95001579 (P.T.A.B. Feb. 26, 2014)

Ex Parte 7080301 et al

Patent Trial and Appeal BoardFeb 26, 2014

95001579 (P.T.A.B. Feb. 26, 2014)

UNITED STATES PATENT AND TRADEMARK OFFICE UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 95/001,579 03/18/2011 7080301 3059.704REX3 5475 26111 7590 02/26/2014 STERNE, KESSLER, GOLDSTEIN & FOX P.L.L.C. 1100 NEW YORK AVENUE, N.W. WASHINGTON, DC 20005 EXAMINER SORRELL, ERON J ART UNIT PAPER NUMBER 3992 MAIL DATE DELIVERY MODE 02/26/2014 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE _____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ______________ XILINX, INC., Third-Party Requester, Appellant, and Respondent v. INTELLECTUAL VENTURES MANAGEMENT, OF WHICH INTELLECTUAL VENTURES I LLC IS AN AFFILIATE, Patent Owner, Appellant, and Respondent ______________ Appeal 2014-001224 Reexamination Control No. 95/001,579 United States Patent 7,080,301 B2 1 Technology Center 3900 ______________ Before JOHN C. MARTIN, JOHN A. JEFFERY, and JENNIFER L. MCKEOWN, Administrative Patent Judges. MARTIN, Administrative Patent Judge. 1 Issued July 18, 2006, based on Application 11/261,762, filed October 31, 2005, which is identified as a continuation of Application No. 10/767,265, filed January 30, 2004 (now Patent 6,964,001), which is identified as a continuation of Application 09/275,726, filed March 24, 1999 (now Patent 6,687,865) (hereinafter “grandparent ’865 patent”). The Certificate of Correction dated February 1, 2011, in Patent 7,080,301 B2 (hereinafter the ’301 patent”) made no changes relevant to the merits of the appeals before us. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 2 DECISION ON APPEAL Intellectual Ventures Management (hereinafter “Patent Owner”) appeals the Examiner’s rejection of original claims 1-6 of and proposed new claims 7-26 for the ’301 patent on various grounds. Xilinx, Inc., (hereinafter “Requester”) appeals the Examiner’s refusal to additionally reject these claims on other grounds. We have jurisdiction under 35 U.S.C. §§ 6, 134, and 315. We AFFIRM all of the Examiner’s rejections and AFFIRM the Examiner’s decision not to enter Requester’s additional proposed rejections. I. STATEMENT OF THE CASE A. Related Litigation The ’301 patent is described as “the subject of declaratory judgment claims of non-infringement and invalidity in Xilinx, Inc. v. Invention Investment Fund I LP et al., Case No. 5:11-cv-00671-EJD (N. D. Cal.).” PATENT OWNER’S APPEAL BRIEF TO THE PATENT TRIAL AND APPEAL BOARD, filed March 8, 2013 (hereinafter “P.O. Appeal Br.”) 4, para. II.c. On February 7, 2013, the court dismissed these claims pursuant to a stipulation filed by the parties. Id. B. This Inter Partes Reexamination Proceeding The REQUEST FOR INTER PARTES REEXAMINATION (hereinafter “Request”), which was filed on March 18, 2011, proposes Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 3 rejections #1-#4 of original patent claims 1-6 under 35 U.S.C. §§ 102 and 103 based on either of Zorian 2 and Franklin. 3 These proposed rejections are described in claim charts submitted as Exhibits AA and BB to the Request. In response to an Amendment adding claims 7-26, 4 Requester filed comments including proposed rejections #5 to #12 of the new claims, additionally relying on Sauerwein 5 with respect to some claims. 6 These proposed rejections are described in claim charts identified as Exhibits CC- HH. A Right of Appeal Notice (RAN) was mailed on December 12, 2012. The Examiner’s Answer, which incorporates the RAN by reference without providing any further analysis, was mailed on July 12, 2013. In addition to Patent Owner’s Appeal Brief, the following briefs are before us: 2 Yervant Zorian, Test Requirements for Embedded Core-based Systems and IEEE P1500, International Test Conference 1997 (Nov. 1-6, 1997). Request Ex. C. 3 Manoj Franklin & Kewal K. Saluja, Built-in Self-Testing of Random- Access Memories, COMPUTER (Oct. 1990). Request Ex. D. 4 REPLY TO OFFICE ACTION IN INTER PARTES REEXAMINATION, filed July 5, 2011, at 5-7. 5 Sauerwein, et al., U.S. 5,526,286, issued June 11, 1996. 6 COMMENTS BY THIRD PARTY REQUESTER PURSUANT TO 37 CFR § 1.947, filed August 4, 2011, at 23-24 paras. 5-12. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 4 (1) THIRD PARTY REQUESTER’S APPEAL BRIEF IN INTER PARTES REXAMINATION PURSUANT TO 37 C.F.R. § 41.67, filed March 8, 2013 (hereinafter “Req. Appeal Br.”); (2) “Patent Owner’s Respondent Brief,” filed April 8, 2013 (“P.O. Resp’t Br.”); (3) THIRD PARTY REQUESTER’S RESPONDENT BRIEF IN INTER PARTES REXAMINATION PURSUANT TO 37 C.F.R. § 41.68, filed April 10, 2013 (“Req. Resp’t Br.”); and (4) PATENT OWNER’S REBUTTAL BRIEF PURSUANT TO 37 C.F.R. § 41.71, filed August 12, 2013 (“P.O. Reb. Br.”). C. The Principal Issue Before Us The principal issue before us is how to interpret “normal system operation” in the phrase “capture and analysis of system operation signals during normal system operation” in the “wherein” clauses of independent claims 1 and 4. D. The Invention Described in the ’301 Patent The invention described in the ’301 patent relates to on-chip circuits for the test and diagnosis of problems in integrated circuits. ’301 patent 1:21-24. In accordance with the invention, special on-chip circuits are used to observe the internal workings of an integrated circuit (IC). Id. at 2:42-44. These circuits operate at internal IC clock rates so that the limitations of the Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 5 frequency of signals at the IC input and output (I/O) boundary are avoided. Id. at 2:44-47. Many more points in the IC system are accessed than is feasible with conventional external test and debug processors. Id. at 2:47- 49. Figure 1a of the ’301 patent is reproduced below. Figure 1a is a diagram of an exemplary IC 100 having a host processor connected by a system bus and a peripheral bus to various circuit blocks, including, for example, a third-party core and a user-developed core. Id. at 6:14-21. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 6 Figure 1b is reproduced below. Figure 1b is a diagram of an IC 100 in accordance with the invention, which includes a Service Processor Unit (SPU) 101 coupled to an IC system bus 105 and to an added test bus 104. Id. at 6:22-26. Test wrappers 102, which are formed by the serial connection of block I/O connector circuits 310 (Fig. 4a), discussed infra, are connected to test bus 104 to provide test communication channels into selected blocks 106. Id. at 6:26-28; 7:33-36. 7 7 Figures 4a and 4b are reproduced and considered infra in the discussion of how to interpret the claim phrase “normal system operation.” Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 7 SPU 101 provides a connection for an external diagnostics console 103 to view and test the internal workings of IC 100. Id. at 6:29-31. Figure 2 is reproduced below. Figure 2 illustrates one embodiment of the architecture of SPU 101. Id. at 3:54-55. SPU 101 has a number of extended function units (EFUs), including a control unit (e.g., microprocessor 211), a buffer memory unit 218, an analysis engine 215, a scan control unit 222, an interrupt handler 221 (further connected to a range check unit 220), a system bus interface 214, a test bus interface 213, and a built-in self test (BIST) engine 212. Id. at 6:32-38. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 8 In one embodiment of the invention, an EFU carries out the functions of a logic analyzer that captures and stores signal state values in a digital system following the occurrence of a pre-defined event. Id. at 5:4-7. Two different types of logic probes may be used with the logic analyzer EFU. Id. at 5:31-32. One type of logic probe, termed a “digital probe,” captures sequences of digital signals from internal points of the IC. Id. at 5:32-34. These digital signals are also referred to as “probe signals” (id. at 8:42-43) and as “system operation signals.” See id. at 3:7-10 (“The integrated circuit also has a plurality of probe lines which are responsive to the control unit for carrying system operation signals at predetermined probe points of the logic blocks.”). The phrase “system operation signals” also appears in claims 1 and 4. The second type of logic probe is an analog probe, which captures signal events representing the detection of signal integrity conditions, such as ground bounce. Id. at 5:60-63. The range check unit 220 is connected to analog probe lines 201 and processes their values to detect any out-of-range conditions, which are signaled to interrupt handler 221. Id. at 6:49-52. Trigger logic that is responsive to a predetermined trigger event can be used to stop the data capture operations. Id. at 14:28-31. 8 Alternatively, a trigger event can be used to start the data capture operations. Id. at 11:62-65. 8 Figures 9c and 9d show such trigger logic. ’301 patent 11:16-60. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 9 Figure 2 shows a single “core block” 106 having a corresponding test wrapper 102 that is connected to test bus 104. Core block 106 also includes a scan string 403 that is connected to test bus 104. Id. at 6:62-64. Scan string 403 is formed by serially connecting block scan connector circuits 320 (Fig. 4b) (id. at 8:28-29), discussed infra. Figure 3a is reproduced below. Figure 3a is a diagram that illustrates the coupling between test wrappers, scan strings, probe strings and range probes to a test bus. Id. at 3:56-57. “Through test bus connector[s] 401, the test bus 104 is selectively connected to test wrappers 102, scan string lines 403, probe string lines 402 and trigger lines 204.” Id. at 7:3-5. A probe string 402 is formed by “serially Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 10 connecting the probe-in terminal of a connector circuit 310 [Fig. 4a] and 320 [Fig. 4b] to the probe-out terminal of another connector circuit 310 and 320.” Id. at 9:4-6. Figure 3c is reproduced below. Figure 3c shows an embodiment of coupling a trigger line 204, probe string 402, test wrapper 102, and scan string line 403 to three lines of test bus 104. Id. at 7:27-29. E. The Claims Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 11 The only independent claims on appeal are original patent claims 1 and 4, which are reproduced below. The disputed phrase “normal system operation” appears in the “wherein” clause of each claim. 