39 research outputs found
Recent excavations at Tell Fadous-Kfarabida
[No abstract available]AMIRAN R., 1969, ANCIENT POTTERY HOLY; Artin G., 2005, B ARCHEOLOGIE ARCHIT, V9, P223; Artin G, 2010, NEAR EAST ARCHAEOL, V73, P74; Badreshany K, 2005, B ARCHEOLOGIE ARCHIT, V9, P5; Badreshany K, 2009, B AM SCH ORIENT RES, V355, P51; Beayno F., 2002, B ARCHEOLOGIE ARCHIT, V6, P135; Ben-Tor A., 1978, CYLINDER SEALS 3 MIL; Cole D. P., 1984, SHECHEM 1 MIDDLE BRO; Copeland L., 1966, MUSJ, V42, P1; Copeland L., 1965, MELANGES U SAINT JOS, V41, P29; Doumet-Serhal C., 2006, EARLY BRONZE AGE SID; Doumet-Serhal C., 2006, B ARCHEOLOGIE ARCHIT, V10, P131; Dunand M., 1973, FOUILLES BYBLOS, VV; Dunand M., 1945, BYBLIA GRAMMATA DOCU; Genz H., 2009, TEMPORA ANN HIST ARC, V18, P51; Genz H., 2008, BAALBEK HELIOPOLIS R, P127; Genz H, 2007, B ARCHEOLOGIE ARCHIT, V11, P7; Genz H., AGYPTEN LEVANTE, V20; Genz H., B ARCHEOLOGIE ARCHIT, V12; Lauffray J., 2008, FOUILLES BYBLOS, V6; Marfoe L., 1998, KAMID EL LOZ 14 SETT; Marfoe L., 1995, PREHISTORIC EARLY HI; Mazzoni S., 1985, STUDI ONORE EDDA BRE, P317; Montet P., 1928, BYBLOS EGYPTE QUATRE; Pedersen R., 2007, B ARCHEOLOGIE ARCHIT, V11, P17; Porat N., 1996, B AM SCH ORIENT RES, V301, P5; Saghieh M., 1983, BYBLOS 3 MILLENNIUM; Schwartz G. M., 1994, ARCHAEOLOGICAL VIEWS; Thalmann J.-P., 2009, INTERCONNECTIONS E M, P15; Thalmann JP, 2010, NEAR EAST ARCHAEOL, V73, P86; Thalmann J.-P., 2006, TELL ARQA 1 NIVEAUX; Thalmann J.-P., 2006, CR HEBD ACAD SCI, V150, P84121
Tuning the continual flow pipeline architecture with virtual register renaming
Continual Flow Pipelines (CFPs) allow a processor core to process hundreds of in-flight instructions without increasing cycle-critical pipeline resources. When a load misses the data cache, CFP checkpoints the processor register state and then moves all miss-dependent instructions into a low-complexity WB to unblock the pipeline. Meanwhile, miss-independent instructions execute normally and update the processor state. When the miss data return, CFP replays the miss-dependent instructions from the WB and then merges the miss-dependent and miss-independent execution results. CFP was initially proposed for cache misses to DRAM. Later work focused on reducing the execution overhead of CFP by avoiding the pipeline flush before replaying miss-dependent instructions and executing dependent and independent instructions concurrently. The goal of these improvements was to gain performance by applying CFP to L1 data cache misses that hit the last level on chip cache. However, many applications or execution phases of applications incur excessive amount of replay and-or rollbacks to the checkpoint. This frequently cancels benefits from CFP and reduces performance. In this article, we improve the CFP architecture by using a novel virtual register renaming substrate and by tuning the replay policies to mitigate excessive replays and rollbacks to the checkpoint. We describe these new design optimizations and show, using Spec 2006 benchmarks and microarchitecture performance and power