Full opinion text
MEMORANDUM OPINION SUE L. ROBINSON, District Judge. I. INTRODUCTION Plaintiffs Belden Technologies, Inc. and Belden CDT (Canada) Inc. (collectively, “Belden”) own several patents directed to high performance data cables and methods of making such cables, including U.S. Patent Nos. 5,424,491 (“the '491 patent”), 6,074,503 (“the '503 patent”), 7,135,641 (“the '641 patent”), 7,339,116 (“the '116 patent”), 6,570,095 (“the '095 patent”), 6,998,537 (“the '537 patent”) and 7,179,999 (“the '999 patent”) (collectively, “the patents in suit”). On January 29, 2008, Belden commenced this patent infringement action against defendants Superior Essex, Inc. and Superior Essex Communications LLP (collectively, “Superior Essex”), alleging that multiple cable products manufactured and sold by Superior Essex infringe the patents in suit. (D.I. 52) Superior Essex has asserted various affirmative defenses and counterclaims in response to Belden’s complaint, including the noninfringement and invalidity of the patents in suit. (D.I. 57) The parties have proffered meanings for the disputed claim limitations and move for summary judgment. Belden requests summary judgment of: 1) no invalidity for anticipation; and (2) infringement with respect to certain of the patents in suit. (D.I. 112; D.I. 115) Superior Essex seeks summary judgment of: 1) invalidity for anticipation and obviousness; 2) noninfringement with respect to certain of the patents in suit; and 3) Belden’s failure to mark its products in accordance with 35 U.S.C. § 287(a). (D.I. 119; D.I. 121; D.I. 123) The court has jurisdiction pursuant to 28 U.S.C. §§ 1331 and 1338. For the reasons that follow, the court grants in part and denies in part the motions. II. BACKGROUND A. The Parties and the Technology at Issue Belden Technologies, Inc. is a corporation existing under the laws of the State Delaware and having its principal place of business in St. Louis, Missouri. (D.I. 52 at 1) Belden CDT (Canada) Inc. is a corporation existing under the laws of the Nation of Canada with its principal place of business in Toronto, Ontario. (Id.) Belden engages in the design and manufacture of signal transmission products, focusing on products that have applications in the specialty electronics and data networking markets. Superior Essex Inc. is a Delaware corporation with its principal place of business in Atlanta, Georgia. (Id.) Superior Essex Communications LP is a limited partnership organized under the laws of the State of Delaware and having its principal place of business in Atlanta, Georgia. (Id.) Superior Essex designs and manufactures magnetic wire, as well as a variety of communications-oriented wire and cable products. The high performance data cables at issue utilize twisted pair technology. Data cables designed for communication applications are generally comprised of at least two twisted pairs with one of the pairs transmitting data and the other receiving data. ('116 patent at col. 1:18-17) An individual twisted pair typically includes two insulated conductors, helically twisted together. The helical twist imparts a measure of control over certain electrical parameters upon which the viability of a high performance data cable depends. ('116 patent at col. 1:22-25) The critical parameters include, at a basic level, the concepts of attenuation and noise, both of which have deleterious effects upon the signal carried by the data cable. (See id. at col. 1:25-29) The impedance of a circuit can contribute to the loss of signal, otherwise known as attenuation. (See id.) Likewise, crosstalk is one of several electronic phenomena that produces signal interference, or noise. (See id.) Multiple tools exist to obviate or minimize these undesirable characteristics and meet performance specifications, including cable lay techniques and various cable configurations. (Id. at col. 1:30-49) The longitudinal distance between twists in a twisted pair is known as the “twist lay.” ('503 patent at col. 1:28-30) In an unshielded twisted pair cable (“UTP”) employing a uniform twist lay, the adjacent twisted pairs are closely aligned. (Id. at col. 1:31— 34) This proximity magnifies crosstalk. (Id.) Varying the twist lays among the twisted pairs of a cable increases the distance between adjacent twisted pairs and, accordingly, reduces crosstalk. (Id. at col. 1:35-39) Cables designed for voice frequency or low-speed data typically employ a twist lay of between 3.7 and 5.7 inches. ('491 patent at col. 1:7-13) By contrast, high-speed data cables require a much smaller twist lay. (Id. at col. 1:18-23) The conventional low-speed data cables minimized crosstalk through use of the aforementioned variation in twist lay. (Id. at col. 1:40-43) Introducing these variations among twisted pairs characterized by smaller twist lays results in an uncontrollable nominal characteristic impedance which may cause an impermissible deviation from telecommunication industry standards. (Id. at col. 1:53-67) Alternatively, each individual twisted pair in the cable may be surrounded by a conductive “shield,” creating a shielded twisted pair cable (“STP”). The individual shields in a STP act to prevent or reduce the occurrence of NEXT and FEXT. Surrounding the plurality of twisted pairs with an overall shield, otherwise known as a screened twisted pair cable (“ScTP”), also serves to minimize crosstalk. Both configurations suffer from the potential for geometric instability, and cost appreciably more to manufacture than an UTP, ('116 patent at col. 1:39-41) Cable manufacturing typically involves helically twisting (“stranding”) the various elements (twisted pairs, interior core, etc.) about a common longitudinal axis in order to provide the tension needed to precisely distribute the twisted pairs -within the cable prior to jacketing. (D.I. 125, ex. 31 at 5) In one stranding process, stationary pay-off reels feed the media through a “bunching” die, and the bunched arrangement is then twisted prior to being received by a take-up reel. (Id. at 6) Bunching, however, can create excessive rearward-extending tension, known as “back-twist,” which serves to disrupt the precise spatial relationship of the twisted pairs and can also result in an inflexible cable. (See id.) One method of offsetting back-twist involves situating the pay-off reels on a large wheel (or drum) and rotating the wheel such that the overall feed of unreeling strands rotates in the same direction as the imparted twist. B. The Patents in Suit The patents in suit disclose cost efficient solutions