1. An integrated circuit comprising: one or more logic blocks generating one or more system operation signals at one or more system operation clock rates; and a service processor unit to perform test and debug operations of said logic blocks of said integrated circuit, further comprising: a control unit; a buffer memory; an analysis engine; a scan control unit, a test bus interface; and a built-in self test (BIST) engine; wherein, in a first mode of operation, said service processor unit performs capture and analysis of system operation signals during normal system operation through said test bus interface. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 12 4. An integrated circuit comprising: one or more logic blocks generating one or more system operation signals at one or more system operation clock rates; and, a service processor unit to perform test and debug operations of at least one of said logic blocks of said integrated circuit, further comprising: a control unit; a buffer memory; an analysis engine; and a system bus interface; wherein, in a first mode of operation, said service processor unit performs capture and analysis of system operation signals during normal system operation through said system bus interface. Claims App. (Req. Appeal Br. 28). F. The Rejections Challenged by Patent Owner Patent Owner (P.O. Appeal Br. 6) challenges the following rejections entered by the Examiner: 1. Claims 1-10 and 12-26 under 35 U.S.C. § 102(a) for anticipation by Zorian. RAN 9, 32. 2. Claims 1-6, 9, 10, 12-16, and 20-25 under 35 U.S.C. § 102(b) for anticipation by Franklin. Id. at 22, 43. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 13 3. Claims 7, 8, and 17-19 under 35 U.S.C. § 103(a) for obviousness over Franklin in view of Zorian. Id. at 51. 4. Claim 11 under § 103(a) for obviousness over Zorian in view of Sauerwein. Id. at 56. 5. Claim 11 also under 35 U.S.C. § 103(a) for obviousness over Franklin in view of Sauerwein. Id. at 57. 9 G. The Unadopted Proposed Rejections That Are the Subject of Requester’s Appeal Requester (Req. Appeal Br. 5-6, sec. VI) challenges the Examiner’s refusal to adopt the following proposed rejections under 35 U.S.C. § 103(a): 1. Claims 1-10 and 12-26 based on Zorian (Proposed Rejections #2 and #6) (identified by Requester as corresponding to “RAN Ground 2” and “RAN Ground 6”). RAN 58. 2. Claims 1-6, 9, 10, 12-16, and 20-25 based on Franklin (Proposed Rejections #4 and #10). Id. at 58-59. 3. Claims 9, 10, 14-16, 20, 23, and 25 based on Zorian in view of Sauerwein (Proposed Rejection #7). Id. at 56. 4. Claims 12 and 21 based on Zorian in view of Franklin (Proposed Rejection #8). Id. at 59. 9 Patent Owner’s Appeal Brief incorrectly states at page 6 that this ground of rejection applies to claims 9-11, 14-16, 20, 23, and 25 but correctly identifies it at page 23 as limited to claim 11. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 14 5. Claims 9, 10, 14-16, 20, 23, and 25 based on Franklin in view of Sauerwein (Proposed Rejection #11). Id. at 57. H. Patent Owner’s Declaration Evidence 10 Patent Owner relies on the following expert declarations by Dr. Ajay Khoche: 1. DECLARATION OF AJAY KHOCHE, B.ENGR., M.TECH., PH.D. UNDER 37 C.F.R. § 1.132, dated July 5, 2011 (hereinafter cited as “Khoche I”). P.O. Appeal Br. Evid. App. 2. SECOND DECLARATION OF AJAY KHOCHE, PH.D. UNDER 37 C.F.R. § 1.132, dated August 22, 2012 (“Khoche II”). Id. I. Requester’s Declaration Evidence 11 Requester relies on the following expert declarations by Dr. M. Ray Mercer: 1. “Declaration Under 37 C.F.R. § 1.132 [o]f M. Ray Mercer, Ph.D.,” dated August 4, 2011 (“Mercer I”). Req. Appeal Br. Ex. 7. 2. “Second Declaration Under 37 C.F.R. § 1.132 of M. Ray Mercer, Ph.D.,” dated September 20, 2012 (“Mercer II”), which addresses statements made in the Second Khoche Declaration. Req. Appeal Br. Ex. 9. 10 Discussed at RAN 65-68. 11 Discussed at RAN 68. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 15 II. CLAIM INTERPRETATION A. Claim Interpretation During Reexamination “During reexamination, as with original examination, the PTO must give claims their broadest reasonable construction consistent with the specification.” In re ICON Health & Fitness, Inc., 496 F.3d 1374, 1379 (Fed. Cir. 2007) (citing In re Am. Acad. of Sci. Tech Ctr., 367 F.3d 1359, 1364 (Fed. Cir. 2004)). “[T]he ordinary and customary meaning of a claim term is the meaning that the term would have to a person of ordinary skill in the art in question at the time of the invention, i.e., as of the effective filing date of the patent application.” Phillips v. AWH Corp., 415 F.3d 1303, 1313 (Fed. Cir. 2005) (en banc). It is improper, when in giving claims their broadest reasonable interpretation, to read limitations from the specification into the claims: [A]lthough the specification often describes very specific embodiments of the invention, we have repeatedly warned against confining the claims to those embodiments. . . . In particular, we have expressly rejected the contention that if a patent describes only a single embodiment, the claims of the patent must be construed as being limited to that embodiment. Phillips, 415 F.3d at 1323 (citations omitted). The expert testimony before us has been considered in accordance with the following principles: [E]xtrinsic evidence in the form of expert testimony can be useful to a court for a variety of purposes, such as to provide background on the technology at issue, to explain how an invention works, to ensure that the court’s understanding of the Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 16 technical aspects of the patent is consistent with that of a person of skill in the art, or to establish that a particular term in the patent or the prior art has a particular meaning in the pertinent field. . . . However, conclusory, unsupported assertions by experts as to the definition of a claim term are not useful to a court. Similarly, a court should discount any expert testimony “that is clearly at odds with the claim construction mandated by the claims themselves, the written description, and the prosecution history, in other words, with the written record of the patent.” Phillips, 415 F.3d at 1318. B. The Meaning of “Normal System Operation” (Claims 1 and 4) As an initial matter, we note it appears to be undisputed that the “first mode of operation” recited in claims 1 and 4 and “second mode of operation” recited in dependent claims 2 and 5 refer to operation of the recited “service processor unit.” Claims 1 and 4, which are apparatus claims, do not recite or require the actual performance of “normal system operation” of the integrated circuit. Instead, these claims require that the integrated circuit be capable of “normal system operations” during which the recited “service processor unit” can perform “capture and analysis of system operation signals . . . through said . . . bus interface.” See In re Hallman, 65 F.2d 212, 215 (CCPA 1981) (“To the extent that the process limitations distinguish the products over the prior art, they must be given the same consideration as traditional product characteristics.”) (citation omitted). Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 17 The phrase “normal system operation” appears only in claims 1, 4, 9, and 20 and the Abstract. The similar phrase “normal system operations” appears in the paragraph at column 14, lines 22-45 (hereinafter “Col. 14, Lines 22-45”). As explained in more detail below, the ’301 patent describes block I/O connector circuit 310 (Fig. 4a) as having (1) a “test mode,” during which its data-in and data-out terminals are used to load test signals into and retrieve test signal results from a logic block, and (2) a “normal mode,” during which it performs two functions: (a) providing a” simple path” between the data-in and data-out terminals and (b) using its probe-in and probe-out terminals to select probe signals (the claimed “system operation signals”) for capture and later analysis. Patent Owner contends that “normal system operation occurs during normal mode and not during test mode when the IC is performing testing operations . . . .” P.O. Appeal Br. 14. The Examiner disagrees, concluding instead that “[t]he term ‘normal system operation’ as used in the Patent Owner’s claims and specification is not the same as ‘a normal mode of operation of an integrated circuit (IC)’ in the context of a normal mode and a test mode” (RAN 62) and that “the term ‘normal system operation’ does not exclude the IC or portions of the IC from being under test or in a test mode.” Id. at 63 (emphasis added). Based on this claim interpretation, the Examiner found that the claim phrase “normal system operation” reads on test modes described in Zorian and Franklin, each of which describes operation in normal and test modes. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 18 Patent Owner’s interpretation of “normal system operations” (P.O. Appeal Br. 10-13) is based on Dr. Khoche’s declaration testimony and the following information in the ’301 patent disclosure: (1) The descriptions of I/O connector circuit 310 (Fig. 4a) and block scan connector circuit 320 (Fig. 4b); (2) The description of “normal system operations” in Col. 14, lines 22-45; and (3) Dependent claims 2 and 5, which recite a “second mode of operation” in which the service processor unit “performs tests” on one or more of the logic blocks. We begin our analysis with the descriptions of connector circuits 310 and 320, depicted in Figures 4a and 4b. Neither expert witness specifically discusses these connector circuits. 