`
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`
`I}.S. DEPARTMENT OF COMMERCE
`PATENT AND TRADEMARK OFFICE
`FEE RECORD SHEET -
`
`'
`
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`
`INTEL Ex.1002.oo1
`INTEL Ex.1002.001
`
`
`
`
`
`APPLICATION AS FILED - PART I
`~
`(Column 1)
`(Column 2)
`
`0“
`
`.
`
`1
`
`NUMBER FILED
`
`'
`
`NUMBER EXTRA
`
`BASIC FEE
`37CFR1.1 o. b.or c
`SEARCH FEE
`(37 CFR 1.16(It)‘(I).or(m))
`EXAMINATION FEE
`(37 CFR 1.16(0). ID). 0' 111))
`TOTAL CLAIMS
`(37 CFR 1.111(1))
`INDEPENDENT CLAIMS
`fl"
`(37 CFR 1.1601”
`
`
`
`II the specification and drawings exceed 100
` APPLICATION SIZE
`sheets of paper. the application size lee due
`
`
`FEE
`
`
`Is 5250 ($12510rsmali entity) for each
`(37 CFR 1.16(a))
`~ additional 50 sheets or fraction thereof. See
`
`35 U.S.C.-11 a 1 G and 37 CFR 1.16 s
`
`
`
`
`
`
`
`
`
`
`PTOISB/OG (02-07)
`Approved for use through 02/28/2007. OMB 0651-0032
`U.S. Patent and Trademarti Office; U.S. DEPARTMENT OF COMMERCE
`.
`‘
`~ to a coflection of information unless itdia a I a valid OMB cannot number.
`Under the Pa.
`r11 Reduction Act of 1995. no non: are r uired to res -
`
`
`
`PATENT APPLICATION FEE DETERMINATION RECORD
`
`
`Substitute for Form PTO-875
`
`
`
`
`
`
`OTHERTHAN
`SMALL ENTITY
`RATE 8
`
`
`
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`I
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`Ble
`
`II
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`TOTAL '
`
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`Ifififilé
`
`ADD'L FEE
`
`
`MULTIPLE DEPENDENT CLAIM PRESENT (37 CFR 1.180))
`
`
`
`' II the difierenca in column 1 is less than zero. enter '0' in column 2.. x -
`
`
`
`
`
`APPLICATION AS AMENDED — PART ll
`
`
`
`:- I AFTER'
`
`(Column 1)
`CLAIMS
`
`REMAINING
`
`
`
`
`
`AMENDMENT
`
`
`
`'
`(Column 2)
`HIGHEST
`NUMBER
`
`PAID FOR
`
`PREVIOUSLY
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`
`
`
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`(Column 3)
`PRESENT
`EXTRA
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`FIRST PRESENTATION OF MULTIPLE DEPENDENT CLAIM (37 CFR 1.166))
`
`ADDI-
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`TIONAL
`
`‘
`
`OTHER THAN
`SMALL ENTITY
`'
`TIONAL
`
`
`RATE (5)
`ADDI-
`
`FEE
`
`
`
`+3“: ‘ -
`
`(Column 1)
`CLAIMS
`
`REMAINING
`
`
`AFTER
`AMENDMENT
`
`
`
`
`(Column 2)
`HIGHEST
`NUMBER
`PREVIOUSLY
`PAID FOR
`
`(Column 3)
`
`PRESENT
`EXTRA
`
`- Total
`(37 cm 1.166))
`Independent
`
`(:7 cm l.|8(h)) AMENDMENTB
`
`Application Size Fee (37 CFR 1.1G(s))
`
`
`
`
`
`ADDI-
`
`TIONAL
`
`
`
`
`'
`I
`FIRST PRESENTATION OF MULTIPLE DEPENDENT CLAIM (37 CFR 1.160))
`
`TOTAL
`
`
`ADD'L FEE
`AD D'L FE E
`
`
`
`‘
`If the entry in column 1 is less than the entry in column 2. write '0' in column 3.
`
`
`“ If the 'Highest'Number Previously Paid For" IN THIS SPACE is less than 20. enter '20'.
`
`“' If the 'Highest Number Previously Paid For" IN THIS SPACE is less than 3. enter '3'.
`
`
`i
`The ‘Hihest Number Previousi Paid For” Total or Inde endent is the hi nest number found in the a - ro n‘ate box in column 1.