to meet the “exacting specifications” required of high performance data cables. (See '116 patent at col. 1:23-25) With the exception of the '491 patent, the patents in suit claim configurations of, as well as methods of making, data cables incorporating an interior core separator. The use of an interior core separator results in enhanced control over the spatial distribution of the twisted pairs. This measured separation reduces crosstalk without the need for individual shielding. (Id. at col. 1:59-61) The '116 patent, entitled “High Performance Data Cable,” issued on March 4, 2008, and has a priority date of January 18, 2001. The data cable disclosed by the '116 patent has an interior central star-shaped separator that extends along the longitudinal axis. The star-shaped separator features a plurality of projections that extend outward from the center of the separator. Each adjacent pair of projections defines a longitudinal groove in which a twisted pair may be placed. A cable jacket consisting of an outer jacket, an overall shield, and a binder sheet encloses the star-shaped separator and twisted pairs. (Id. at figure 1) The '116 patent contains seven claims, two of which are asserted by Belden. Independent claim 4, representative of the invention of the '116 patent, claims: A data cable having a plurality of twisted pair conductors, a cable covering, and an interior support comprising: said interior support being unshielded and having: a longitudinally extending central portion forming a portion of said support; a plurality of projections extending from said central portion; each projection of said plurality of projections being adjacent to two other projections of said plurality of projections, said plurality of projections forming a plurality of adjacent projections; an open space defined by each of said plurality of adjacent projections; said cable covering contacting each projection; only one twisted pair conductor from said plurality of twisted pair conductors disposed in each open space. Independent claim 7 contains identical limitations, except it does not require a cable covering in contact with each projection. The '095 patent issued on May 27, 2003 from an application filed on May 11, 2001. Entitled “Multi-Pair Data Cable with Configurable Core Filling and Pair Separation,” the '095 patent likewise incorporates the use of a pair separator to limit crosstalk. ('095 patent at col. 3:23-26) The '095 patent teaches that a dielectric pair separator inserted between two or more twisted pairs results in a data cable that has “desired flexibility and workability” while maintaining “cpmpatibpflity] with industry standard hardware.... ” (Id. at col. 3:1-3) The “configurable, highly flexible” dielectric pair separator may be “folded and arranged” to adequately separate two (id. at col. 3:12-20) or more (id. at col. 3:34-39) twisted pairs. Belden has asserted claims 27 and 31. Independent claim 27 claims a data cable having two twisted pairs: A data communications cable comprising: a first twisted pair of insulated conductors; a second twisted pair of insulated conductors; a configurable dielectric pair separator that separates the first and second twisted pairs of conductors, the configurable dielectric pair separator being substantially flat; a jacket enclosing the first and second twisted pairs of insulated conductors and'the dielectric pair separator; and wherein the configurable dielectric pair separator, the first twisted pair of insulated conductors and the second twisted pair of insulated conductors are twisted about a common central axis to form a twisted pair cable; and wherein the configurable dielectric pair separator is arranged within the jacket to form at least two grooves. Independent claim 31 is directed to a data cable having two or more twisted pairs, and specifically: A data communications cable comprising: a plurality of twisted pairs of insulated conductors; a configurable dielectric pair separator disposed between at least two of the plurality of twisted pairs of insulated conductors, the configurable dielectric pair separator including a substantially flat dielectric tape formed of a foamed polymer; a jacket enclosing the plurality of twisted pairs of insulated conductors and the configurable dielectric pair separator; and wherein the plurality of twisted pairs of insulated conductors and the configurable dielectric pair separator are twisted about a common axis to form [ ] a twisted pair cable. The '537 patent issued as a continuation of the application that led to the '095 patent and, as such, both patents share virtually identical specifications. Only independent claim 19 is asserted, which claims: An unshielded communications cable comprising: a plurality of twisted pairs of insulated conductors comprising a first twisted pair of insulated conductors and a second twisted pair of insulated conductors; a substantially flat configurable dielectric separator that consists of non-conductive, dielectric materials disposed between the plurality of twisted pairs of conductors that separates the first twisted pair of insulated conductors from the second twisted pair of insulated conductors; and a jacket enclosing the plurality of twisted pairs of insulated conductors and the configurable dielectric separator; wherein the substantially flat configurable dielectric separator includes a foamed polymer. Similarly, the '999 patent issued from a chain of continuation applications extending back to the application that matured into the '095 patent. The specification of the '999 patent mirrors that of the '095 patent. Belden has asserted claim 2, which depends from claim 1. The full text of both claims reads: 1. An unshielded twisted pair communications cable comprising: a plurality of twisted pairs of insulated conductors including a first twisted pair of insulated conductors and a second twisted pair of insulated conductors; a configurable tape separator disposed between the plurality of twisted pairs of conductors in the unshielded twisted pair communications cable and arranged so as to separate the first twisted pair of insulated conductors from the second twisted pair of insulated conductors; and a jacket enclosing the plurality of twisted pairs of insulated conductors and the configurable tape separator; wherein the plurality of twisted pairs of insulated conductors and the configurable tape separator are cabled about a common axis to form the unshielded twisted pair communications cable; and wherein the configurable tape separator is substantially non-conductive. 