Muutke küpsiste eelistusi

E-raamat: Moving Media Storage Technologies: Applications & Workflows for Video and Media Server Platforms [Taylor & Francis e-raamat]

  • Formaat: 664 pages, 45 Line drawings, black and white; 35 Illustrations, black and white
  • Ilmumisaeg: 01-Apr-2011
  • Kirjastus: Focal Press
  • ISBN-13: 9780240814490
Teised raamatud teemal:
  • Taylor & Francis e-raamat
  • Hind: 240,04 €*
  • * hind, mis tagab piiramatu üheaegsete kasutajate arvuga ligipääsu piiramatuks ajaks
  • Tavahind: 342,91 €
  • Säästad 30%
Moving Media Storage Technologies: Applications & Workflows for Video and Media Server PlatformsSuurem pilt
  • Formaat: 664 pages, 45 Line drawings, black and white; 35 Illustrations, black and white
  • Ilmumisaeg: 01-Apr-2011
  • Kirjastus: Focal Press
  • ISBN-13: 9780240814490
Teised raamatud teemal:
Taylor & Francis e-raamatudRohkem infot Taylor & Francis e-raamatute kohta
Raamatu kodulehekülg: https://www.taylorfrancis.com/books/9780240814490
A practical guide to the implementation of state-of-the-art media storage systems.

Keep your media assets organized, searchable, protected, and immediately accessible with a clear understanding of the technical concepts and best practice workflows for deploying storage systems for media servers. Information is organized to focus on the principles of storage, collaborative workflow, compressed video and media formats, and associated topics that use file based workflows. A thorough understanding of the technologies is provided, accompanied by numerous illustrations, tables, examples, glossaries and additional reading suggestions.

The text and appendices are designed to provide easy to access valuable reference and historical information.





A focus on the media serving concepts and principles employed at the enterprise level Practical and technological summaries of the applications and linkages between media asset management and storage technologies for studio, television, and media production workflows Illustrations, standards, tables, and practical summaries serve as handy reference tools
Acknowledgments xv
Introduction xvii
Chapter 1 Information, Data, and Video
1(14)
Data Structure
1(1)
Information
2(1)
Storing the Moving Image
3(1)
Digital Video Recording
4(1)
Analog Component Video
5(6)
Colorimetry and Conversion
11(1)
A Digital Media World: Going Forward
12(1)
Further Readings
13(2)
Chapter 2 Digital Disk Recording
15(24)
Recording Moving Images
16(1)
Dawn of the Video Disk
17(1)
Fundamentals of Digital Disk Recording
18(3)
Core Technologies for Digital Disk Recording
21(7)
DDR, DVR, or VideoServer
28(3)
Comparing DDRs to VideoServers
31(1)
Clip Servers
32(3)
DVR Marketplaces
35(1)
Home Media Network Disk Recorders
36(1)
Audio
37(1)
Further Readings
38(1)
Chapter 3 Video Media Servers
39(34)
Carrying Over from the DDR
39(2)
Universal Server Approach
41(5)
VideoServers as Media Servers
46(20)
The Future of Videoservers
66(1)
Communications Protocols Used in Video Serving Platforms
66(5)
Further Readings
71(2)
Chapter 4 Hard Drive Anatomy
73(36)
Magnetic Recording History
74(3)
Drive Components
77(8)
Disk Performance Optimization
85(1)
Disk Scheduling
85(2)
Access Time Components
87(1)