`
`
`This collection of information is required by 37 CFR 1.16. The information is required to obtain or retain a benefit by the public which is to tile (and by the
`USPTO to process) an application. Confidentiality is governed by_35 U.S.C. 122 and 37 CFR 1.14. This collection is estimated to take 12 minutes to complete.
`including gathering. preparing. and submitting the completed application form to the USPTO. Time will vary depending upon the individual case. Any comments
`on the amount of time you require to complete this form and/or suggestions for reducing this burden. should be sent to the Chief Information Officer, U.S. Patent
`and Trademark Office. U.S. Department of Commerce. PO. Box 1450, Alexandria. VA 22313-1450. DO NOT SEND FEES OR COMPLETED FORMS TO THIS
`ADDRESS. SEND TO: Commissioner for Patents, P.'O.'Box 1450, Alexandria, VA 22313-1450.
`
`
`
`I! you need assistance in completing the‘for'iiiccalli116QD-PTO-9199 and select option 2.
`
`INTEL Ex.1002.002
`INTEL Ex.1002.002
`
`
`
`.3"
`
`5," 18351 US. PTO
`
`llllllllllllllllllllllllllllllllllll
`062507
`
`U-S- PTO
`11/821820
`06,25,200,
`
` - UTILITY PATENT APPLICATION TRANSMITTAL
`
`Attorney Docket No.
`. ALA-006K
`
`rovisional A lications Under 37 CFR
`
`TO THE COMMISSIONER FOR PATENTS:
`
`Transmitted herewith is a patent application identified as follows:
`First-named inventor: Laurence B. Boucher
`
`Assignee: Alacritech, Inc.
`Filing Date: September 27, 2002
`Title: FAST—PATH APPARATUS FOR TRANSMITTING DATA CORRESPONDING TO A TCP CONNECTION
`
`This application claims the benefit under 35 USC §120 of (is a continuation of):
`
`“Fast-Path Apparatus For Receiving Data Corresponding to a TCP Connection”
`Serial No.: 10/260,1 12
`Filing Date: September 27, 2002
`Atty. Docket: ALA-006G
`Examiner: Jude Jean Gilles
`
`This application claims the benefit under 35 USC §120 of Application Serial No. 10/260,112, filed
`September 27, 2002, which in turn claims the benefit under 35 USC §120 of Application Serial No. 10/092,967,
`filed March 6, 2002, which in turn claims the benefit under 35 USC §120 of Application Serial No. 10/023,240,
`filed December 15, 2001, which in turn claims the benefit under 35 USC §120 of Application Serial No.
`09/464,283, filed December 15, 1999, which in turn claims the benefit under 35 USC §120 of Application Serial
`No. 09/439,603, filed November 12, 1999, which in turn claims the benefit under 35 USC §120 of Application
`Serial No. 09/067,544, filed April 27, 1998, which in turn claims the benefit under 35 USC §1 19 of Provisional
`Application Serial No. 60/061,809, filed October 14, 1997.
`I
`
`This application also claims the benefit under 35 USC §120 of Application Serial No. 09/384,792, filed
`August 27, 1999, which in turn claims the benefit under 35 USC §120 oprplication Serial No. 09/141,713, filed
`August 28, 1998, which in turn claims the benefit under 35 USC §119 of Provisional Application Serial No.
`60/098,296, filed August 27, 1998.
`'
`
`US.
`US.
`US
`US.
`US.
`US.
`US.
`US.
`US.
`US.
`US.
`
`(X)
`
`(X)
`
`(X)
`
`F
`
`This application also claims the benefit under 35 USC. §120 ofthe following:
`09/416,925 (ALA-005), filed October 13, 1999;
`Patent Application Serial No.
`09/514,425 (ALA-007), filed February 28, 2000;
`Patent Application Serial No.
`09/675,484 (ALA-010A), filed September 29, 2000;
`Patent Application Serial No.
`Patent Application Serial No.
`09/675,700 (ALA-010B), filed September 29, 2000;
`O9/789,366 (ALA-013), filed February 20, 2001;
`Patent Application Serial No.
`09/801,488 (ALA-011), filed March 7, 2001;
`Patent Application Serial No.
`09/802,551 (ALA-012), filed March 9, 2001;
`Patent Application Serial No.
`09/802,426 (ALA-014), filed March 9, 2001;
`Patent Application Serial No.
`09/802,550 (ALA-015), filed March 9, 2001;
`Patent Application Serial No.