2. The unshielded twisted pair communications cable as claimed in claim 1, wherein the configurable pair separator is arranged so as to define at least two channels and wherein the first twisted pair of insulated conductors is disposed at least partially within a first channel and the second twisted pair of insulated conductors is disposed at least partially within a second channel. A data cable comprising a core separator as well as a plurality of protrusions disposed about the inner circumferential surface of the cable jacket is disclosed by the '641 patent. According to the '641 patent, the grooved jacket provides additional air space between the jacket and the twisted pairs, reducing any attendant effect the jacket material may have upon the twisted pairs. ('641 patent at col. 11:5-20) Asserted claim 13 claims: A cable comprising: a plurality of twisted pairs of insulated conductors including a first twisted pair and a second twisted pair, each twisted pair comprising two insulated conductors twisted together in a helical manner; a separator disposed among the plurality of twisted pairs of insulated conductors so as to physically separate the first twisted pair from the second twisted pair; and a jacket surrounding the plurality of twisted pairs of insulated conductors; wherein the jacket comprises a plurality of protrusions extending away from an inner circumferential surface of the jacket, and wherein the plurality of protrusions provide an air gap between the plurality of twisted pairs of insulated conductors and the inner circumferential surface of the jacket. The '503 patent, entitled “Making Enhanced Data Cable with Cross-Twist Cabled Core Profile,” describes the manufacture of data communication cables comprising a pair separator and multiple twisted pairs. The method of the '503 patent does not employ planetary cabling; rather, a series of consecutive die s, designed to correspond to the surface features of the desired core profile, acts both to precisely locate the cable elements with respect to each other and neutralize back-twist. (See '503 patent at Fig. 4) The first die aligns the cable elements, while the second die forces the twisted pairs into contact with the surface features of the core. (Id. at col. 3:3-13) Independent claim 1, exemplary of the invention of the '503 patent, claims: A method of producing a cable, comprising steps of: passing a plurality of transmission media and a core through a first die which aligns the plurality of transmission media with surface features of the core and prevents twisting motion of the core; bunching the aligned plurality of transmission media and core using a second die which forces each of the plurality of transmission media into contact with the surface features of the core which maintain a spatial relationship between each of the plurality of transmission media; twisting the bunched plurality of transmission media and core to close the cable; and jacketing the closed cable. On July 19, 2010, the United States Patent and Trademark Office (“PTO”) issued a Notice of Intent to Issue Ex Parte Reexamination Certificate, confirming the original claims and allowing two new claims. (D.I. 204, ex. A) The '491 patent, entitled “Telecommunications Cable,” issued on June 13, 1995 from an application filed on October 8, 1993. The specification describes the undesirable change in characteristic impedance that results from variations among twisted pairs having small twist lays. (491 patent at col. 1:53-67) The '491 patent does not disclose the use of an interior core separator. Rather, it teaches that, for twisted pairs having small twist lays, by varying the twist lay and the insulation thickness of at least some of the conductors, the characteristic impedance will remain within acceptable limits. Beldin has asserted claims 1 and 2 of the '491 patent, which claim respectively: 1. A telecommunications cable comprising a core having a plurality of pairs of twisted together individually insulated conductors with all of the conductors being of the same gauge and the maximum twist lay of the plurality of pairs being 2.00 inches with a first group of the plurality of conductor pairs having twist lays within a first range, the conductors of the first group having the same insulation thickness which is consistent with providing a nominal characteristic impedance for each conductor pair of the first group within desirable limits and an acceptable signal attenuation, and at least a second group of the plurality of conductor pairs having twist lays within a second range, the conductors of the second group having the same insulation thickness which is different from that for the first group and which is consistent with providing a nominal characteristic impedance for each conductor pair of the second group which is also within the desirable limits and an acceptable signal attenuation. 2. A telecommunications cable according to claim 1 wherein the twist lay of each conductor pair is different from the other pair. C. The Accused Products The numerous accused products manufactured and sold by Superior Essex fall into two general groups: 1) premises cables, which are “used for voice and data communications in indoor environments[;]” and 2) outside plant cables, which are designed to be installed outside or underground. (D.I. 114, ex. 2 at 1622362; D.I. 125, ex. 56 at 4476224) The court details the following relevant undisputed characteristics of each accused product below. 1. Category 6 premises cables Many of Superior Essex’s premises cables employ similar design characteristics, including multiple twisted pairs comprised of copper conductors covered by plastic insulation and enclosed by a plastic jacket. (D.I. 114, ex. 2 at 1622362) Category 6 premises cables include an internal core comprising either a “ + ” shaped cross-web separator (“Category 6 Cross-Web Separator Cables”) or a tape separator (“Category 6 Tape Separator Cables”). a. lOGain XP Category 6A CMP/CMR lOGain XP Category 6A CMP/CMR (“lOGain XP”) cables support transmission speeds of up to 650 MHz. (D.1.114, ex. 3 at 4476186-87) These cables have four twisted pairs (with each twisted pair characterized by a unique color) of insulated copper conductors, a jacket and a cross-shaped “cross-web” core separator. (Id.) The copper conductors in the twisted pairs of the lOGain XP have a uniform gauge. (Id., ex. 4) The cross-web separator isolates the individual twisted pairs, and the jacket encloses the cable. (Id., ex. 3 at 4476186) The