13315149 (P.T.A.B. Aug. 25, 2017)

Ex Parte Ware

Patent Trial and Appeal BoardAug 25, 2017

13315149 (P.T.A.B. Aug. 25, 2017)

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. 13/315,149 12/08/2011 Frederick A. Ware RA940.P.US 4534 89207 7590 Shemwell / Rambus P.O. Box 70307 Sunnyvale, CA 94086 08/29/2017 EXAMINER BASHAR, MOHAMMED A ART UNIT PAPER NUMBER 2824 NOTIFICATION DATE DELIVERY MODE 08/29/2017 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): annw@rambus.com charlie @ shemwellaw. com eofficeaction @ appcoll.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte FREDERICK A. WARE Appeal 2016-004982 Application 13/315,149 Technology Center 2800 Before BEVERLY A. FRANKLIN, JAMES C. HOUSEL, and DEBRA L. DENNETT, Administrative Patent Judges. HOUSEL, Administrative Patent Judge. DECISION ON APPEAL1 Pursuant to 35 U.S.C. § 134(a), Appellant2 appeals from the Examiner’s decision finally rejecting claims 1—27 under 35 U.S.C. § 102(b) as anticipated by Lee.3 We have jurisdiction over the appeal under 35 U.S.C. § 6(b). We AFFIRM. 1 Our decision refers to the Specification (Spec.) filed December 8, 2011, the Examiner’s Final Office Action (Final Act.) dated April 22, 2014, Appellant’s Appeal Brief (Br.) filed October 22, 2014, and the Examiner’s Answer (Ans.) dated March 12, 2015. 2 According to Appellant, the real party in interest is Rambus Inc. Br. 3. 3 Lee et al., US 7,176,714 Bl, issued February 13, 2007 (“Lee”). Appeal 2016-004982 Application 13/315,149 STATEMENT OF THE CASE The invention relates to a method of operation within a memory component having a signaling interface that may be switched to either a first or a second logical width. Br. 5. Appellant disclose, in an integrated circuit (IC) device having an adjustable width interface, a selectable number of input/output (I/O) pins may be used to convey information-bearing signals. Spec. 13. Claim 1, reproduced below from the Claims Appendix to the Appeal Brief, is illustrative of the subject matter on appeal. 1. A method of operation within a memory component, the method comprising: receiving write data exclusively via a first set of signaling- link receivers if a signaling interface of the memory component is set to a first logical width; and receiving write data exclusively via a second set of signaling-link receivers if the signaling interface of the memory component is set to a second logical width, wherein the second logical width exceeds the first logical width and the first set of signaling-link receivers includes at least one signaling-link receiver not included in the second set of signaling-link receivers. Additional independent claims 12 and 27 are directed to a memory component for performing the method, whereas independent claim 24 is directed to an IC device having a date interface and a command interface for performing the method with the memory component. ANALYSIS Appellant argues claims 1 and 24 separately, but does not otherwise argue the claims separately. Specifically, Appellant relies on the same 2 Appeal 2016-004982 Application 13/315,149 arguments for each of independent claims 12 and 27 as presented for claim 1, but adds an additional argument with regard to independent claim 24. Br. 12—13. In accordance with 37 C.F.R. § 41.37(c)(l)(iv), claims 2—23 and 27 stand or fall with claim 1 and claims 25 and 26 stand or fall with claim 24. The Examiner construes the phrase, “method of operation within a memory component,” as a method of operation that can be done in any component of a memory system rather than a method of operation that is performed within a memory array itself. Ans. 2. The Examiner also construes the claim recitation, “receiving write data,” as merely receiving data that is to be written such as to a register or interface, and not requiring that the data be from an element external to a memory cell to be written on the memory cell. Id. at 3. With these constructions in mind, the Examiner finds Lee teaches a method of operation with a memory component comprising receiving write data exclusively via a first set of signal-link receivers (DQ circuitry are the signal-link receivers) if the signaling interface of the memory component is set to a first logical width and receiving write data exclusively via a second set of signal-link receivers if the signaling interface is set to a second logical width that is greater than the first logical width, such that the first set includes at least one signal-link receivers that is not included in the second set. Final Act. 2. Appellant argues that Lee fails to teach each of the two recited steps of the process of claim 1. Br. 8. In particular, Appellant argues that the Examiner’s claim interpretation is mistaken because claim 1 requires a memory component receiving write data. Id. at 9. However, Appellant fails to explain with any particularity why the Examiner’s interpretation is 3 Appeal 2016-004982 Application 13/315,149 erroneous.4 As indicated above, the Examiner construes the claim as a method of operation that can be done in any component of a memory system rather than a method