models of our design, that our Tuned-CFP architecture improves performance and energy consumption over previous CFP architectures by ∼10percent and ∼8percent, respectively. We also demonstrate that our proposed architecture gives better performance return on energy per instruction compared to a conventional superscalar as well as previous CFP architectures. © 2014 ACM.Agarwal V, 2000, PROCEEDING OF THE 27TH INTERNATIONAL SYMPOSIUM ON COMPUTER ARCHITECTURE, P248, DOI 10.1109-ISCA.2000.854395; Akkary H, 2003, P 36 ANN INT S MICR, P423, DOI 10.1109-MICRO.2003.1253246; Akkary H., 2004, ACM T ARCHIT CODE OP, V1, P418, DOI 10.1145-1044823.1044826; Barnes RD, 2003, 36TH INTERNATIONAL SYMPOSIUM ON MICROARCHITECTURE, PROCEEDINGS, P387; BARNES RD, 2005, P 38 ANN INT S MICR, P319; Brooks D., 2000, P 27 ANN INT S COMP, V28, P83; Chaudhry S, 2009, CONF PROC INT SYMP C, P484; Chrysos GZ, 1998, CONF PROC INT SYMP C, P142; Cristal A., 2002, UPCDAC200239 DEP COM; Cristal A., 2004, ACM T ARCHIT CODE OP, V1, P389, DOI 10.1145-1044823.1044825; Cristal A., 2004, Proceedings. 10th International Symposium on High Performance Computer Architecture; Dundas J., 1997, P 1997 ACM INT C SUP, P68, DOI 10.1145-263580.263597; Gandhi A, 2005, CONF PROC INT SYMP C, P446, DOI 10.1109-ISCA.2005.46; Gonzalez A., 1998, Proceedings 1998 Fourth International Symposium on High-Performance Computer Architecture (Cat. No.98TB100224), DOI 10.1109-HPCA.1998.650557; Hilton Andrew, 2010, P 1 INT WORKSH MOD S, P1, DOI 10.1145-1835980.1835983; Hilton Andrew, 2009, P 14 INT S HIGH PERF, P431; Hwu W. W., 1987, P 14 ANN INT S COMP, P18, DOI 10.1145-30350.30353; Jothi K, 2011, 2011 IEEE 29TH INTERNATIONAL CONFERENCE ON COMPUTER DESIGN (ICCD), P127, DOI 10.1109-ICCD.2011.6081387; Jothi Komal, 2013, P INT C SUP, P243; Jothi Komal, 2013, P 23 GREAT LAK S VLS, P43; Lebeck AR, 2002, CONF PROC INT SYMP C, P59; Manne S, 1998, CONF PROC INT SYMP C, P132; Martinez JF, 2002, INT SYMP MICROARCH, P3, DOI 10.1109-MICRO.2002.1176234; Mutlu O, 2005, CONF PROC INT SYMP C, P370, DOI 10.1109-ISCA.2005.49; Mutlu O., 2003, Proceedings the Ninth International Symposium on High-Performance Computer Architecture. HPCA-9 2003, DOI 10.1109-HPCA.2003.1183532; Mutlu Onur, 2005, COMPUTER ARCHITECTUR, V4, p[1, 2]; Nekkalapu S, 2008, PR IEEE COMP DESIGN, P384, DOI 10.1109-ICCD.2008.4751889; Papworth DB, 1996, IEEE MICRO, V16, P8, DOI 10.1109-40.491458; Sharafeddine M, 2012, ACM T ARCHIT CODE OP, V9, DOI 10.1145-2355585.2355592; Sharafeddine Mageda, 2013, P 26 INT C ARCH COMP, P86; Smith JE, 1995, P IEEE, V83, P1609, DOI 10.1109-5.476078; Srinivasan ST, 2004, ACM SIGPLAN NOTICES, V39, P107, DOI 10.1145-1037187.1024407; TOMASULO RM, 1967, IBM J RES DEV, V11, P25; Tullsen D. M., 1995, Proceedings 22nd Annual International Symposium on Computer Architecture (IEEE Cat. No.95CB35801), DOI 10.1109-ISCA.1995.524578; Wolff Sonya R., 2011, P 9 ANN WORKSH DUPL0
Studio culture-war culture: Pedagogical strategies for reconstructing Beirut's southern suburbs