lOGain XP employs twisted pairs having the following nominal twist lays: 0.325 inches for the blue pair; 0.4365 inches for the orange pair; 0.345 inches for the green pair; and 0.4859 inches for the brown pair. (Id.) The blue and green twisted pairs have an insulation thickness of 0.0115 inches, while the orange and brown pairs have an insulation thickness of 0.0095 inches. (Id., ex. 3 at 4476186-87) b. lOGain Category 6A CMP/CMR Superior Essex’s lOGain Category 6A CMP/CMR (“lOGain”) cables guarantee a performance of up to 500 MHz. (Id. at 4476188) Similar to the lOGain XP, the lOGain has a jacket surrounding four twisted pairs isolated by a cross-web separator. (Id.) The copper conductors have a uniform gauge. (Id.; ex. 5; ex. 7) The twisted pairs have the following nominal twist lays: 0.345 inches for the blue pair; 0.396 inches for the orange pair; 0.329 inches for the green pair; and 0.381 inches for the brown pair. (Id., -ex. 7 at 1035177; ex. 8 at 155325) Three of the twisted pairs have different respective insulation thicknesses. (Id., ex. 10 at 601725) c.NextGain Category 6eX CMP/CMR NextGain Category 6eX CMP/CMR (“NextGain”) cables are rated for transmission speeds of up to 650 MHz. These cables have four twisted pairs, a jacket and a cross-web core separator. (Id., ex. 3 at 4476194-99) The copper conductors have a uniform gauge. (Id. at 4476194-95) The twisted pairs have the following nominal twist lays; 0.480 inches for the blue pair; 0.656 inches for the orange pair; 0.410 inches for the green pair; and 0.580 inches for the brown pair. (Id., ex. 4; ex. 12 at 1043301-02) Three of the twisted pairs have different respective insulation thicknesses. (Id., ex. 13) d.Category 6A ScTP (F/UTP) CMP/CMR Category 6A ScTP (F/UTP) CMP/CMR (“6A ScTP”) cables guarantee a performance of up to 650 MHz. (Id., ex. 3 at 4476192) These cables have four twisted pairs isolated by a cross-web separator and surrounded by an overall aluminum foil shield and flame retardant PVC jacket. (Id.) Each copper conductor has the same gauge. (Id. at 4476192-93) The twisted pairs have the following nominal twist lays: 0.325 inches for the blue pair; 0.4365 inches for the orange pair; 0.345 inches for the green pair; and 0.4859 inches for the brown pair. (Id.) The 6A ScTP cables have two different insulation thicknesses: 0.0115 inches for. the blue and green pairs and 0.0095 inches for the orange and brown pairs. (Id.; ex. 4) e.Category 6+ ScTP (F/UTP) CMP/CMR Category 6+ ScTP (F/UTP) CMP/CMR (“6+ ScTP”) cables provide transmission speeds of up to 500 MHZ. (Id., ex. 3 at 4476193) These cables have four twisted pairs isolated by a cross-web separator and surrounded by an overall aluminum foil shield and flame retardant PVC jacket. (Id.) f.DataGain 6+ CMP/CMR DataGain 6 + CMP/CMR cables guarantee performance up to 400 MHZ. (Id. at 4476196) These cables include four twisted pairs having uniform conductor gauges, a flat tape separator and a cable jacket. (Id.) Superior Essex’s expert, Les A. Baxter (“Baxter”), described the tape separator as “fairly flexible” and “sufficiently flexible” to be cabled. (Id., ex. 34 at 69-71) The flat tape separator, consisting of foamed polypropylene, divides the four twisted pairs into groups of two. (Id., ex. 6 at 14) The twisted pairs and the flat tape separator are wound helically about a common central axis prior to enclosure by the cable jacket. (Id. at 15) The DataGain 6 + CMP/CMR employs twisted pairs with the following nominal twist lays: 0.480 inches for the blue pair; 0.656 inches for the orange pair; 0.410 inches for the green pair; and 0.580 inches for the brown pair. (Id., ex. 4) The parties dispute whether these cables employ two or three insulation thicknesses. g.DataGain 6+ Limited Combustible DataGain 6+ Limited Combustible (“DataGain Limited”) cables provide transmission speeds up to 550 MHz. (Id., ex. 3 at 4476198) These cables include four twisted pairs having uniform conductor gauges, a flat tape separator and a cable jacket. (Id.) The flat tape separator is a dielectric material made of either a foamed fluoropolymer or foamed polypropylene. (Id., ex. 24 at 1601760) The twisted pairs, separated into groups of two by the flat tape separator, are wound about a common central axis prior to jacketing. (Id., ex. 6 at 14-15) The twisted pairs have the following nominal twist lays: 0.480 inches for the blue pair; 0.660 inches for the orange pair; 0.410 inches for the green pair; and 0.580 inches for the brown pair. (Id.) The DataGain Limited cables have three different insulation thicknesses: 0.0380 inches for the blue pair; 0.0371 inches for the orange and brown pairs; and 0.0395 inches for the green pair. (Id., ex. 25 at 1601755-56) h.Category 6 CMP/CMR The Category 6 CMP/CMR cable includes four twisted pairs, a flat tape separator and a jacket. (Id., ex. 3 at 4476200) The dielectric tape separator divides the four twisted pairs into groups of two. (Id.) The twisted pairs and the tape separator are twisted about a central axis prior to jacketing. (Id.) Category 6 CMP/CMR cables have an average twist lay of less than 1.5 inches. (Id., ex. 31) Each twisted pair has one of three different insulation thicknesses. (D.I. 125, ex. 29 at ¶ 66) i.Bundled Category 6 Superior Essex’s Bundled Category 6 cables consist of several individual unshielded twisted pair plenum cables made in accordance with the design specifications for the NextGain or the DataGain cables. (Id. at 4476214) 2.Category 5 premises cables a. Cobra Category 5e+ CMP/CMR Cobra Category 5e+ CMP/CMR (“Cobra CMP/CMR”) cables have four twisted pairs enclosed by a jacket. (Id., ex. 3 at 4476202) The twisted pairs have the following nominal twist lays; 0.503 inches for the blue pair; 0.685 inches for the orange pair; 0.461 inches for the green pair; and 0.603 inches for the brown pair. (Id., ex. 4) The Cobra CMP/CMR cables have two different insulation thicknesses: 0.0068 inches for the blue and green pairs; and 0.0065 inches for the orange and brown pairs. (Id.) b. Cobra Category 5e+ Limited Combustible Cobra Category 5e + Limited Combustible (“Cobra Limited”) cables have four twisted pairs enclosed by a jacket. (Id., ex. 3 at 4476204) The twisted pairs have the following nominal twist lays: 0.503 inches for the blue pair; 0.685 inches for the orange pair; 0.461 inches for the green pair; and 0.603 inches for the brown pair. (Id., ex. 33) The DataGain Limited cables have two different insulation thicknesses: 0.0335 inches for the blue and green pairs; and 0.0330 inches for the