Servicing and Scheduling Criteria
88(7)
Capacity Factors, Transfer Time and Obstacles
95(2)
Read-Write Heads
97(5)
Advanced Format Sector Technology
102(4)
Superparamagnetic Limit
106(1)
Heat-Assisted Magnetic Recording
107(1)
Further Reading
108(1)
Chapter 5 Buses, Ports, and Interfaces
109(16)
Carrying and Transferring Data
110(1)
Bus Types
110(2)
Storage Bus Standards
112(1)
Storage Module Device
112(2)
Serial Storage Architecture
114(1)
High-Performance Parallel Interface
115(1)
IDE
116(1)
Parallel ATA
116(1)
SCSI
117(7)
Further Readings
124(1)
Chapter 6 SATA, SAS, and RAID
125(40)
Transitioning from Parallel to Serial Technologies
126(1)
Serial Attached SCSI (SAS)
127(6)
SATA
133(6)
RAID
139(16)
Alternative Disk Sets and Configurations
155(4)
Error Prevention Methods
159(4)
Conclusions
163(1)
Further Readings
163(2)
Chapter 7 Solid State Disks
165(22)
Solid State Storage Evolution
166(1)
Dynamic Random Access Memory
167(1)
Flash Memory
167(1)
Flash Memory Functionality
168(14)
Portability and Green Perspectives
182(1)
Supplementing Video on Demand with SSD
183(2)
Further Readings
185(2)
Chapter 8 Optical Storage Media
187(26)
Defining Removable Media
188(1)
Optical Media Definitions
188(7)
Blu-ray Disc
195(7)
Holographic Storage
202(8)
Care and Handling
210(1)
Further Readings
211(2)
Chapter 9 Interchange, Transcoding, and Wrappers
213(42)
Moving Toward Non-Real Time
214(2)
Compressed Video
216(1)
Issues with Interchange
217(1)
Media File Vocabularies and Terminologies
218(11)
Content
229(1)
Material exchange Format (MXF)
229(1)
Task Force for MXF
230(3)
Operational Patterns
233(1)
Specialized Operational Pattern Atom
234(2)
Items and Packages
236(2)
Essence Container
238(1)
Conversion and Transcoding
239(1)
Converting Audio and Video Essence
240(4)
Transcode Pipeline
244(2)
Multiplatform Conversion and Distribution
246(6)
Examples and Conclusions
252(1)
Further Readings
253(2)
Chapter 10 IP Storage
255(46)
Internet Protocol
255(1)
Delivering Packets by IP
256(1)
Connected or Connectionless
256(1)
IP Address Classes
257(1)
Addresses
257(1)
Domain Naming
258(1)
Ethernet
259(3)
Internet Engineering Task Force
262(1)
IP Storage
262(1)
iSCSI
263(1)
iSCSI RFCs
264(1)
iSCSI Protocol
264(1)
Initiator-Target Messages
264(1)
Transfer Directions
265(1)
Network Address Authority (NAA)
265(1)
iFCP
265(1)
Gateway Protocol to TCP/IP
266(1)
Provisions
266(1)
Fabric
266(2)
iFCP Services
268(1)
Transport Services
268(1)
Other
268(1)
Security
268(1)
Fibre Channel Over IP (FCIP)
269(1)
Complementary
270(1)
Nominal Distances
270(1)
FCIP Link
271(1)
Clarification
272(1)
Internet Storage Name Service (iSNS)
272(1)
iSNS Architectural Components
273(1)
iSNS Protocol (iSNSP)
273(1)
iSNS Client
273(1)
iSNS servers
274(1)
iSNS Database
274(1)
What iSNS Does
275(1)
Unified Discovery and Management
276(1)
Fiber Channel Discovery
277(1)
Zoning
277(1)
Using SCN Functions
277(1)
Distributed Intelligence
278(1)
IP Storage Support
278(1)
Quality of Service for IP Storage Networks
278(1)
Class of Service (CoS)
278(1)
Traffic Prioritization
279(1)
TOS Precedence
279(1)
Differentiated Services
279(1)
Performance Predictability
280(1)
Traffic Shaping
280(1)
Theory and Research
280(1)
Variable Delay