The article focuses on a critique of three different approaches to undergraduate architecture design studio teaching around the scenario of post-conflict reconstruction in Lebanon following the Hezbollah-Israeli war in 2006. Broadly, the author argues for the value of their own politically-engaged- critical teaching method over politically 'neutral' humanitarian, or radical but politically pre-disposed approaches. In addition to the relevance of how the topic of post-conflict reconstruction in architectural teaching relates to questions of political 'positionality', the article also offers an insight into the challenging political environment faced by academics in Lebanon and how this highlights the ethical limits of 'apoliticality'. Copyright © 2013 Cambridge University Press.[Anonymous], 2006, FOUNDERS DAY OPENIN; [Anonymous], 2006, ECONOMIST; Fawaz Mona, 2007, RECONSTRUCTION HARET, P7; Harb M., 2003, GENESES, V51, P70; Macrae Joanna, 1998, REFUGEE SURVEY Q, V17, P24, DOI 10.1093-rsq-17.1.24; Mourad Sara, 2006, WINNING FOUNDERS DAY; Shehadi Nadim, 2007, RIVIERA VS CITADEL B; Stanley-Price Nicholas, 2006, ICCROM NEWSLETTER, V32, P9; Wilsing M, 2004, INT J ART DES EDUC, V23, P73, DOI 10.1111-j.1476-8070.2004.00383.x0
Tell el-Burak: A new Middle Bronze Age Site from Lebanon
[No abstract available]Akkermans P.M.M.G., 2003, ARCHAEOLOGY SYRIA CO; Bagg A., 2007, LEVANTE 1; Borger Rykle, 1956, ARCH ORIENTFORSCHUNG; CORNELIUS I, 2004, GOTTER KULTE UGARIT; Doumet-Serhal C., 2006, EARLY BRONZE AGE SID; Doumet-Serhal C, 2010, NEAR EAST ARCHAEOL, V73, P114; Dunand M., 1958, FOUILLES BYBLOS, V2; Einwag B., 2002, MIDDLE BRONZE AGE LE, P143; FINKBEINER U., 1997, B ARCHEOLOGIE ARCHIT, V2, P114; FINKBEINER U., 2001, B ARCHEOLOGIE ARCHIT, V5, P173; Helck W., 1994, BIBLO CITTA SUA CULT, P105; Kamel D., 2005, THESIS AM U BEIRUT; KAMLAH J., 2003, B ARCHEOLOGIE ARCHIT, V7, P145; Kamlah J, 2004, Z DEUT PALASTINA-VER, V120, P123; Kamlah J., 2005, B ARCHEOLOG IN PRESS, V12; KEMPINSKI A, 1991, ISRAEL EXPLOR J, V41, P188; Kenyon K. M., 1960, EXCAVATIONS JERICHO, V1; Kohlmeyer K., 1982, LAND BAAL SYRIEN FOR; LIEBOWITZ HA, 1977, ISRAEL EXPLOR J, V27, P89; Margueron J.-C., 1990, MARI ANN RECHERCHES, V6, P5; Margueron J.-C., 1985, MARI ANN RECHERCHES, V3, P7; Montet P., 1928, BYBLOS EGYPTE QUATRE; Pedersen R., B ARCHEOLOG IN PRESS; Peltenburg E. J., 2008, NITOVIKLA TELL EL BU, P145; Pfalzner P., 2008, FUNDSTELLEN GESAMMEL, P95; Pritchard J. B., 1963, BRONZE AGE CEMETERY; Sader H., 1997, SADI LABN ALLIK BEIT, P363; Saidah R., 1967, B MUSEE BEYROUTH, V20, P155; Saidah R., 1979, BERYTUS, V27, P29; Shedid A. G., 1994, FELSGRABER BENI HASS; Shehadeh L., 2005, THESIS AM U BEIRUT; Stager L. E., 2002, MIDDLE BRONZE AGE LE, P353; Stager Lawrence, 1991, BIBLICAL ARCHAEOLOGY, V17, P26; TARAQJI A. F., 1999, B SOC FRANCAISE EGYP, V144, P27; von Ruden C., 2006, THESIS U FREIBURG; WAPNISH P, 1993, BIBLIC ARCHAEOL, V56, P55, DOI 10.2307-321025041
Radiocarbon evidence for the early Bronze Age Levant: The site of tell Fadous-Kfarabida (Lebanon) and the end of the early bronze III period
