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Presented at the THIC Meeting at the Sony Auditorium, 3300 Zanker Rd, San Jose CA 95134-1940
March 4-5, 2003
Holographic Technology is Ready for Prime Time
Demetri Lignos2000 Pike Road
Longmont, CO 80501
Phone: 720-494-7447; Fax: 720-494-9606e-mail: [email protected]
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Holographic Technology is Ready for Prime Time
Demetri Lignos2000 Pike Road
Longmont, CO 80501
Phone: 720-494-7447; Fax: 720-494-9606e-mail: [email protected]
Presented at the THIC meeting at the Sony AuditoriumSan Jose, California
March 6, 2003
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Outline
• Corporate Overview• InPhase IP Portfolio• Technology and Products• Markets• Summary
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InPhase Corporate Overview
InPhase Technologies Inc was founded December 2000 and incorporated in January 2001, with offices in Longmont, CO.
Created to commercialize holographic media and holographic recording technologies developed at Bell Labs (Lucent)
Applying this technology to build products around removable media with potentially huge storage capacity, random access and high transfer rates
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InPhase IP portfolio
• InPhase owns all the key patents for the breakthroughs at Bell Labs (14).
• InPhase is exclusively licensed (royalty free) to the other patents from Bell Labs (28)
• We have 41 applications and disclosures since formation:– Re-writable material– Drive development related patent disclosures (optical, channel,
servo, mechanics)– Media manufacturing techniques
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• Technology has potential for very high Capacity and
Performance
• Low Cost Media
• Long Archival Life
• Robust Content Protection
• Broad Design Implementation Flexibility
• ROM, Recordable and Re-writeable Formats
Why Holographic Storage?Why Holographic Storage?
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Holographic Data Storage
Record by crossing signal beam with a reference beam
Readout by presenting reference beam to the media
FeatureParallel access
(million vs. one bit data transfers)
Volumetric Storage(Overlap many datapages in one location)
Removable Media
BenefitFast data transfer rates
Ultrahigh storagedensities
Transportability
Recording Data
Reading Data
Modulator
Data tobe stored
Data Pages
StorageMedium
Reference Arm
Laser
LaserRecovered Data
RecoveredData Pages
Reference Arm
DetectorArray
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Timeline of Major Developments
1994
19951996
1997 1998
1999 2000
2001
Channel modulation and alignment
Zerowavemedia manufacturing
Concept of 2-chemistry material
Recording techniques and 2-chemistries demo’d
ECCand material improved
Temperature compensation invented and demo’d
R/W Material Concept,Bit-wise ROM Replication
2002R/W demo’dStreaming Video DemoInterchange on Coupons
New Multiplexing methodsPhotopolymer Dev and Testing
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Requirements for Media for Holographic Data Storage
Dynamic Range - High storage densities & rapid read ratesPhotosensitivity - Rapid write ratesMillimeter Thickness - High storage densitiesDimensional Stability - High fidelity data recoveryOptical Flatness - High fidelity imaging of data pagesLow Scatter - Low levels of noise in data recoveryProcessing - Heat/Solvent FreeNon-volatile readoutLong shelf-life of mediaLong archival life of stored dataEnvironmental/thermal stabilityManufacturing Cycle TimeManufacturing CostMastering Marks on Media
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Selected Candidate Materials for Recording MediaSelected Candidate Materials for Recording Media
InPhaseTapestryTM Media
-XXX-Conventional Photopolymers
XX---XXBiological/Photochromic
-
X
X
Non-volatile/Post-Processing
X-XXInorganic Glasses
X-XXXXPhotorefractive polymers
XXXPhotorefractive crystals (eg LiNbO3)
Media Cost
Optical Quality
ThicknessDimensional Stability
PhotoSensitivity
Dynamic Range
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InPhase’s Tapestry™ Recording Material
Media is fabricated from independently polymerizable and compatible matrix and imaging components
In-situ formation of cross-linked matrix
Resin consists of matrix precursorsand imaging components
Writing chemistry is independent ofhost formation chemistry
Proprietary Two Chemistry Approach
In-situ matrix formation: thick, optically flat formats with good mechanical robustness
Cross-linked matrix: stable holographic gratings -long archival life
Compatible matrix and monomer systems: optical clarity and low levels of light scatter
Independent matrix and monomer systems: no cross-reactions- maximizes refractive index contrast.
