, 216, 1.33 213.28, 2, 2, 216, 2.72 212.57, 2, 3, 216, 3.43 211.87, 2, 4, 216, 4.13 211.16, 2, 5, 216, 4.84 209.09, 2, 6, 216, 6.91 215.72, 29, 0, 216, 0.28 214.67, 29, 1, 216, 1.33 213.28, 29, 2, 216, 2.72 212.57, 29, 3, 216, 3.43 211.87, 29, 4, 216, 4.13 211.16, 29, 5, 216, 4.84 209.09, 29, 6, 216, 6.91, 14 211.86, 9, 0, 212, 0.14 210.4, 9, 1, 212, 1.6 208.61, 9, 2, 212, 3.39 207.49, 9, 3, 212, 4.51 206.38, 9, 4, 212, 5.62 205.27, 9, 5, 212, 6.73 202.79, 9, 6, 212, 9.21 211.86, 22, 0, 212, 0.14 210.4, 22, 1, 212, 1.6 208.61, 22, 2, 212, 3.39 207.49, 22, 3, 212, 4.51 206.38, 22, 4, 212, 5.62 205.27, 22, 5, 212, 6.73 202.79, 22, 6, 212, 9.21, 14 203.77, 3, 0, 204, 0.23 202.78, 3, 1, 204, 1.22 201.44, 3, 2, 204, 2.56 200.78, 3, 3, 204, 3.22 200.13, 3, 4, 204, 3.87 199.47, 3, 5, 204, 4.53 197.46, 3, 6, 204, 6.54 203.77, 28, 0, 204, 0.23 202.78, 28, 1, 204, 1.22 201.44, 28, 2, 204, 2.56 200.78, 28, 3, 204, 3.22 200.13, 28, 4, 204, 3.87 199.47, 28, 5, 204, 4.53 197.46, 28, 6, 204, 6.54, 14 189.51, 2, 11, 191, 1.49 190.75, 8, 0, 191, 0.25 189.28, 8, 1, 191, 1.72 187.48, 8, 2, 191, 3.52 186.35, 8, 3, 191, 4.65 185.24, 8, 4, 191, 5.76 184.11, 8, 5, 191, 6.89 181.62, 8, 6, 191, 9.38 188.14, 10, 11, 191, 2.86 188.14, 21, 11, 191, 2.86 190.75, 23, 0, 191, 0.25 189.28, 23, 1, 191, 1.72 187.48, 23, 2, 191, 3.52 186.35, 23, 3, 191, 4.65 185.24, 23, 4, 191, 5.76 184.11, 23, 5, 191, 6.89 181.62, 23, 6, 191, 9.38 189.51, 29, 11, 191, 1.49, 18 178.15, 3, 11, 180, 1.85 179.95, 7, 0, 180, 0.05 178.44, 7, 1, 180, 1.56 176.6, 7, 2, 180, 3.4 175.44, 7, 3, 180, 4.56 174.28, 7, 4, 180, 5.72 173.12, 7, 5, 180, 6.88 170.59, 7, 6, 180, 9.41 181.2, 9, 11, 180, -1.2 181.2, 22, 11, 180, -1.2 179.95, 24, 0, 180, 0.05 178.44, 24, 1, 180, 1.56 176.6, 24, 2, 180, 3.4 175.44, 24, 3, 180, 4.56 174.28, 24, 4, 180, 5.72 173.12, 24, 5, 180, 6.88 170.59, 24, 6, 180, 9.41 178.15, 28, 11, 180, 1.85, 18 177.47, 4, 0, 177.5, 0.03 176.4, 4, 1, 177.5, 1.1 174.99, 4, 2, 177.5, 2.51 174.26, 4, 3, 177.5, 3.24 173.54, 4, 4, 177.5, 3.96 172.81, 4, 5, 177.5, 4.69 170.73, 4, 6, 177.5, 6.77 177.47, 27, 0, 177.5, 0.03 176.4, 27, 1, 177.5, 1.1 174.99, 27, 2, 177.5, 2.51 174.26, 27, 3, 177.5, 3.24 173.54, 27, 4, 177.5, 3.96 172.81, 27, 5, 177.5, 4.69 170.73, 27, 6, 177.5, 6.77, 14 159.22, 6, 0, 159.5, 0.28 157.7, 6, 1, 159.5, 1.8 155.85, 6, 2, 159.5, 3.65 