1. Figures 4a and 4b Figure 5, which shows the details of a circuit element employed in each of Figures 4a and 4b, is reproduced below. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 19 Figure 5 is a diagram showing the details of scan flip flop 301 in Figure 4a and scan flip flop 311 in Figure 4b. Id. at 8:53-54. This circuit has separate scan-slave and data-slave sections, thereby allowing a “state signal which has been scanned into the scan flip-flop . . . to remain unaffected by functional clock pulses that cause the flip-flop . . . to capture signals on the data in terminal . . . so that they appear in the data-slave section and on the data out terminal . . . .” Id. at 8:54-61. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 20 Figure 4a is reproduced below. Figure 4a is a circuit diagram of a block input/output connector 310 used in a test wrapper for observing test points outside a block along a boundary- scan chain. Id. at 3:61-63. A test wrapper 102 is formed by serially connecting a plurality of block I/O connector circuits 310. Id. at 7:33-34. Scan-in terminal 304 of the illustrated connector is connected to scan-out terminal 306 of an adjacent connector circuit 310 (not shown) in the serial scan chain of a test wrapper 102. Id. at 7:36-40. “In the normal operation of the IC, connector circuit 310 provides a simple path between the block 106 and the rest of the IC 100.” Id. at 7:43- Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 21 45 (emphasis added). This simple path is formed between data-in terminal 302 and data-out terminal 307, which are connected to a block 106 and the rest of IC 100 in either of two ways, depending on the desired testing function. If connector circuit 310 is to provide an input signal to the block 106 during test operations, the data-out terminal 307 is connected to the block 106 and the data-in terminal is connected to the rest of IC 100. Id. at 7:45-49. These connections are reversed if the connector circuit instead is to receive an output signal from the block 106 during test operations. Id. at 7:49-53. These input signals to and output signals from a block 106 presumably correspond to the “test signals” and “test signal results,” respectively, in the ’833 patent’s “SUMMARY OF THE INVENTION”: “The scan lines [formed by scan flip flops 301 of connector circuits 310] are responsive to the control unit for loading test signals for the logic blocks and retrieving test signal results from the logic blocks.” Id. at 3:1-4 (emphasis added). Also, these test signals can take the form of pseudo-random bit sequences: “Test and debug circuits may contain scan strings that may be . . . used to provide pseudo-random bit sequences to user-definable logic.” Id., Abstract. A control signal on a “test control line 300” determines whether connector circuit 310 is operating in “normal mode” or “test mode”: When the control signal of the line 300 signal is not-asserted, i.e., normal mode, there is normal operational signal flow between the data-in terminal 302 and the data-out terminal 307. On the other hand, when the control signal on the line 300 Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 22 is in [an] asserted state, i.e., test mode, the current state of the scan flip-flop 301 is passed onto the data-out terminal 307; the data-in terminal 302 and the data-out terminal 307 are isolated from one another. Id. at 8:8-15 (emphasis added). Summarizing the above description of connector circuits 310, during operation of these connector circuits in “test mode” data-in terminal 302 and data-out terminal 307 are isolated from each another and can be used to “load[] test signals” into or “retriev[e] test signal results” from a logic block. Id. at 3:1-4. During operation in “normal mode,” connector circuit 310 provides a “simple path” between data-input and data-output terminals 302 and 307, i.e., “normal operational signal flow between the data-in terminal 302 and the data-out terminal 307.” Id. at 8:8-15. In addition to performing the operations discussed above, connector circuits 310 are used to select probe signals (i.e., the claimed “system operation signals”) for capture and analysis, as recited in the following language of the “wherein” clauses of claims 1 and 4: “said service processor unit performs capture and analysis of system operation signals during normal system operation through said . . . bus interface.” Specifically, connector circuit 310 has “a probe-in terminal 303 and a probe-out terminal 305 which provide a path for probe signals from selected portions of the block 106 through the connector circuit 310 to observe operations in the block 106.” Id. at 7:53-57. This probe signal selection function is controlled by scan flip-flop 301 of connector circuit 310 as follows: Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 23 The state stored in the scan flip-flop 301 . . . also controls whether the signal at the data-in terminal 302 or the probe-in terminal 303 is passed onto the probe-out terminal 305. In this manner, data from another probe point which is connected to the probe-in terminal 303 are selectively passed onto the probe- out terminal 305. Id. at 8:15-21. The description of connector circuit 310 does not state that the probe signals are selected for capture during operation of the connector circuit in its “normal mode” or during “normal operation” of the IC. However, this appears to be the case. Furthermore, this conclusion is consistent with the description of block scan connector circuit 320, which is depicted in Figure 4b, reproduced below. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 24 Figure 4b is “a circuit diagram of a block scan connector for scan strings for observing test points inside a block along a scan chain.” Id. at 3:65-67 (emphasis added). As noted above, a scan string 403 is formed by serially connecting a plurality of block scan connector circuits 320. Id. at 8:28-29. Block scan connector circuit 320 provides an interstitial connection between internal elements of a block 106. Id. at 8:35-38. Like block I/O connector circuit 310 (Fig. 4a), block scan connector circuit 320 (Fig. 4b) in “normal operation of the IC” provides a “simple path” between its data-in and data-out terminals: “In the normal operation of the IC 100, the connector circuit 320 is a simple path between the internal elements in the block 106.” Id. at 8:38-40 (emphasis added). Also like block I/O connector circuit 310, block scan connector circuit 320 has probe- in and probe-out terminals (313 and 315). Id. at 8:66-9:1. The probe signals are selected for capture by connector circuit 320 while it is providing a simple path or “simple conduit” between data-in and data-out terminals 312 and 317), i.e., during normal operation of the IC: The connector circuit 320 acts as a simple conduit for signals within the block 106. At the same time, the previously scanned- in signal, which appears in the scan-slave section, selects whether signals at the data in terminal 312 or the output from another probe point which has been connected to the probe-in terminal 313 is to be passed onto the probe-out terminal 315. A probe string 402 is created. Of course, if an internal scan string 403 need not be connected to a probe string 402, the multiplexer 319 can be eliminated from the circuit 320. Id. at 8:63-9:3 (emphasis added). Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 25 The circuitry for capturing the selected probe signals is depicted in Figure 9a, which is reproduced below. Figure 9a shows an embodiment of the analysis engine 215 which, under the control of the microprocessor 211, captures “logic signals” (i.e., probe signals) from test bus 104. Id. at 10:25-28. This is achieved by first setting either the scan flip-flops 301 of the block I/O connector circuits 310 (FIG. 4a) or the scan flip- flops 311 of the block scan connector circuit[s] 320 (FIG. 4b) so that a boundary connection or an internal point connection of the target block 106 is selected for probing, respectively. . . . The multiplexer 421 and the multiplexer 422 in the test bus connector 401 (FIG. 3a) are controlled by the SPU 101 so that the signals on the probe string 402 are passed along to the test bus 104. Finally, all remaining test bus connector circuits 401 along the same bit line of the test bus 104 are controlled by the SPU 101 so that they pass the probe signals along test bus 104. This allows the selected probe signal to arrive at the analysis engine 215 where it is captured for subsequent off-line analysis. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 26 Id. at 10:28-46. The input terminals of a plurality of flip-flops 805, one for each bit line of the test bus 104, form the “input port 80[1]” of the analysis engine 215. Id. at 10:46-48. The output terminal of each flip-flop 805 is connected to the input terminal of a respective variable First-In-First-Out shift register (FIFO) 804. Id. at 10:51-53. Figures 9b-9d and 10, not reproduced below, show the circuitry employed to analyze the captured probe signals. Id. at 10:25-12:42. Based on the above descriptions of connector circuits 310 (Fig. 4a) and 320 (Fig. 4b), we find that connector circuit 310, when operating in “test mode,” can use its data-in and data-out terminals 302 and 307 to load test signals into or retrieve test signal results from a logic block. When connector circuit 310 is operating in “normal mode” (i.e., during “normal operation” of the IC), connector circuit 310 (1) provides a” simple path” between data-in and data-out terminals 302 and 307 and also (2) can use probe-in and probe-out terminals 303 and 305 (and multiplexer 309) to select probe signals for capture and analysis. We find that the descriptions of connector circuits 310 and 320 do not identify or discuss the input data that is or can be applied to the logic blocks during normal operation of the IC, when the logic blocks are generating probe signals for capture and analysis. As explained below, the Examiner found that Col. 14, Lines 22-45 describe applying “test data” to the logic blocks during “normal system operations” in order to generate probe signals for capture and analysis and that the terms “normal system operations” in Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 27 Col. 14, Lines 22-45 and “normal system operation” in claims 1 and 4 therefore do not preclude the application of test data to the IC. 2. Col. 14, Lines 22-45 The paragraph at column 14, lines 22-45 (i.e., Col. 14, Lines 22-45) reads in its entirety as follows: In one mode of operation of the IC 100 shown in FIG. 1b, the human engineer may use the diagnostics console 103 to initialize both of the system logic and the SPU 101. In this manner, the SPU 101 may be programmed to perform logic analyzer functions and specific probe points may be enabled so that a history of data values appearing at the selected probe points can be captured by SPU 101. Additionally, the trigger logic shown in FIGS. 9 and 10 may be programmed to select a desired trigger event in order to stop the data capture operations. Next, the diagnostics console 103 invoke[s] the IC 100 to execute its normal system operations. If and when the selected trigger event is detected and the analysis engine 215 has captured the required data, the diagnostics console 103 instructs the SPU 101 to transfer the captured data values out of the IC 100 and into the diagnostics console 103 where the data may be formatted and presented for analysis and interpretation. The diagnostics console 103 and the SPU 101 can constrain some of the signals on one or more test wrappers 102 in order to affect the behavior of the IC 100 and perform logic analysis under these conditions. For example, this approach may be useful to determine how the overall behavior of the IC 100 is affected when some of the functionality of any one of the blocks 106 is disabled. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 28 ’301 patent 14:22-45 (emphasis added). Patent Owner (P.O. Appeal Br. 10) and Requester (Req. Resp’t Br. 6) agree that Col. 14, Lines 22-45 must be interpreted in light of what Requester refers to as the “two subsequent paragraphs,” which read as follows: In a different mode of operation automatic test equipment (ATE) may access the IC 100 through its TAP interface 217 in order to initialize the SPU 101 so that internal scan strings 403 and test wrappers 102 are loaded with predetermined test values. The response of the blocks 106 is observed using the scan strings 403 and test wrappers 102. . . . In yet another mode of operation, it is possible to use an in-circuit test (ICT) or similar board-level test equipment to access the IC 100 through its TAP interface 217 in order to instruct the SPU 101 to turn-on its external memory test function. In this mode, patterns are generated by the SPU 101 and made to appear at specific I/O pins of the IC 100 which are coupled to external memory. ’301 patent 14:46-54 (emphasis added). We note that although Col. 14, Lines 22-45 do not characterize the constraining of test wrapper signals as resulting in isolation of a portion of the IC, the Examiner and Patent Owner make such a characterization. See RAN 62 (“Constraining the signals on a test wrapper effectively isolates the portion of the IC that corresponds to the respective test wrapper.”); P.O. Appeal Br. 13 (“Therefore, the statements in the RAN . . . and the TPR Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 29 Comments . . . , that assume that normal system operations include isolating and constraining signals to a portion of the IC, are incorrect.”). 12 As noted earlier, the Examiner found that “[t]he term ‘normal system operation’ as used in the Patent Owner’s claims and specification is not the same as ‘a normal mode of operation of an integrated circuit (IC)’ in the context of a normal mode and a test mode.” RAN 62. Specifically, the Examiner found that the “normal system operations” described in Col. 14, Lines 22-45 include “a test mode or operating with test data” whether or not test wrapper signals are being constrained: The Patent Owner’s specification makes it clear that the IC can be in a test mode or operating with test data and still be performing “normal system operations.” At lines 22-45 of column 14 of the [’]301 Patent, a mode is described where test data is loaded into the IC, then the IC performs its normal system operations, and the results of the test are later captured and analyzed. The Patent Owner further describes that certain elements in the system can be isolated and still the IC can perform “normal system operation.” Id. (emphasis added) (quoted in part at Mercer II para. 8). The corresponding discussion in the Action Closing Prosecution is similar and includes the following statements, which are quoted with approval by Requester’s expert witness: 12 Requester does not characterize the constraining option as resulting in isolation. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 30 The term “normal system operation” as used in the Patent Owner[’]s claims and specification is not the same as “a normal mode of operation of an integrated circuit (IC)” in the context of a normal mode and a test mode. The Patent Owner[’]s specification makes it clear that the IC can be in a test mode and still be performing “normal system operations.” The Patent Owner further describes that certain elements in the system can be isolated and still the IC can perform “normal system operation.” The term “normal system operation,” as used in the Patent Owner’s specification also does not exclude the use of test data. ACP 56; Mercer II para. 8. We understand the Examiner to have found that the “normal system operations” described at column 14, lines 22-38 (preceding the description of the constraining option) may involve the application of some “test data” in response to which the logic blocks generate the probe signals to be captured and analyzed. Thus, these test data are applied during operation of connector circuits 310 (Fig. 4a) in “normal mode” and during “normal operation” of the IC. Requester likewise characterizes Col. 14, Lines 22-45 as describing testing whether or not any test wrapper signals are being constrained: “[T]he paragraph reproduced above [Col. 14, Lines 22-45] describes a scenario in which the IC executes its normal system operations while the IC is under test, and the testing can further include constraining some of the signals to test wrappers--all within one mode of operation.” Req. Resp’t Br. 6 (emphasis added). Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 31 Patent Owner has not acknowledged--let alone demonstrated error in-- the Examiner’s finding that Col. 14, Lines 22-38 describe applying test data to the logic blocks when the test wrapper signals are not being constrained. Instead, Patent Owner treats the Examiner’s discussion of “test data” as referring to only the use of constrained test wrapper signals: [T]he statements in the RAN (page 62, “[t]he Patent Owner’s specification makes it clear that the IC can be in a test mode or operating with test data and still be performing ‘normal system operations,’” [)] and the TPR Comments (page 3, “normal system operation is not necessarily exclusive of test mode”), that assume that normal system operations include isolating and constraining signals to a portion of the IC, are incorrect. P.O. Appeal Br. 13 (emphasis added). 13 Dr. Khoche, Patent Owner’s expert witness, likewise treats the Examiner’s discussion of “test data” as referring to only the use of constrained test wrapper signals: The “overall behavior of the IC 100 . . . when some of the functionality of any one of the blocks 106 is disabled” (C14:43- 45) is not “normal” system operation, and the [’]301 patent specification does not describe it as such. However, the only mode set out in the independent claims of the [’]301 patent is the normal mode where the service processor unit performs capture and analysis of system operation signals during normal system operation. Thus, the claimed “normal system operation” does not produce test signals but instead relates to signals produced by the integrated circuit during its normal system operation. 13 The cited “TPR Comments” are COMMENTS BY THIRD PARTY REQUESTER PURSUANT TO 37 CFR 1.951, filed September 20, 2012. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 32 Khoche II para. 15. For the above reasons, Patent Owner has not shown error in the Examiner’s finding that the “normal system operations” described in lines 22-38 of column 14 include the application of test data to the IC. However, in the interest of completeness we will also consider whether the use of constrained test wrapper signals constitutes testing that occurs during “normal system operations.” As noted above, Requester contends that the constraining of test wrapper signals constitutes testing. See Req. Resp’t Br. 6 (“testing can further include constraining some of the signals to test wrappers”) (emphasis added). Specifically, Requester argues that “system operation signals are produced during testing if the subsystem under test is in normal system operation” (Req. Resp’t Br. 7) (emphasis added), with the result that “normal system operation does not exclude operation when the logic under test is not connected to other logic blocks.” Id. Thus, we understand “subsystem” as used by Requester and by Patent Owner (see infra) to refer to the logic blocks that are connected to each other or to other circuitry by unconstrained test wrapper signals. Patent Owner concedes that the use of constrained test wrapper signals constitutes testing but denies that such testing is part of “normal system operations”: The specification further describes that in the mode of operation where the human engineer uses the diagnostics console, there are two other modes - a first mode relating to Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 33 operations occurring during normal system operation (’301 Patent, 14:24-38) and a second [i.e., constraining] mode occurring during test (’301 Patent, 14:38-45). P.O. Reb. Br. 6. More particularly, Patent Owner contends that the constraining option cannot be part of “normal system operations” because this phrase requires that all of the test wrappers (including all of their connector circuits 310) be operating in “normal” (i.e., “simple path”) mode: The “overall behavior of the IC 100 . . . when some of the functionality of any one of the blocks 106 is disabled” (Col. 14, lines 43-45) is not “normal” system operation, and the [’]301 patent specification does not describe it as such.” The specification states, “In the normal operation of the IC, the connector circuit 301 provides a simple path between the block 106 and the rest of the IC 100” (Col. 7, lines 43-45 (emphasis added)), and in “normal mode,” there is “normal operational signal flow.[”] (Col. 8, lines 9-10). As those portions of the specification describe, during “normal operation” of the integrated circuit, the logic blocks are connected with the rest of the integrated circuit so that normal system operation signals pass through to and from the logic blocks. P.O. Appeal Br. 13. See also P.O. Reb. Br. 7 (“‘Normal system operation[s]’ refers to the normal execution of the entire integrated circuit system, IC 100, not some ‘subsystem.’ (See ’301 Patent at 14:31-32)[.]”)). We are not persuaded by Patent Owner’s argument that “normal system operations” in Col. 14, Lines 22-45 would have been understood to require that all of the connector circuits 310 in all of the test wrappers of the IC be operating in “simple path” mode. This argument overlooks the fact Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 34 that “simple path” operation is only one aspect of the “normal mode” of operation of connector circuits 310; these connector circuits when operating in “normal mode” also perform the function of selecting probe signals for capture and analysis. In our view, it is more reasonable to interpret “normal system operations” in Col. 14, Lines 22-45 to mean that the connector circuits 310 are performing their probe signal selection function. The reason is that lines 22-38 of column 14 describe capturing data values at the probe points as part of “normal system operations” without making any mention of operation in the “simple path” mode. The phrase “normal system operations” therefore refers to this probe signal selection function whether or not any test wrapper signals are being constrained. When test wrapper signals are being constrained, this probe signal selection function is performed in order to “determine how the overall behavior of the IC 100 is affected when some of the functionality of any one of the blocks 106 is disabled.” ’301 patent 14:42-45. Consequently, we are not persuaded that “normal system operations” in Col. 14, Lines 22-45 would have been understood to preclude the use of constrained test wrapper signals, which Patent Owner concedes constitutes a type of testing. P.O. Reb. Br. 6. Furthermore, as explained above, Patent Owner has not persuaded us of error in the Examiner’s finding that the “normal system operations” that are described at column 14, lines 22-38 and do not include the use of constrained test wrapper signals involve the Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 35 application of “test data.” Thus, for both of these reasons, we are not persuaded that the phrase “normal system operations” in Col. 14, Lines 22- 45 precludes the application of test data or operation in a test mode. 3. Claims 1, 2, 4, and 5 Even assuming for the sake of argument that Patent Owner had shown that “normal system operations” as used in Col. 14, Lines 22-45 would have been understood to preclude the application of test data, it is not permissible to read limitations from examples given in the specification into the claims. Phillips, 415 F.3d at 1323. Dependent claim 2, on which Patent Owner relies, reads as follows: 2. An integrated circuit as in claim 1, wherein, in a second mode of operation, said service processor unit performs tests on one or more of said one or more logic blocks through said test bus interface. Claims App. (Req. Appeal Br. 11). Claim 5 is identical but depends on claim 4. Patent Owner argues: Claims 2 and 5 provide further evidence that the “first mode” recited in claims 1 and 4, in which the SPU performs capture and analysis of system operation signals during “normal system operation” is different from “a second mode of operation,” in which the service processor unit “performs tests on one or more of said one or more logic blocks.” (See [’]301 patent, claims 2, 5). P.O. Appeal Br. 12. We note that “[w]hile it is true that dependent claims can aid in interpreting the scope of claims from which they depend, they are Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 36 only an aid to interpretation and are not conclusive.” North American Vaccine, Inc. v. American Cyanimid Co., 7 F.3d 1571, 1577 (Fed. Cir. 1993). Claims 1 and 4 do not provide any basis for interpreting “normal system operation” as precluding the application of test data or precluding operation in a test mode. These claims do not recite an element that has “normal” and “test” modes of operation, let alone recite the characteristics of these modes and their relationship to “normal system operation.” Although claims 1 and 4 each recite “a service processor unit to perform test and debug operations of said logic blocks of said integrated circuit” (emphasis added), they do not recite or imply that “normal system operation” excludes these “test and debug operations” or the application of test data to the recited “one or more logic blocks.” Furthermore, although it is clear from the language “capture and analysis of system operation signals during normal system operation” (claims 1 and 4) that the “capture and analysis of system operation signals” occurs during “normal system operation,” these claims do not indicate what, if anything, is precluded by “normal system operation.” The foregoing conclusions regarding the interpretation of claims 1 and 4 are not altered when these claims are considered in light of claims 2 and 5. Neither of claims 2 and 5 requires that service processor unit performs its second mode of operation (i.e., “perform[ing] tests on one or more of said one or more logic blocks through said . . . bus interface”) outside of “normal system operation.” Claims 1, 2, 4, and 5 therefore are Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 37 broad enough to permit both modes of operation to be performed during “normal system operation.” Thus, these claims are broad enough to permit the service processor unit to perform its first mode of operation (i.e., “perform[ing] capture and analysis of system operation signals”) at the same time that it is performing its second mode of operation (i.e., “perform[ing] tests on one or more of said one or more logic blocks through said . . . bus interface.”). We therefore agree with Requester that “the modes of claims 1 and 2 are not mutually exclusive.” Req. Resp’t Br. 9. We also note that dependent claims 13 and 22, which directly depend on claims 1 and 4, respectively, recite testing without further specifying that the testing occurs outside of “normal system operation”: 13. An integrated circuit as in Claim 1, wherein: the control unit controls loading test signals for the one or more logic blocks, and retrieving captured test signal results from the one or more logic blocks. 22. An integrated circuit as in Claim 4, wherein: the control unit controls loading test signals for the one or more logic blocks, and retrieving captured test signal results from the one or more logic blocks. Claims App. (Req. Appeal Br. 14-15). For the above reasons, we are unpersuaded by Patent Owner’s argument that “[s]ignals produced under ‘normal system operation[]’ do not include signals produced in response to predetermined test data.” P.O. Appeal Br. 12 (footnote omitted). Therefore, Patent Owner has not Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 38 demonstrated error in the Examiner’s conclusion that “the term ‘normal system operation’ does not exclude the IC or portions of the IC from being under test or in a test mode.” RAN 63. III. THE EXAMINER’S REJECTIONS BASED ON FRANKLIN A. The Rejection of Claims 1-6, 9, 10, 12-16, and 20-25 for Anticipation by Franklin. The only claims that are specifically argued with respect to this ground of rejection are claims 1 and 4. The other claims rejected on this ground are treated as standing or falling with claims 1 and 4. See P.O. Appeal Br. 23 (“Franklin does not anticipate independent claims 1 or 4. Claims 2-3, 5-6, 9-10, 12-16, and 20-25 are therefore allowable at least by virtue of their dependency from claim 1 or claim 4 and because they recite additional features.”). Patent Owner does not identify or discuss these “additional features.” We begin by addressing Patent Owner’s argument that in Ex parte Reexamination No. 90/011,584, which involved