13804634 (P.T.A.B. Aug. 31, 2017)

Ex Parte Kim

Patent Trial and Appeal BoardAug 31, 2017

13804634 (P.T.A.B. Aug. 31, 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. 13/804,634 03/14/2013 Hye-Jeong KIM 0201-0655 1232 68103 7590 09/05/2017 Jefferson IP Law, LLP 1130 Connecticut Ave., NW, Suite 420 Washington, DC 20036 EXAMINER ANYA, CHARLES E ART UNIT PAPER NUMBER 2194 NOTIFICATION DATE DELIVERY MODE 09/05/2017 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): u sdocketing @ j effersonip .com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte HYE-JEONG KIM Appeal 2017-005597 Application 13/804,6341 Technology Center 2100 Before LINZY T. McCARTNEY, NATHAN A. ENGELS, and JAMES W. DEJMEK, Administrative Patent Judges. DEJMEK, Administrative Patent Judge. DECISION ON APPEAL Appellant appeals under 35 U.S.C. § 134(a) from a Final Rejection of claims 1, 3—7, 9-14, 16—20, and 22—32. Claims 2, 8, 15, and 21 have been canceled. See App. Br. 14—17. We have jurisdiction over the remaining pending claims under 35 U.S.C. § 6(b). We reverse. 1 Appellant identifies Samsung Electronics Co., Ltd. as the real party in interest. App. Br. 2. Appeal 2017-005597 Application 13/804,634 STATEMENT OF THE CASE Introduction Appellant’s disclosed and claimed invention is directed to a circuit for processing data, the circuit including an Application Processor (AP), a Communication Processor (CP), and a storage unit shared by the AP and CP. Spec. 1^2, 31. In a disclosed embodiment, the storage unit comprises a first region, a second region, and a third region. Spec. 131. The CP operatively controls the first region, while both the CP and AP can access, read data from, and write data to this region. Spec. H 31, 56. In addition, the CP can access, read data from, and write data to the second region, whereas the AP can access, read data from, and write data to the third region. Spec. 131. Claim 1 is illustrative of the subject matter on appeal and is reproduced below with the disputed limitation emphasized in italics: 1. A circuit for processing data, the circuit comprising: an Application Processor (AP); a Communication Processor (CP); and a storage unit comprising: at least a first region which the CP operatively controls, and the AP and the CP access and from/to which data of at least one of the AP and the CP is read/written whereby the AP reads the data by one read operation, a second region which the CP accesses and from/to which data of the CP is read/written, and a third region which the AP accesses and from/to which data of the AP is read/written. The Examiner’s Rejections 1. Claims 1, 3, 5, 7, 9-14, 16—20, and 22—27 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Nakagawa et al. (US 2 Appeal 2017-005597 Application 13/804,634 2011/0249560 Al; Oct. 13, 2011) (“Nakagawa”); Ido (US 2010/0095072 Al; Apr. 15, 2010); and Applicants’ Admitted Prior Art (“AAPA”). Final Act. 2—13. 2. Claims 4 and 6 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Nakagawa, Ido, AAPA, and Leucht-Roth (US 2013/0268689 Al; Oct. 10,2013). Final Act. 13-15. 3. Claims 28—32 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Nakagawa, Ido, AAPA, and Katou (US 2010/0227654 Al; Sept. 9, 2010). Final Act. 16—17. Issue on Appeal2 Did the Examiner err by failing to make a sufficient finding with respect to “at least a first region [(of a storage device)] which the CP [(Communication Processor)] operatively controls,” as recited in claim 1? ANALYSIS3 Appellant contends the Examiner erred in finding Nakagawa teaches at least a first region of a storage unit operatively controlled by a Communication Processor. App. Br. 6; Reply Br. 3. In particular, Appellant 2 We only address this issue, which is dispositive of the Examiner’s rejections under 35 U.S.C. § 103(a). We do not address additional issues raised by Appellant’s arguments related to these rejections. 3 Throughout this Decision, we have considered the Appeal Brief, filed April 22, 2016 (“App. Br.”); the Reply Brief, filed February 16, 2017 (“Reply Br.”); the Examiner’s Answer, mailed December 16, 2016 (“Ans.”); and the Final Office Action, mailed November 23, 2015 (“Final Act.”), from which this Appeal is taken. 3 Appeal 2017-005597 Application 13/804,634 argues Nakagawa generally discloses the sharing of a buffering IC between a Communication Processor and an Application Processor but fails to teach the buffering IC is operatively controlled by the Communication Processor, as required by claim 1. App. Br. 6 (citing Nakagawa 56—59). Further, Appellant argues “the mere provision of a common region of (shared) memory as in Nakagawa, does not describe separately or in combination with other cited references, control of the region and more specifically, control of the region by the CP as recited.” Reply Br. 3 (brackets omitted). Nakagawa describes a scenario wherein a communication scheme is adopted having a high data transfer rate such that the amount of data to be transferred from the Communication Processor to the Application Processor is too great for the Application Processor to process the received data sufficiently. Nakagawa 1 5. Nakagawa further explains when the data processing speeds of the Communication Processor and Application Processor are different, and particularly when the downstream processor has a slower data processing speed, data outputted from the processor on the upstream side cannot be fully processed and buffer overrun occurs. Nakagawa 17. To address the identified issue, Nakagawa is generally directed to providing “a CPU connection circuit which is a circuit to be employed by two CPUs by alternately conducting a changeover between two buffers disposed therebetween to prevent an event that data processing cannot be fully executed by the CPU on the receiving side.” Nakagawa 19. 