01068nam0-2200325---450-99000943695040332120110929111951.0000943695FED01000943695(Aleph)000943695FED0100094369520110929d1927----km-y0itay50------baitaITy-------000yyEffetto delle azioni traumatiche sui nuclei dell' endosperma di favaG. CatalanoPalermoScuola tip. Boccone del povero19279 p.22 cmEstratto da: Boll. della Soc. di scienze nat. ed ec. di Palermo, anno 9, 1927, n. 3Fave583.32220itaCatalano,Giuseppe<1888-1981>492715ITUNINARICAUNIMARCBK99000943695040332160 DONO CATALANO 108/1213401FAGBC60 DONO CATALANO 109/1413402FAGBCFAGBCEffetto delle azioni traumatiche sui nuclei dell' endosperma di fava760976UNINA01148nam 2200421 a 450 991045306760332120200520144314.01-55490-937-6(CKB)2550000001134871(StDuBDS)AH19838120(CEL)439162(CaBNVSL)slc00227271(MiAaPQ)EBC3028643(Au-PeEL)EBL3028643(CaPaEBR)ebr10467696(OCoLC)721194874(EXLCZ)99255000000113487120110511d2011 uy 0engur|||||||||||The anatomy of clay[electronic resource] poems /Gillian SzeToronto Misfitc20111 online resource (112 p.) Poems.1-77041-014-7 1-306-03328-4 American poetryElectronic books.American poetry.C811/.6Sze Gillian1985-1041446MiAaPQMiAaPQMiAaPQBOOK9910453067603321The anatomy of clay2464950UNINA05302nam 22006014a 450 991014374850332120170810185045.01-280-24286-897866102428630-470-34182-30-470-01539-X0-470-85764-1(CKB)1000000000356082(EBL)241168(OCoLC)77524550(SSID)ssj0000241509(PQKBManifestationID)11200789(PQKBTitleCode)TC0000241509(PQKBWorkID)10298750(PQKB)11094714(MiAaPQ)EBC241168(EXLCZ)99100000000035608220050128d2005 uy 0engur|n|---|||||txtccrScalable continuous media streaming systems[electronic resource] architecture, design, analysis and implementation /Jack Y.B. LeeWest Sussex, England ;Hoboken, NJ J. Wileyc20051 online resource (396 p.)Description based upon print version of record.0-470-85754-4 Includes bibliographical references and index.Scalable Continuous Media Streaming Systems; Contents; Preface; Acknowledgements; Part One: Fundamentals; 1 Introduction; 1.1 Elements of a Multimedia System; 1.2 Media Data; 1.3 Media Delivery; 1.4 Streaming versus Download; 1.5 Challenges in Building Continuous Media Streaming Systems; 1.5.1 Continuity; 1.5.2 Known and Unknown Variations; 1.5.3 Real-time Interactivity; 1.5.4 Efficiency; 1.5.5 Scalability; 1.5.6 Reliability; 1.6 Engineering Trade-offs; 1.6.1 Trade-off in Capacity; 1.6.2 Trade-off in Time; 1.6.3 Trade-off in Space; 1.6.4 Trade-off in Quality; 1.6.5 Trade-off in Complexity1.7 Performance Guarantee1.8 Admission Control; 1.9 Summary; References; 2 Media Compression; 2.1 Introduction; 2.1.1 Digital Audio; 2.1.2 Digital Video; 2.1.3 Media Compression; 2.2 Media Multiplexing; 2.3 Temporal Dependencies in Compressed Video; 2.4 Bit-rate Variations; 2.5 Media Adaptation; 2.5.1 Transcoding Techniques; 2.5.2 Transcoder Design; 2.5.3 Implementation Issues; 2.5.4 Experimental Results; 2.6 Summary; References; 3 Continuous Media Storage and Retrieval; 3.1 Structure and Model of Hard Disk; 3.2 Disk Scheduling; 3.2.1 Performance Modeling; 3.2.2 Capacity Dimensioning3.3 Improving Disk Throughput3.4 Grouped Sweeping Scheme; 3.5 Multi-Disk Storage And Retrieval; 3.5.1 Partition and Replication; 3.5.2 Disk Striping; 3.5.3 Multi-Disk Scheduling; 3.6 Disk Zoning; 3.7 Summary; References; 4 Soft Scheduling; 4.1 Introduction; 4.2 Statistical Capacity Dimensioning; 4.3 Dual-Round Scheduling; 4.3.1 Read-Ahead Algorithm; 4.3.2 Performance Modeling; 4.3.3 Buffer Requirement; 4.4 Early-Admission Scheduling; 4.4.1 Admission Algorithm; 4.4.2 First-Block Replication; 4.5 Overflow Management; 4.5.1 Deadline-Driven Detection; 4.5.2 Overflow Recovery4.6 Performance Evaluation4.6.1 Service Round Length Distribution; 4.6.2 Statistical Streaming Capacity; 4.6.3 Dual-Round Scheduling; 4.6.4 Early-Admission Scheduling; 4.6.5 Buffer Requirement; 4.7 Related Work; 4.8 Summary; References; 5 Reliable and Fault-Tolerant Storage Systems; 5.1 Introduction; 5.2 Background; 5.3 System Model; 5.3.1 Disk Redundancy; 5.3.2 Storage Allocation and I/O Scheduling; 5.3.3 Disk Performance Model; 5.3.4 Capacity Dimensioning; 5.4 Automatic Data Rebuild; 5.4.1 Sparing Scheme; 5.4.2 Rebuild Algorithm; 5.4.3 Analysis of Rebuild Time; 5.4.4 Buffer Requirement5.5 Track-Based Rebuild5.5.1 Rebuild Algorithm; 5.5.2 Analysis of Rebuild Time; 5.5.3 Buffer Requirement; 5.6 Pipelined Rebuild; 5.6.1 Buffer Requirement; 5.6.2 Active Disk Synchronization; 5.7 Performance Evaluation; 5.7.1 Comparison of Rebuild Time; 5.7.2 Sensitivity to Server Utilization; 5.7.3 Sensitivity to Media Block Size; 5.7.4 Buffer Requirement; 5.8 Summary; References; 6 Media Data Streaming; 6.1 Streaming over TCP/UDP; 6.2 Specialized Streaming Protocols; 6.2.1 Real-Time Streaming Protocol (RTSP); 6.2.2 Real-Time Transport Protocol (RTP); 6.3 Summary; References7 Streaming Variable Bit-Rate Media StreamsContinuous media streaming systems will shape the future of information infrastructure. The challenge is to design systems and networks capable of supporting millions of concurrent users. Key to this is the integration of fault-tolerant mechanisms to prevent individual component failures from disrupting systems operations. These are just some of the hurdles that need to be overcome before large-scale continuous media services such as video-on-demand can be deployed with maximum efficiency. The author places the subject in context, drawing together findings from the past decade of reseStreaming technology (Telecommunications)Electronic books.Streaming technology (Telecommunications)006.7876Lee Jack Y. B863245MiAaPQMiAaPQMiAaPQBOOK9910143748503321Scalable continuous media streaming systems1926965UNINA