of operation that is performed within a memory array itself. Claim 1 does not specify in which memory component the operation is performed and, therefore, by its literal terms, does not restrict the operation to any particular component, e.g., a memory array. In addition, Appellant does not direct our attention to any disclosure or other evidence that would limit the meaning of the claim to operation within a memory array. Appellant next argues that Lee’s tree structures are not in a memory component. Br. 9—10. According to Appellant, Lee fails to disclose or suggest that the timing tree structures in Lee’s memory controller 2105 could be deployed within memory 220. Id. at 9. In addition, Appellant asserts that Lee is silent regarding the internal structure and operation of memory 220. However, the Examiner finds that Lee’s memory system 200 has two main components—memory array 220 and memory controller 210—and, as such, memory controller 210 is a memory component. Ans. 3. Because memory controller 210 is a memory component, the Examiner’s finding that Lee teaches that a memory component receives write data is supported by Lee’s timing tree structures within a memory component, i.e., memory controller 210 and, therefore, within memory system 200. 4 An applicant seeking a narrower construction must either show why the broader construction is unreasonable or amend the claim to expressly state the scope intended. In re Morris, 127 L.3d 1048, 1057 (Led. Cir. 1997). 5 Throughout this Opinion, for clarity, we present labels to elements in figures in bold font, regardless of their presentation in the original document. 4 Appeal 2016-004982 Application 13/315,149 Appellant further argues that even if Lee’s memory 220 was modified to include the timing tree structures, Lee would fail to meet the limitations of claim 1 because every DQ line is connected to a dedicated DQ pin 502 that is likewise coupled to a dedicated internal register 510. Br. 10. Appellant contends that Lee fails to disclose or suggest that read data arriving within the memory controller 210 via DQ lines is somehow received via different sets of read data receivers. Id. Appellants also contend that Lee’s strobe/timing signals are different from read signals. Id. at 11. Appellant’s argument is not persuasive because the Examiner’s rejection does not require modification of Lee’s memory array 220 because, as explained above, Lee’s memory controller 210 is a memory component of memory 200 within the scope of claim 1. In addition, the Examiner finds Lee teaches that register 510 outputs read data to PLD core 420 (part of memory controller 210), where the PLD core receives write data from memory, based on data signal receiver DQ and associated strobe signal receiver DQS where the strobe signal goes through DQS bus 520 to register 510. Ans. 5. As such, the Examiner finds Lee teaches timing signal DQS relates to data DQ because DQS drives register 510 which receives data via DQ and the specific strobe timing must be set up before data transfer to PLD core 420. Id. In addition, the Examiner finds Lee’s logic data width depends on the specific configuration of DQS bus 520 selected by selection devices 710, which activates a first set of DQS with their respective set of DQ lines to receive data for a first logic width, and activates a second, different set of DQS with their respective set of DQ lines to receive data for a second logic width. Id. Lee supports the Examiner’s finding. Lee teaches that “the DQS bus may route DQS signals from one, two, four, or eight 5 Appeal 2016-004982 Application 13/315,149 strobe circuits to a number of register blocks 510.” Lee 7:56—59. Lee further teaches that “tree network 700 can be configured to interface with memories having different data widths.” Id. at 7:62—63. Regarding independent claim 24, the Examiner finds Lee teaches an integrated circuit device having a command interface to output a logic width value to the memory component. Final Act. 7—8. Appellant submits that Lee fails to teach such a command interface or a data interface. Br. 13. However, Appellant fails to identify with any specificity how or why the Examiner’s finding regarding the presence of a command interface and a data interface in Lee is in error or otherwise lacks support in Lee’s disclosure. See 37 C.F.R. § 41.37(c)(l)(vii) (noting that an argument that merely points out what a claim recites is unpersuasive). The Examiner specifically identifies selection device 710 as the command interface because “it set up the logical width value to the memory component,” and specifically identifies register 510 as the data interface because “PLD core 420 receive write data through register block 510.” Ans. 6. Appellant fails to address these specific findings or otherwise identify error therein. DECISION Upon consideration of the record, and for the reasons given above and in the Final Office Action and the Answer, the decision of the Examiner rejecting claims 1—27 under 35 U.S.C. § 102(b) as anticipated by Lee is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). AFFIRMED 6