281(1)
Throttling Decisions
281(1)
Resource Reservation Protocol (RSVP)
282(1)
Multiprotocol Label Switching (MPLS)
283(1)
MPLS Transport Profile
284(1)
InfiniBand
285(5)
IP Storage Considerations
290(1)
IP Switches and Routers
291(1)
Determining the Need
291(1)
Logical Separation Points
291(1)
Security Considerations
292(1)
Ports and Connectivity
292(1)
Other Features
293(1)
Management Tools
293(1)
Acceleration and Compression
294(1)
Security
294(1)
Authentication
294(1)
Fibre Channel---Security Protocol (FC-SP)
295(1)
Device Identity
296(2)
Authorization
298(1)
Encryption
298(1)
Auditing
298(1)
Integrity Checking
298(1)
Quality of Service (QoS)
298(1)
Further Readings
299(2)
Chapter 11 Object-Based Storage
301(26)
Introduction: Objects
302(5)
Storage Categories
307(3)
Storage Interface Progression
310(3)
Parallel Heading
313(8)
Applications of OSD
321(4)
Further Readings
325(2)
Chapter 12 Archives, Backups, and Linear Tape
327(52)
Organizational Requirements for Data
328(1)
Legal Requirements for Archive or Backup
329(1)
Repacking and Repurposing
330(1)
Added Operational Requirements
331(1)
Backup or Archive: There are Differences
332(1)
Backups
332(1)
Acting like Archives
333(1)
Data Backups---Not Archives
333(1)
Internal Application-Specific Backups
334(1)
Archive and Transfer Management---Nonlinear Editing
335(1)
Differentiation
335(1)
Archiving for Discovery
336(1)
Data Archiving
337(1)
Tape or Disk
338(1)
Pros and Cons
339(1)
Self-Protecting Storage Systems
340(1)
Disk Archiving Pluses
340(1)
Tape Archiving Pluses
341(1)
Storage Retention Period
341(1)
Disadvantages of Tape
341(1)
Legacy Tape Archive Problems
342(1)
Standards-Based Archive Approaches
342(1)
Common Backup Formats
343(1)
Determining the Right Archiving Method
343(1)
Cloud Data Protection
344(1)
Cloud Benefits
344(1)
Scaling
345(1)
Services Provided
345(1)
Holographic Storage for the Archive
345(2)
RAIT
347(2)
Mirroring---Level 1 RAIT
349(1)
Data Striping---Level 3 RAIT
349(1)
Data Striping---Level 5 RAIT
349(1)
Not for Random Access
349(1)
Automated Tape Libraries (ATL)
350(1)
Stackers, Autoloaders, or Libraries
351(1)
Server and Archive Components
351(1)
Evolution in Digital Tape Archives
352(1)
Tape Technology Basics
353(1)
Tape Metrics
353(1)
Linear Serpentine
354(1)
Helical Scan Recording
355(1)
Historical Development of Data Tape
355(1)
QIC and DAT
356(1)
Travan
356(1)
8 mm Recording Technologies
356(2)
Tape Error Detection
358(1)
Tape Media Formats and Fabrication Parameters
359(1)
Metal Particle to Advanced Metal Evaporated
359(1)
Advanced Intelligent Tape (AIT)
360(1)
Super and Turbo AIT
361(1)
Digital Data Storage (DDS)
362(1)
Data Storage Technology (DST)
362(1)
Digital Tape Format (DTF)
363(1)
Advanced Tape Materials
364(1)
Digital Linear Tape (DLT)
365(1)
Error Detection
365(1)
Adaptive Cache Buffering
366(1)
Compression Algorithms
366(1)
Duty Cycle
366(1)
DLT1 Drive
367(1)
Super DLT
367(1)
Roadmaps for SDLT
368(1)
Linear Tape Open (LTO)
369(1)
Genealogy
369(1)
Ultrium---First Generation
370(1)
LTO Generation 1
370(1)
LTO Generation 2
370(1)
LTO Generation 3
370(1)
LTO Generation 4
371(1)
LTO Generation 5
371(1)
LTFS
371(1)
LTO Program Roadmap
372(1)
Security WORM
373(1)
Why Use Tape?