orange and brown pairs. (Id.) c. Marathon LAN Category 5e CMP/CMP Marathon LAN Category 5e CMP/CMR (“Marathon”) cables have four twisted pairs surrounded by a jacket. (Id., ex. 3 at 4476208) The Marathon cable includes twisted pairs having the following nominal twist lays: 0.527 inches for the blue pair; 0.812 inches for the orange pair; 0.480 inches for the green pair; and 0.685 inches for the brown pair. (Id., ex. 4) An insulation thickness difference of 0.00025 inches exists among all of the twisted pairs. (Id., ex. 32) 3. Outside plant cables Superior Essex manufactures and sells a variety of cable products for outdoor applications, including its Outside Plant BBD6/BBDN6/BBDG6 and Outside Plant Category 5e BBDE/BBDNE/BBDGE products (“the OSP products”). Exemplary of the OSP products, the OSP Broadband Category 6 cable is designed for outside or underground applications, and has a guaranteed performance of up to 150 MHZ. (Id., ex. 56) This cable includes four twisted pairs, a cross-web separator and a jacket. (See id.) In order to make OSP products suitable for underground applications, each includes a filling compound to prevent water ingress. (See id.) Belden has granted Superior Essex a license to practice the '491 patent with respect to “Outside Plant Products” as the term is defined by an Asset Purchase Agreement between the two parties (“the Belden Asset Purchase Agreement”). (See D.I. 152, ex. 2) D. Belden’s Products Embodying the Patents in Suit According to Belden, approximately 50 of its products embody one or more claims of the patents in suit. (D.I. 199, ex. 41 at 22-23) Belden began to make certain of these products commercially available in June 1995. (D.I. 199, ex. 41 at 53) On the jacket of each of these cable products, extensive printing relays commercial and regulatory information. Douglas D. Brenneke (“Brenneke”), an officer of Belden Americas Group, explained at his deposition that the commercial information printed on a cable jacket may include the name of the company and “any branding information [Belden] would want to put on the product.” (Id., ex. 22 at 45) The cable jacket also typically contains regulatory information in the form of safety standards published by Underwriters Laboratories, Inc. (“UL”) and may further include measurement markings to assist with installation. (Id.) According to the UL standards, the print legend should include the cable trade name and, if manufactured in more than one location, the cable’s manufacturing location. (D.I. 154, ex. 3 at 31) A temperature indication is also mandated for cables rated over 60°C. (Id.) Further, UL standards specify that required information should appear in intervals “not greater than 1 m (40 in).” (Id. at 32) Several of Belden’s products include 10 inch to 14 inch spacing between printed legends that are repeated every 24 inches. The substance of the printed materials (including the presence of UL standards) depends largely upon market requirements, namely, what consumers in a particular market designate as relevant information. (D.I. 199, ex. 24 at 175 (describing printed information on cable jacket as “market driven.”)) Multiple witnesses for Belden explained that the substance of information to be printed on the cable jacket can be adjusted to include, e.g., patent markings, without difficulty. (Id.; ex. 23 at 206; ex. 26 at 150) Belden does not dispute that, of the 41 products it produced during discovery, only five contain any patent markings. In this regard, Belden notes that it “may not have printed onto the cable jackets of every Belden product sold that embodies the subject matter of the ... patent[s] in suit the patent number for the ... patent.” (Id., ex. 39 at 14-20) Instead, Belden includes patent marking information on the packaging containing the cable. III. STANDARD OF REVIEW A court shall grant summary judgment only if “the pleadings, depositions, answers to interrogatories, and admissions on file, together with the affidavits, if any, show that there is no genuine issue as to any material fact and that the moving party is entitled to judgment as a matter of law.” Fed.R.Civ.P. 56(e). The moving party bears the burden of proving that no genuine issue of material fact exists. See Matsushita Elec. Indus. Co. v. Zenith Radio Corp., 475 U.S. 574, 586 n. 10, 106 S.Ct. 1348, 89 L.Ed.2d 538 (1986). “Facts that could alter the outcome are ‘material,’ and disputes are ‘genuine’ if evidence exists from which a rational person could conclude that the position of the person with the burden of proof on the disputed issue is correct.” Horowitz v. Fed. Kemper Life Assurance Co., 57 F.3d 300, 302 n. 1 (3d Cir.1995) (internal citations omitted). If the moving party has demonstrated an absence of material fact, the nonmoving party then “must come forward with ‘specific facts showing that there is a genuine issue for trial.’ ” Matsushita, 475 U.S. at 587, 106 S.Ct. 1348 (quoting Fed.R.Civ.P. 56(e)). The court will “view the underlying facts and all reasonable inferences therefrom in the light most favorable to the party opposing the motion,” Pa. Coal Ass’n v. Babbitt, 63 F.3d 231, 236 (3d Cir.1995). The mere existence of some evidence in support of the nonmoving party, however, will not be sufficient for denial of a motion for summary judgment; there must be enough evidence to enable a jury reasonably to find for the nonmoving party on that issue. See Anderson v. Liberty Lobby, Inc., 477 U.S. 242, 249, 106 S.Ct. 2505, 91 L.Ed.2d 202 (1986). If the nonmoving party fails to make a sufficient showing on an essential element of its case with respect to which it has the burden of proof, the moving party is entitled to judgment as a matter of law. See Celotex Corp. v. Catrett, 477 U.S. 317, 322, 106 S.Ct. 2548, 91 L.Ed.2d 265 (1986). IV. DISCUSSION A. Notice of Infringement 1. IMarking Generally, a patentee is “entitled to damages from the time when it either began marking its products in compliance with 35 U.S.C. § 287(a) or when it actually notified [the infringer] of its infringement, whichever was earlier.” American Medical Systems, Inc. v. Medical Engineering Corp., 6 F.3d 1523, 1537 (Fed.Cir.1993). Section 287(a) of Title 35 of the United States Code (“the marking statute”) provides, in relevant part, that [patentees, and persons making, offering for sale, or selling within the United States any patented article for or under them, or importing any patented article into the United States, may give notice to the public that the same is patented, either by fixing thereon the