the grandparent ’865 patent, the same Examiner who is handling this inter partes proceeding determined that the claim phrase “normal system operations” in claim 19 patentably distinguished that claim from both Zorian and Franklin. P.O. Appeal Br. 24 (citing “Notice of Intent to Issue a Reexamination Certificate” mailed November 2, 2012). It is well settled that appealed claims must be judged on their own merits and not on the basis of a comparison with other claims Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 39 that have been allowed. In re Margaroli, 318 F.2d 348, 352 (CCPA 1963). See also In re Willis, 455 F.2d 1060, 1062-63 (CCPA 1972) (“What the Patent Office has allowed in previous cases is not binding in subsequent cases, especially when different factual situations are involved.”); In re Riddle, 438 F.2d 618, 620 (CCPA 1971 (rejecting applicant’s argument that “the allowance of a claim by an examiner in a patent is a bar to the rejection of a claim in an application to substantially the same invention on substantially the same art considered in the patent prosecution.”). Turning now to the merits of the rejection, Franklin provides an examination of various BIST (built-in self-testing) schemes. Franklin, title and 45 col. 2. Franklin explains that “[a]n examination of BIST schemes indicates that approaches based on test architectures rather than on test algorithms are more versatile and will likely predominate in the future.” Id. at 45 col. 2. One motivation for using BIST is that the BIST logic incorporated in a chip can be used for both manufacture testing and in-circuit testing. If the implemented algorithm’s test length is sufficiently small, the same BIST logic can even be used for testing RAMs during computer power-on, as part of the CPU’s self-test procedures. Id. at col. 3 (emphasis added). However, Franklin adds, in a statement relied on by Patent Owner, that “[c]urrent BIST implementations cannot, however, be used for testing when the chip contains useful data.” Id. In this same vein, Franklin states that “[w]hen a memory chip is being used in a system (that is, when the chip contains valid data), it cannot be tested on line Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 40 because the test procedure might destroy the memory contents.” Id. at 55 col. 3. Franklin further explains that “[c]onceptually, the BIST logic can be divided into four parts: control logic, address-generation logic, data- generation and response-verification logic, and test-trigger logic.” Id. at 51 col. 1. Figure 6 of Franklin is reproduced below. Franklin 51. As stated in the caption thereto, Figure 6 is a generic block diagram of “random-logic-based” BIST logic for RAMs. The control logic Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 41 initiates and stops testing and supervises the control flow of the test algorithm. Id. at 51 col. 2. The data-generation logic produces the test pattern(s) to be written in the cells. Id. at 51 col. 3. Given a test architecture, different strategies can be used for data generation as well as response verification. Id. at 51-52. In an SASB (single-array single bit 14 ) architecture, the correctness of the read values can be verified either by comparing them against the expected values or by signature analysis, with direct comparison being superior because it can locate single stuck-at faults. Id. at 52 cols. 1-2. 14 Franklin 50 col. 2. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 42 The sole figure appearing at page 53 of Franklin is reproduced below. Id. at 53. As stated in the caption, this figure is a block diagram of “microcode-based” BIST logic for the row/column weight-sensitive fault test. The Examiner (RAN 25) reads the “wherein” clauses of claims 1 and 4 on the following passage in Franklin: Test trigger logic. All BIST RAMs have a normal mode in which the BIST logic is inactive and one or more test modes in which the BIST logic is active. The test modes can be entered Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 43 using overvoltages, extra package pins, or unique timing sequences with such inputs as Chip Enable, Write Enable, Row Address Strobe, and Column Address Strobe. Franklin 53-54. The Examiner reads the claimed “normal system operation” on the test modes: “As discussed above, [claim 1] can be reasonably interpreted as the logic blocks generating signals while performing their normal system operation and the logic block can be using test data while performing those operations.” RAN 64 (emphasis added). In the preceding page, which addresses anticipation by Zorian, the Examiner more particularly explains that “the term ‘normal system operation’ does not exclude the IC or portions of the IC from being under test or in a test mode.” Id. at 63 (emphasis added). According to Patent Owner, Franklin fails to anticipate the claims because Franklin describes BIST implementations whereby test patterns are generated by the BIST controller and test responses are read out and compared to known or expected values. The test response signals are not system operation signals because none of these signals relate to signals generated through normal system operation of the IC. Instead, the signals are in response to test signals applied to the memory cell of the integrated circuit. P.O. Appeal Br. 22 (footnotes omitted). This argument is unpersuasive because, for the reasons given above, the claim phrase “normal system operation” does not preclude the application of test data to the IC. Patent Owner also makes the following argument: Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 44 “[W]hen the memory chip contains useful data, i.e., in its normal mode of operation and generating system-operation signals, Franklin’s BIST methodology is unusable. Franklin also acknowledges that “[w]hen a memory chip is being used in a system (that is, when the chip contains valid data), it cannot be tested on line because the test procedure might destroy the memory contents.” P.O. Appeal Br. 23 (footnotes omitted) (quoting Franklin 45 col. 3 and 55 col. 3). Accord, Khoche II paras. 21-22. This argument is unpersuasive because it incorrectly assumes that the claim phrase “normal system operation” requires the recited “one or more logic blocks” to contain useful data. We agree with Dr. Mercer that the above-quoted admonitions in Franklin could be more properly understood to suggest: “If you plan to use BIST to self-test a memory in a system deployed to the field, be sure that you do not use the resulting contents of the tested memory - because those contents will be the result of a self-test, and they would not be useful for system booting.” Mercer II para. 23. For the reasons given above, Patent Owner has not shown error in the Examiner’s conclusion that the claim phrase “normal system operation” is broad enough to read on Franklin’s test modes. The rejection of claims 1-6, 9, 10, 12-16, and 20-25 for anticipation by Franklin accordingly is sustained. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 45 B. The Rejection of Claims 7, 8, and 17-19 for Obviousness over Franklin in View of Zorian Patent Owner’s only argument against this rejection is that “[c]laims 7-8 and 17-19 are . . . allowable at least by virtue of their dependency from claim 1 or claim 4 and because they recite additional features.” P.O. Appeal Br. 24. These additional features have not been identified or discussed. The rejection of claims of claims 7, 8, and 17-19 for obviousness over Franklin in view of Zorian is therefore sustained. C. The Rejection of Claim 11 for Obviousness over Franklin in view of Sauerwein Patent Owner treats this rejection of claim 11 as standing or falling with the rejection of claim 1 for anticipation by Franklin: Franklin does not disclose an integrated circuit, “wherein, in a first mode of operation, said service processor unit performs capture and analysis of system operation signals during normal system operation through said test bus interface”, as recited in Claim 1, from which Claim 11 depends. Sauerwein was not cited for disclosing, nor does it disclose[,] the elements missing in Franklin. Thus, even if combined, the resulting system would still not teach each of the features of Claim 11. P.O. Appeal Br. 23-24. The rejection of claim 11 for obviousness over Franklin in view of Sauerwein is sustained. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 46 IV. REQUESTER’S PROPOSED BUT UNADOPTED REJECTIONS BASED ON FRANKLIN A. The Proposed Rejection of Claims 1-6, 9, 10, 12-16, and 20-25 for Obviousness Based on Franklin (Proposed Rejections #4 and #10) 1. Claims 1-6 (Proposed Rejection #4) Regarding claims 1-6, Requester argues: It was error not to adopt the rejection of claims 1-6 as obvious over Franklin. As noted by the RAN, Franklin anticipates each element of claims 1-6 of the [’]301 patent. As anticipation is the “epitome of obviousness,” [In re] Kalm, 378 F.2d [959,] 962 [(CCPA 1967)], Franklin also renders claims 1-6 obvious under 35 U.S.C. § 103(a). . . . Furthermore, to the extent that PO may argue lack of anticipation, the similarities between the disclosure of Franklin and claims 1-6 of the [’]301 patent are such that the “differences between the subject matter sought to be patented and the prior art are such that the subject matter as a whole would have been obvious.” See 35 U.S.C. § 103(a). Req. Appeal Br. 7 para. 2. We are not persuaded by either of these arguments. The “epitome of obviousness” rationale described in Kalm merely provides a basis for sustaining a rejection for obviousness under 35 U.S.C. § 103(a). It does not provide any authority for using a finding of anticipation as a basis for rejecting a claim for obviousness under 35 U.S.C. § 103(a). The assertion that the claimed subject matter would have been obvious from Franklin is unsupported by (i) the identification of any admitted or possible differences between the claims and Franklin and (ii) an explanation of why such Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 47 differences do not patentably distinguish the claims from Franklin. See In re Kahn, 441 F.3d 985, 988 (Fed. Cir. 2006) (“[R]ejections on obviousness grounds cannot be sustained by mere conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.”). The Examiner’s decision not to adopt the proposed rejection of claims 1-6 for obviousness based on Franklin therefore is sustained. 