154.67, 6, 3, 159.5, 4.83 153.51, 6, 4, 159.5, 5.99 152.34, 6, 5, 159.5, 7.16 149.8, 6, 6, 159.5, 9.7 159.98, 8, 11, 159.5, -0.48 159.98, 23, 11, 159.5, -0.48 159.22, 25, 0, 159.5, 0.28 157.7, 25, 1, 159.5, 1.8 155.85, 25, 2, 159.5, 3.65 154.67, 25, 3, 159.5, 4.83 153.51, 25, 4, 159.5, 5.99 152.34, 25, 5, 159.5, 7.16 149.8, 25, 6, 159.5, 9.7, 16 151.06, 4, 11, 150, -1.06 149.55, 5, 0, 150, 0.45 148.04, 5, 1, 150, 1.96 146.18, 5, 2, 150, 3.82 145.01, 5, 3, 150, 4.99 143.85, 5, 4, 150, 6.15 142.68, 5, 5, 150, 7.32 140.14, 5, 6, 150, 9.86 148.75, 7, 11, 150, 1.25 148.75, 24, 11, 150, 1.25 143.85, 26, 4, 150, 6.15 149.55, 26, 0, 150, 0.45 148.04, 26, 1, 150, 1.96 146.18, 26, 2, 150, 3.82 145.01, 26, 3, 150, 4.99 142.68, 26, 5, 150, 7.32 140.14, 26, 6, 150, 9.86 151.06, 27, 11, 150, -1.06, 18 127.91, 6, 11, 128, 0.09 127.91, 25, 11, 128, 0.09, 2 118.26, 5, 11, 118.5, 0.24 118.26, 26, 11, 118.5, 0.24, 2 310.19, 15, 7, 310.5, 0.31 307.67, 16, 7, 310.5, 2.83, 2 300.74, 15, 8, 301, 0.26 298.22, 16, 8, 301, 2.78, 2 293.59, 15, 9, 293.5, -0.09 291.06, 16, 9, 293.5, 2.44, 2 284.96, 14, 7, 287.5, 2.54 283.94, 16, 10, 287.5, 3.56 287.48, 17, 7, 287.5, 0.02, 3 275.41, 13, 7, 279.5, 4.09 275.5, 14, 8, 279.5, 4 279.42, 15, 10, 279.5, 0.08 278.02, 17, 8, 279.5, 1.48, 4 270.84, 11, 7, 273, 2.16 268.33, 14, 9, 273, 4.67 270.86, 17, 9, 273, 2.14 272.89, 18, 7, 273, 0.11 268.32, 20, 7, 273, 4.68, 5 261.37, 11, 8, 266, 4.63 265.93, 13, 8, 266, 0.07 261.2, 14, 10, 266, 4.8 263.41, 18, 8, 266, 2.59, 4 254.2, 11, 9, 259, 4.8 258.74, 13, 9, 259, 0.26 256.68, 17, 10, 259, 2.32 256.21, 18, 9, 259, 2.79 258.85, 20, 8, 259, 0.15, 5 248.96, 12, 7, 252, 3.04 249.05, 18, 10, 252, 2.95 251.48, 19, 7, 252, 0.52 251.67, 20, 9, 252, 0.33 247.38, 31, 7, 252, 4.62, 5 244.86, 0, 7, 245, 0.14 240.01, 11, 10, 245, 4.99 239.46, 12, 8, 245, 5.54 244.53, 13, 10, 245, 0.47 241.98, 19, 8, 245, 3.02 244.53, 20, 10, 245, 0.47, 6 235.76, 0, 8, 238.5, 2.74 236.69, 1, 7, 238.5, 1.81 234.78, 19, 9, 238.5, 3.72 234.17, 30, 7, 238.5, 4.33 238.28, 31, 8, 238.5, 0.22, 5 228.95, 0, 9, 232.5, 3.55 227.64, 1, 8, 232.5, 4.86 232.25, 12, 9, 232.5, 0.25 231.48, 31, 9, 232.5, 1.02, 4 222.18, 0, 10, 225.5, 3.32 220.9, 1, 9, 225.5, 4.6 225.09, 12, 10, 225.5, 0.41 220.57, 19, 10, 225.5, 4.93 225.12, 30, 8, 225.5, 0.38, 5 218.37, 30, 9, 218.5, 0.13 217.66, 31, 10, 218.5, 