Absolute dates for the end of the Early Bronze Age ancient Near East are of crucial importance for assessing the nature and extent of mid- to late 3rd millennium BC transitions in the Near East and their alleged link to the 4.2ka BP climatic event. This article presents a radiocarbon sequence for the Early Bronze Age site of Tell Fadous-Kfarabida (Lebanon) and argues that the end of the Early Bronze III period has to be dated considerably higher than previously estimated. There is no reason to assume that the 4.2ka BP event might have contributed to or even triggered the collapse of the first urban cities in the southern and central Levant. © 2014 by the Arizona Board of Regents on behalf of the University of Arizona.Badreshany K, 2005, B ARCHEOLOGIE ARCHIT, V9, P5; Badreshany K, 2009, B AM SCH ORIENT RES, V355, P51; Bar-Matthews M, 2011, HOLOCENE, V21, P163, DOI 10.1177-0959683610384165; Ramsey CB, 2009, RADIOCARBON, V51, P1023; Ramsey CB, 1995, RADIOCARBON, V37, P425; Bronk-Ramsey C., 2002, ARCHAEOMETRY, V44, P1; BUCK CE, 1992, J ARCHAEOL SCI, V19, P497, DOI 10.1016-0305-4403(92)90025-X; Callaway JA, 1978, ARCHAEOLOGY LEVANT, P46; de Miroschedji P, 2012, ALL WISDOM E STUDIES, P265; de Miroschedji P, 2001, B SOC FRANCAISE EGYP, V152, P28; Dever WG, 1970, NEAR E ARCHAEOLOGY, P132; Genz H, 2012, COMPANION ARCHAEOLOG, P607; Genz H, 2009, B ARCHEOLOGIE ARCHIT, VVI, P107; Genz H, 2009, B ARCHEOLOGIE ARCHIT, V13, P71; Genz H, 2008, B ARCHEOLOGIE ARCHIT, V12, P149; Genz H, 2010, B ARCHEOLOGIE ARCHIT, V14, P241; Genz H, 2007, B ARCHEOLOGIE ARCHIT, V11, P7; Genz H, 2010, REPORTS RECENT FIELD, V2, P205; Genz H, 2010, NEAR EAST ARCHAEOL, V73, P102; Genz H, OLD KINGDOM POTTERY, V2; Harrison TP, 2012, COMPANION ARCHAEOLOG, P629; Kenyon K. M., 1966, AMORITES CANAANITES; Knoblauch C, 2010, AGYPTEN LEVANTE, V20, P243; Kohler EC, 2014, ORIENT ARCHAOLOGIE; MAZAR B, 1968, ISRAEL EXPLOR J, V18, P65; Mazzoni S, ASS REGIONA IN PRESS; MIROSCHEDJI P. DE, 2009, SCI ANTICHITA STORIA, V15, P101; Moeller Nadine, 2005, AGYPTEN LEVANTE, VXV, P153; Parr P, 2009, PALESTINE EXPLORATIO, V9; Petrie WMF., 1898, MEMOIR EGYPT EXPLORA, V15; Pfalzner P., 2012, 7 GENERATIONS FALL A, P145; Ramsey CB, 2010, SCIENCE, V328, P1554, DOI 10.1126-science.1189395; Regev J, 2012, RADIOCARBON, V54, P505; Regev J, 2012, RADIOCARBON, V54, P525; Reimer PJ, 2009, RADIOCARBON, V51, P1111; Richards J., 2002, JARCE, V39, P75, DOI 10.2307-40001150; Riehl S, 2012, J ARID ENVIRON, V86, P113, DOI 10.1016-j.jaridenv.2011.09.014; Riehl S, 2007, VARIA ANATOLICA, V19, P523; Rosen A.M., 2007, CIVILIZING CLIMATE S; Sowada KN., 2009, ORBIS BIBLICUS ORIEN, V237; Staubwasser M, 2006, QUATERNARY RES, V66, P372, DOI 10.1016-j.yqres.2006.09.001; Thalmann J., 2006, BIBLIOTHEQUE ARCHEOL, V177; Ur J, 2012, LOOKING N SOCIOECONO; Weiss H., 2000, ENV DISASTER ARCHAEO, P75; WEISS H, 1993, SCIENCE, V261, P995, DOI 10.1126-science.261.5124.995; Weiss H., 2012, 7 GENERATIONS FALL A, P1; Weiss H., 2000, DJEZIRE EUPHRATE SYR, P207; Weiss H, 2001, SCIENCE, V291, P609, DOI 10.1126-science.1058775; Wright GE., 1961, BIBLE ANCIENT NEAR E, P7310