`09/855,979 (ALA-016), filed March 14, 2001; and
`Patent Application Serial No.
`O9/970,124 (ALA-020), filed October 2, 2001.
`Patent Application Serial No.
`
`g.)
`
`The specification contains a statement claiming priority under 35 USC § 120 and claiming the benefit under
`35 USC. §119.
`The entire disclosure of each of the prior applications (10/092,967; 10/023,240; 09/464,283; 09/439,603;
`09/067,544; 09/384,792; 0_9/l41,7l3; 09/416,925; 09/514,425; 09/675,484; 09/675,700; O9/789,366;
`09/801,488; 09/802,551; 09/802,426; 09/802,550; 09/855,979; 09/970,124) is considered as being part of the
`disclosure of the accompanying application and is hereby incorporated by reference therein.
`The entire disclosure of each of the prior provisional applications (60/061,809; 60/098,296) is considered as
`being part ofthe disclosure of the accompanying application and is hereby incorporated by reference therein.
`
`INTEL Ex.1002.003
`INTEL Ex.1002.003
`
`
`
`.15,
`
`Enclosed are:
`
`145
`4
`1
`89
`.4
`
`4
`
`2
`X
`X
`
`pages Specification
`pages Claims
`page Abstract
`pages Drawings
`pages Declaration/Power of Attorney from prior
`application 10/092,967 (signed 7 copy)
`pages Declaration/Power of Attorney from prior
`application 10/092,967 (signed - copy)
`page CD Appendix Transmittal Letter
`CD Appendix (two copies) .
`A check for filing fee ($1800.00)
`
`Newly Executed Declaration Not Required:
`A newly executed declaration is not filed in this application because, under 37 CFR 1.63(d)(1), a newly executed
`declaration is not required because: prior application contained a ‘ declaration as prescribed by 37 CFR 1.63;
`the
`continuation application (this application) is filed by all of the inventors named in the prior application; the specification
`and drawings in the continuation application (this application) contain no matter that would have been new matter in the
`prior application; and a copy of the executed declaration (there were two) in the prior application is being submitted in the
`continuation application (this application).
`
`The filing fee is calculated as follows:
`
`’
`
`FOR
`
`NO. FILED
`
`CLAIMS AS FILED
`NO. EXTRA
`
`RATE
`
`FEE
`
`
`
`
`
`$ 50.00
`$ 0.00
`$0.00
`$300.00
`$750.00
`$500.00
`$200.00
`$1800.00
`
`
`
`Total Claims
`21 -_ $50.00
`lnde endent Claims
`3
`$200.00
`‘
`
`‘
`
`
`
`
`
`
`
`I hereby certify that this is being deposited with the US. Postal
`Service “Express Mail Post Office to Addressee” service under.
`37 CFR § 1.10 on the date indicated below and is addressed to:
`
`Respectfully submitted,
`
`
`
`MS Patent Application
`Commissioner for Patents
`PO. Box 1450
`
`Alexandria, VA 22313-1450
`
`By: %
`
`Typed Name: Mark Lauer
`
`'
`
`.
`
`Date:
`
`Mark Lauer
`
`Reg. No. 36,578
`6601 Koll Center Parkway
`suite 245
`Pleasanton, CA 94566
`Phone:
`(925) 484-9295
`
`(925)484-9291
`Fax:
`é-é— ;_-é 2
`
`Express Mail Label No.: EV 406928085 US
`
`Correspondence Address:
`
`Date of Deposit:
`
`é’é’.
`
`fl 2
`
`.
`
`CUSTOMER NO. 24501
`
`INTEL Ex.1002.004
`INTEL Ex.1002.004
`
`
`
`TO THE ASSISTANT COMMISSIONER FOR PATENTS:
`
`Inventors:
`
`Laurence B. Boucher, et al.
`
`Atty Docket: ALA-006K
`
`Filing Date:
`
`June 25, 2007
`
`Serial No.:
`
`Unknown
`
`Title:
`
`FAST-PATH APPARATUS FOR RECEIVING DATA CORRESPONDING TO
`A TCP CONNECTION
`
`Compact Disk Transmittal Letter per 37 CFR 1.5216)3(iin
`
`Sir:
`
`Transmitted herewith are:
`
`Two Labeled Compact Discs — Recordable (CD-R) — “Copy 1” and “Copy 2,” each in a
`
`CD case and contained in a padded envelope.