word “patent” or the abbreviation “pat.”, together with the number of the patent, or when, from the character of the article, this can not be done, by fixing to it, or to the package wherein one or more of them is contained, a label containing a like notice. In the event of failure so to mark, no damages shall be recovered by the patentee in any action for infringement, except on proof that the infringer was notified of the infringement and continued to infringe thereafter, in which event damages may be recovered only for infringement occurring after such notice. Filing of an action for infringement shall constitute such notice, (emphasis added). The Federal Circuit has interpreted this provision to require the patentee to “consistently mark [ ] substantially all” tangible patented products capable of being so marked with the patent number prior to allowing the patentee to claim constructive notice of infringement. Nike Inc. v. Wal-Mart Stores, 138 F.3d 1437, 1446 (Fed.Cir.1998) (citing Am. Med. Sys., 6 F.3d at 1538). The marking statute “do[es] not apply where the patent is directed to a process or method.” Am. Med. Sys., 6 F.3d at 1538. In certain instances, the patentee may elect to mark the packaging of a patented product instead of the product itself. While the court must, “in a doubtful case,” accord some value to the judgment of the patentee in assessing whether it is possible to mark the patented product, Sessions v. Romadka, 145 U.S. 29, 50, 12 S.Ct. 799, 36 L.Ed. 609 (U.S.1892), the marking statute makes clear that the choice between marking the patented product or its packaging is not entirely discretional. Bearing in mind that the purpose behind the marking statute is to provide notice to the consuming public, courts “do not severely scrutinize the character of the patented articles to determine whether the article was capable of being marked.” Rutherford v. Trim-Tex, Inc., 803 F.Supp. 158, 162 (N.D.Ill.1992); see also Bonito Boats, Inc. v. Thunder Craft Boats, Inc., 489 U.S. 141, 162, 109 S.Ct. 971, 103 L.Ed.2d 118 (1989). Marking the packaging may result in compliance when the patentee has shown that marking the patented product raises concerns of feasibility or practicality. Id. at 164 (marking packaging appropriate where marking the patented product would require an additional “burdensome” manufacturing step); see also Sessions, 145 U.S. at 50, 12 S.Ct. 799 (explaining that the small size of a patented product could preclude physically marking the product); Wayne-Gossard Corp. v. Sondra Inc., 434 F.Supp. 1340 (E.D.Pa.1977) (noting that “there may be a point where [marking the patented product] could be so expensive as to be impractical.”). If, however, “the patented article has markings or printing on it, other than the appropriate patent marking, then the alternate form of patent making on the package is not sufficient compliance with the [marking] statute.” Rutherford, 803 F.Supp. at 163 (citing John L. Rie, Inc. v. Shelly Bros., Inc., 366 F.Supp. 84, 90-91 (E.D.Pa.1973) (marking on packaging did not provide constructive notice where patented bag closure device displayed plaintiffs name and address) and Creative Pioneer Products Corp. v. K Mart Corp., 5 U.S.P.Q.2d 1841, 1847-48 (S.D.Tex.1987) (marking on packaging of patented tool did not provide constructive notice where information including calibration was embossed on the handle of the tool)). Assessing compliance with the marking statute is an inquiry amenable to disposition by summary judgment. See, e.g., Inline Connection Corp. v. AOL Time Warner, Inc., 465 F.Supp.2d 312, 321 (D.Del.2006); IMX, Inc. v. LendingTree, LLC, 2005 WL 3465555 (D.Del. Dec. 14, 2005); Philips Elecs. N. Am. Corp. v. Contec Corp., 312 F.Supp.2d 649, 652 (D.Del.2004). Superior Essex maintains that Belden’s decision to mark the cable packaging instead of the cable itself does not comport with the requirements of the marking statute and, accordingly, does not provide constructive notice of infringement. That Belden cannot avail itself of constructive notice by instead marking the product packaging is allegedly implicit in Belden’s failure to demonstrate that marking the physical cable “cannot be done” within the meaning of this provision. 35 U.S.C. § 287(a). In support of this theory, Superior Essex primarily relies upon Belden’s ability to control the information printed on the cable jacket as well as its seemingly arbitrary marking of only a small fraction of the cable products embodying the patents in suit. Belden responds that Superior Essex mischaracterizes the ease with which it may control the information appearing on the cable jacket. Because UL standards often dictate the scope and substance of the jacket content, as well as the intervals at which such content must repeat, Belden argues that the additional inclusion of patent markings could contend with UL mandated content for space. This proposition is belied by several of Belden’s cables which contain 10-14 inches of blank space within a 24 inch repeating interval. This blank space would more than double at the UL maximum interval of 40 inches. Accordingly, Belden has failed to identify a genuine issue of material fact as to whether the UL mandated regulatory information necessarily precludes the inclusion of patent markings. In a related argument, Belden contends that marking the product packaging may avoid additional manufacturing costs. Package marking may be appropriate if it “would be burdensome to add additional manufacturing steps ...” to place markings on the patented product itself. See Rutherford, 803 F.Supp. at 164. Belden’s allegation, unsupported by the record, is contradicted by the testimony of multiple its employees, who describe the relative ease with which the content may be added or removed. Next, Belden argues that the trade custom of marking product packaging creates an issue of material fact. Courts have noted that an industry-wide custom of marking product packaging “could be a relevant factor” in assessing compliance with the marking statute. See Rutherford, 803 F.Supp. at 163. In this regard, Belden notes that Superior Essex typically marks the cable packaging rather than the cable itself. It further argues that “given the consistency and longevity of Belden’s conspicuous marking practice, it is reasonable to conclude that the relevant public knows where the patent marking is located on Belden’s cables.” (D.I. 153 at 19) But Belden has not consistently and exclusively adhered to the practice of marking its product packaging alone, as demonstrated by the five cable products containing patent markings. Consequently, irrespective of an existing trade custom of package marking, Belden’s sporadic practice of including patent markings on some, but not all, products does not effectively work to put the relevant public on notice. See Am. Med. Sys., Inc., 6 F.3d at 1538 (“The world cannot be ‘put on notice’ if the patentee marks certain products, but continues to ship unmarked products.”). Finally, Belden submits that the court should consider the product’s usage and method of storage in considering the appropriateness of marking product packaging. See Heraeus Electro-Nite Co. v. Midwest Instrument Co., Inc., 2007 WL 3407128, at *5 (E.D.Pa. Nov. 14, 2007); see also Rutherford, 803 F.Supp. at 164. In Heraeus, the patentee marked the product packaging instead of its patented oxygen probes. Heraeus, 2007 WL 3407128, at *1-2, In finding compliance with the marking statute, the Heraeus court considered the following characteristics of the patented invention: 1) the single usage of the probes which resulted in their destruction through immersion in molten steel; and 2) the inability of users to read the patented information even if it were included on the probes. Id. at *5. By contrast, Belden’s cables are not destroyed as a result of use, nor are they, as Belden alleges, uniformly “hidden from view” once installed. (D.I. 153 at 20) With respect to the destruction of the cable jacket during installation, Belden’s own guide on cable installation describes the removal of the jacket in de minimis portions. (D.I. 180, ex. 131) Similarly, while portions of Belden’s cable products are hidden from view, the record demonstrates that, in some certain applications, large sections of Belden’s cable products are plainly accessible. (D.I. 180, ex. 130) Even accepting Belden’s characterization of its installed products as hidden from view, “the non-visibility of a product in its final state is not adequate justification alone for allowing alternative marking on the package.” Rutherford, 803 F.Supp. at 164. In sum, no reasonable jury could find that Belden’s choice to mark the product packaging rather than its patented products comports with the marking statute. While Belden need not have alleged that marking the patented products is physically impossible, it has failed to identify a fact issue with respect to any limitation, physical or otherwise, that presents a reasonable consideration warranting the marking of the product packaging instead. See Rutherford, 803 F.Supp. at 162. Moreover, Belden’s inclusion of substantial printed content on its cables demonstrates the absence of any such limitation and, a fortiori, the appropriateness of using the patented product itself to provide notice the relevant public. See, e.g., John L. Rie, Inc., 366 F.Supp. at 90-91; and Creative Pioneer, 5 U.S.P.Q.2d at 1847-48. Belden has not “consistently marked substantially all” of its patented products capable of being so marked with the patent numbers. Nike, 138 F.3d at 1446. Failing to do so, Belden did not place Superior Essex on constructive notice of infringement. 2. Knowledge of the patents in suit Alternatively, Belden states, without argument, that Superior Essex knew of the patents in suit several years prior to the commencement of this action. Mere knowledge of the patents in suit is insufficient to place Superior Essex on notice of infringement, as Belden must show “the affirmative communication of a specific charge of infringement by a specific accused product or device.” Amsted Indus. v. Buckeye Steel Castings Co., 24 F.3d 178, 187 (Fed.Cir.1994). Accordingly, in the absence of constructive or previous actual notice of infringement, damages began to accrue for each individual patent on the date upon which Belden charged Superior Essex with infringement of that patent. B. Infringement A patent is infringed when a person “without authority makes, uses or sells any patented invention, within the United States ... during the term of the patent.” 35 U.S.C. § 271(a). A two-step analysis is employed in making an infringement determination. Markman v. Westview Instruments, Inc., 52 F.3d 967, 976 (Fed.Cir.1995). First, the court must construe the asserted claims to ascertain their meaning and scope. Id. Construction of the claims is a question of law subject to de novo review. See Cybor Corp. v. FAS Techs., 138 F.3d 1448, 1454 (Fed.Cir.1998). The trier of fact must then compare the properly construed claims with the accused infringing product. Markman, 52 F.3d at 976. This second step is a question of fact. See Bai v. L & L Wings, Inc., 160 F.3d 1350, 1353 (Fed.Cir.1998). “Direct infringement requires a party to perform each and every step or element of a claimed method or product.” BMC Res., Inc. v. Paymentech, L.P., 498 F.3d 1373, 1378 (Fed.Cir.2007). “If any claim limitation is absent from the accused device, there is no literal infringement as a matter of law.” Bayer AG v. Elan Pharm., Research Corp., 212 F.3d 1241, 1247 (Fed.Cir.2000). If an accused product does not infringe an independent claim, it also does not infringe any claim depending thereon. See Wahpeton Canvas Co. v. Frontier, Inc., 870 F.2d 1546, 1553 (Fed.Cir.1989). The patent owner has the burden of proving infringement and must meet its burden by a preponderance of the evidence. SmithKline Diagnostics, Inc. v. Helena Lab. Corp., 859 F.2d 878, 889 (Fed.Cir.1988) (citations omitted). Belden moves for summary judgment that each asserted claim of the patents in suit is infringed by one or more of the accused products. Superior Essex cross-moves for summary judgment that certain of the accused products do not infringe the '503, '491, '095, '537 and '999 patents. With respect to several of the patents in suit, Superior Essex has stipulated to infringement by certain accused products, and Belden moves for a consistent judgment by the court. Accordingly, the court considers the parties’ arguments on a claim by claim basis. For sake of clarity, where Belden has failed to carry its burden in its motion for summary judgment, the court will move on to consider Superior Essex’s cross-motion, if applicable. 