4 Appeal 2017-005597 Application 13/804,634 Figure 1 of Nakagawa is illustrative and is reproduced below. F I G. 1 3 Figure 1 of Nakagawa illustrates the connections between two CPUs—a Communication CPU (CCPU) and an Application CPU (ACPU)—and a buffering IC. Nakagawa H 34—35. Nakagawa describes the buffering IC as comprising a circuit including two buffers, wherein: the circuit being connected between two CPUs for relaying data transfer from one of the CPUs to the other one thereof, characterized by including: means for monitoring whether or not an amount of data stored by a transmission-side CPU in either one of the buffers reaches a predetermined threshold value; and means for requesting, when the amount of data stored by the transmission-side CPU in the buffer reaches the threshold value, a reception-side CPU to acquire the data stored in the buffer and changing the data storage destination of the transmission-side CPU to the other one of the buffers, the threshold value being a value more than a unit quantity of data which the transmission- side CPU sends to the buffer. Nakagawa 110. Further, as illustrated in Figure 1, a data acquisition request signal is asserted when a data read buffer satisfies a condition for the ACPU to read data from the buffering IC. Nakagawa 1 56. Additionally, an overrun interrupt signal may be generated by the buffering IC and sent to the ACPU when an overrun condition (i.e., data loss) occurs. Nakagawa 1 57. 5 Appeal 2017-005597 Application 13/804,634 Nakagawa also discloses the buffering IC “possesses a function of flow control signal controllable from the ACPU.” Nakagawa 159. By controlling this signal, retransmission of data can be notified to the CCPU. Nakagawa 1 59. The Examiner finds, inter alia, Nakagawa teaches the claimed Application Processor (i.e., ACPU); Communication Processor (i.e., CCPU); and storage unit (i.e., buffering IC). Final Act. 3. Further, the Examiner finds Nakagawa teaches the buffering IC comprises at least a first region which the Communication Processor operatively controls, and the Application Processor and Communication Processor access, and from/to which data of at least one of the Application Processor and the Communication Processor is read/written, as recited in claim 1. Final Act. 3. In response to Appellant’s argument regarding the teaching of whether the Communication Processor operatively controls the buffering IC, the Examiner explains ‘“operatively control’ implies a common region of memory which the Application Processor and Communication Processor (CP) share and from which they (AP and CP) may read and write data.” Ans. 22. Claims are interpreted with an eye toward giving effect to all terms in the claim. See, e.g., Elekta Instrument S.A. v. O.U.R. Sci. Int’l, Inc., 214 F.3d 1302, 1305, 1307 (Fed. Cir. 2000). Here, the disputed limitation already provides that the first region of the storage unit is shared between the Application Processor and Communication Processor (i.e., “the AP and the CP [(may)] access”) and that at least one may read and write data to the shared region (i.e., “from/to which data of at least one of the AP and the CP is read/written”). In addition, the claim requires the Communication 6 Appeal 2017-005597 Application 13/804,634 Processor operatively control the storage unit (i.e., buffering IC). As described in the Specification, the Communication Processor’s operative control of the first region of the storage unit is separate and distinct from its ability to access, read data from, and write data to the first region. See Spec. 56—58. The Examiner’s proposed construction for “operatively controls” is already recited by the remaining claim language. Thus, the Examiner’s construction renders the rest of the claim limitation superfluous. See Mangosoft, Inc. v. Oracle Corp., 525 F.3d 1327, 1130—31 (Fed. Cir. 2008) (rejecting claim construction that would render a claim term superfluous). Further, the Examiner has not provided sufficient persuasive evidence or explanation that the Communication Processor in Nakagawa operatively controls the buffering IC. Rather, Nakagawa discloses it is the Application Processor that controls a flow control signal/fimction of the buffering IC. See Nakagawa 1 59. For the reasons discussed supra, and constrained by the record before us, we do not sustain the Examiner’s rejection of independent claim 1. For similar reasons, we do not sustain the Examiner’s rejection of independent claims 7, 14, 20, and 27, which recite similar limitations. Further, we do not sustain the Examiner’s rejections under 35 U.S.C. § 103(a) of claims 3—6, 9— 13, 16—19, 22—26, and 28—32, which depend therefrom. DECISION We reverse the Examiner’s decision rejecting claims 1, 3—7, 9-14, 16-20, and 22-32. REVERSED 7