èŠ‚ç‚¹æ–‡çŒ®

åŸºäºŽå±€éƒ¨ä¿¡æ¯ä¼˜å…ˆçš„ä»£æ•°å¤šé‡ç½‘æ ¼ç²—åŒ–ç–ç•¥

A Grid Coarsening Strategy for Algebraic Multigrid Method Based on Local Information Priority Principle

æŽ¨è CAJä¸‹è½½
PDFä¸‹è½½
ä¸æ”¯æŒè¿…é›·ç‰ä¸‹è½½å·¥å…·ï¼Œè¯·å–æ¶ˆåŠ é€Ÿå·¥å…·åŽä¸‹è½½ã€‚

ã€ä½œè€…ã€‘ æŽæ•¬æ³•ï¼› å®‹å…‹ä¼Ÿï¼› çŽ‹è‰ºï¼› å®‡æ³¢ï¼›

ã€Authorã€‘ LI Jing-Fa;SONG Ke-Wei;WANG Yi;YU Bo;National Engineering Laboratory for Pipeline Safety/Beijing Key Laboratory of Urban Oil and Gas Distribution Technology,China University of Petroleum(Beijing);Key Laboratory of Railway Vehicle Thermal Engineering,Ministry of Education,Lanzhou Jiaotong University;School of Mechanical Engineering,Beijing Institute of Petrochemical Technology;

ã€æœºæž„ã€‘ ä¸å›½çŸ³æ²¹å¤§å¦(åŒ—äº¬)æœºæ¢°ä¸Žå‚¨è¿å·¥ç¨‹å¦é™¢æ²¹æ°”ç®¡é“è¾“é€å®‰å…¨å›½å®¶å·¥ç¨‹å®žéªŒå®¤/åŸŽå¸‚æ²¹æ°”è¾“é…æŠ€æœ¯åŒ—äº¬å¸‚é‡ç‚¹å®žéªŒå®¤ï¼› å…°å·žäº¤é€šå¤§å¦æœºç”µå¦é™¢é“é“è½¦è¾†çƒå·¥æ•™è‚²éƒ¨é‡ç‚¹å®žéªŒå®¤ï¼› åŒ—äº¬çŸ³æ²¹åŒ–å·¥å¦é™¢æœºæ¢°å·¥ç¨‹å¦é™¢ï¼›

