`
`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`
`SLING TV L.L.C., SLING MEDIA, L.L.C.,
`DISH NETWORK L.L.C., DISH TECHNOLOGIES L.L.C.
`Petitioners
`
`v.
`
`REALTIME ADAPTIVE STREAMING LLC,
`Patent Owner.
`____________________
`
`Case IPR2018-01342
`Patent 8,934,535 B2
`____________________
`
`DECLARATION OF KENNETH A. ZEGER, PH.D., IN SUPPORT OF
`PATENT OWNER’S RESPONSE
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`IPR2018-01342 (’535 Patent)
`ZEGER POR DECLARATION
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`TABLE OF CONTENTS
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`Introduction ................................................................................................. 1
`A.
`Engagement ...................................................................................... 1
`B.
`Background and Qualifications ......................................................... 1
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`
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`I.
`
`II. Materials Considered................................................................................... 4
`
`III. Relevant Legal Standards ............................................................................ 6
`A.
`Burden of Proof ................................................................................. 6
`B.
`Claim Construction ........................................................................... 6
`C.
`Embodiments .................................................................................... 7
`D. Anticipation ...................................................................................... 8
`E.
`Obviousness ...................................................................................... 8
`
`IV. The ’535 Patent (Ex. 1001) ....................................................................... 10
`A. Overview of the ’535 Patent ............................................................ 10
`B.
`Claims of ’535 Patent ...................................................................... 13
`C.
`Prosecution of ’535 Patent............................................................... 14
`
`V.
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`Person of Ordinary Skill in The Art ........................................................... 15
`
`VI. Claim Construction ................................................................................... 16
`A.
`“data block” .................................................................................... 17
`B.
`“parameter” ..................................................................................... 17
`C.
`“asymmetric compressors” / “asymmetric data compression” ......... 19
`D.
`“access profile” ............................................................................... 20
`1. Patent Owner’s proposed construction is correct. ........................................ 21
`2. Petitioner’s proposed construction is incorrect. ............................................ 24
`3. The Board’s preliminary construction from IPR2018-01169 is incorrect. .... 26
`VII. Overview of Prior Art ............................................................................... 30
`A. Dvir (Ex. 1004) ............................................................................... 30
`B.
`Ishii (Ex. 1005) ............................................................................... 31
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`VIII. Summary of Grounds ................................................................................ 33
`
`IX. Ground 1: The Petition’s Dvir-Based Anticipation Theory Fails. .............. 35
`The Petition, by relying on multiple embodiments, fails to
`A.
`prove anticipation. ........................................................................... 35
`1. Dr. Acton’s relies on multiple embodiments of Dvir in his anticipation
`analysis ....................................................................................................... 35
`2. Dr. Acton’s paragraph 102 relies on “another embodiment” of Dvir in his
`anticipation analysis.................................................................................... 36
`3. Dr. Acton’s paragraph 99 relies on two different embodiments of Dvir in his
`anticipation analysis.................................................................................... 37
`4. Dr. Acton’s paragraph 116 relies on two different embodiments of Dvir in his
`anticipation analysis.................................................................................... 38
`5. The Petition fails to show that Dvir discloses all limitations arranged or
`combined in the same way as the claim. ...................................................... 38
`The Petition fails to show “determining a parameter or attribute
`of at least a portion of a data block having audio or video data” ...... 40
`1. The Petition fails to show that Dvir discloses a “data block” as required by
`the claim. .................................................................................................... 40
`2. The Petition fails to show that Dvir discloses “determining a parameter or
`attribute of at least a portion of a data block” as required by the claim. ....... 43
`The Petition fails to show “selecting an access profile from
`among a plurality of access profiles based upon the determined
`parameter or attribute.” ................................................................... 46
`1. Under the correct construction of “access profile,” the Petitioner’s
`anticipation theory fails............................................................................... 46
`2. The Petition offers no opinions, evidence, or argument under the Board’s
`preliminary construction of “access profile” from IPR2018-01169. ............. 48
`The Petition fails to show “one or more compressors using
`asymmetric data compression . . .” .................................................. 49
`
`B.
`
`C.
`
`D.
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`X. Ground 2: The Petition’s Dvir-Based Obviousness Theory Fails. .............. 53
`A. Dr. Acton’s obviousness reasoning fails because it incorrectly
`assumes that Dvir’s compressed video would be decompressed
`far more frequently than it was compressed. ................................... 53
`1. Remote receivers of Dvir’s compressed video would not decompress the
`video more frequently than it was compressed. ........................................... 55
`2. Only one end-user receives each of Dvir’s compressed video transmissions.
` ................................................................................................................... 56
`3. Dvir incorporates by reference a display monitor that cannot decode a
`received video signal more than once. ......................................................... 57
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`IPR2018-01342 (’535 Patent)
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`B.
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`Dr. Acton also fails to show that “asymmetric” compression
`would be obvious. ........................................................................... 61
`
`B.
`
`XI. Ground 3: The Petition’s Dvir and Ishii Obviousness Theory Fails. .......... 63
`A. Ground 3 fails because Dvir does not anticipate or render
`obvious independent claim 1 of the ’535 patent. .............................. 63
`Ground 3 fails also because there is no motivation to combine
`Dvir and Ishii. ................................................................................. 63
`1. Dvir teaches data compression only for the purpose of transmitting through
`bandwidth limited channels......................................................................... 63
`2. Dvir does not teach storage of multimedia data. .......................................... 64
`3. Dvir assumes the multimedia arrives, gets compressed, and transmitted. ..... 66
`4.
`Ishii’s file system compression has nothing to do with Dvir’s teachings. ..... 66
`5.
`Ishii does not teach storage of audio or video data. ...................................... 67
`6.
`Ishii’s system adds computational complexity and storage .......................... 69
`7. Dvir and Ishii have different principles of operation. ................................... 71
`The Petition’s Ground 3 theory for claims 3, 4, and 11 fails for
`additional reasons. ........................................................................... 72
`
`C.
`
`XII. Conclusion ................................................................................................ 74
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`IPR2018-01342 (’535 Patent)
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`EXHIBIT LIST
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`
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`1003
`1004
`1005
`1006
`1007
`
`1008
`1009
`
`1010
`
`Exhibit No.1 Description
`1001
`U.S. Patent No. 8,934,535 to Fallon (“the ’535 Patent”)
`1002
`Prosecution History of the ’535 Patent (“the Prosecution
`History”)
`Declaration of Dr. Scott Acton
`U.S. Patent No. 6,557,001 (“Dvir”)
`U.S. Patent No. 5,675,789 (“Ishii”)
`U.S. Patent No. 6,216,157 (“Vishwanath”)
`Prosecution History of U.S. Patent No. 8,867,610 to Fallon
`(“the ’610 Patent”)
`U.S. Patent No. 6,195,024 to Fallon (“the ’024 Patent”)
`Realtime Data LLC v. Rackspace US, Inc. et al., Dkt. No. 183,
`Case No. 6-16-cv-00961 (E.D. Tex. June 29, 2016)
`Realtime Data LLC v. Actian Corporation et al., Dkt. No. 362,
`Case No. 6-15-cv-00463 (E.D. Tex. May 8, 2015)
`Infringement Contentions for U.S. Patent No.
`8,934,535 from Realtime Adaptive Streaming LLC v. Sling TV
`L.L.C. et al., Case No. 1:17-cv-02097-RBJ (D. Colo.)
`Realtime Data, LLC d/b/a IXO v. Packeteer Inc., et al., No. 6:08-
`cv-00144 Docket No. 371, p. 59 (E.D. Tex. June 22, 2009)
`Held, G. Data Compression: Techniques and Applications,
`Hardware and Software Considerations, John Wiley & Sons,
`1983
`Fahie, John Jacob (1884). A History of Electric Telegraphy, to the
`Year 1837. E. & F.N. Spon.
`Mag, Lond Mechanics. “Mr. Bain’s Electric Printing Telegraph.”
`Journal of the Franklin Institute, of the State of Pennsylvania, for
`the Promotion of the Mechanic Arts; Devoted to Mechanical and
`Physical Science, Civil Engineering, the Arts and Manufactures,
`and the Recording of American and Other Patent Inventions
`(1828-1851) 8.1 (1844): 61.
`
`1 Exhibits 1001–1025 were submitted with the Petition and labeled “DISH1001” to
`“DISH1022.” Exhibits 2001–2009 were submitted with Patent Owner’s Preliminary
`Response. Exhibits 2010–2016 are submitted with Patent Owner’s Response.
`
`1011
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`1012
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`1013
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`1014
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`1015
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`i
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`1016
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`1017
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`1018
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`1019
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`1020
`1021
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`1022
`1023
`1024
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`1025
`2001
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`2002
`2003
`2004
`2005
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`2006
`2007
`2008
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`2009
`2010
`2011
`2012
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`IPR2018-01342 (’535 Patent)
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`Huffman, D. A. (1952). A method for the construction of
`minimum-redundancy codes. Proceedings of the IRE, 40(9),
`1098-1101.
`Shannon, C. E. (1949). Communication theory of secrecy
`systems. Bell Labs Technical Journal, 28(4), 656-715.
`Tekalp, A. M. (1995). Digital video processing. Prentice Hall
`Press.
`Bovik, Alan C. Handbook of image and video processing.
`Academic press, 2009.
`Jim Taylor, DVD Demystified (1998)
`Zhang, Z. L., Wang, Y., Du, D. H. C., & Su, D. (2000). Video
`staging: A proxy-server-based approach to end-to-end video
`delivery over wide-area networks. IEEE/ACM Transactions on
`networking, 8(4), 429-442.
`ISO/IEC 11172-2: 1993
`ISO/IEC 13818-2: 1995
`Gringeri et al., Traffic Shaping, Bandwidth Allocation, and
`Quality Assessment for MPEG Video Distribution over
`Broadband Networks, IEEE Network, (November/December
`1998)
`U.S. Patent No. 6,020,904 (“Clark”)
`Amended Complaint of June 6, 2017, in E.D. Tex. Case No. 17-
`cv-84
`Stipulated Motion in D. Colorado Case No. 17-cv-2097
`Proof of Service of Amended Complaint re: DISH Network LLC
`Proof of Service of Amended Complaint re: Sling TV LLC
`Proof of Service of Amended Complaint re: EchoStar
`Technologies LLC
`Proof of Service of Amended Complaint re: Sling Media LLC
`Defendants' Supplemental Rule 7.1 Disclosure Statement
`Defendants’ Unopposed Application for Extension of Time to
`Answer Complaint
`Defendants’ Invalidity Contentions
`Expert Declaration of Kenneth A. Zeger
`Transcript of Deposition of Scott Acton on May 10, 2019
`Realtime Adaptive Streaming v. Sling, et al., Civil Action No.
`1:17-CV-02097-RBJ, Dkt. 135-1 (D. Colo. Nov. 7, 2018), Expert
`Declaration of Alan Bovik
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`Realtime Adaptive Streaming v. Sling, et al., Civil Action No.
`1:17-CV-02097-RBJ, Dkt. 151 (D. Colo. Jan. 11, 2019),
`Markman Order
`U.S. Patent App. Pub. US 2002/0144271 A1 for Appl. No.
`09/197,441 (“Behagen”)
`Transcript of Deposition of Scott Acton on May 10, 2019 in
`IPR2018-01331 on U.S. Patent No. 8,867,610.
`RFC 2435, RTP Payload Format for JPEG-compressed Video,
`October 1998
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`iii
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`2013
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`2014
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`2015
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`2016
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`IPR2018-01342 (’535 Patent)
`ZEGER POR DECLARATION
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`I, Kenneth A. Zeger, Ph.D., a resident of San Diego, California, declare as
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`
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`follows:
`
`I.
`
`Introduction
`A. Engagement
`
`I have been retained by Patent Owner Realtime Adaptive Streaming
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`LLC (“Realtime” or “Patent Owner”) through Zunda LLC to provide my opinions
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`with respect to their Response to the Petition for Inter Partes Review in IPR2018-
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`01342 (“Petition” or “Pet.”) as to U.S. Patent No. 8,934,535 (“’535 patent,” Exhibit
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`1001). I have no interest in the outcome of this proceeding and my compensation is
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`in no way contingent on my providing any particular opinions.
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`
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`As a part of this engagement, I have also been asked to provide my
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`technical review, analysis, insights, and opinions regarding the Petition and the
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`supporting declaration of Dr. Scott Acton (“Acton Declaration” or “Acton Decl.”
`
`Ex. 1003) with respect to the challenged claims of the ’535 patent.
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`
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`The statements made herein are based on my own knowledge and
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`opinions.
`
`B.
`
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`Background and Qualifications
`
`I have studied, taught, and practiced electrical and computer
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`engineering for thirty-nine years. I attended the Massachusetts Institute of
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`Technology (“MIT”) and earned a Bachelors (SB) and Masters (SM) of Science
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`IPR2018-01342 (’535 Patent)
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`Degrees in Electrical Engineering and Computer Science in 1984. I earned a Master
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`of Arts (MA) Degree in Mathematics in 1989 from the University of California,
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`Santa Barbara. I also earned my Ph.D. in Electrical and Computer Engineering from
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`the University of California, Santa Barbara in 1990.
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`
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`I am currently a Full Professor of Electrical and Computer Engineering
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`at the University of California, San Diego (UCSD). I have held this position since
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`1998, having been promoted from Associated Professor after two years at UCSD. I
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`have been an active member of the UCSD Center for Wireless Communications for
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`22 years. I teach courses full-time at UCSD in the fields of Electrical and Computer
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`Engineering, and specifically in subfields including communications, information
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`theory, and data compression at the undergraduate and graduate levels. Prior to my
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`employment at UCSD, I taught and conducted research as a faculty member at the
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`University of Illinois, Urbana-Champaign for four years, and at the University of
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`Hawaii for two years.
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` My twenty-plus years of industry experience includes consulting work
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`for the United States Department of Defense as well as for private companies such
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`as Xerox, Nokia, MITRE, ADP, and Hewlett-Packard. The topics upon which I
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`provide consulting expertise include data communications for wireless networks,
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`digital communications, information theory, computer software, and mathematical
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`analyses.
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`IPR2018-01342 (’535 Patent)
`ZEGER POR DECLARATION
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`I have authored 77 peer-reviewed journal articles, the majority of which
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`
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`are on the topic of compression or information theory. I have also authored over 110
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`papers at various conferences and symposia over the past thirty years, such as the:
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`IEEE International Conference on Communications; IEEE Radio and Wireless
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`Symposium; Wireless Communications and Networking Conference; IEEE Global
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`Telecommunications Conference; International Symposium on Network Coding;
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`IEEE International Symposium on Information Theory; UCSD Conference on
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`Wireless Communications; International Symposium on Information Theory and Its
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`Applications; Conference on Advances in Communications and Control Systems;
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`IEEE Communication Theory Workshop; Conference on Information Sciences and
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`Systems; Allerton Conference on Communications, Control, and Computing;
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`Information Theory and Its Applications Workshop; Asilomar Conference on
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`Signals, Systems, and Computers. Roughly half of those papers relate to data
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`compression. I also am co-inventor on a US patent disclosing a memory saving
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`technique for image compression.
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`I was elected a Fellow of the IEEE in 2000, an honor bestowed upon
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`only a small percentage of IEEE members. I was awarded the National Science
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`Foundation Presidential Young Investigator Award in 1991, which included
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`$500,000 in research funding. I received this award one year after receiving my
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`Ph.D.
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`IPR2018-01342 (’535 Patent)
`ZEGER POR DECLARATION
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`I have served as an Associate Editor for the IEEE Transactions on
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`
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`Information Theory and have been an elected member of the IEEE Information
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`Theory Board of Governors for three, three-year terms. I organized and have been
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`on the technical advisory committees of numerous workshops and symposia in the
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`areas of communications and information theory. I regularly review submitted
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`journal manuscripts, government funding requests, conference proposals, student
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`theses, and textbook proposals. I also have given many lectures at conferences,
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`universities, and companies on topics in communications and information theory.
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`
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`I have extensive experience in electronics hardware and computer
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`software, from academic studies, work experience, and supervising students. I
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`personally program computers on an almost daily basis and have fluency in many
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`different computer languages.
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` My curriculum vitae, attached to this declaration as Exhibit A, (“Zeger
`
`Curriculum Vitae”), lists my publication record in archival journals, international
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`conferences, and workshops.
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`II. Materials Considered
`
`I have been asked to provide a technical review, analysis, insights, and
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`opinions. My technical review, analysis, insights, and opinions are based on my
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`education, research, and experience, as well as my study of relevant materials.
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`IPR2018-01342 (’535 Patent)
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`I have reviewed and am familiar with the ’535 patent specification and
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`
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`claims. My understanding of the claims is based on the plain and ordinary meaning
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`and/or broadest reasonable interpretation of the claims as would be understood by a
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`person of ordinary skill in the art, unless the inventor has provided a special meaning
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`for a term. Unless otherwise noted, my opinions set forth herein do not rest on a
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`disagreement with Dr. Acton as to the meaning of any claim term or limitation.
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`I have reviewed and am familiar with the Petition for Inter Partes
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`Review, Patent Owner Preliminary Response, and the Board’s Decision to Institute
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`in this proceeding.
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`I have reviewed the Declaration of Dr. Scott Acton. I have also
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`reviewed the Dvir and Ishii references submitted by Petitioner in this proceeding, as
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`well as other references, and am familiar with those references. I have also reviewed
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`the exhibits submitted by Petitioner and the exhibits cited in this declaration. In
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`addition, I have reviewed Dr. Acton’s deposition testimony in this proceeding
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`(“Acton Deposition” or “Acton Dep.,” Ex. 2011). I have also reviewed the
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`prosecution history of the ’535 patent.
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` This declaration represents only opinions I have formed to date. I may
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`consider additional documents as they become available or other documents that are
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`necessary to form my opinions. I reserve the right to revise, supplement, or amend
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`my opinions based on new information and on my continuing analysis.
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`IPR2018-01342 (’535 Patent)
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`III. Relevant Legal Standards
`
`I am not an attorney. I offer no opinions on the law. But counsel has
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`informed me of the following legal standards relevant to my analysis here. I have
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`applied these standards in arriving at my conclusions.
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`A. Burden of Proof
`
`I understand that in an inter partes review the petitioner has the burden
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`of proving a proposition of unpatentability by a preponderance of the evidence.
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`B. Claim Construction
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`I understand that in this inter partes review the Board applies a broadest
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`reasonable interpretation (BRI) claim construction standard to claims in an
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`unexpired patent. I understand that the PTO set forth a new final rule published
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`October 11, 2018 changing the claim construction standard in IPRs from BRI to
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`plain and ordinary meaning referred to as the Phillips standard. But I understand that
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`this does not apply to this proceeding because the new “rule is effective on
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`November 13, 2018 and applies to all IPR, PGR, and CBM petitions filed on or after
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`the effective date.” Changes to the Claim Construction Standard for Interpreting
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`Claims in Trial Proceedings Before the Patent Trial and Appeal Board, 83 Fed. Reg.
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`51,340 (Oct. 11, 2018) (to be codified at 37 C.F.R. pt. 42). This Petition was served
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`on July 3, 2018.
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`IPR2018-01342 (’535 Patent)
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`I understand that the broadest reasonable interpretation standard does
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`not mean the broadest possible interpretation. I understand that the Board must
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`always consider the claims in light of the specification and teachings in the patent
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`and that a proper claim construction analysis corresponds with how the inventor
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`describes his invention in the specification. I further understand that a proper claim
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`construction should also take into account the patent’s prosecution history.
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`I understand that there is a heavy presumption that claim terms carry
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`their full ordinary and customary meaning. I further understand that there are only
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`two exceptions to this general rule: (1) when a patentee sets out a definition and acts
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`as his own lexicographer, or (2) when the patentee disavows the full scope of a claim
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`term either in the specification or during prosecution.
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`I understand that the Board does not construe claim terms unnecessary
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`to resolving the controversy.
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`C. Embodiments
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`I understand that references to a particular “embodiment” in the written
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`description are used to introduce a particular implementation or method of carrying
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`out the invention. For example, I understand that International Patent Classification
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`(Version 2009) defines an “embodiment” as “a specific, disclosed example of how
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`an inventive concept, that is more generally stated elsewhere in the disclosure, can
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`IPR2018-01342 (’535 Patent)
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`be put into practice.” I further understand that not all various embodiments in a
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`patent may be recited in the claims.
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`D. Anticipation
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`I understand that for a prior art reference to serve as an anticipatory
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`reference, it must disclose every limitation of the claimed invention, either explicitly
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`or inherently. I understand that anticipation requires that every element and
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`limitation of the claim was previously described in a single prior art reference, either
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`expressly or inherently, so as to place a person of ordinary skill in possession of the
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`invention.
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`I further understand that unless a reference discloses within the four
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`corners of the document not only all of the limitations claimed but also all of the
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`limitations arranged or combined in the same way as recited in the claim, it cannot
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`be said to prove prior invention of the thing claimed and, thus, cannot anticipate
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`under 35 U.S.C. § 102. I further understand that prior art references that are
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`ambiguous as to the presence or description of a particular claim element cannot
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`anticipate a claim.
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`E. Obviousness
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`I understand that a claim of a patent may not be novel even though the
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`invention is not identically disclosed or described in the prior art so long as the
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`differences between the subject matter sought to be patented and the prior art are
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`such that the subject matter as a whole would have been obvious to a person having
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`ordinary skill in the art in the relevant subject matter at the time the invention was
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`made.
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`I understand that, to demonstrate obviousness, it is not sufficient for a
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`petition to merely show that all of the elements of the claims at issue are found in
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`separate prior art references or even scattered across different embodiments and
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`teachings of a single reference. The petition must thus go further, to explain how a
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`person of ordinary skill would combine specific prior art references or teachings,
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`which combinations of elements in specific references would yield a predictable
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`result, and how any specific combination would operate or read on the claims.
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`Similarly, it is not sufficient to allege that the prior art could be combined, but rather,
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`the petition must show why and how a person of ordinary skill would have combined
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`them.
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`I understand that, to demonstrate obviousness, a petition must
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`accurately identify and analyze the differences between the claimed invention and
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`the prior art.
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`I understand that obviousness cannot be shown by conclusory
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`statements, and that the petition must provide articulated reasoning with some
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`rational underpinning to support its conclusion of obviousness.
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`IPR2018-01342 (’535 Patent)
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`IV. The ’535 Patent (Ex. 1001)
`A. Overview of the ’535 Patent
` The ’535 patent claims priority to a provisional application filed on
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`February 13, 2001. The ’535 patent addresses specific problems in the field of
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`compressing, storing, and transmitting digital data. Those problems include: the
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`“compromise between efficient data storage, access speed, and addressable data
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`space”; “file systems [that] are not able to randomly access compressed data in an
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`efficient manner”; “substantial disk fragmentation and slower access times”;
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`optimizing the “algorithmic efficiency” of the compressors being used; and
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`“Competing requirements of data access bandwidth, data reliability/redundancy, and
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`efficiency of storage space.” ’535 patent at 5:5–10; 6:31–7:45.
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` The ’535 patent solved these technological problems and others with a
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`novel technological solution in data compression using a combination of (1)
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`asymmetric compressors, (2) two or more compressors, and (3) selecting
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`compressors based on a parameter such as throughput of a communication channel,
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`and (4) access profiles. The ’535 patent explains that “access profiles comprise
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`information that enables the controller to select a suitable compression algorithm
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`that provides a desired balance between execution speed (rate of compression) and
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`efficiency (compression ratio).” Id. at 8:8–13. It describes that “the overall
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`throughput (bandwidth) . . . is one factor considered by the controller 11 in deciding
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`whether to use an asymmetrical or symmetrical compression.” Id. at 11:25-29. The
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`patent also recognized that using an asymmetrical algorithm may “provide an
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`increase in the overall system performance” (id. at 12:14-20), where an
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`“asymmetrical” algorithm is defined to be a compression algorithm “in which the
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`execution time for the compression and decompression routines differ significantly.”
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`Id. at 9:63-66.
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` More generally, the ’535 patent relates to “data compression and
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`decompression” and to “compressing and decompressing data based on an actual or
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`expected throughput (bandwidth) of a system that employs data compression.” ’535
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`patent at Abstract. The ’535 patent also relates to “the subsequent storage, retrieval,
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`and management of information in data storage devices utilizing either compression
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`and/or accelerated data storage and retrieval bandwidth.” Id. at 1:26–29.
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` The ʼ535 patent explains that data compression algorithms can have
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`varied performance characteristics. Id. at 1:32–35. For example, with a typical
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`dictionary-based compression algorithm, the size of the dictionary can affect the
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`performance of the algorithm. Id. at 1:35–38. A large dictionary may yield very good
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`compression ratios but may make the algorithm take a long time to execute.
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` On the other hand, a smaller dictionary may yield a faster compression
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`time but at the expense of a lower compression ratio. Id. at 1:38–44. Thus, the patent
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`recognizes one challenge in employing data compression is selecting the appropriate
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`algorithm from a variety of algorithms for a given application or system. The patent
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`also teaches that the desired balance between speed and efficiency is an important
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`factor in determining which algorithm to select for data compression. The inventors
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`of the ’535 patent recognized that a system that provides dynamic modification of
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`compression system parameters to provide an optimal balance between speed and
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`compression ratio is highly desirable. Id. at 1:56–60.
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` The ʼ535 patent describes as one example a system for compressing and
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`decompressing based on the actual or expected throughput (bandwidth) of a system
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`employing data compression and a technique of optimizing based upon planned,
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`expected, predicted, or actual usage. Id. at 7:51–55. A bandwidth sensitive data
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`compression routine may be selected based on access profiles that enable the
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`controller to determine a compression routine associated with a data type of the data
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`to be compressed. Id. at 8:4–8. The access profiles comprise information that enables
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`the controller to select a suitable compression algorithm that provides the desired
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`balance between speed and compression ratio. Id. at 8:8–13.
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` These access profiles may take into account the overall throughput of a
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`system as one factor in deciding whether to use an asymmetric or symmetric
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`algorithm. Id. at 11:25–29. An asymmetric algorithm is one in which the execution
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`time for the compression and decompression routines differ significantly. Id. at
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`9:64–66. Another factor the access profile may track is the type of data to be
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`processed. Id. at 11:29–31. For example, different data types may be associated with
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`different compression algorithms. Id. at 11:35–40.
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` Through its teachings, the ’535 patent describes a system that selects
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`an appropriate compression algorithm to optimize system throughput based on the
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`data being compressed. Id. at 14:27–39.
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`B. Claims of ’535 Patent
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`Independent claim 1 of the ’535 patent recites:
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`1. A method, comprising:
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`[a]
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`determining a parameter or attribute of at least a portion of a data block
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`having audio or video data;
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`[b]
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`selecting an access profile from among a plurality of access profiles
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`based upon the determined parameter or attribute; and
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`[c]
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`compressing the at least the portion of the data block with one or more
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`compressors using asymmetric data compression and information from
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`the selected access profile to create one or more compressed data
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`blocks, the information being indicative of the one or more compressors
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`to apply to the at least the portion of the data block.
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` Claims 2–6 and 8–12 depend directly or indirectly from independent
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`claim 1. The only other challenged claim is independent claim 14. Claim 14 recites:
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`14. A method, comprising:
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`determining a parameter or attribute of at least a portion of a data block;
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`selecting an access profile from among a plurality of access profiles
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`based upon the determined parameter or attribute; and
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`[a]
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`[b]
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`[c]
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`compressing the at least the portion of the data block with one or more
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`compressors utilizing information from the selected access profile to
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`create one or more compressed data blocks, the information being
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`indicative of the one or more compressors to apply to the at least the
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`portion of the data block,
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`[d] wherein the one or more compressors utilize at least one slow compress
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`encoder and at least one fast decompress decoder, and
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`[e] wherein compressing the at least the portion of the