2. Claims 9, 10, 12-16, and 20-25 (Proposed Rejection #10) As support for this proposed rejection, Requester repeats the arguments made in support of Proposed Rejection #4 for the obviousness of claims 1-6 over Franklin. Req. Appeal Br. 8, para. 6. The Examiner’s decision not to adopt the proposed rejection of claims 9, 10, 12-16, and 20-25 for obviousness based on Franklin is sustained. B. The Proposed Rejection of Claims 9, 10, 14-16, 20, 23, and 25 for Obviousness Based on Franklin in View of Sauerwein (Proposed Rejection #11) As support for this proposed rejection, Requester relies on the arguments made in support of Proposed Rejection #4 for obviousness of claims 1-6 over Franklin and asserts, without providing the necessary supporting analysis, that any differences between claims 9, 10, 14-16, 20, 23, and 25 and Franklin would have been rendered obvious by Sauerwein. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 48 The Examiner’s decision not to adopt the proposed rejection of claims 9, 10, 14-16, 20, 23, and 25 for obviousness based on Franklin in view of Sauerwein therefore is sustained. V. THE EXAMINER’S REJECTIONS BASED ON ZORIAN A. The Rejection of Claims 1-10 and 12-26 for Anticipation by Zorian Regarding this ground of rejection, Patent Owner specifically argues only claims 1 and 4. See P.O. Appeal Br. 21 (“Claims 2-3, 5-10, and 12-26 are allowable at least by virtue of their dependency from independent claim 1 or independent claim 4 and because they recite additional features.”). These “additional features” are not identified or argued. Patent Owner’s arguments against anticipation by Zorian are based on the claim phrase “normal system operation” and other claim limitations. Zorian “discusses in general the challenges in testing core-based system-chips and describes their corresponding test solutions.” Zorian 191, Abstract. Zorian describes core test access in an SOC (system-on-chip 15 ) and explains that in order to establish an electronic access mechanism, two basic elements need to be incorporated into the design: (i) a set of access paths and (ii) a mode control network for enabling and disabling the desired access paths. Id. at 191 cols. 1-2. 15 Zorian 191 col. 1. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 49 The SOC test is a single composite test comprised of individual core tests of each core, a UDL test, and a test of their interconnects. Id. at 194 col. 2, 1st para. Each individual core or UDL test may involve surrounding components, and certain peripheral constraints (e.g. safe-mode, low power mode, bypass mode) are often required, necessitating corresponding access and isolation modes. Id. Figure (3) (hereinafter “Figure 3”) of Zorian is reproduced below. Id. at 193. Figure 3 is a block diagram that, as stated in the caption thereto and the text therein, shows a system-on-chip with embedded core accessibility. Accessibility is provided by access paths in the following manner: 1. Access Path: An access path is meant to connect a core periphery (e.g. input, output, or bidirectional) to the assigned test resource block. Figure (3) demonstrates three access paths connecting core inputs Pl, P2, and P3 to three possible test resources T1, T2, T3. . . . N1, N2, and N3 are normal mode inputs to the Embedded Core. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 50 The Peripheral Access block contains the necessary DFT structure for all core peripheries to switch between normal and test modes. Id. at 193 col. 2 (brackets in original). Figure 4 of Zorian is reproduced below: Figure 4, as stated in the caption, shows embedded cores with peripheral access. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 51 Figure 5 is reproduced below. Figure 5, as stated in the caption, shows a system-on-chip with core internal test, peripheral access, and a core test interface. A CTAP (Core Test Access Port) provides a standard serial communication interface that all internal cores must have, at a minimum. The CTAP requires a minimum number of internal bussing signals and IC pins. It can be used by itself to support internal core testing and external core testing based on known test methods such as scan, boundary scan, BIST. Id. at 198, col. 2, last para. The Examiner reads the recited “one or more logic blocks” on “for instance, the USB, the DSP, or the DMA” of Figures 4 and 5 (RAN 9) and reads the “wherein” clause on Zorian as follows: [S]ee page 193, col. 2, wherein “In addition to the normal and core internal test modes, a System-on-chip often requires Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 52 several other test related modes.”; also see page 198, col. 2 through page 199, col. 1, wherein “[The CTAP] can be used by itself to support internal core testing and external core testing based on known test methods such as scan, boundary scan, BIST. The CTAP can be used to enable additional internal bussing signals and/or IC pins to expand core testing to meet a particular core provider’s private test method(s). ... Among its functions it needs to place the core in a safe-mode, such that its outputs do not affect other cores and that arbitrary values may be placed on its inputs.” Id. at 13 (brackets altered). The Examiner more particularly explained that the claim phrase “normal system operation” reads on Zorian’s test modes: Patent Owner is arguing that Zorian does not operate in a “normal mode”. As discussed above, the term “normal system operation” does not exclude the IC or portions of the IC from being under test or in a test mode. As noted above, the Patent Owner’s specification allows for the loading, executing, and evaluating of test data, therefore the test patterns of Zorian can properly be construed as the claimed system operation signals. Id. at 63. 1. Whether Zorian Describes Capturing and Analyzing System Operation Signals Generated “During Normal System Operation” Patent Owner’s principal argument against the rejection is that “[t]he signals disclosed in Zorian’s core internal testing methodology represent test pattern response signals and are not signals that occur during normal system operation of the IC, but instead are signals that contain values in response to the applied test pattern.” P.O. Appeal Br. 14 (footnote omitted). This Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 53 argument is unpersuasive because, for the reasons given above, the claim phrase “normal system operation” does not preclude the application of test data to the recited “one or more logic blocks” or operation in a test mode. As a result, the claim phrase “normal system operation” reads on Zorian’s Figure 3 example when it is operating in a “test” mode. 2. Whether Zorian Discloses Generating System Operations Signals at One or More System Clock Rates (Claims 1 and 4) The Examiner (RAN 9) reads the claim language “generating one or more system operation signals at one or more system operation clock rates” on the following statement in Zorian: “In realistic examples often a combination of serial and parallel access cells are used for a given core, where the data patterns are applied through the serial ring, whereas the clocks and control signals are asserted via parallel access.” Zorian 197 col. 1, 2d full para. (emphasis added). Patent Owner argues: The clocks disclosed in Zorian are not disclosed as system operation clock rates. The clocks mentioned in Zorian are input to the core under test. Further, to the extent that Zorian discloses any system operation signals, such signals are not generated at the rates of the cited clocks. Zorian’s clocks are “asserted via parallel access” for purposes such as clocking in test data. Test “data patterns applied ... through the serial ring” are not system operation signals. The signals are test data. Further, there is no disclosure relating the asserted signals to the components asserted as the logic blocks (i.e., USB, DSP, DMA) that must (according to the claim) generate such signals. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 54 P.O. Appeal Br. 17-18 (footnotes omitted). We agree with Requester that clock signals “asserted in realistic testing” will “necessarily have a rate and this rate is at least one of the clock rates in the system.” Req. Resp’t Br. 11. As a result, Zorian’s logic blocks will respond to these clock signals and the applied data patterns by generating system operation signals at one or more system clock rates, as required by claims 1 and 4. 