373(2)
Data Archiving and Tape Storage
375(1)
Preparing for the Archive
376(1)
Future Standards
377(2)
Chapter 13 Metadata and Media Asset Management
379(30)
Media Management Systems
380(1)
Media Assets and Content
380(1)
Content Management System
381(1)
Web-Based CMS
382(1)
Digital Asset Management
382(1)
Asset Management System
383(1)
Media Asset Management
384(1)
Tape-Based MAM
384(2)
Drawbacks to Tape-Based Systems
386(1)
MAM for Videoserver Implementations
387(1)
Lack of Media Asset Integration
388(1)
Collaboration Issues
388(1)
Metadata
388(1)
Media-Centric Metadata
389(2)
Structural Metadata
391(1)
Descriptive Metadata
391(2)
Interoperability
393(1)
Dublin Core
393(1)
PBCore
394(2)
Usage Metadata
396(1)
Schemas
396(1)
Standards, Practices, and Policies for Metadata
397(1)
Storing Metadata
397(1)
Metadata Services
398(1)
Media Application Services
398(2)
Messaging Services for MAM
400(1)
Intelligent Integrated MAM
401(1)
Workflow Management
402(1)
Collaboration among Multiple Users
402(1)
Tool Set Integration
402(1)
Centralized Database
403(1)
Multi-Tier Architecture
403(1)
Scalability
404(1)
Storage for MAM
404(1)
Latency
405(1)
Interfacing with Production Storage
405(2)
Archive
407(1)
Further Readings
408(1)
Chapter 14 Clustering
409(20)
Why Use Clusters?
409(2)
Physical Components
411(1)
Capabilities and Types of Clustering
412(3)
Cluster Scaling Characteristics
415(1)
Shared Structures
416(4)
Managing Storage Clusters for Scalability
420(2)
Grid Computing
422(6)
Summary
428(1)
Further Readings
428(1)
Chapter 15 Networked Storage
429(40)
Networked Storage---Fundamentals
430(6)
Networks
436(6)
Network-Attached Storage
442(1)
Direct Access File System
443(1)
Storage Area Network
444(16)
Fibre Channel SAN Components
460(7)
Next Generation SANs
467(1)
Further Readings
467(2)
Chapter 16 High-Performance and Shared Storage
469(42)
Applications for High-Performance Storage
470(4)
Size Matters
474(1)
Intelligent Adaptive Storage
475(1)
Storage Accelerators
476(1)
Storage Appliance Technologies
477(13)
Real-World Performance
490(8)
Shared Storage Implementations
498(12)
Storage Scaling and Management
510(1)
Further Readings
510(1)
Chapter 17 Scalability, Extensibility, and Interoperability
511(34)
Scalability
511(5)
Flexibility
516(4)
Reliability
520(6)
Accessibility and Availability
526(7)
Extensibility
533(6)
Interoperability
539(2)
Science and Technology
541(1)
Further Readings
541(4)
Chapter 18 Storage Management
545(36)
Storage System Dependencies
546(3)
Storage Management Concepts
549(5)
Electronic Media Management
554(1)
Fragmentation
554(6)
SAN Management
560(4)
NAS Management
564(7)
Snapshots
571(3)
Data Deduplication
574(5)
Further Readings
579(2)
Chapter 19 Resilience, Fault Tolerance, and Virtualization
581(38)
Resilience
582(1)
Storage Tiering
583(12)
Protecting Data and Storage
595(10)
Virtualization in File-Based Storage
605(5)
Fault Tolerance
610(7)
Conclusion
617(1)
Further Readings
617(2)
Index 619
Karl Paulsen has spent over thirty years in broadcast television engineering and management holding key positions in operations, consulting, design, and systems integration. Karl is currently a Senior Technologist/Consulting Engineer with Diversified Systems. Previously he was CTO at AZCAR Technologies, a global provider of media solutions and technology integration for the moving media industry and Director of Engineering for Synergistic Technologies, Inc., and VP of Engineering at Digital Post & Graphics. Karl has focused on video file servers, storage and IP-based video technologies, including workflow, implementation and analysis for advanced digital media systems for nearly two decades. A feature columnist for TV Technology magazine, he has contributed over 150 articles to his long running 'Media Server Technology' series. Karl authored the book Video & Media Servers: Applications and Technology as well as dozens of other contributions to the industry. He is a SMPTE Fellow and standards community participant, a SBE Life Member and a Certified Professional Broadcast Engineer.
Püsilink: https://www.kriso.ee/db/9780240814490_pe.html
Märksõnad: