Parthenon Unified Memory Architecture LLC v. HTC Corporation et al
Filing
155
MEMORANDUM OPINION AND ORDER. Signed by Magistrate Judge Roy S. Payne on 7/30/2015. (ch, )
UNITED STATES DISTRICT COURT
EASTERN DISTRICT OF TEXAS
MARSHALL DIVISION
PARTHENON UNIFIED MEMORY
ARCHITECTURE, LLC
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v.
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HTC CORPORATION and
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HTC AMERICA, INC.
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_______________________________________
PARTHENON UNIFIED MEMORY
ARCHITECTURE, LLC
v.
LG ELECTRONICS, INC. and
LG ELECTRONICS USA., INC.
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Case No. 2:14-cv-00690-RSP
(Lead)
Case No. 2:14-cv-00691-JRG-RSP
(Consolidated)
MEMORANDUM OPINION AND ORDER
On June 5, 2015, the Court held a hearing to determine the proper construction of
disputed terms in the nine Asserted Patents in this case. The Court, having considered the
parties’ claim construction briefing (Dkt. Nos. 120, 121, 122) and their arguments at the hearing,
issues this Memorandum Opinion and Order construing the disputed terms.
BACKGROUND AND THE ASSERTED PATENTS
Parthenon Unified Memory Architecture, LLC (“PUMA”) brings two actions: first,
against HTC Corp. and HTC America, Inc.; and second, against LG Electronics, Inc. and LG
Electronics USA, Inc. (collectively, “Defendants”). These actions allege that Defendants
infringed nine of PUMA’s patents: U.S. Patent Nos. 5,812,789 (“the ’789 Patent”), 6,058,459
(“the ’459 Patent”), 6,427,194 (“the ’194 Patent”), 7,321,368 (“the ’368 Patent”), 7,542,045
1
(“the ’045 Patent”), 7,777,753 (“the ’753 Patent”), 8,054,315 (“the ’315 Patent”), 8,681,164
(“the ’164 Patent”) and 5,960,464 (“the ’464 Patent”) (collectively, “the Asserted Patents”). Of
the nine patents, two patents, the ’789 Patent and the ’459 Patent, were both filed on August 26,
1996, rely on similar specifications, and incorporate each other by reference. Six patents are
based on continuation applications of the ’459 Patent: the ’194 Patent, the ’368 Patent, the ’045
Patent, the ’753 Patent, the ’315 Patent, and the ’164 Patent. One patent, the ’464 Patent,1 relies
on a specification that is not shared by any of the other Asserted Patents.
In general, the ’789 Patent, the ’459 Patent, the ’194 Patent, the ’368, the ’045 Patent, the
’753 Patent, the ’315 Patent, and the ’164 Patent relate to systems in which a first device (for
example a processor) and a decoder/encoder share a common memory. For example, the ’459
Patent abstract recites:
An electronic system provides direct access between a first device and a
decoder/encoder and a memory. The electronic system can be included in a
computer in which case the memory is a main memory. Direct access is
accomplished through one or more memory interfaces. Direct access is also
accomplished in some embodiments by direct coupling of the memory to a bus,
and in other embodiments, by direct coupling of the first device and
decoder/encoder to a bus. The electronic system includes an arbiter for
determining access for the first device and/or the decoder/encoder to the memory
for each access request. The arbiter may be monolithically integrated into a
memory interface of the decoder/encoder or the first device. The decoder may be
a video decoder configured to decode a bit stream formatted to comply with the
MPEG-2 standard. The memory may store predicted images which are obtained
from a single preceding image and may also store intra images. Bidirectional
images which are directly supplied to a display adapter may be obtained from two
preceding intra or predicted images.
’459 Patent Abstract.
1
The ’464 Patent was filed on August 23, 1996.
2
The remaining patent, the ’464 Patent, relates generally to a system whereby a decoder,
which requires contiguous blocks of memory, can utilize noncontiguous blocks of the system’s
memory. The ’464 patent abstract recites:
A method and apparatus employing a memory management system that can be
used with applications requiring a large contiguous block of memory, such as
video decompression techniques (e.g., MPEG 2 decoding). The system operates
with a computer and the computer's operating system to request and employ
approximately 500 4-kilobyte pages in two or more noncontiguous blocks of the
main memory to construct a contiguous 2-megabyte block of memory. The
system can employ, on a single chip, a direct memory access engine, a
microcontroller, a small block of optional memory, and a video decoder circuit.
The microcontroller retains the blocks of multiple pages of the main memory, and
the page descriptors of these blocks, so as to lock down these blocks of memory
and prohibit the operating system or other applications from using them. The
microcontroller requests the page descriptors for each of the blocks, and programs
a lookup table or memory mapping system in the on-chip memory to form a
contiguous block of memory. As a result, the video decoder circuit can perform
operations on a 2-megabyte contiguous block of memory, where the
microcontroller employs the lookup table to translate each 2-megabyte contiguous
address requested by the video decoder circuit to its appropriate page in the main
memory. As soon as the video decoding operations are complete, the
microcontroller releases the blocks of multiple pages of memory back for use by
the computer.
’464 Patent Abstract.
APPLICABLE LAW
1. Claim Construction
“It is a ‘bedrock principle’ of patent law that ‘the claims of a patent define the invention
to which the patentee is entitled the right to exclude.’” Phillips v. AWH Corp., 415 F.3d 1303,
1312 (Fed. Cir. 2005) (en banc) (quoting Innova/Pure Water Inc. v. Safari Water Filtration Sys.,
Inc., 381 F.3d 1111, 1115 (Fed. Cir. 2004)). To determine the meaning of the claims, courts start
by considering the intrinsic evidence. Id. at 1313; C.R. Bard, Inc. v. U.S. Surgical Corp., 388
F.3d 858, 861 (Fed. Cir. 2004); Bell Atl. Network Servs., Inc. v. Covad Commc’ns Group, Inc.,
262 F.3d 1258, 1267 (Fed. Cir. 2001). The intrinsic evidence includes the claims themselves, the
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specification, and the prosecution history. Phillips, 415 F.3d at 1314; C.R. Bard, Inc., 388 F.3d at
861. Courts give claim terms their ordinary and accustomed meanings as understood by one of
ordinary skill in the art at the time of the invention in the context of the entire patent. Phillips,
415 F.3d at 1312–13; Alloc, Inc. v. Int’l Trade Comm’n, 342 F.3d 1361, 1368 (Fed. Cir. 2003).
The claims themselves provide substantial guidance in determining the meaning of
particular claim terms. Phillips, 415 F.3d at 1314. First, a term’s context in the asserted claim
can be very instructive. Id. Other asserted or unasserted claims can also aid in determining the
claim’s meaning, because claim terms are typically used consistently throughout the patent. Id.
Differences among the claim terms can also assist in understanding a term’s meaning. Id. For
example, when a dependent claim adds a limitation to an independent claim, it is presumed that
the independent claim does not include the limitation. Id. at 1314–15.
“[C]laims ‘must be read in view of the specification, of which they are a part.’” Id.
(quoting Markman v. Westview Instruments, Inc., 52 F.3d 967, 979 (Fed. Cir. 1995) (en banc)).
“[T]he specification ‘is always highly relevant to the claim construction analysis. Usually, it is
dispositive; it is the single best guide to the meaning of a disputed term.’” Id. (quoting Vitronics
Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed. Cir. 1996)); Teleflex, Inc. v. Ficosa N. Am.
Corp., 299 F.3d 1313, 1325 (Fed. Cir. 2002). This is true because a patentee may define his own
terms, give a claim term a different meaning than the term would otherwise possess, or disclaim
or disavow the claim scope. Phillips, 415 F.3d at 1316. In these situations, the inventor’s
lexicography governs. Id. The specification may also resolve ambiguous claim terms “where the
ordinary and accustomed meaning of the words used in the claims lack sufficient clarity to
permit the scope of the claim to be ascertained from the words alone.” Teleflex, Inc., 299 F.3d at
1325. But, “‘[a]lthough the specification may aid the court in interpreting the meaning of
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disputed claim language, particular embodiments and examples appearing in the specification
will not generally be read into the claims.’” Comark Commc’ns, Inc. v. Harris Corp., 156 F.3d
1182, 1187 (Fed. Cir. 1998) (quoting Constant v. Advanced Micro-Devices, Inc., 848 F.2d 1560,
1571 (Fed. Cir. 1988)); see also Phillips, 415 F.3d at 1323. The prosecution history is another
tool to supply the proper context for claim construction because a patent applicant may also
define a term in prosecuting the patent. Home Diagnostics, Inc., v. Lifescan, Inc., 381 F.3d 1352,
1356 (Fed. Cir. 2004) (“As in the case of the specification, a patent applicant may define a term
in prosecuting a patent.”).
Although extrinsic evidence can be useful, it is “‘less significant than the intrinsic record
in determining the legally operative meaning of claim language.’” Phillips, 415 F.3d at 1317
(quoting C.R. Bard, Inc., 388 F.3d at 862). Technical dictionaries and treatises may help a court
understand the underlying technology and the manner in which one skilled in the art might use
claim terms, but technical dictionaries and treatises may provide definitions that are too broad or
may not be indicative of how the term is used in the patent. Id. at 1318. Similarly, expert
testimony may aid a court in understanding the underlying technology and determining the
particular meaning of a term in the pertinent field, but an expert’s conclusory, unsupported
assertions as to a term’s definition are entirely unhelpful to a court. Id. Generally, extrinsic
evidence is “less reliable than the patent and its prosecution history in determining how to read
claim terms.” Id.
2. Claim Indefiniteness
Patent claims must particularly point out and distinctly claim the subject matter regarded
as the invention. 35 U.S.C. § 112, ¶ 2. “[I]ndefiniteness is a question of law and in effect part of
claim construction.” ePlus, Inc. v. Lawson Software, Inc., 700 F.3d 509, 517 (Fed. Cir. 2012). A
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party challenging the definiteness of a claim must show it is invalid by clear and convincing
evidence. Young v. Lumenis, Inc., 492 F.3d 1336, 1345 (Fed. Cir. 2007).
The definiteness standard of 35 U.S.C. § 112, ¶ 2 requires that:
[A] patent’s claims, viewed in light of the specification and prosecution history,
inform those skilled in the art about the scope of the invention with reasonable
certainty. The definiteness requirement, so understood, mandates clarity, while
recognizing that absolute precision is unattainable. The standard we adopt
accords with opinions of this Court stating that “the certainty which the law
requires in patents is not greater than is reasonable, having regard to their subjectmatter.
Nautilus, Inc. v. Biosig Instruments, Inc., 134 S. Ct. 2120, 2129–30 (2014) (internal citations
omitted).
3. Construing Claim Terms that Have Previously Been Construed by This Court or
Other Courts
This is not the first time a Court in this District has construed some of the disputed terms.
In STMicroelectronics, Inc. v. Motorola, Inc., 327 F. Supp. 2d 687 (E.D. Tex. 2004) the Court
construed the ’789 Patent. This previous construction is not controlling here but it can be
instructive and will, at times, provide part of the basis for the Court’s analysis. See Burns,
Morris & Stewart Ltd. P’ship v. Masonite Int’l Corp., 401 F. Supp. 2d 692, 697 (E.D. Tex. 2005)
(while a previous construction may be instructive and provide the basis of the analysis, the
previous construction is not binding on the court, particularly when there are new parties and
those parties have presented new arguments).
AGREED TERMS
The parties agree that “simultaneously accesses the bus” means “accesses the bus at the
same time.” (Dkt. No. 123-2 at 4). The parties also agree that the following terms require no
construction: “without requiring a second bus,” “without also requiring a second bus” and “video
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stream input device circuit.” (Dkt. No. 120 at 24, 28); (Dkt. No. 121 at 1). At the oral hearing,
the parties agreed that “display device” means “screen and its circuitry.” (Dkt. No. 137 at 4). At
the oral hearing, the parties also agreed that “display adapter” means “an adapter that processes
images for a display device.” (Id.).
DISPUTED TERMS
1. “bus” (’789 Patent claims 1, 13; ’459 Patent claims 1, 2, 7, 11, 13; ’194 Patent claims
1, 2, 9, 11, 16-18, 23; ’368 Patent claims 1, 5, 7, 13, 19, 20, 23; ’045 Patent claims 1, 4,
5, 12, 15; ’753 Patent claims 1, 7; ’315 Patent claim 1 and ’164 Patent claims 1, 6, 7)
PUMA’s Construction
No construction necessary.
Alternatively: “a signal line or a set of signal
lines to which a number of devices are
coupled and over which information may be
transferred”
Defendants’ Construction
“a signal line or set of parallel signal lines to
which a number of devices are attached and
over which information may be broadcast
among them”
The primary disputes between the parties relate to PUMA’s inclusion of the word
“coupled” and Defendants’ inclusion of the words “parallel” and “broadcast among them.” The
parties’ disputes on these issues turn on whether a “bus” can have intervening components and
whether two buses are included in the construction of “bus.”
Positions of the Parties
PUMA asserts that the term “bus” is well-known in the art and does not need
construction.
PUMA’s
alternative
construction
comes
from
STMicroelectronics.
In
STMicroelectronics, the parties agreed that “bus” should be construed as “a signal or set of signal
lines to which a number of devices are coupled and over which information may be transferred
between them.” STMicroelectronics, 327 F. Supp. 2d at 711. PUMA asserts that its construction
is consistent with multiple extrinsic evidence dictionaries. (Dkt. No. 120 at 8).
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PUMA objects to Defendants’ inclusion of “broadcast” and “parallel” in their proposed
construction. PUMA asserts that the word “broadcast” itself requires additional construction, and
that, to the extent “broadcast” means “transmitted,” PUMA’s use of the word “transferred” is
less ambiguous and less confusing.
PUMA asserts that if Defendants have proposed “broadcast” because “broadcast” has a
specific meaning, limiting “bus” in this manner is not supported by the specification. (Id. at 9).
Not every bus “broadcasts” a signal to all locations on the line, and PUMA asserts that
Defendants’ construction would read out types of buses that were known and commonly used in
the art at the time. For example, the SPARC memory bus (“Mbus”) developed by Sun
Microsystems and similar circuit-switch or multiplexed buses. (Dkt. No. 122 at 2).
PUMA objects to Defendants’ use of the word “parallel” because it is as ambiguous as
“broadcast.” PUMA asserts that “parallel” could refer to either a geometrical arrangement (i.e.,
parallel versus perpendicular lines) or to a method of data transmission (i.e., parallel data versus
serial data). (Dkt. No. 120 at 9). PUMA states that the Asserted Patents do not make either of
those distinctions and do not use the term “parallel.”
Defendants assert that the construction stipulated to in STMicroelectronics does not apply
in this case because STMicroelectronics involved only the ’789 Patent. Defendants further assert
that the Court’s construction in STMicroelectronics fails for two reasons. First, the
STMicroelectronics construction does not distinguish between a single bus and multiple buses.
Defendants assert this distinction is critical because some claims explicitly exclude a second bus.
For example, claim 1 of the ’459 Patent, which states, “without also requiring a second bus.”
Defendants note that similar language is found in other claims of the ’459 Patent and in the ’194
Patent claims. (Dkt. No. 121 at 2, n.1).
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Second, Defendants assert that the STMicroelectronics construction fails to consider
statements made during the prosecution of the ’368 Patent. Defendants assert that during the
prosecution of the ’368 Patent, the Applicants required a “bus” to be more than a local point-topoint connection between two devices. (Id. at 2). Defendants assert that their construction
accounts for this prosecution history statement because it distinguishes between busses that can
provide a point-to-point connection between two devices from busses that must connect more
than two devices.
As to the words “broadcast” and “parallel” not appearing in the claims, Defendants assert
that these concepts are contained throughout the claims. (Id. at 2). Defendants assert that
“broadcast” reflects a fundamental property of a “signal line” and distinguishes one bus from
multiple buses. Defendants assert that a signal line carries only one signal at a time. Defendants
assert that a signal line cannot convey two different signals from two different sources at the
same time, or else a “contention” would occur. (Id. at 3). Defendants assert that the patents
include an arbiter to prevent any contentions.
Defendants point to Figure 1c of the ’789 Patent as being illustrative. Defendants assert
that the PCI bus 170 and ISA bus 198 present a signal everywhere on the line and, thus, the
signal is available to any device attached to the line. Defendants assert that to “broadcast”
information on a signal line of a bus means that the entire signal line carries the same
information, regardless of the number of devices receiving the information. Defendants assert
that, in contrast, if the signal line is broken into separate parts by an intervening component, then
two buses are present. For example, Defendants assert that if a switch is present, so that a device
broadcasts to only part of the signal line, or so that different devices may transmit information
separately on different parts of the signal line, then more than one bus is present. (Id. at 4).
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Defendants assert that PUMA’s construction is too broad in that the construction
potentially covers configurations that include multiple, separate, buses. Defendants again point to
’789 Patent Figure 1c as an example. Defendants assert that under PUMA’s construction, the PCI
bus 170 and ISA bus 198 could constitute a single bus as the two buses are connected through
the PCI bridge 192. Defendants assert that such a reading contradicts the specification,
prosecution histories, and the understanding of one skilled in the art. (Id. at 4-5). Defendants
assert that the patents clearly disclose two buses: PCI bus 170 and ISA bus 198. Defendants
similarly point to the three buses of ’459 Patent Figure 7 (buses 170, 198, and 185). Defendants
assert that PUMA’s construction would interpret the three buses as a single bus. (Id. at 5).
Defendants also assert that the prosecution history of the ’459 Patent supports their
construction. During prosecution, a rejection was based on U.S. Patent No. 5,682,484
(“Lambrecht”). Defendants point to Lambrecht Figure 1:
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(Dkt. No. 121 at 5 (Lambrecht Figure 1, color coding added)). Defendants assert that during
prosecution, the Applicants distinguished the PCI bus 120 and memory bus 108 of Lambrecht as
being two buses. Defendants assert the Applicants then added to the claims this limitation: that
the devices access the memory “without requiring a second bus.” (Id. at 7 (citing Ex. 8 at 0791)).
Defendants assert that the Applicants, thus, distinguished the PCI bus 120 and memory bus 108
as being separate busses due to the intervening PCI bridge chipset 106. (Id.). Defendants assert
that the prosecution history makes clear that a “bus” cannot include a set of signal lines that are
sequential or in series with other signal lines. Defendants assert that the series connection in
Lambrecht of the PCI bus 120, PCI bridge chipset 106, and memory bus 108 is not a “bus,” but
rather two sequential buses. (Id.).
Defendants also state that the language “among them” that is used in Defendants’
construction is relevant to prosecution history statements. Defendants assert that such language
makes clear that connections between only two devices are not a bus. Defendants point to a
rejection in the ’368 Patent prosecution based on U.S. Patent No. 5,576,765 (“Cheney”).
Defendants assert that, with regard to Cheney, the Applicants asserted that a connection between
just a memory and a decoder was not a bus. Specifically, Defendants point to the arguments
regarding Cheney Figure 4:
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(Dkt. No. 121 at 7 (Cheney Figure 4, color coding added)). Defendants assert that the Applicants
argued that the lines 221, 223 and 225 connecting the memory 601 and the decoder 201 were
not a bus:
The connection between memory 601 and decoder 201 is a local connection and
connects only the two devices together. It is not a bus as was well recognized by
Cheney and as is recognized by those with skill in the art.
(Dkt. No. 121 Ex. 11 at 01236) (emphasis added). Defendants assert that in contradiction to this
statement, Cheney recognized that the lines in question were buses: “[t]he interface between the
memory management unit 600 and the memory 601 includes an address bus, 221, a bidirectional
data bus, 223, and a control bus 225.” (Dkt. No. 121 Ex. 9 (Cheney) at 7:35-37). Defendants
assert that Cheney never describes a “local connection.” Defendants assert that the Applicants
made a clear and unmistakable statement that a connection between only two devices is “not a
bus.” (Dkt. No. 121 at 8). At the oral hearing, Defendants stated that the language “among them”
required the bus to be capable of connecting at least three devices. (Dkt. No. 137 at 31-32).
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At the oral hearing, Defendants agreed that the term “bus” was generally understood in
the art. (Id. at 9). Defendants emphasized at the hearing that PUMA’s construction would allow
devices to be indirectly coupled to a bus. Defendants asserted that PUMA’s construction would,
thus, allow all the devices shown in the various figures to be “coupled” to a bus. (Id. at 12-13).
Defendants assert that such an interpretation is an improper reading of “bus.” Defendants
asserted that as shown in the figures and known in the art, various buses such as the PCI bus 170
and ISA bus 198 are separate buses. (Id. at 11, 13, 28). Defendants assert that if “coupled” is
used, the term must be “directly coupled.” (Id. at 30).
PUMA offers various responses to Defendants’ assertions. As to whether a “bus” within
the meaning of the Asserted Patents can contain a “second bus,” PUMA asserts that the relevant
claims already contain the limitation “without requiring a second bus.” PUMA asserts that this
limitation speaks for itself. (Dkt. No. 122 at 2). PUMA also asserts that Defendants’ proposal
would import the “parallel” limitation into eight of the nine Asserted Patents, even though only
two of the patents have claims excluding a second bus. (Id.).
As to Cheney, PUMA asserts that Defendants have misread the file history. PUMA
asserts that the Applicants were observing that the portion of the prior art identified by the
Examiner “refers to the connections as interface line,” not a bus. (Id. (quoting Dkt. No. 121 Ex.
11 at 6)). PUMA notes that in the subsequent Office Action, the Examiner disagreed with
Applicants’ characterization and maintained that Cheney discloses a bus. (Id. at 2-3 (citing Dkt.
No. 122 Ex. B at 2)). PUMA asserts that the Applicants did not reargue the “bus” issue during
the subsequent prosecution but rather secured allowance of the claims on other grounds. (Id. at
3).
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Analysis
The parties do not dispute that the term “bus” is well-known in the art. Defendants seek a
construction that adds “parallel” and “broadcast among them” to its well-known meaning. The
Court rejects Defendants’ proposed construction because including “parallel” and “broadcast
among them” does not add clarity to the construction and is not supported by the intrinsic
evidence. However, the Court also rejects PUMA’s proposed construction because the
construction is broader than what is disclosed in the specification.
Fundamentally, Defendants argue that a “bus” must be one set of associated signal lines
without intervening modules or components. Defendants assert that if there are intervening
components on a “bus,” the “bus” must be considered a sequence or series of multiple “buses.”
Defendants’ main objection at the hearing with regard to the term “bus” was not directed toward
the meaning of “bus.” Rather, Defendants focused on the extent to which other devices may be
directly or indirectly “coupled” to a “bus.”
Defendants’ addition of the words “parallel” and “broadcast” do not show that a “bus”
must be unbroken by intervening modules or components. The Court agrees with PUMA that the
words “parallel” and “broadcast” have multiple meanings in the art. For example, “serial” and
“parallel” buses also have well-known meanings that are different than the “parallel” meaning
sought by Defendants. Defendants’ “broadcast” requirement would exclude buses such as MBus
discussed by PUMA. Defendants have not established, in the intrinsic record, that the ordinary
meaning of “bus” has been disavowed or disclaimed, such that the terms “parallel” and
“broadcast” should be incorporated into the construction of “bus.”
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Furthermore, Defendants’ focus on the term “coupled” does not change the meaning of
the term “bus.” For example, the ’789 Patent Figure 2 provides that the decoder/encoder 45 is
“coupled to the memory 50 through devices, typically a bus 70.” ’789 Patent 6:29-30. Figure 2
shows that the decoder 45 is indirectly coupled to the memory 50 through an intervening
memory interface 48 and a bus 70. The meaning of the term “bus” does not change just because
the memory interface 48 and bus 70 separate the decoder 45 and the memory 50. Defendants’
arguments appear directed toward the meaning of “coupled” not “bus.”
To the extent that Defendants assert that a “bus” cannot be a point-to-point connection
between two devices (Dkt. No. 121 at 2, 6-8), Defendants’ proposed construction of “broadcast
among them” does not include such a limitation. An ordinary reading of Defendants’
construction would encompass point-to-point connections between two devices.2
Moreover, Defendants’ argument that a “bus” excludes a point-to-point connection
between two devices is unsupported by the intrinsic evidence. Defendants’ argument relies on
the Applicants’ prosecution history statements regarding the Cheney reference. But Cheney
describes a point-to-point connection between two devices as buses. It states: “[t]he interface
between the memory management unit 600 and the memory 601 includes an address bus, 221, a
bidirectional data bus, 223, and a control bus 225.” (Dkt. No. 121 Ex. 9 (U.S. Patent No.
5,576,765) at 7:35-37, Figure 4). Moreover, the statements made by the Applicants regarding
Cheney were directed toward a portion of the specification that referenced “interface 221, 223,
225.” (Id. at 10:29-30). It is clear that elsewhere, Cheney referred to such connections as a “bus.”
(Id. 7:35-37).
2
Defendants assert that “among them” negates a point to point connection. The Court does not
find such language so limiting.
15
In any event, the Examiner did not accept the Applicants’ “interface” argument during
prosecution, and the Applicants did not subsequently rely on that argument to secure allowance
of the claims. In the context of the prosecution history as a whole, “bus” was not redefined from
its ordinary meaning to exclude point-to-point connections. The Court’s construction adopted
below concludes with “between them.” Such language does not prohibit a point-to-point
connection and does not require the bus to be coupled to at least three devices
PUMA’s construction, however, is also problematic because it could be interpreted to
encompass more than what the intrinsic record would teach to be a “bus.” For example, the
patents illustrate an example of two buses: a PCI bus 170 and an ISA bus 198. ’789 Patent Figure
1c. PUMA acknowledges that each of these buses would be considered to be a separate bus. At
the oral hearing, PUMA also unequivocally stated that a PCI bus 170 and an ISA bus 198 were
two separate buses. (Dkt. No. 137 at 22, 24-25). Further, PUMA stated that one skilled in the art
would recognize the buses were separate. (Id.). Also, in prosecution, the Applicants
distinguished the memory bus 108 and the PCI bus 120 of Lambrecht as being two separate
buses.
However, PUMA’s construction merely defines a “bus” as “a set of signal lines.” If one
defined the “bus” as a “set of signal lines,” contrary to PUMA’s statements at the hearing and
contrary to the Applicants’ statements during prosecution, the PCI bus 170 and the ISA bus 198
could be considered one “set of signal lines” and argued to form one “bus.” Similarly, the two
busses in Lambrecht, the memory bus 108 lines and the PCI bus 120 lines, could also be
considered to be one “bus.” In the context of the patent disclosure, the prosecution history
arguments made to distinguish Lambrecht, and the acknowledgements made by PUMA during
the oral hearing, such an interpretation of “bus” is not correct.
16
As shown in the patents and the prosecution history, the “set of signal lines” is not just
any lines chosen randomly to form “a set.” Rather, the “set” is a set of associated lines, for
example the PCI bus lines, ISA bus lines, or memory bus lines, each being a separate set. The
Court’s construction requires the set of signal lines to be “a set of associated signal lines.”3
The Court construes “bus” to mean “a signal line or a set of associated signal lines
to which a number of devices are coupled and over which information may be transferred
between them.”
2. “real time” (’789 Patent claim 1, 13; ’315 Patent claim 1 and ’164 Patent claim 1, 6)
PUMA’s Construction
“fast enough to keep up with an input data
stream”
Defendants’ Construction
Indefinite:
Alternatively: “fast enough to keep up with an
input data stream, wherein obtaining bus
mastership does not consume bus cycles”
The fundamental dispute raised relates to the question whether prosecution history
statements rendered the term “real time” indefinite.
Positions of the Parties
PUMA notes that, in STMicroelectronics, the Court construed “real time” to mean
“processing fast enough to keep up with an input data stream.” STMicroelectronics, 327 F. Supp.
2d at 693, 710-711. PUMA asserts that this construction comports with the intrinsic and extrinsic
evidence.
3
At the oral hearing PUMA agreed to the Court’s suggested use of “associated.” (Dkt. No. 137
at 5, 22).
17
PUMA asserts that the patent specifications state that “[i]f the decoder does not operate in
real time the decoded movie would stop periodically between images until the decoder can get
access to the memory.” ’789 Patent at 3:21-24. PUMA also cites to the passage:
A goal is to have the decoder/encoder 45 operate in real time without dropping so
many frames that it becomes noticeable to the human viewer of the movie. To
operate in real time the decoder/encoder 45 should decode and/or encode images
fast enough so that any delay in decoding and/or encoding cannot be detected by a
human viewer. This means that the decoder/encoder 45 has a required bandwidth
that allows the decoder/encoder 45 to operate fast enough to decode the entire
image in the time between screen refreshes, which is typically 1/30 of a second,
with the human viewer not being able to detect any delay in the decoding and/or
encoding.
Id. at 6:41-52. PUMA also cites to an IEEE dictionary and to the STMicroelectronics
characterization that “[t]he relevant dictionary definition indicates that real time concerns the
processor’s ability to ‘keep up with’ the data input.” (Dkt. No. 120 at 11 (quoting
STMicroelectronics, 327 F. Supp. 2d at 693)).
PUMA asserts that the specification informs a person of skill in the art with “reasonable
certainty” of the scope of the invention. PUMA further notes that the Defendants’ own expert
uses the term “real time” in a variety of his own publications. (Dkt. No. 120 at 12).
Defendants do not dispute that, apart from the patents, “real time” can have meaning.
Defendants assert that although “real time” has a well-known meaning in the art, the Applicants
adopted a narrower definition of the term by making statements regarding “bus latency” during
the prosecution of the ’164 Patent in 2013. Defendants assert that this recent, contradictory, and
confusing portion of the intrinsic record renders “real time” indefinite under Nautilus. (Dkt. No.
121 at 10-11).
Defendants assert that the asserted patents use “real time” to qualify how a bus transfers
data between a decoder and a memory. Defendants assert that every disclosed embodiment
18
includes a “fast bus” to permit real time operation. (Id. at 11). Defendants assert that the
specification defines a fast bus in the context of having sufficient bandwidth to operate in real
time. (Id.). Defendants assert that, according to the specification, whether a bus permits data
transfers in “real time” is determined from the bus’s bandwidth. Defendants note that an example
of a “real time bus” disclosed in the specification is the PCI bus and that some patents in the ’459
Patent family explicitly claim a PCI bus as satisfying the real time requirement. (Id. at 12, n. 10).
Defendants note that even PUMA’s expert, Dr. Mangione-Smith, admits that the patents describe
bandwidth as the key bus performance factor and that the patents do not appear to be concerned
with latency. (Id. at 12 (citing Dkt. No. 120 Ex. J at ¶29)).
Defendants assert that the Applicants made arguments, during the ’164 Patent
prosecution, that contradict the specification and Dr. Mangione-Smith’s statements. Specifically,
Defendants assert that the Applicants argued that (1) a bus’s latency, irrespective of bandwidth,
determines the “real time” requirement and, as a result, (2) a PCI bus does not satisfy the “real
time” requirement. (Dkt. No. 121 at 12). Defendants point to the following statement from the
prosecution of the ’164 Patent:
. . . Gulick’s PCI devices must communicate with the main memory using PCI
bus 120, which is not a real time bus. Gulick at 5:29-38. Instead, the PCI
devices 142, 144, 146 must obtain bus mastership, which consumes PCI
cycles. Id. The PCI devices in Gulick’s FIG. 1 may communicate data between
each other in real-time using the multimedia bus 130, but this is different from
claim 1, which calls out a memory bus configured to pass data in real time
between a shared main memory and a decoder/encoder.
(Dkt. No. 121 Ex 13 at 02591) (emphasis added). Defendants assert that the Applicants’
reference to consumption of PCI cycles to obtain bus mastership is a reference to bus latency, a
concept that is separate from bus bandwidth. Defendants assert that PCI is an industry standard
and has the same potential bandwidth regardless of whether it is recited in Gulick or the Asserted
19
Patents. Defendants assert that the Applicants distinguished Gulick’s PCI bus from the Asserted
Patents based on latency, regardless of bandwidth, contrary to the specification. (Dkt. No. 121 at
13). Defendants assert that the Applicants’ reliance on latency alone to evaluate “real time”
created a new, undefined latency requirement.
Defendants assert that the Applicants’ prosecution statements force a person skilled in the
art to guess as to the meaning of “real time.” Defendants assert that it is unclear whether “real
time” means bandwidth, latency, or both. Further, Defendants assert that, as to latency, there is
no disclosure as to how much latency is allowed. (Id.). Defendants cite to their expert as
identifying three uncertainties: whether real time covers (1) a PCI bus, (2) buses that meet the
bandwidth requirement, or (3) buses having some undefined latency requirement. (Id. at 13-14).
Defendants assert that PUMA’s expert analysis is flawed. Specifically, Defendants assert
that PUMA’s expert uses circular logic. First, the expert limits the analysis to the specific context
of a disclosed embodiment. Then, the expert states that Gulick is concerned with a broader range
of applications than disclosed in the patents.
Defendants assert that nothing in the claims or specification supports this “context”
distinction. Defendants assert that PUMA’s expert then applies Gulick’s “real time” performance
gauge (latency) to distinguish Gulick from the pending claims. (Id. at 14). Defendants assert that
the patents’ real time performance gauge (bandwidth) should have controlled whether a PCI bus
is “real time.” Defendants assert that, in contrast, the Applicants affirmatively distinguished
Gulick’s PCI bus based on latency. (Id.).
Defendants assert that if the term is definite, PUMA must be held to the new latency
requirement. Thus, Defendants assert that their construction is appropriate, if the term is found
20
definite. (Id. at 15). At the oral hearing, Defendants asserted that their “real position” is that the
alternative construction should be adopted. (Dkt. No. 137 at 44-45).
In response, PUMA asserts that Defendants misread the prosecution history. PUMA
asserts that in the prosecution, PUMA did not distinguish Gulick on the basis of using a PCI bus.
Rather, PUMA asserts Gulick was distinguished on the basis that the PCI bus, as used in the
specific context of Gulick, is insufficient for real time performance. (Dkt. No. 122 at 3 (citing
Dkt. No. 122 Ex. D (Mangione-Smith Decl.) at ¶26)). PUMA points to Gulick Figure 1:
(Dkt. No. 122 at 4 (color coding added)). PUMA notes that Gulick included a real time bus 130
in addition to the PCI bus 120. PUMA asserts that, thus, Gulick itself represented that the PCI
bus, as used in Gulick, was insufficient to guarantee real time performance. PUMA asserts it was
the Gulick reference which raised the concern of latency in context of the specific system of
21
Gulick. PUMA asserts that the Applicants did not generally characterize “PCI bus” but rather
characterized the specific use in Gulick. (Id.). PUMA asserts that the fact that Gulick represents
that its PCI bus was not a real time bus has nothing to do with the parameters of PCI buses in
general. Rather, PUMA asserts that Gulick shows that the specific context in which the PCI bus
was used in Gulick establishes that the bus was not a real time bus. (Id.).
Analysis
The parties agree that the specification is clear. See, e.g., ’789 Patent 3:21-24, 6:41-52.
Further, both PUMA and the Defendants agree that, as to the specification, the Court’s
construction in STMicroelectronics applies to this case. Against this backdrop, Defendants read
more into the ’164 Patent prosecution history than is proper.
Prosecution arguments, by nature, are often not clear. Phillips, 415 F.3d at 1317 (noting
that the prosecution history represents an “ongoing negotiation” and “often lacks the clarity of
the specification”). In order to show that the Applicants disavowed the well-known meaning of a
term in the art, the prosecution history must show that the patentee clearly and unambiguously
disclaimed or disavowed its meaning during prosecution to obtain claim allowance. Middleton,
Inc. v. Minn. Mining & Manuf. Co., 311 F.3d 1384, 1388 (Fed. Cir. 2002).
Here, the disputed prosecution history relates to the Gulick reference. The Defendants
claim that the Applicants secured claim allowance by distinguishing Gulick on the grounds that
Gulick’s PCI bus did not allow for real time processing due to its latency. However, as evident
from Figure 1 of Gulick (see Dkt. No. 122 at 4 (color coding added)) the system in Guilck
provided a real time bus in addition to a PCI bus. Thus, as shown in Gulick Figure 1 and stated in
Gulick, a “Real-time Bus (Multimedia bus) 130A” is provided to operate as “a dedicated realtime bus or multimedia bus” in addition to the PCI bus 120. (Dkt. No. 122 Ex. C (Gulick) Figure
22
1, 2:54-56). In context, clear statements of disclaimer regarding the bandwidth of the PCI bus
were not made. The proper context to consider is (1) the prosecution history statements directed
toward the particular overall prior art system of Gulick; and (2) the clear specification
statements. In this context, real time has not been redefined in opposition to the specification.
The meaning of “real time,” as found in the specification, is consistent with the
STMicroelectronics construction: “fast enough to keep up with an input data stream.”
The Court construes “real time” to mean “fast enough to keep up with an input data
stream.”
3. “fast bus” (’368 Patent claim 7 and ’045 Patent claim 4)
PUMA’s Construction
Defendants’ Construction
“bus with a bandwidth equal to or greater than Indefinite.
the required bandwidth to operate in real
time”
Alternatively: “bus having a bandwidth
greater than the bandwidth required for the
decoder to operate in real time”
Positions of the Parties
PUMA points to two definitional passages in the specification: “a fast bus 70 is any bus
whose bandwidth is equal to or greater than the required bandwidth” (’459 Patent 8:1-2) and
“two devices are coupled to the memory through a fast bus having a bandwidth of at least the
minimum bandwidth needed for the video and/or audio decompression and/or compression
device to operate in real time” (’459 Patent at 4:59-62). PUMA asserts that “real time,” as used
in PUMA’s construction, is definite for the reasons PUMA argues separately with regard to the
“real time” term. (Dkt. No. 120 at 14). PUMA objects to Defendants’ removal of the “equal to”
language from the construction. PUMA points to the language quoted above in which a fast bus
has “at least the minimum bandwidth.” (Id.).
23
Defendants assert that to the extent “real time” is found to be indefinite, “fast bus” would
also be indefinite. Defendants assert that their construction comes straight from the patents:
“[t]he decoder/encoder 80 is coupled to the memory 50 through devices, typically a bus 704, that
have a bandwidth greater than the bandwidth required for the decoder/encoder 80 to operate in
real time.” ’459 Patent at 7:39-42.
Analysis
The primary issue presented by the parties is whether “real time” is definite. This dispute
has been decided above with regard to the term “real time.”
As to the dispute regarding “equal to or greater” versus “greater,” the specification
provides guidance. In one passage, bandwidth is described as being “equal to or greater than the
required bandwidth.” ’459 Patent 8:1-2. Similarly, elsewhere “at least the minimum” is used.
’459 Patent at 4:59-62. In one passage, the patent uses “greater than.” ’459 Patent at 7:39-42.
However, this passage does not negate or disavow the other broader descriptions. Defendants’
construction of “greater” would exclude the “equal to or greater” and “at least the minimum”
passages. Defendants have not pointed to any reasons to exclude the broader disclosure that is
provided in the specification.
The Court construes “fast bus” to mean “bus with a bandwidth equal to or greater
than the bandwidth required to operate in real time.”
4
Defendants assert that the patents use reference number 70 for “bus” and “fast bus”
interchangeably. (Dkt. No. 121 at 9, n.3).
24
4. Coupled Terms
“coupled” (’789 Patent claims 1, 5; ’368 Patent claims 1, 7, 13, 19, 20; ’045 Patent
claims 1, 4, 5, 12; ’753 Patent claims 1, 7; ’315 Patent claim 1, 13, 15 and ’164 Patent
claims 1, 8, 9, 11)
“coupleable” (’045 Patent claims 1, 4, 12; ’753 Patent claim 7; ’315 Patent claim 1 and
’164 Patent claim 1)
“coupling” (’789 Patent claim 1 and ’194 Patent claims 1, 16, 17)
PUMA’s Construction
a. “directly or indirectly connected”
Defendants’ Construction
a. “attached resulting in an arrangement that
includes no more than one bus”
b. “directly or indirectly connectable”
c. “directly or indirectly connecting”
b. “attachable resulting in an arrangement that
includes no more than one bus”
c. “attaching resulting in an arrangement that
includes no more than one bus”
The primary issues in dispute relate to whether the construction of “coupled” should
include indirect connections and whether the term encompasses no more than one bus.
Positions of the Parties
PUMA cites to three Eastern District of Texas cases which have construed “coupled” to
mean directly or indirectly connected. (Dkt. No. 120 at 15-16). PUMA also asserts that the
specifications utilize “coupled” to reference elements that are indirectly connected. For example,
PUMA cites to ’789 Patent Figure 1b which shows a memory interface 18 that connects to an
audio decoding circuit 14, and the audio decoding circuit 14 is, in turn, connected to a memory
22. PUMA notes that the specification states that the “memory interface 18 is coupled to memory
22.” ’789 Patent 2:25. Similarly, PUMA points to ’789 Patent Figure 2 which shows a
decoder/encoder 45 connected to a memory interface 48, and shows the memory interface 48, in
turn, connected to memory 50. PUMA notes that the specification states that “decoder/encoder
45 is coupled to the memory 50 through devices, typically a bus 70.” Id. 6:29-30. PUMA notes
25
that the ’459 Patent has similar passages. (Dkt. No. 120 at 17 (citing ’459 Patent 2:28, 7:39-42)).
PUMA also notes that the patents use “coupled” to refer to direct connections such as in ’789
Patent Figure 2: “DMA engine 60 of the first device is coupled to the arbiter 54 of the memory
interface 48.” ’789 Patent 6:15-17.
PUMA objects to Defendants’ construction as being directly contradicted by the
specification. Specifically, PUMA asserts that Defendants’ construction does not include indirect
attachments. (Dkt. No. 120 at 17). PUMA also objects to Defendants’ “resulting in an
arrangement that includes no more than one bus.” PUMA asserts that it is unclear what
components are included or not included in an “arrangement.” PUMA asserts that the Asserted
Patents do not use “coupled” is such a manner. (Dkt. No. 120 at 17-18). PUMA also asserts that
Defendants’ “arrangement” language conflicts with the specification. Specifically, PUMA points
to the language referencing ’789 Patent Figure 1c:
Fig. 1c shows a computer 25 containing a decoder 10, a main memory 168 and
other typical components such as a modem 199, and graphics accelerator 188. The
decoder 10 and the rest of the components are coupled to the core logic chipset
190 through a bus 170.
’789 Patent 2:49-53. PUMA asserts, however, that as shown in Figure 1c, the modem 199 is
“coupled” to the core logic chipset 190 through bus 170 and bus 198. PUMA asserts that, in such
a case, the modem is coupled to the core logic chipset in an “arrangement” that includes two
buses. (Dkt. No. 120 at 18). PUMA asserts that Defendants’ construction is directly contradicted
by Figure 1c and the corresponding specification passages. PUMA illustrates Figure 1c
26
’789 Patent Figure 1c (color coding added). PUMA asserts that the figure shows that the modem
199 is coupled to the core logic chipset 190 through ISA bus 198 and PCI bus 170. (Dkt. No. 122
at 5). PUMA asserts that Defendants’ position, that the connection between the core logic chipset
190 and PCI bridge does not use the PCI bus 170, is contradicted by the specification.
Specifically, PUMA points to the specification passages which state “the components are
coupled to the core logic chipset 190 through a bus 170” (’789 Patent 2:52-53) and the PCI
bridge 192 “bridges between the PCI bus 170 and the ISA bus 198.” (’789 Patent 9:33-34).
Defendants assert that the issue is not whether both indirect and direct connections are
encompassed by “coupled.” Defendants assert that the real issue is whether or not “coupling”
includes more than one bus. (Dkt. No. 121 at 15). Defendants assert that PUMA divorces the
term “coupled” from its use in the specification and claims. Defendants assert that the claims
only refer to attachments that involve no more than one bus and assert that the specification
consistently shows embodiments that involve no more than one bus. (Dkt. No. 121 at 16-17).
Defendants assert that “coupled” is used 236 times in the ’789 Patent and file history and
27
47 times in the ’459 Patent and file history. Defendants assert that in every instance, “coupled”
refers to an attachment that includes no more than one bus. (Dkt. No. 121 at 17). Defendants
assert that in all cases, the coupling refers to (1) two components directly connected with no bus,
(2) two components having a single bus between the components, or (3) a component connected
to a bus. (Id.). Defendants assert that every usage of “coupled” is an arrangement that includes
no more than one bus. As to PUMA’s reference to Figure 1c, Defendants assert that the modem
199 is connected to the PCI chipset 190 only through ISA bus 198 and PCI bridge 192 (not PCI
bus 170):
’789 Patent Figure 1c (figure truncated and color coding added).
Defendants also assert that many of the claims refer to just one bus and use “couple” to
reference a device “coupled” to the bus. (Dkt. No. 121 at 19-20 (citing ’789 Patent claim 1,
13; ’368 Patent claim 1)). Defendants note that some claims refer to more than one bus but assert
that the claim language always references a “coupling” to a specific bus. (Id. at 20).
Defendants assert that the prosecution history describes “coupled” as an attachment
involving no more than one bus. Defendants point to ’459 Patent file history statements
regarding the Lambrecht reference. (Dkt. No. 121 at 21). In particular, Defendants assert that
during prosecution of the ’459 Patent, the pending claims included “a decoder coupled to the first
28
memory to provide direct access to the first memory.” (Dkt. No. 121 Ex. 5 at 0756).
The Examiner rejected these claims based on Lambrecht, and Defendants assert that the
Applicants overcame this rejection by stating: “[t]he present claims are directed toward systems
and methods for providing direct access for a first device and decoder to a first
memory. . . .Unlike the claimed invention, [Lambrecht] uses a PCI bridge chipset for access
between other first devices or decoders and a main memory.” (Dkt. No. 121 Ex. 5 at 0763-64).
Defendants assert that the Applicants’ argument to the Examiner was that Lambrecht did
not provide “direct access” because two buses are used to connect devices to the memory (bus
108 and bus 104 or bus 108 and bus 120). Defendants point to the Lambrecht Figure 1 as an
example:
(Dkt. No. 121 Ex. 3 Figure 1) (figure truncated and color coding added).
Defendants also assert that in prosecution, the Applicants rejected the notion of “indirect”
coupling. Defendants point to the ’368 Patent prosecution statement in which the Applicants
29
characterized the “present invention” as having “both decoder 80 and the device 42. . .directly
coupled to the fast bus 70, which in turn is coupled to the memory 50.” (Dkt. No. 121 Ex. 14 at
01256) (emphasis added). Further, at the oral hearing, the Defendants emphasized that in the
Applicants’ Appeal Brief to the Board of Patent Appeals and Interferences, the Applicants stated:
“[a]ccording to the present invention, the microprocessor 42 and the video decoder 80 obtain
access to the main memory 50 via the same fast bus 70. . . .” (Dkt. No. 121 Ex. 15 at 1278)
(emphasis added).
Defendants further assert that in addition to Lambrecht, the Applicants distinguished
other references as not providing “direct access” between the decoder and memory. Specifically,
Defendants point to claims that contain the phrase “communicatively linked. . .without requiring
a second bus” (’459 Patent and ’194 Patent). (Dkt. No. 121 at 22 (citing Ex. 5 at 0763-64)).
Defendants assert that the Applicants made the same arguments with regard to the
“communicatively linked” claims as they made with regard to the “coupled” claims (’368
Patent). (Id. (citing Ex. 15 at 01282)). Defendants assert that because the Applicants made the
same argument, the Applicants clearly intended “coupled” to mean without requiring a second
bus. (Id.).