`
`The content on the two discs is identical
`
`The machine format is: IBM-PC
`
`The operating system is: MS-Windows
`
`v The creation date of the CDs is: June 21, 2007
`
`The name, date and size of the files on the CDs are listed below:
`
`There are three folders on each disc: 1) CD Appendix A,
`
`2) CD Appendix B, and
`
`3) CD Appendix C.
`
`Folder Appendix A contains two files:
`
`CD Appendix A Title Page.txt. Its size is 370 bytes. It was created 6/21/07.
`
`Rcv.v. Its size is 84.4KB. It was created (written to disc) 6/21/07.
`
`Folder Appenidix B contains two files:
`
`CD Appendix B Title Page.txt. Its size is 495 bytes. It was created 6/21/07.
`
`Microcodetxt. Its size is 105 KB.
`
`It was created (written to disc) 6/21/07.
`
`Express Mail No. EV 406928085 US
`
`'
`
`1
`
`INTEL Ex.1002.005
`INTEL Ex.1002.005
`
`
`
`Folder Appendix C contains three files:
`
`CD Appendix C Title Pagetxt. Its size is 416 bytes. It was created 6/21/07.
`
`atcpsource.wrd.txt. Its size is 778 KB.
`
`It was created (written to disc) 6/21/07.
`
`simbasource.wrd.txt. Its size is 262 KB. It was created (written to disc) 6/21/07.
`
`Respectfully submitted,
`
`k M
`
`ark Lauer
`
`Reg. No. 36,578
`Silicon Edge Law Group LLP
`6601 Koll Center Parkway
`Suite 245
`
`Pleasanton, CA 94566
`Tel:
`(925) 484-9295
`Fax:
`(925) 484-9291
`
`CERTIFICATE OF MAILING
`
`I hereby certify that this correspondence is being deposited with
`
`the United States Postal Service as Express Mail Label No.
`EV406928085US in an envelope addressed to: Box PATENT
`APPLICATION, Assistant Commissioner for Patents,
`
`Washington, DC. 20231, on June 25, 2007.
`
`Date:M b
`Mark Lauer
`
`Express Mail N0. EV 406928085 US
`
`INTEL Ex.1002.006
`INTEL Ex.1002.006
`
`
`
`ALA-006K
`
`Express Mail No. EV 406928085 Us
`
`FAST-PATH APPARATUS FOR TRANSMITTING DATA
`
`CORRESPONDING TO A TCP CONNECTION
`
`Laurence B. Boucher
`
`Stephen E. J. Blightman
`
`Peter K. Craft
`David
`Higgen
`
`Clive M. Philbrick
`
`I Daryl D. Starr
`
`10
`
`15
`
`CROSS-REFERENCE TO RELATED APPLICATIONS
`
`This application claims the benefit under 35 U.S.C. §120 of (is a continuation of) US.
`
`Patent Application Serial No. 10/260,112, entitled “FAST—PATH APPARATUS FOR
`RECEIVING DATA CORRESPONDING TO A TCP CONNECTION,” filed September 27,
`
`2002, by Laurence B. Boucher et al., which in turn claims the benefit under 35 U.S.C. §120 of
`
`(is a continuation of) US. Patent Application Serial No. 10/092,967, entitled “FAST-PATH
`
`APPARATUS FOR RECEIVING DATA CORRESPONDING TO A TCP CONNECTION,”
`
`filed March 6, 2002, by Laurence B. Boucher et al., which in turn claims the benefit under 35
`
`U.S.C. §120 of (is a continuation-in—part of) US. Patent Application Serial No. 10/023,240,
`
`20
`
`entitled “TRANSMIT FAST-PATH PROCESSING ON TCP/1P OFFLOAD NETWORK
`
`INTERFACE DEVICE,” filed December 15, 2001 , by Laurence B. Boucher et al., which in
`
`turn claims the benefit under 35 U.S.C. §120 of (is a continuation-in-part of) US. Patent
`
`Application Serial No. 09/464,283, now US. Patent No. 6,427,173, entitled “INTELLIGENT
`
`NETWORK INTERFACE DEVICE AND SYSTEM FOR ACCELERATED
`
`25
`
`30
`
`COMMUNICATIO ”, filed December 15, 1999, by Laurence B. Boucher et al., which in turn
`claims the benefit under 35 U.S.C. §120 of (is a continuation-in-part of) US. Patent
`
`Application Serial No. 09/439,603, now US. Patent No. 6,247,060, entitled “INTELLIGENT
`
`NETWORK INTERFACE SYSTEM AND METHOD FOR ACCELERATED PROTOCOL
`
`PROCESSING”, filed November 12, 1999, by Laurence B. Boucher et al., which in turn
`
`claims the benefit under 35 U.S.C. §120 of (is a continuation-in-part of) US. Patent
`
`Application Serial No. 09/067,544, now US. Patent No. 6,226,680, entitled “INTELLIGENT
`
`1
`
`INTEL Ex.1002.007
`INTEL Ex.1002.007
`
`
`
`ALA-006K
`
`Express Mail No. EV 406928085 US
`
`NETWORK INTERFACE SYSTEM AND METHOD FOR ACCELERATED PROTOCOL
`
`PROCESSING”, filed April 27, 1998, which in turn claims the benefit under 35 U.S.C. §
`
`119(c)(1) of the Provisional Application filed under 35 U.S.C. §111(b) entitled
`
`I
`
`“INTELLIGENT NETWORK INTERFACE CARD AND SYSTEM FOR PROTOCOL
`
`PROCESSING,” Serial No. 60/061,809, filed on October 14, 1997.
`
`,
`
`~
`
`Application No. 10/260,112 also claims the benefit under 35 U.S.C. §120 of (is a
`
`continuation-in-part of) US. Patent Application Serial No. 09/3 84,792, now US. Patent No.
`
`6,434,620, entitled “TCP OFFLOAD NETWORK INTERFACE DEVICE,” filed August 27,
`
`1999, which in turn claims the benefit under 35 U.S.C. §120 of (is. a continuation-in-part of)
`
`US. Patent Application Serial No. 09/141,713, now US. Patent No. 6,389,479, entitled
`
`“INTELLIGENT NETWORK INTERFACE DEVICE AND SYSTEM FOR
`
`ACCELERATED PROTOCOL PROCESSING”, filed August 28, 1998, which both claim the
`
`benefit under 35 U.S.C. § 119(c)(1) of the Provisional Application filed under 35 U.S.C.
`
`§111(b) entitled “INTELLIGENT NETWORK INTERFACE DEVICE AND SYSTEM FOR
`
`ACCELERATED COMMUNICATION,” Serial No. 60/098,296, filed August 27, 1998.
`
`Application No. 10/260,112 also claims the benefit under 35 U.S.C. §120 of (is a
`continuation-in-part of) US. Patent Application Serial No. 09/416,925, now U.S.Patent No.
`
`6,470,415, entitled “QUEUE SYSTEM FOR MICROPROCESSORS,” filed October 13, 1999,
`
`10
`
`15
`
`(is a continuation-in-part of) US. Patent Application Serial No. 09/514,425, now US. Patent
`
`20
`
`No. 6,427,171, entitled “PROTOCOL PROCESSING STACK FOR USE WITH
`
`INTELLIGENT NETWORK INTERFACE CARD,” filed February 28, 2000, (is a
`
`continuation-in-part of) US. Patent Application Serial No.. 09/675,484, now US. Patent No.
`
`6,807,581, entitled “INTELLIGENT NETWORK STORAGE INTERFACE SYSTEM,” filed
`
`September 29, 2000, (is a continuation-in—part of) US. Patent Application Serial No.
`
`09/675,700, entitled “INTELLIGENT NETWORK STORAGE INTERFACE DEVICE,” filed
`
`September 29, 2000, (is a continuation-in-part of) US. Patent Application Serial No.
`
`09/789,366, now US. Patent No. 6,757,746, entitled “OBTAINING A DESTINATION
`
`ADDRESS SO THAT NETWORK INTERFACE DEVICE CAN WRITE NETWORK
`
`DATA WITHOUT HEADERS DIRECTLY INTO HOST MEMORY,” filed February 20,
`
`2001 , (is a continuation—in-part of). U.S.vPatent Application Serial No. 09/801,488, now US.
`
`Patent No. 6,687,758, entitled “PORT AGGREGATION FOR NETWORK CONNECTIONS
`
`THAT ARE OFFLOADED TO NETWORK INTERFACE DEVICES,” filed March 7, 2001,
`2
`
`25
`
`30
`
`INTEL Ex.1002.008
`INTEL Ex.1002.008
`
`
`
`ALA—006K
`
`Express Mail No. EV 406928085 US
`
`(is a continuation-in-part of) US. Patent Application Serial No. 09/802,551, entitled
`
`“INTELLIGENT NETWORK STORAGE INTERFACE SYSTEM,” filed March 9, '2001, (is a
`
`continuation-in-part of) US. Patent Application Serial No. 09/802,426, entitled “REDUCING
`
`DELAYS ASSOCIATED WITH INSERTING A CHECKSUM INTO A NETWORK
`
`MESSAGE,” filed March 9, 2001, (is a continuation-in-part of) US. Patent Application Serial
`No. 09/802,550, now US. Patent No. 6,658,480, entitled “INTELLIGENT NETWORK
`'
`
`INTERFACE SYSTEM AND METHOD FOR ACCELERATED PROTOCOL
`
`PROCESSING,” filed March 9, 2001, (is a continuation-in-part of) US. Patent Application
`
`Serial No. 09/855,979, entitled “NETWORK INTERFACE DEVICE EMPLOYING DMA
`
`10
`
`COMMAND QUEUE,” filed March 14, 2001, (is a continuation-in-part of) US. Patent
`
`Application Serial No. 09/970,124, entitled “NETWORK INTERFACE DEVICE THAT
`
`FAST-PATH PROCESSES SOLICITED SESSION LAYER READ COMMANDS,” filed
`
`October 2, 2001.
`
`The subject matter of all of the above-identified patent applications (including the
`
`15
`
`subject matter in the Microfiche Appendix of US. Application Serial No. 09/464,283), and of
`
`the two above-identified provisional applications, is incorporated by reference herein.
`
`REFERENCE TO COMPACT DISC APPENDIX
`
`20
`
`25
`
`The Compact Disc Appendix (CD Appendix), which is a part of the present disclosure,
`
`includes three folders, designated CD Appendix A, CD Appendix B, and CD Appendix C on
`
`the compact disc. CD Appendix A contains a hardware description language (verilog code)
`
`description of an embodiment of a receive sequencer. CD Appendix B contains microcode
`
`executed by a processor that operates in conjunction with the receive sequencer of CD
`Appendix A. CD Appendix C contains a device driver executable'on the host as well as ATCP
`
`code executable on the host. A portion of the disclosure of this patent document contains
`
`material (other than any portion of the “free BSD” stack included in CD Appendix C) which is
`
`subject to copyright protection. The copyright owner of that material has no objection to the
`
`facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears
`
`in the Patent and Trademark Office patent files or records, but otherwise reserves all copyright
`
`'30
`
`rights.
`
`INTEL Ex.1002.009
`INTEL Ex.1002.009
`
`
`
`ALA-006K
`
`Express Mail No. EV 406928085 US
`
`TECHNICAL FIELD
`
`The present invention relates generally to computer or other networks, and more
`
`particularly to processing of information communicated between hosts such as computers
`
`connected to a network.
`
`BACKGROUND
`
`10
`
`15
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`The advantages of network computing are increasingly evident. The convenience and
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`efficiency'of providing information, communication or computational power to individuals at
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`their personal computer or other end user devices has led to rapid growth of such network
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`computing, including intemet as well as intranet devices and applications.
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`As is well known, most network computer communication is accomplished with the aid of
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`a layered software architecture for moving information between host computers connected to
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`the network. The layers help to segregate information into manageable segments, the general
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`functions of each layer often based on an international standard called Open Systems
`Interconnection (OSI). 081 sets forth seven processing layers through which information may
`pass when received by a host in order to be presentable to an end user. Similarly, transmission
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`of information from a host to the network may pass through those seven processing layers in
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`reverse order. Each step of processing and service by a layer may include copying the
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`processed information. Another reference model that is widely implemented, called TCP/IP
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`(TCP stands for transport control protocol, while IP denotes intemet protocol) essentially
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`employs five of the seven layers of 081.
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`Networks may include, for instance, a high—speed bus such as an Ethernet connection or an
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`intemet connection between disparate local area networks (LANs), each of which includes
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`multiple hosts, or any of a variety of other known means for data transfer between hosts.
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`According to the 081 standard, physical layers are connected to the network at respective
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`hosts, the physical layers providing transmission and receipt of raw data bits via the network.
`A data link layer is serviced by the. physical layer of each host, the data link layers providing
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`frame division and error correction to the data received from the physical layers, as well as,
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`processing acknowledgment frames sent by the receiving host. A network layer of each host is
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`serviced by respective data link layers, the network layers primarily controlling size and
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`coordination of subnets of packets of data.
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`A transport layer is serviced by each network layer and a session layer is serviced by each
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`transport layer within each host. Transport layers accept data from their respective session
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`layers and split the data into smaller units for transmission to the other host’s transport layer,
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`which concatenates the data for presentation to respective presentation layers. Session layers
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`allow for enhanced communication control between the hosts. Presentation layers are serviced
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`by their respective session layers, the presentation layers translating between data semantics
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`and syntax which may be peculiar to each host and standardized structures of data
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`representation. Compression and/or encryption of data may also be accomplished at the
`presentation level. Application layers are serviced by respective presentation layers, the
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`application layers translating between programs particular to individual hosts and standardized
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`programs for presentation to either an application or an end user. The TCP/IP standard
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`includes the lower four layers and application layers, but integrates the functions of session
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`layers and presentation layers into adjacent layers. Generally speaking, application,
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`presentatidn and session layers are defined as upper layers, while transport, network and data
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`link layers are defined as lower layers.
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`The rules and conventions for each layer are called the protocol of that layer, and since the
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`protocols and general functions of each layer are roughly equivalent in various hosts, it is
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`useful to think of communication occurring directly between identical layers of different hosts,
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`even though these peer layers do not directly communicate without information transferring
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`sequentially through each layer below. Each lower layer performs a service for the layer
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`immediately above it to help with processing the communicated information. Each layer saves
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`the information for processing and service to the next layer. Due to the multiplicity of
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`hardware and sofiware architectures, devices and programs commonly employed, each layer is
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`necessary to insure that the data can make it to the intended destination in the appropriate
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`form, regardless of variations in hardware and software that may intervene.
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`In preparing data for transmission from a first to a second host, some control data is added
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`at each layer of the first host regarding the protocol of that layer, the control data being
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`indistinguishable from the original (payload) data for all lower layers of that host. Thus an
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`application layer attaches an application header to the payload data and sends the combined
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`data to the presentation layer of the sending host, which receives the combined data, operates
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`on it and adds a presentation header to the data, resulting in another combined data packet.
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`The data resulting from combination of payload data, application header and presentation
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`header is then passed to the session layer, which performs required operations including
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`attaching a session header to the data and presenting the resulting combination of data to the
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`transport layer. This process continues as the information moves to lower layers, with a
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`transport header, network header and data link header and trailer attached to the data at each of
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`those layers, with each step typically including data moving and copying, before sending the
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`data as bit packets over the network to the second host.
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`The receiving host generally performs the converse of the above-described process,
`beginning with receiving the bits from the network, as headers are removed and data processed
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`in order from the lowest (physical) layer to the highest (application) layer before transmission
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`to a destination of the receiving host. Each layer of the receiving host recognizes and
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`manipulates only the headers associated with that layer, since to that layer the higher layer
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`control data is included with and indistinguishable from the payload data. Multiple interrupts,
`valuable central processing unit (CPU) processing time and repeated data copies may also be
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`necessary for the receiving host to place the data in an appropriate form at its intended
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`destination.
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`The above description of layered protocol processing is simplified, as college-level
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`textbooks devoted primarily to this subject are available, such as Computer Networks, Third
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`Edition (1996) by Andrew S. Tanenbaum, which is incorporated herein by reference. As
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`defined in that book, a computer network is an interconnected collection of autonomous
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`computers, such as intemet and intranet devices, including local area networks (LANS), wide-
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`area networks (WANs), asynchronous transfer mode (ATM), ring or token ring, wired,
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`wireless, satellite or other means for providing communication capability between separate
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`processors. A computer is defined herein to include a device having both logic and memory
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`functions for processing data, while computers or hosts connected to a network are said to be
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`heterogeneous if they function according to different operating devices or communicate via
`different architectures.
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`As networks grow increasingly popular and the information communicated thereby
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`becomes increasingly complex and copious, the need for such protocol processing has
`increased. It is estimated that a large fraction of the processing power of a host CPU may be
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`devoted to controlling protocol processes, diminishing the ability of that CPU to perform other
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`tasks. Network interface cards have been developed to help with the lowest layers, such as the
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`physical and data link layers. It is also possible to increase protocol processing speed by
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`simply adding more processing power or CPUs according to conventional arrangements. This
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`solution, however, is both awkward and expensive. But the complexities presented by various
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`networks, protocols, architectures, operating devices and applications generally require
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`extensive processing to afford communication capability between various network hosts.