ã€æ‘˜è¦ã€‘ ç½‘æ ¼ç²—åŒ–æ˜¯å®žæ–½ä»£æ•°å¤šé‡ç½‘æ ¼æ–¹æ³•çš„é‡è¦æ¥éª¤ä¹‹ä¸€ã€‚åœ¨ç½‘æ ¼ç²—åŒ–è¿‡ç¨‹ä¸,å½“å‡ºçŽ°å¤šä¸ªæœ€å¤§é›†åˆåŠ¿ç›¸åŒçš„ç½‘æ ¼ç‚¹æ—¶,ç»å…¸ç½‘æ ¼ç²—åŒ–ç–ç•¥ä¸çš„é›†åˆåŠ¿å¹¶ä¸èƒ½ç²¾ç¡®è¡¨å¾ç½‘æ ¼ç‚¹çš„æ•´ä½“å¼ºå¼±è¿žæŽ¥å¼ºåº¦,å¯¼è‡´ç½‘æ ¼ç²—åŒ–è·¯å¾„ä¸å”¯ä¸€å¹¶å½±å“åŽç»æ±‚è§£é˜¶æ®µçš„è®¡ç®—æ•ˆçŽ‡ã€‚ä¸ºå…‹æœè¿™ä¸€ä¸è¶³,æœ¬æ–‡æå‡ºäº†ä¸€ç§åŸºäºŽå±€éƒ¨ä¿¡æ¯ä¼˜å…ˆåŽŸåˆ™çš„ç½‘æ ¼ç²—åŒ–ç–ç•¥,å¹¶å‘å±•äº†åŸºäºŽå±€éƒ¨ä¿¡æ¯çš„æ•´ä½“å¼ºå¼±è¿žæŽ¥ç³»æ•°åˆ¤åˆ«æ³•å’ŒåŸºäºŽå±€éƒ¨ä¿¡æ¯çš„äºŒæ¬¡ç²—åŒ–é˜ˆå€¼åˆ¤åˆ«æ³•ä¸¤ç§å®žæ–½æ–¹æ³•ã€‚æ•°å€¼è®¡ç®—è¡¨æ˜Ž:ä¸Žç»å…¸ç½‘æ ¼ç²—åŒ–ç–ç•¥ç›¸æ¯”,æœ¬æ–‡æå‡ºçš„ç½‘æ ¼ç²—åŒ–ç–ç•¥å¯ç²¾ç¡®è¡¨å¾ç½‘æ ¼ç‚¹ä¹‹é—´çš„æ•´ä½“å¼ºå¼±è¿žæŽ¥å¼ºåº¦,æœ‰æ•ˆä¼˜åŒ–ç½‘æ ¼ç²—åŒ–è·¯å¾„,å¹¶åœ¨ä¸€å®šç¨‹åº¦ä¸Šæé«˜äº†æ±‚è§£é˜¶æ®µçš„è®¡ç®—æ•ˆçŽ‡ã€‚æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ Grid coarsening is one of the most important procedures to implement the algebraic multigrid(AMG) method.In the process of grid coarsening,if the potential coarse-points(C-points)having the same maximum influence measure are not unique,the influence measure in the classical Ruge-St(u|Â¨)ben(C-RS) coarsening strategy is not able to accurately describe the overall strength of strong connection.In this situation,several grid coarsening routines may exist,which would result in the non-uniqueness of grid distribution and exert effect on the computational efficiency of subsequent solution phase.To overcome this limitation,a grid coarsening strategy based on local information priority principle(LIPP-RS) is proposed and two corresponding implementation methods are developed in this paper:overall strong connection coefficient method and secondary coarsening threshold method.Calculation results of two numerical examples indicate that:compared with the C-RS coarsening strategy,the LIPP-RS strategy can accurately reflect the degree of overall strong connection strength,effectively optimize grid coarsening routines and improve the computational efficiency of solution phase to some extent.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ ä»£æ•°å¤šé‡ç½‘æ ¼ï¼› ç²—åŒ–ç–ç•¥ï¼› é›†åˆåŠ¿ï¼› å±€éƒ¨ä¿¡æ¯ä¼˜å…ˆåŽŸåˆ™ï¼›
ã€Key wordsã€‘ algebraic multigrid methodï¼› grid coarsening strategyï¼› influence measureï¼› local information priority principleï¼›

ã€åŸºé‡‘ã€‘ å›½å®¶è‡ªç„¶ç§‘å¦åŸºé‡‘èµ„åŠ©é¡¹ç›®(No.51376086;No.51325603;No.51206186)

ã€æ–‡çŒ®å‡ºå¤„ã€‘ å·¥ç¨‹çƒç‰©ç†å¦æŠ¥ ,Journal of Engineering Thermophysics , ç¼–è¾‘éƒ¨é‚®ç®± ,2016å¹´04æœŸ

ã€åˆ†ç±»å·ã€‘O241.82
ã€è¢«å¼•é¢‘æ¬¡ã€‘2
ã€ä¸‹è½½é¢‘æ¬¡ã€‘194

çŸ¥ç½‘èŠ‚ä¸‹è½½

èŠ‚ç‚¹æ–‡çŒ®ä¸ï¼š

æœ¬æ–‡é“¾æŽ¥çš„æ–‡çŒ®ç½‘ç»œå›¾ç¤º:

æœ¬æ–‡çš„å¼•æ–‡ç½‘ç»œ

èŠ‚ç‚¹æ–‡çŒ®

èŠ‚ç‚¹æ–‡çŒ®

åŸºäºŽå±€éƒ¨ä¿¡æ¯ä¼˜å…ˆçš„ä»£æ•°å¤šé‡ç½‘æ ¼ç²—åŒ–ç­–ç•¥

A Grid Coarsening Strategy for Algebraic Multigrid Method Based on Local Information Priority Principle

æœ¬æ–‡é“¾æŽ¥çš„æ–‡çŒ®ç½‘ç»œå›¾ç¤º:

åŸºäºŽå±€éƒ¨ä¿¡æ¯ä¼˜å…ˆçš„ä»£æ•°å¤šé‡ç½‘æ ¼ç²—åŒ–ç–ç•¥