Defendants assert that other district court cases have little relevance, as here the
specifications’ consistent usage of “coupled” indicates an arrangement with no more than one
bus. Defendants assert that PUMA's boundless construction of “coupling” provides no guidance
to the jury. Defendants assert that, in the claims, the word “coupled” is used in the context of
connecting or attaching components. (Dkt. No. 121 at 23).
Analysis
Defendants do not contest that the well-known meaning of “coupled” includes devices
30
that are both directly and indirectly connected. Defendants argue that the well-known meaning of
“coupled” does not apply because all the disclosed embodiments show connections with only
one bus.5 However, even if specification discloses embodiments with only one bus, incorporating
that limitation into the Court’s construction is not mandated. See Arlington Indus., Inc. v.
Bridgeport Fittings, Inc., 632 F.3d 1246, 1254 (Fed. Cir. 2011) (“[E]ven where a patent describes
only a single embodiment claims will not be read restrictively unless the patentee has
demonstrated a clear intention to limit the claim scope using words of expressions of manifest
exclusion or restriction” (citation omitted)).
Indeed, the Applicants repeatedly use the term “coupled” in a manner consistent with its
well-known meaning. For example, in the ’789 Patent, the memory interface 18 of Figure 1b is
described as “coupled” to memory 22. Yet, the path between the memory interface and the
memory includes at least the audio decoding circuit and a bus between the audio decoding circuit
and the memory. ’789 Patent 2:25, Figure 1b.
Likewise, in the ’789 Patent Figure 2, the decoder/encoder 45 is “coupled” to the memory
50 despite multiple intervening “devices” such as the memory interface 48 and bus 70. Id. Figure
2, 6:29-32. Similarly, the ’789 Patent describes the modem 199 as “coupled” to the core logic
chipset 190, despite the two components being linked through two busses: the ISA bus and the
PCI bus. ’789 Patent Figure 1c, 2:49-53. Although the parties dispute the proper interpretation
of ’789 Patent Figure 1c, the Court finds that the specification directly supports PUMA’s
interpretation. See ’789 Patent Figure 1c, Figure 4, 2:49-53, 9:33-34.
5
At the oral hearing, Defendants made assertions regarding “coupled” with regard to the “bus”
disputes. Defendants asserted that PUMA’s construction would provide no limits to coupling,
asserting that PUMA’s construction effectively has all the devices shown in the figures
“coupled.” (Dkt. No. 137 at 12-13). The Court rejects Defendants’ assertions. The evidence
submitted does not indicate that an interpretation by one skilled in the art would reach such a
broad conclusion.
31
Finally, the Court notes that the ’368 Patent describes an alternative embodiment for
Figure 7 in which peripherals such as the modem 199, disk drive 164 and DVD CD-ROM 166
are “coupled directly” to the PCI chipset. ’368 Patent at 12:65-13:5, Figure 7. Such “direct
coupling” is achieved by incorporating the EIDE interface 186 into the PCI chipset 190 and
eliminating the PCI bridge 192 and ISA bus 198. Id. This passage implies that absent the
modifier “directly,” the word “coupled” has a broader meaning than the phrase “directly
coupled.”
As the Court described above, the specification of the Asserted Patents applies the wellknown meaning of “coupled.” However, Defendants argue that for four reasons the Applicants
disavowed or disclaimed the well-known meaning “coupled” and adopted a definition that
permits “coupling” only via one bus. The Court rejects each of these arguments in turn.
First, Defendants’ “direct access” arguments with regard to ’459 Patent and ’194 Patent
prosecution history are not persuasive. The Applicants discussed “direct access” in the ’459
Patent prosecution because the Applicants added express claim limitations of “direct” access and
“without also requiring a second bus.” (Dkt. No. 121 Ex. 5 at PUMA 0756, 0762-64); ‘459
Patent claim 1.
Second, with regard to the Applicants’ use of “directly coupled” in the ’368 patent’s
prosecution history, the cited response indicates that the Applicants used the phrase to describe
the arbiter’s ability to directly control the decoder’s and other devices’ access to memory. (Dkt.
No. 121 Ex. 14 at 01256). Defendants accurately state that the Applicants describe the devices in
an embodiment of the figures as “directly coupled” to the fast bus. But the Court finds that this
statement does not create a global disclaimer to the well-known meaning of “coupled.” Rather,
the Court finds that it is an example of the Applicants’ describing a particular embodiment of the
32
figure to the Examiner. Moreover, the example is not limiting because the Applicants’ use of
“direct” coupling again implies that “coupled” means more than “direct” coupling. See Phillips,
415 F.3d at 1314 (“[T]he claim term in this case refers to ‘steel baffles,’ which strongly implies
that the term ‘baffles’ does not inherently mean objects made of steel.”).
Third, as to the “present invention” language in the ’368 Patent prosecution, the Court
finds that such language also does not redefine “coupled.” The first passage cited by Defendants
emphasizes whether arbitration is “decoupled” from bus access. It does not state that all devices
that are “coupled” must be “directly coupled” on the same bus. Specifically, the passage in
question states “[i]n the present invention, arbitration is decoupled from bus access.” (Dkt. No.
121 Ex. 14 at 01256). It then goes on to describe devices that are both “directly coupled” and
“coupled” to the bus. (Id. (“decoder 80 and the device 42 are directly coupled to the fast bus,
which in turn is coupled to the memory 50”)). Nowhere in this passage do the Applicants adopt a
one bus limitation to the term “coupled.”
Finally, as to the statement in the ’368 Patent Appeal Brief that “according to the present
invention” several devices are connected to the same fast bus, the Court finds that the
Applicants’ statement was made in the course of explaining Figure 2. Indeed, the Applicants
expressly next state that Figure 2 “provides one example of the inventive features.” (Dkt. No.
121 Ex. 15 at 01277). Because Figure 2 is just an “example” of the claimed invention, on the
whole, the Applicants’ statement in the Appeal Brief does not show an unmistakable intent to
disavow or disclaim the well-known meaning of “coupled.” (Id. at 1277-79; see also Pacing
Techs., LLC v. Garmin Int’l, Inc., 778 F.3d 1021, 1025 (Fed. Cir. 2015) (finding disclaimer when
the applicant states that one embodiment accomplishes all of the objects of the invention)). In the
context of the overall intrinsic record, including the specifications and various file history
33
statements, a clear disclaimer of the term “coupled” was not made.
The court construes “coupled” to mean “directly or indirectly connected,”
“coupleable” to mean “directly or indirectly connectable,” and “coupling” to mean
“directly or indirectly connecting.”
5. “directly supplied” (’194 Patent claim 15 and ’368 Patent claim 3) and “directly
supplies” (’368 Patent claim 2, 14, 21; ’045 Patent claim 2, 6, 13; ’753 Patent claim
3)
PUMA’s Construction
No construction necessary.
Alternatively:
a. “supplied without being stored in main
memory for purposes of decoding subsequent
images”
Defendants’ Construction
a. “provided via a single bus with no
intervening components”
b. “provides via a single bus with no
intervening components”
b. “supplies without being stored in main
memory for purposes of decoding subsequent
images”
The dispute between the parties relates to whether “directly supplied” describes the
physical connection of the components or describes the decoding method in which some frames
are not sent to the main memory for subsequent use to decode other frames.
Positions of the Parties
PUMA asserts that “directly supplied” concerns the system’s use of decompressed frames
in the context of video coding. PUMA asserts that the phrase “directly supplied” means that
certain types of frames do not need to be transferred to main memory for use in the subsequent
decoding of other frames. PUMA asserts that Defendants’ arguments take the term out of
context. (Dkt. No. 120 at 18-19). PUMA asserts that, contrary to Defendants’ position, the term
34
“directly supplied” has nothing to do with architectural limitations or the absence of “intervening
components.”
PUMA points to ’194 Patent claim 14 as illustrative of its position that the term “directly
supplied” refers to whether frames must be transferred to memory for use in decoding other
frames. Claim 14 states that a “decoder directly supplies a display adapter of the display device
with an image for use other than decoding a subsequent image.” PUMA also notes that the ’194
Patent claim 15 states: “the images directly supplied to the display adapter being bidirectional
images obtained from two preceding intra and predicted images.” PUMA asserts that the term
“directly supplied” must be viewed in context of MPEG bidirectional decoding which uses video
frames stored in memory to decode other frames. (Id. at 19).
PUMA notes that MPEG video includes I-frames, P-frames, or B-frames. I-frames (intracoded frames) are images that do not require data from other frames. P-frames (predicted frames)
use data from previous frames. B-frames (bidirectional frames) use data from both previous and
forward frames. (Id.). PUMA notes that the specification states “[t]he intra and predicted images
are likely to be used to reconstruct subsequent predicted and bidirectional images, while
bidirectional images are not used again.” ’194 Patent 3:21-25. PUMA asserts that the
specification thus notes that “a buffer associated with bidirectional images is not required, these
bidirectional images B being directly supplied to display adapter 120 as they are being decoded.”
’194 Patent 10:39-42. PUMA notes that the patent also states: “[i]n the case where the
compressed data correspond to bidirectional images, the decoder/encoder 80 decodes these data
and directly supplies display adapter 120 with the decoded data.” ’194 Patent 10:48-51. PUMA
asserts that it is because a bidirectional image is not used to reconstruct subsequent predicted or
35
bidirectional images that the bidirectional image can be “directly supplied” to the display
adapter. (Dkt. No. 120 at 20).
Because the term “directly supplied” relates to whether bidirectional images must be
stored in memory, PUMA asserts that the term is not intended to be a limitation on the physical
architecture or to exclude the use of intervening components. PUMA asserts that Defendants’
construction would exclude disclosed embodiments that include intervening components.