3. Whether Zorian Discloses an SPU That Includes a Control Unit The Examiner, referring to Figure 5, reads the recited “service processor unit” (SPU) on a CTAP (Core Test Access Port) and the recited “control unit” on the peripheral access blocks. ACP 8-9; RAN 10-11. Patent Owner contends that “claim 1 requires that the control unit be part of the service processor unit” and that “[i]t is clear from both the text of Zorian (which discloses no such relationship) and from Zorian, Figure 5 . . . that the Peripheral Access blocks (bold lines shown in Zorian Figure 5) are not part of the CTAP . . . .” P.O. Appeal Br. 18. The Examiner disagrees, stating that “the claim does not require the control unit to be within the service processor unit.” ACP 61. Requester defends the Examiner’s claim interpretation as follows: The Examiner is correct that under the broadest reasonable interpretation of the claim language, claims 1 and 4 do not require that the service processor unit include a control unit, a buffer memory, an analysis engine, a BIST engine, or a Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 55 system bus interface. It is not clear that further comprising modifies service processor unit, and in fact, it is more likely that further comprising modifies said integrated circuit (the noun which immediately precedes further comprising). Specifically, there is no recitation in the claims regarding what structures the service processor initially comprises; therefore reciting what the service processor further comprises would be premature. However the claim language regarding the IC does set forth initial structures (one or more logic blocks and the service processor) so to set forth what the IC further comprises makes more sense from a textual standpoint. Also, PO could have phrased the above-recited passage to say, “said service processor unit further comprising,” but chose a broader and more ambiguous phrasing instead. Thus, Requester’s reading is correct, as it complies with the broadest reasonable interpretation used by the USPTO Req. Resp’t Br. 10. We disagree with the Examiner’s and Requester’s claim interpretation because it fails to accord sufficient weigh to the claims’ paragraph structure, punctuation, and use of “and” at the end of the first paragraph in each claim, of which claim 1 reads in relevant part as follows: 1. An integrated circuit comprising: one or more logic blocks generating one or more system operation signals at one or more system operation clock rates; and a service processor unit to perform test and debug operations of said logic blocks of said integrated circuit, further comprising: a control unit; . . . . Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 56 Claims App. (Req. Appeal Br. 11) (emphasis added). We therefore agree with Patent Owner that the language of claims 1 and 4 requires the recited “control unit” (and other elements) to be part of the “service processor unit.” Furthermore, this conclusion is based on the claim language itself and thus does not involve importing a limitation into the claims from Figure 2 of the ’301 patent, which depicts SPU 101 as including, inter alia, microprocessor 211, which is described as a “control unit.” ’301 patent 6:33-34. Nevertheless, Patent Owner has not explained, and it is not apparent, why the recited “service processor unit” cannot be read on the Zorian subject matter the Examiner identifies as corresponding to the service processor unit plus the subject matter identified as corresponding to its recited components, including the control unit. 4. Whether Zorian Discloses an SPU That Includes an Analysis Engine The Examiner (RAN 11) reads the recited “analysis engine” on the following sentence in Zorian: “Furthermore, diagnostic modes are often very critical to the production of SOC. They are required to identify failed cores in some cases to determine the internal failures to each core.” Zorian 194 col. 2, 3d full para. Patent Owner argues that “[t]he disclosure of ‘diagnostic modes’ is not a disclosure of an analysis engine that is part of a service processor unit in the integrated circuit.” P.O. Appeal Br. 20. For reasons like those given above, we agree with Patent Owner that the recited Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 57 “analysis engine” is part of the “service processor unit.” However, Patent Owner has not explained, and it is not apparent, why the recited “service processor unit” cannot be read on the Zorian subject matter the Examiner identifies as corresponding to the service processor unit plus the subject matter identified as corresponding to its recited components, which include the analysis engine. 5. Conclusion The rejection of claims 1-10 and 12-26 for anticipation by Zorian is sustained. B. The Rejection of Claim 11 for Obviousness over Zorian in view of Sauerwein Claim 11 depends from claim 1 through claim 9. Patent Owner treats this rejection of claim 11 as standing or falling with the rejection of claim 1 for anticipation by Zorian. See P.O. Appeal Br. 21, sec. d (“Sauerwein was not cited for disclosing, nor does it disclose the elements missing in Zorian. Thus, even if combined, the resulting system would still not render obvious the features of Claim 11.”). The rejection of clam 11 for obviousness over Zorian in view of Sauerwein is sustained for the same reasons that we have sustained the rejection of claim 1 for anticipation by Zorian. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 58 VI. REQUESTER’S PROPOSED BUT UNADOPTED REJECTIONS BASED ON ZORIAN A. The Proposed Rejection of Claims 1-10 and 12-26 for Obviousness Based on Zorian (Proposed Rejections #2 and #6) 1. Claims 1-6 (Proposed Rejection #2) Requester argues that the proposed obviousness rejection of claims 1- 6 based on Zorian should be entered because (i) anticipation is the “epitome of obviousness” and (ii) the differences between Zorian and claims 1-6 are such that the claimed subject matter would have been obvious. Req. Appeal Br. 6-7, sec. 1. These arguments are unpersuasive for the reasons given above in the discussion of Proposed Rejection #4 of claims 1-6 for obviousness over Franklin. The Examiner’s decision not to adopt the proposed rejection of claims 1-6 for obviousness based on Zorian is therefore sustained. 2. Claims 7-10 and 12-26 (Proposed Rejection #6) Regarding these claims, Requester states: This proposed rejection should have been adopted for the same reason that RAN Ground 2 should have been adopted. Furthermore, to the extent that PO may argue lack of anticipation, the similarities between the disclosure of Zorian and added claims 7-10 and 12-26 are such that the “differences between the subject matter sought to be patented and the prior Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 59 art are such that the subject matter as a whole would have been obvious.” See 35 U.S.C. § 103(a). Req. Appeal Br. 7, sec. 3. These arguments are unpersuasive for the reasons given above in the discussion of the proposed rejection for the obviousness of these claims based on Franklin. The Examiner’s decision not to adopt the proposed rejection of claims 7-10 and 12-26 for obviousness based on Zorian is sustained. B. The Proposed Rejection of Claims 9, 10, 14-16, 20, 23, and 25 for Obviousness over Zorian and Sauerwein (Proposed Rejection #7) As support for this proposed rejection, Requester relies on the arguments made in support of Proposed Rejection #2 of claims 1-6 for obviousness of claims 1-6 over Zorian and additionally asserts, without providing the required supporting analysis, that any differences between claims 9, 10, 14-16, 20, 23, and 25 and Zorian would have been rendered obvious by Sauerwein. Req. Appeal Br. 7-8, sec. 4. The Examiner’s decision not to adopt the proposed rejection of claims 9, 10, 14-16, 20, 23, and 25 for obviousness over Zorian and Sauerwein is sustained. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 60 C. The Proposed Rejection of Claims 12 and 21 for Obviousness over Zorian and Franklin (Proposed Rejection #8) As support for this proposed rejection, Requester relies on the arguments made in support of Proposed Rejection #2 of claims 1-6 for obviousness of claims 1-6 over Zorian and additionally asserts, without providing the required supporting analysis, that any differences between claims 12 and 21 and Zorian would have been rendered obvious by Franklin. Req. Appeal Br. 8, sec. 5. The Examiner’s decision not to adopt the proposed rejection of claims 12 and 21 for obviousness over Zorian and Franklin is sustained. VII. CONCLUSIONS A. The Rejections Entered by the Examiner We sustain all of the Examiner’s rejections, which are as follows: 1. Claims 1-10 and 12-26 under 35 U.S.C. § 102(a) for anticipation by Zorian. 2. Claims 1-6, 9, 10, 12-16, and 20-25 under 35 U.S.C. § 102(b) for anticipation by Franklin. 3. Claims 7, 8, and 17-19 under 35 U.S.C. § 103(a) for obviousness over Franklin in view of Zorian. 4. Claim 11 under § 103(a) for obviousness over Zorian in view of Sauerwein. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 61 5. Claim 11 under 35 U.S.C. § 103(a) for obviousness over Franklin in view of Sauerwein. B. The Unadopted Rejections Proposed by Requester We also sustain the Examiner’s decision not to adopt any of the following proposed rejections of claims 1-6, 9, 10, 12-16, and 20-25: 1. Claims 1-10 and 12-26 under 35 U.S.C. § 103(a) based on Zorian (Proposed Rejections #2 and #6). 2. Claims 1-6, 9, 10, 12-16, and 20-25 under 35 U.S.C. § 103(a) based on Franklin (Proposed Rejections #4 and #10). 3. Claims 9, 10, 14-16, 20, 23, and 25 under 35 U.S.C. § 103(a) based on Zorian in view of Sauerwein (Proposed Rejection #7). 4. Claims 12 and 21 under 35 U.S.C. § 103(a) based on Zorian in view of Franklin (Proposed Rejection #8). 5. Claims 9, 10, 14-16, 20, 23, and 25 under 35 U.S.C. § 103(a) based on Franklin in view of Sauerwein (Proposed Rejection #11). VIII. DECISION The Examiner’s decision that claims 1-26 are unpatentable over the prior art is AFFIRMED. Appeal 2014-001224 Reexamination Control 95/001,579 Patent 7,080,301 B2 62 The Examiner’s decision not to adopt the proposed additional rejections of claims 1-6, 9, 10, 12-16, and 20-25 is AFFIRMED. Patent Owner’s Appeal: AFFIRMED Requester’s Appeal: AFFIRMED ak For Patent Owner: 2nd Reexam Group - Novak Druce + Quigg LLP 1000 Louisiana Street Fifty-Third Floor Houston TX 77002 For Third-Party Requester: Haynes and Boone, LLP IP Section 2323 Victory Avenue Suite 700 Dallas, TX 75219