0.84, 2 207.13, 1, 10, 212, 4.87 206.88, 2, 7, 212, 5.12 207.15, 10, 7, 212, 4.85 209.67, 21, 7, 212, 2.33 209.4, 29, 7, 212, 2.6 211.65, 30, 10, 212, 0.35, 6 197.79, 2, 8, 203, 5.21 197.83, 3, 7, 203, 5.17 202.71, 9, 7, 203, 0.29 197.65, 10, 8, 203, 5.35 200.17, 21, 8, 203, 2.83 200.19, 22, 7, 203, 2.81 200.31, 29, 8, 203, 2.69, 7 190.99, 2, 9, 195.5, 4.51 193.21, 9, 8, 195.5, 2.29 190.44, 10, 9, 195.5, 5.06 192.97, 21, 9, 195.5, 2.53 190.69, 22, 8, 195.5, 4.81 195.31, 28, 7, 195.5, 0.19 193.52, 29, 9, 195.5, 1.98, 7 184.23, 2, 10, 189, 4.77 188.79, 3, 8, 189, 0.21 186.02, 9, 9, 189, 2.98 187.27, 10, 10, 189, 1.73 183.49, 22, 9, 189, 5.51 186.27, 28, 8, 189, 2.73, 6 182.05, 3, 9, 183, 0.95 179.01, 8, 7, 183, 3.99 182.75, 21, 10, 183, 0.25 181.53, 23, 7, 183, 1.47 179.52, 28, 9, 183, 3.48 179.71, 29, 10, 183, 3.29, 6 170.46, 7, 7, 176.5, 6.04 171.8, 9, 10, 176.5, 4.7 176.32, 22, 10, 176.5, 0.18 172.02, 23, 8, 176.5, 4.48 171.03, 27, 7, 176.5, 5.47 172.81, 28, 10, 176.5, 3.69, 6 168.29, 3, 10, 169.5, 1.21 168.51, 4, 7, 169.5, 0.99 169.5, 8, 8, 169.5, 0 164.82, 23, 9, 169.5, 4.68 167.94, 24, 7, 169.5, 1.56, 5 159.4, 4, 8, 162.5, 3.1 160.91, 7, 8, 162.5, 1.59 162.29, 8, 9, 162.5, 0.21 158.39, 24, 8, 162.5, 4.11 161.92, 27, 8, 162.5, 0.58, 5 152.58, 4, 9, 155.5, 2.92 153.67, 7, 9, 155.5, 1.83 155.11, 8, 10, 155.5, 0.39 150.59, 23, 10, 155.5, 4.91 151.14, 24, 9, 155.5, 4.36 149.66, 25, 7, 155.5, 5.84 155.11, 27, 9, 155.5, 0.39, 7 145.8, 4, 10, 147.5, 1.7 147.14, 6, 7, 147.5, 0.36 143.93, 24, 10, 147.5, 3.57 141.28, 27, 10, 147.5, 6.22, 4 140, 5, 7, 140.5, 0.5 137.58, 6, 8, 140.5, 2.92 139.41, 7, 10, 140.5, 1.09 140.1, 25, 8, 140.5, 0.4 137.48, 26, 7, 140.5, 3.02, 5 130.45, 5, 8, 133, 2.55 130.32, 6, 9, 133, 2.68 132.85, 25, 9, 133, 0.15 127.93, 26, 8, 133, 5.07, 4 123.2, 5, 9, 123.5, 0.3 123.09, 6, 10, 123.5, 0.41 118.57, 25, 10, 123.5, 4.93 120.67, 26, 9, 123.5, 2.83, 4 108.92, 5, 10, 113.5, 4.58 113.44, 26, 10, 113.5, 0.06, 2 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ CCRO.CAB ~~~~~~~~ 53.25, 65.06, 60.94, 63.50, 68.19, 62.50, 76.00, 61.44,, 52.80, 64.70, 60.56, 64.09, 67.94, 62.85, 75.61, 61.71,, 52.72, 64.59, 60.49, 64.92, 67.95, 63.52, 75.48, 62.36,, 52.95, 64.97, 60.86, 66.01, 68.20, 64.62, 75.84, 63.32,, 53.24, 65.11, 61.91, 67.03, 68.40, 66.41, 75.95, 64.34,, 53.60, 65.56, 62.35, 68.43, 68.97, 