Specifically, PUMA points to ’194 Patent Figure 3:
’194 Patent Figure 3. PUMA asserts that in Figure 3, the decoder/encoder 80 is connected to the
graphics accelerator 200 and the display 182 through the core logic chipset 190. PUMA asserts
that Defendants’ construction would not encompass this embodiment due to the intervening core
logic chipset 190 and the use of multiple buses. (Dkt. No. 122 at 6-7). PUMA asserts that
36
Defendants’ added phrase “with no intervening components” is directly at odds with the
specification and would read out every embodiment in which an intervening bus is used to
transfer data from the decoder to the display adapter. (Dkt. No. 120 at 21). PUMA asserts that
the patents do not use “directly supplied” in the context of no other intervening components and
a single bus. PUMA asserts that the only use of “directly supplied” is in the context of
bidirectional decoding.
Defendants assert that images are directly supplied to a display adapter from a decoder.
Defendants assert that ’194 Patent Figure 4 illustrates how bidirectional images “B” are provided
from the decoder/encoder 80 to the video controller 120.
’194 Patent Figure 4 (color coding adding). Defendants point to the specification description,
which states that for bidirectional images “the decoder/encoder 80 decodes these data and
directly supplies display adapter 120 with the decoded data.” ’194 Patent 10:48-51. Defendants
assert that the decoder “directly supplies” the images, because the images are sent via a single
bus with no other intervening components. (Dkt. No. 121 at 24).
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Defendants assert that PUMA’s construction ignores the plain language of the claim read
in light of the specification. Defendants assert that the claims are clear: “the images directly
supplied to the display adapter being bidirectional images.” ’194 Patent claim 15. Defendants
assert that this is shown by the “B” image path in Figure 4. Defendants assert the bidirectional
image “B” is directly supplied, not simply because it is “not used in coding subsequent or
bidirectional images,” but because it is supplied via a single bus with no other intervening
components. Defendants assert that this is in contrast to the prior art Figure 1c where the
bidirectional images are stored in the decoder’s memory 22 and must pass through the decoder
before reaching the video controller 120. (Dkt. No. 121 at 25). At the oral hearing, Defendants
asserted that Figure 3 is not relevant as “directly supplied” is only used in passages describing
Figure 4. (Dkt. No. 137 at 76-77).
At the oral hearing, Defendants further objected to PUMA’s use of “main memory.”
Defendants asserted that in some claims “main memory” is not utilized, rather the claims utilize
“a memory” or “system memory.” (Id. at 76 (noting that ’194 Patent claim 11 and ’368 Patent
claim 21 use “a memory” and that ’368 Patent claim 14 and ’045 Patent claim 6 use “system
memory”)).
Analysis
The claim terms arise in the context of decoded images. The specification passages in
which “directly supplied” is utilized provide guidance as to the term’s meaning in the context of
the specification.
FIG. 4 shows another embodiment of a computer where the decoder/encoder 80 is
sharing the main memory 168. In this embodiment, the main memory 168
corresponds to the shared memory 50 of FIG. 2. In FIG. 4, the decoder/encoder 80
according to the present invention is connected as a peripheral to a conventional
computer equipped with a fast peripheral bus 170, for example, a PCI bus,
although the bus can be VESA Local Bus (VLB), an Accelerated Graphics Port
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(AGP) bus, or any bus having the required bandwidth. In this embodiment, the
fast peripheral bus 170 corresponds to the fast bus 70. As shown, the
decoder/encoder 80 does not have a dedicated memory, but utilizes a region
22' of the main memory 168 of the computer.
Region 22' includes a Compressed Data Buffer (CDB), into which image source
122 writes the compressed image data, and two image buffers M1 and M2
associated with intra or predicted images. As will be seen hereafter, a buffer
associated with bidirectional images is not required, these bidirectional
images B being directly supplied to display adapter 120 as they are being
decoded.
Thus, in the system of FIG. 4, compressed or coded data CD are transferred from
image source 122 to buffer CDB of memory 168. These same compressed data
are then transferred to the decoder/encoder 80 which, if they correspond to
intra or predicted images, retransmits them in decoded form to buffers M1
and M2 of memory 168. In the case where the compressed data correspond to
bidirectional images, the decoder/encoder 80 decodes these data and directly
supplies display adapter 120 with the decoded data. The display adapter then
supplies these data to a display device such as a screen. The intra or predicted
images stored in buffers M1 and M2 are transferred to display adapter 120
at the appropriate time and are used in the decoding of subsequent predicted
or bidirectional images.
’194 Patent 10:22-56 (emphasis added). These passages above show that bidirectional images are
not decoded by the decoder and then provided to the main memory for later transfer to the
display adaptor. Rather, bidirectional images are provided from the decoder to the display
adaptor without storage in the main memory. The bypassing of the main memory is the context
in which “directly supplied” is utilized in the specification.
Defendants’ emphasis of “no intervening” components lacks support in the specification.
First, in all embodiments, the decoder provides the bidirectional images to the display adaptor
through an intervening bus. Thus, Defendants’ “directly supplied” architecture approach needs
the qualification contained in Defendants’ proposed construction (“via a single bus”).
Second, as noted by PUMA, the Figure 3 embodiment teaches the use of intervening
components, the core logic chipset, in addition to the multiple buses (the memory bus 167 and
39
PCI bus 170). ’194 Patent Figure 3, 9:53-10:21. The Court rejects Defendants’ argument that the
Figure 3 embodiment is not relevant to the discussion of the frames of Figure 4. Although the
movement of the MPEG I, P, and B frames is shown with regard to Figure 4, the context of the
specification indicates that Figures 2 and 3 would also be relevant to MPEG frames.
For example, an MPEG decoder is described with relation to the prior art Figure 1b
embodiment. ’194 Patent at 2:35-36. Further, decoder 80 may be found in Figures 2, 3 and 4.
The discussion of applicability of MPEG and intrapicture/interpicture decoding and encoding is
made generally with regard to decoder/encoder 80 and is not limited to Figure 4. Id. at 8:59-9:52.
Finally, the description of “directly supplied” images is discussed in the Summary of the
Invention without limit to Figure 4. Id. at 5:31-41. In context of the overall specification, the
understanding of directly supplying certain frames would be understood to be applicable to
Figure 3. Id. at 5:31-41, 10:22-56. Defendants’ construction would exclude Figure 3. “A claim
interpretation that excludes a preferred embodiment from the scope of the claim ‘is rarely, if
ever, correct.’” On-Line Techs., Inc. v. Bodenseewerk Perkin-Elmer GmbH, 386 F.3d 1133, 1138
(Fed. Cir. 2004) (citation omitted).
The Court construes “directly supplied” to mean “supplied without being stored in
main memory for purposes of decoding subsequent images” and “directly supplies” to
mean “supplies without being stored in main memory for purposes of decoding subsequent
images.” 6
6
With regard to claims that do not recite “main memory,” the term “main memory” is replaced
to conform to the usage in each particular claim. Thus, “main memory” is replaced with “the
memory” for ’194 Patent claim 15, ’368 Patent claim 21 and ’045 Patent claim 13. “Main
memory” is replaced with “system memory” for ’368 Patent claim 14 and ’045 Patent claim 6.
40
6.
“control circuit” (’464 Patent claim 1, 2, 7-13, 16-24, 32)
PUMA’s Construction
No construction necessary.
Defendants’ Construction
“an electronic control device that is separate
from the CPU or processor and that interacts
with the operating system”
The primary issue raised in the briefing is whether the “control circuit” must be separate
from the processor/device. At the oral hearing, Defendants asserted that a key issue is whether
the control circuit is a hardware device, as opposed to software.
Positions of the Parties
PUMA asserts that the term is effectively defined by the surrounding claim language.
PUMA points to ’464 Patent claim 1, which specifies that the “control circuit” is coupled to the
decoding circuit, the processor, and the main memory. Further, PUMA notes that the claim states
that the “control circuit” is configured to “request continuous use of several portions of the main
memory from the operating system” and “translate the noncontiguous addresses to contiguous
addresses of a block memory.” ’464 Patent claim 1.
PUMA objects to Defendants’ construction for multiple reasons. First, PUMA asserts that
Defendants’ insertion of “device” in place of “circuit” provides no additional meaningful
guidance. (Dkt. No. 120 at 26). Second, PUMA objects to Defendants’ requirement that the
“control circuit” be “separate.” PUMA asserts that the specification does not define what
“separate” means. PUMA also asserts that Defendants require the control circuit to be “separate”
from “the CPU” but the term “CPU” is not used in the claims that include “control circuit.”
PUMA asserts that the addition of “CPU” would cause more confusion. (Dkt. No. 120 at 26-27).
Third, PUMA asserts that Defendants’ “separate” requirement conflicts with the specification.
PUMA asserts that the ’464 Patent explicitly contemplates that multiple components “can be
41
monolithically integrated as a single chip.” ’464 Patent 5:10-13. PUMA asserts that the claim
requires only that the “control circuit” to be “coupled” to the processor. That can be the case
even if the components are monolithically integrated as a single chip.
Defendants assert that the dispute reduces to whether the “control circuit:” (1) is an
electronic device, (2) is separate from the CPU/processor and (3) interacts with the operating
system. Defendants assert that support for their construction is found in this passage:
Broadly stated, the present invention embodies a control circuit for use in a
computer system. The computer system is controlled by an operating system and
has a main memory. An electronic device is coupled to the processor and the main
memory and is configured to request continuous use of several portions of the
main memory from the operating system.
’464 Patent 3:37-43. Defendants assert that the figures also support their construction.