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100 Å
3” x 3”, 1 mm-thick media
Excellent optical quality & thick media
Proprietary DVD-like media fabrication method allows for
Routine fabrication of media with better than λ/4 / cm2
flatness enables high fidelity data storage and recovery
InPhase Zerowave™ Media Manufacturing Process
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Initial Disk Media Servo Test Beds
Starting to measure media position in 6 axes on coupons and disks
Multi-beam probe w/o objective
Disk
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Data Normalization
Data Page
Known bits patterns (test signals)
1
0Known Data
DATA
Normalize using known data and interpolation.
Intensity
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Recording through the VolumeLogical View
Media
~3mmBook Size
Page (1Mbits – single hologram)
Book~1000 Pages
Stacked in same volumeEach with a unique Reference angle
• Number of Booksin a disc is ~ 1500
• First record Book1 finish, then Book2 etc
Book1 Book2 Book3
Physical View• Physically each page (hologram) takes the whole volume of the book• The thickness of the recording layer allows each page to be read out and stored
uniquely by changing the reference beam angle for each page.
Thickness of recordinglayer is ~1.5 mm
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System Overview
ReadChannel
WriteChannel
Laser
Fast
Shu
tter
BeamCond
PBS
Slow
Shu
tter
SLM
CAMERA
FTLens
FTLens
MEDIA MirrorScanner
PageFormatter
Encoder
Preprocessing /Signal Conditioning
PageDecoder
Chapter ECCEncode /Decode
Large Buffer
Host Interface(SCSI)
Main CPU & ControlElectronics
Servo Control &Electronics
Cartridge LoaderMechanism
Alignment Adjust
R, Theta Movement
Page S
elect
Contro
l
Load
er S
ense
/C
ontro
l
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Current Drive Development Status:• We have built four Test Bed hardware platforms that are fully
operational Holographic recording machines.• We have demonstrated the recording and recovery of 600
holograms in one spot on the holographic media.• We have demonstrated accurate mechanical positioning of the
optical recording head on the disk media.• We have demonstrated partial interchange between two of the
Test Bed platforms.• All our control and data handling electronics (except for
interface) have been developed and are functional.• We have completed the design and simulations of the drive
optics and mechanics.
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Recordable Products
• Media– Recordable, in a cartridge
Winner of the R&D 100 Award
• Drive– 5 ¼ inch full height– 200 GB, 20 MB/sec
• InPhase sells drives and media to OEMs who integrate drives into multi-Terabyte libraries with existing automation for hundreds of cartridges
Recordable Media and Drive
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Recordable product family target specifications• Family member #1: Family member #2:
• Capacity (user): 200 GB Capacity : 400 GB• Transfer rate (user): 20 MB/sec Transfer rate: 40 MB/sec
• Family member #3: Family member #4:• Capacity : 800 GB Capacity: 1.6 TB• Transfer rate: 80 MB/sec Transfer rate: 120 MB/sec
• Key family characteristics:• Media form factor: 130mm diameter disk in a cartridge• Compatibility: Read backward compatibility• Drive Form Factor: 5.25” Full Height
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Professional VideoPost Production
Archive, Interchange
Digital Intermedia ApplicationActive archive for mastering
Digital Asset Management System
Off-Line long term archive
Digital Cinema
Data ArchiveMedical Imaging
Seismographic data
Satellite Imaging
Security & Surveillance
Scientific data
Target Markets for First Product Sales
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InPhase Partners• End Users
– Video Advisory Board • Universal, HBO, Carsey Werner, Technicolor, NBC, NASA, NIMA
• Media Manufacturers– Imation equity investment & JDA– Maxell equity investment & JDA
• Drive and OMA Partners– In negotiation with multiple companies
• Media and Test Equipment Sales
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Summary• Large markets are looking for the next generation removable storage
– Holography can become the next generation storage technology• InPhase has a commercial holographic media
– Proprietary photopolymer system with 2-chemistry approach– Innovative, DVD like, manufacturing process– Application to markets outside storage
• Technology road map for significant improvements.– Re-writable road map opens up many more market opportunities
• Product development has begun– Early prototype holographic machines have been built and are
operational.– A family of holographic storage products has been identified– No known show stoppers as of yet.