67.57, 76.38, 65.43,, 53.96, 65.88, 62.72, 69.51, 69.22, 68.68, 76.68, 66.51,, 54.44, 66.27, 63.09, 70.91, 69.79, 69.78, 77.05, 67.72,, 54.80, 66.47, 63.45, 72.81, 70.86, 70.88, 77.22, 68.81,, 55.28, 66.98, 63.95, 74.02, 71.24, 72.11, 77.71, 70.02,, 55.70, 67.18, 64.38, 75.23, 71.62, 73.27, 77.89, 71.16,, 56.31, 67.63, 64.75, 76.50, 72.06, 74.38, 78.31, 72.50,, 67.81, 69.69, 74.56, 67.31, 80.44, 66.00, 89.63, 64.31 67.24, 70.12, 74.11, 67.85, 80.21, 66.38, 89.29, 64.61 67.04, 70.80, 73.98, 68.63, 80.23, 67.06, 89.20, 65.29 67.15, 71.98, 74.28, 69.66, 80.51, 68.19, 89.62, 66.28 67.33, 72.91, 75.27, 70.64, 80.72, 70.00, 89.78, 67.33 67.57, 74.16, 75.63, 71.98, 81.30, 71.19, 90.26, 68.44 67.81, 75.28, 75.93, 73.02, 81.57, 72.31, 90.61, 69.56 68.17, 76.46, 76.23, 74.36, 82.16, 73.44, 91.03, 70.80 68.41, 77.45, 76.53, 76.21, 83.24, 74.56, 91.26, 71.91 68.77, 78.76, 76.96, 77.37, 83.64, 75.81, 91.80, 73.15 69.07, 79.76, 77.32, 78.53, 84.04, 77.00, 92.02, 74.32 69.56, 81.00, 77.63, 79.75, 84.50, 78.13, 92.50, 75.69 83.56, 69.38, 75.69, 69.69, 69.44, 69.69, 62.69, 71.56 83.16, 69.65, 75.40, 70.06, 68.98, 70.21, 62.15, 71.94 83.01, 70.30, 75.37, 70.75, 68.83, 70.98, 61.99, 72.56 83.35, 71.26, 75.59, 71.88, 69.12, 72.01, 62.15, 73.69 83.45, 72.28, 75.74, 73.69, 70.10, 72.97, 62.36, 74.56 83.86, 73.36, 76.27, 74.88, 70.45, 74.30, 62.64, 75.75 84.14, 74.45, 76.48, 76.00, 70.74, 75.32, 62.92, 76.81 84.49, 75.66, 77.01, 77.13, 71.03, 76.66, 63.32, 77.94 84.65, 76.74, 78.04, 78.25, 71.32, 78.49, 63.60, 78.88 85.12, 77.95, 78.38, 79.50, 71.73, 79.64, 64.01, 80.13 85.28, 79.10, 78.72, 80.69, 72.09, 80.79, 64.35, 81.06 85.69, 80.44, 79.13, 81.81, 72.38, 82.00, 64.88, 82.25 72.50, 59.00, 64.38, 58.88, 57.50, 59.44, 51.13, 67.31 72.13, 59.25, 64.14, 59.24, 57.11, 59.97, 50.61, 66.99 72.01, 59.88, 64.16, 59.91, 57.04, 60.74, 50.48, 66.91 72.39, 60.81, 64.43, 61.03, 57.40, 61.77, 50.65, 67.34 72.52, 61.81, 64.63, 62.83, 58.45, 62.74, 50.89, 67.52 72.97, 62.88, 65.21, 64.01, 58.88, 64.08, 51.19, 68.01 73.28, 63.94, 65.48, 65.12, 59.24, 65.11, 51.49, 68.37 73.66, 65.13, 66.06, 66.23, 59.61, 66.45, 51.92, 68.80 73.86, 66.19, 67.14, 67.35, 59.97, 68.29, 52.22, 69.03 74.36, 67.38, 67.53, 68.59, 60.46, 69.44, 52.65, 69.59 74.56, 68.50, 67.92, 69.76, 60.89, 70.60, 53.01, 69.82 75.00, 69.81, 68.38, 70.88, 61.25, 71.81, 53.56, 70.31