Defendants point to ’464 Patent Figures 1 and 2:
’464 Patent Figures 1 and 2 (color coding added). Defendants assert that the microcontroller 120,
inside the MPEG decoder 114, performs the tasks of the claimed “control circuit.” (Dkt. No. 121
at 27 (citing ’464 Patent 6:63-7:50)). Defendants assert that the figures confirm that the MPEG
decoder 114 is not part of the CPU and is a separate device coupled to the computer 102.
Defendants assert that the specification repeatedly identified this divided architecture in the
42
context of being “the present invention.” Defendants point to the passages: “[t]he present
invention relates to the field of electronic systems requiring blocks of memory” (’464 Patent
1:19-20), “the present invention shares the main memory 108 with the computer 102” (’464
Patent 6:60-62) and “[t]he present invention interacts with the Windows 95 operating system 152
to act like a software application” but “actually employs hardware” that “is not a CPU, or other
processor, or Intel-based microprocessor” (’464 Patent 9:14-21). (Dkt. No. 212 at 27-29).
Defendants further assert that during prosecution, the Applicants amended independent
claim 25 to include the “control circuit.” Defendants assert that when adding “control circuit,”
the Applicants argued that “[the prior art] does not teach the administration of a memory
management method through a separate control circuit….” (Dkt. No. 121 at 28 (quoting Dkt. No.
121 Ex. 16 at 0509)).
As to the term “device,” Defendants assert that the term is used at ’464 Patent 3:40-43 to
describe “control circuit.” Defendants assert that their construction, unquestionably, grounds the
“control circuit” in the realm of the physical, not mere software. (Dkt. No. 121 at 28). At the oral
hearing, Defendants asserted that they would accept the plain meaning if it was clear that the
circuit was hardware. (Dkt. No. 137 at 80-81).
As to the term “separate,” Defendants assert that the Applicants used this term to
distinguish the prior art. Defendants assert that the fact that the patent does not provide a special
definition for “separate” reinforces the fact that the jury should be well-equipped to understand
the word based on common parlance. (Dkt. No. 121 at 29).
Defendants assert that the surrounding claim language conforms to their construction.
Specifically, Defendants assert the claim language requires the “control circuit” to be “coupled”
to the “processor” and “configured to request…from the operating system.” (Id.). Defendants
43
assert that there should, thus, not be a dispute. Defendants assert that the fact that PUMA
disputes Defendants’ construction indicates that PUMA intends to have PUMA’s expert assert
that hardware “coupled” to the processor can itself be part of the processor. (Id.). Defendants
assert that the Court should resolve this issue now, rather than allowing the dispute to be argued
to the jury.
Analysis
The ’464 Patent specification provides an example with regard to Figures 1 and 2 in
which various components are shown as separate components. The specification does not,
however, emphasize the importance of such separation. The passage at ’464 Patent 9:14-21, cited
by Defendants, merely emphasizes that the circuitry in question acts “like a software application”
but “actually employs hardware.” Further, the passage states that the decoder may be a simple
hardware circuit. The passage does not emphasize that such circuitry must be physically separate
from the processor or cannot be integrated on a common device that has both a processor and a
decoder. ’464 Patent 9:14-29. This conforms to the claim term itself which merely states
“circuit.” The remaining claim language provides guidance as to what the circuit is coupled to
and what the circuit does. It does not specify whether the “control circuit” must be separate.
Defendants have pointed to no more than a preferred embodiment. See Arlington Indus., Inc. v.
Bridgeport Fittings, Inc., 632 F.3d 1246, 1254 (Fed. Cir. 2011) (“[E]ven where a patent
describes only a single embodiment claims will not be read restrictively unless the patentee has
demonstrated a clear intention to limit the claim scope using words of expressions of manifest
exclusion or restriction” (citation omitted)).
As to the prosecution history arguments cited by Defendants, Defendants are correct that
there is one reference to “separate.” But there is no argument that “separate” requires the
44
circuitry to be a stand-alone device as opposed to a separate portion of one device. Moreover,
when reviewing the argument as a whole, there is no argument that patentability is based on
separateness. (Dkt. No. 121 Ex. 16 at 0507-09). In context, the prosecution history does not stand
for Defendants’ proposition that the control circuit must be a separate device.
The use of “circuit” makes clear that hardware is being recited and the parties do not
appear to disagree that a control circuit includes hardware. (Dkt. No. 137 at 80-82). Thus, there
is no dispute that ordinary meaning includes hardware. An ordinary meaning does not, however,
mean that the circuit cannot have associated software.
The Court finds that “control circuit” needs no further construction.
7. “algorithmically translate the noncontiguous addresses to the contiguous addresses”
(’464 Patent claims 7, 22)
PUMA’s Construction
“convert the noncontiguous addresses to the
contiguous addresses according to at least one
mathematical operation”
Defendants’ Construction
“convert the noncontiguous addresses to the
contiguous addresses according to
mathematical operations performed on the
noncontiguous addresses”
The primary dispute relates to whether multiple operations are required and whether the
operations have to be performed on the addresses themselves.
Positions of the Parties
PUMA asserts that its construction is consistent with the specification. PUMA asserts
that the specification states “the memory management unit 122 algorithmically maps a
contiguous address to a noncontiguous address in the main memory 106.” ’464 Patent 8:20-23.
PUMA further quotes the passage:
For example, if two 1 megabyte blocks of the main memory 106 were provided
under step 204, the memory management unit 122 can simply perform simple
mathematical operations such as addition to add the offset addresses of such 1
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megabyte blocks of memory to addresses in the 2 megabyte block of contiguous
memory.
’464 Patent 8:23-28. PUMA asserts that Defendants’ construction requires a plurality of
“operations” and would, thus, exclude embodiments that use a single mathematical operation to
translate addresses. (Dkt. No. 120 at 27).
PUMA further asserts that nothing in the claims, specification, or prosecution history
requires the mathematical operations to be “performed on the noncontiguous addresses.” (Id. at
28). PUMA objects that Defendants’ construction would improperly restrict the claims to
requiring the mathematical operation to be performed directly on the noncontiguous addresses.
(Dkt. No. 122 at 10). PUMA asserts that the patent teaches that addresses may be translated by
performing mathematical operations on “page descriptors.” (Id.). PUMA asserts that the page
descriptors are essentially shorthand that corresponds to a group of addresses. PUMA cites to the
passage: “page descriptors typically include an offset address and a page size that correspond to
a starting address of a block of contiguous pages and the number of pages in the block.” ’464
Patent 7:51-54. PUMA also points out that mapping may be accomplished by mapping the page
descriptors:
the memory management unit 122 can be programmed to rapidly perform such
memory mapping of the noncontiguous page descriptors to the contiguous
string of 2-megabyte addresses. Under such an alternative, the memory
management unit 122 algorithmically maps a contiguous address to a
noncontiguous address in the main memory 106.
’464 Patent 8:17-23 (emphasis added). PUMA asserts that Defendants’ limitation, thus,
improperly limits the term to operations performed on the addresses because the specification
describes that the operations can be performed on the page descriptors. (Id.).
Defendants assert that they agree that one mathematical operation can translate an
address. Defendants assert, however, that there are multiple “addresses” being translated and,
46
thus, simple English parallelism requires plural “mathematical operations,” i.e., at least one per
address. (Dkt. No. 121 at 29-30). Defendants assert that the claim language states that the
noncontiguous addresses are being translated. Defendants assert that, as a necessity, the
mathematical operations must be performed on the noncontiguous addresses. Defendants note
that this is the case with the example that PUMA cites to from the specification. Defendants
assert that any operation that “translates” a first address to a second address will by definition
operate on the first address. (Id. at 30). At the oral hearing, Defendants emphasized that they just
want to make clear that an operation is performed on each address. (Dkt. No. 137 at 83-84).
Defendants assert that translating a page descriptor is not translating an address. (Id. at 84-85).
Analysis
PUMA presents the stronger arguments. Though Defendants argue “English parallelism”
requires multiple operations, Defendants’ construction opens the door to confusion as to whether
multiple operations must be performed on each address. As the parties agree that a single
operation on an address should be encompassed, PUMA’s construction would be more beneficial
to the jury.
Furthermore, the specification indicates that page descriptors may be used in the
translating process. ’464 Patent 8:17-23. Specifically, the specification describes a lookup table
approach but describes an alternative algorithmic approach:
instead, the memory management unit 122 can be programmed to rapidly perform
such memory mapping of the noncontiguous page descriptors to the contiguous
string of 2-megabyte addresses. Under such an alternative, the memory
management unit 122 algorithmically maps a contiguous address to a
noncontiguous address in the main memory 106.
’464 Patent 8:17-23 (emphasis added). Thus, as disclosed, the mathematical operations need not
be performed on the addresses themselves. Rather, the addresses may be translated by
47
performing the operations on the associated page descriptors. Id. As explicitly stated, such
operations translate the addresses. Defendants’ construction would exclude a disclosed
embodiment. “A claim interpretation that excludes a preferred embodiment from the scope of the
claim ‘is rarely, if ever, correct.’” Globetrotter Software, Inc. v. Elam Computer Group Inc., 362
F.3d 1367, 1381 (Fed. Cir. 2004) (quoting Vitronics Corp., 90 F.3d at 1583).
.
The Court construes “algorithmically translate the noncontiguous addresses to the
contiguous addresses” to mean “convert the noncontiguous addresses to the contiguous
addresses according to at least one mathematical operation”
CONCLUSION
The Court adopts the constructions of the disputed terms as set forth in this opinion. It
is ORDERED that in the presence of the jury the parties may not refer, directly or indirectly,
to the other parties’ claim construction positions and may not mention any portion of this
opinion other than to recite the actual definitions adopted by the Court.
SIGNED this 3rd day of January, 2012.
SIGNED this 30th day of July, 2015.
____________________________________
ROY S. PAYNE
UNITED STATES MAGISTRATE JUDGE
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