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`SUMMARY OF THE INVENTION
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`The current invention provides a device for processing network communication that greatly
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`increases the speed of that processing and the efficiency of transferring data being
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`communicated. The invention has been achieved by questioning the long-standing practice of
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`performing multilayered protocol processing on a general-purpose processor. The protocol
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`processing method and architecture that results effectively collapses the layers of a connection-
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`based, layered architecture such as TCP/1P into a single wider layer which is able to send
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`network data more directly to and from a desired location or buffer on a host. This accelerated
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`processing is provided to a host for both transmitting and receiving data, and so improves
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`performance whether one or both hosts involved in. an exchange of information have such a
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`feature.
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`The accelerated processing includes employing representative control instructions for a
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`given message that allow data from the message to be processed Via a fast-path which accesses
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`message data directly at its source or delivers it directly to its intended destination. This fast-
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`path bypasses conventional protocol processing of headers that accompany the data. The fast-
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`path employs a specialized microprocessor designed for processing network communication,
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`avoiding the delays and pitfalls of conventional software layer processing, such as repeated
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`copying and interrupts to the CPU. In effect, the fast—path replaces the states that are
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`traditionally found in several layers of a conventional network stack with a single state
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`machine encompassing all those layers, in contrast to conventional rules that require rigorous
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`differentiation and separation of protocol layers. The host retains a sequential protocol
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`processing stack which can be employed for setting up a fast—path connection or processing
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`message exceptions. ' The specialized microprocessor and the host intelligently choose whether
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`a given message or portion of a message is processed by the microprocessor or the host stack.
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`One embodiment is a method of generating a fast-path response to a packet received onto a
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`network interface device where the packet is received over a TCP/IP network connection and
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`where the TCP/IP network connection is identified at least in part by a TCP source port, a TCP
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`destination port, an IP source address, and an IP destination address. The method comprises:
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`1)'Examining the packet and determining from the packet the TCP source port, the TCP
`destination port, the IP source address, and the IP destination. address; 2) Accessing an
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`appropriate template header stored on the network interface device. The template header has
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`TCP fields and IP fields; 3) Employing a finite state machine that implements both TCP
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`protocol processing and IP protocol processing to fill in the TCP fields and IP fields of the
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`template header; and 4) Transmitting the fast-path response from the network interface device.
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`The fast-path response includes the filled in template header and a payload. The finite state
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`machine does not entail a TCP protocol processing layer and a discrete IP protocol processing
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`layer where the TCP and IP layers are executed one after another in sequence. Rather, the
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`finite state machine covers both TCP and IP protocol processing layers.
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`In one embodiment, buffer descriptors that point to packets to be transmitted are pushed
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`onto a plurality of transmit queues. A transmit sequencer pops the transmit queues and obtains
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`the buffer descriptors. The buffer descriptors are then used to retrieve the packets from buffers
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`where the packets are stored. The retrieved packets are then transmitted from the network
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`interface device. In one embodiment, there are two transmit queues, one having a higher
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`transmission priority than the other. Packets identified by buffer descriptors on the higher
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`priority transmit queue are transmitted from the network interface device before packets
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`identified by the lower priority transmit queue.
`Other structures and methods are disclosed in the detailed description below. This
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`summary does not purport to define the invention. The invention is defined by the claims.
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`BRIEF DESCRIPTION OF THE DRAWINGS
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`FIG. 1 is a plan view diagram of a device of the present invention, including a host
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`computer having a communication-processing device for accelerating network
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`communication.
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`FIG. 2 is a diagram of information flow for the host of FIG. 1 in processing network
`communication, including a fast-path, a slow-path and a transfer of connection context
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`between the fast and slow-paths.
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`FIG. 3 is a flow chart of message receiving according to the present invention.
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`FIG. 4A is a diagram of information flow for the host of FIG. 1 receiVing a message packet
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`processed by the slow-path.
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`FIG. 4B is a diagram of information flow for the host of FIG. 1 receiving an initial message
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`packet processed by the fast-path.
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`FIG. 4C is a diagram of information flow for the host of FIG. 4B receiving a subsequent
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`message packet processed by the fast-path.
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`FIG. 4D is a diagram of information flow for the host of FI