1. Claim 4 of the '116 patent Because the court determines, infra, that a reasonable jury would conclude that the '116 patent is invalid for anticipation, the court does not reach Belden’s allegations that Superior Essex’s Category 6 Cross-Web Separator Cables infringe claim 4 of the '116 patent. Accordingly, the parties’ respective motions regarding the infringement of claim 4 of the '116 patent are denied as moot. 2.The '537 and '095 patents According to Belden, the Category 6 Tape Separator Cables meet every limitation of claim 19 of the '537 patent, as well as claims 27 and 31 of the '095 patent. The parties’ first dispute goes to whether these cables contain a “configurable” dielectric pair separator, as required by each of the aforementioned claims. The court has construed “configurable” to mean “flexible enough to be formed or arranged.” Superior Essex’s own brochures describe each of these products as having a “flexible flat tape” pair separator, a characterization attested to by its expert, Baxter. (See D.I. 114, ex. 3) Superior Essex does not dispute that the Category 6 Tape Separator Cables contain a tape separator that is “sufficiently flexible” to be cabled after stranding it along with the transmission media, arguing instead under its own (unadopted) construction. Accordingly, a reasonable jury could only conclude that the Category 6 Tape Separator Cables contain a “configurable” dielectric pair separator. Next, Belden argues that the configurable dielectric separator of the Category 6 Tape Separator Cables is “arranged within the jacket to form at least two grooves” as required by claim 27 of the '095 patent. The court has construed “grooves” to mean “regions within the cable that are substantially physically separated from other regions within the cable by a pair separator; i.e., they are formed by, but need not be a part of, the separator.” Superior Essex does not dispute that the tape separator forms two “grooves” as construed by the court. Instead, it argues that the tape separator is simply “placed” within the cable and is not “arranged” so as to form grooves. The record demonstrates that the Category 6 Tape Separator Cables contain a tape separator that largely divides the cable in half, creating two discrete spaces within the cable that contain the twisted pairs. This configuration belies any notion of random placement of the tape separator. On the basis of this record, a reasonable jury would conclude that the tape separator is arranged within the jacket of the Category 6 Tape Separator Cables so as to form two grooves. Because Superior Essex has failed to identify an issue of material fact with respect to the disputed limitations of claim 19 of the '537 patent, as well as claim 27 and 31 of the '095 patent, Belden is entitled to judgment that the Category 6 Tape Separator Cables infringe these claims. 3. The '999 patent Belden also seeks judgment that the Category 6 Tape Separator Cables infringe claim 2 of the '999 patent. The disputed limitations of the '999 patent, “configurable” and “channels,” have the same respective constructions as “configurable,” appearing in the '095 and '537 patents, and “grooves,” appearing in the '095 patent. Claim 2 of the '999 patent is similar to the asserted claims of the '095 and '537 patents in all relevant aspects, and Superior Essex asserts identical noninfringement arguments for all three of these patents. For the reasons discussed supra, no reasonable jury could conclude that the Category 6 Tape Separator Cables fail to meet these limitations. Accordingly, the court grants summary judgment that these accused products infringe claim 2 of the '999 patent. 4. The '503 patent Belden next asserts that the Category 6 Tape Separator Cables infringe the method described by claim 1 of the '503 patent. The parties dispute whether these cables contain a “core” with “surface features” as required by claim 1. The court has construed “core” to mean “a longitudinally-extending element that separates the transmission media.” Under this construction, the core must isolate each twisted pair from the remainder of the transmission media. Belden does not dispute that the tape separator of the Category 6 Tape Separator Cables divides the transmission media into two groups of two twisted pairs. Pursuant to this undisputed understanding of these accused products, the tape separator does not individually isolate the transmission media. Accordingly, the Category 6 Tape Separator Cables do not have a “core,” and no reasonable jury could conclude otherwise. Considering Superior Essex’s motion for noninfringement, and construing the facts in favor of Belden as the non-movant, there is no genuine dispute of material fact that the Category 6 Tape Separator Cables lack a “core” and, accordingly, do not infringe claim 1 of the '503 patent. 5. The '491 patent a. Premises cables Belden maintains that all of the accused products infringe claims 1 and 2 of the '491 patent. The parties do not dispute the structure of the accused products, but whether each contains “a first group” of conductor pairs with twist lays in a first range and the same insulation thickness and a “second group” of conductor pairs with twist lays in a second range and the same insulation thickness that is different from that of the first group. The court has construed “group” to mean “two or more.” Thus, in order to infringe claim 1, each accused product must have two groups of two or more twisted pairs, each group characterized by a twist lay of a certain range and a unique insulation thickness. The infringement of claim 2, which depends from claim 1, further requires that each twisted pair have a unique twist lay. Superior Essex does not dispute that certain of its accused products meet these limitations of claims 1 and 2. The 6A ScTP, lOGain XP, Cobra CMP/CMR and the Cobra Limited have two sets of two twisted pairs, each set having a unique insulation thickness. Moreover, in these cables, each twisted pair has a twist lay that is different from each other pair. Instead, Superior Essex argues that Belden has not demonstrated that the insulation thickness for each group “is consistent with providing a nominal characteristic impedance for each conductor pair of the ... group within desirable limits and an acceptable signal attenuation” as required by the claim language. This eonelusory statement, lacking any citation to the record that would indicate the presence of a dispute in this regard, does not create a genuine issue of material fact. See Barmag Barmer Maschinenfabrik AG v. Murata Machinery, Ltd., 731 F.2d 831, 835-36 (Fed. Cir.1984) (holding that mere allegations do not create a material issue of fact if the nonmovant cannot “point to an evidentiary conflict created on the record at least by a counter statement of a fact or facts set forth in detail in an affidavit by a knowledgeable affiant.”). Accordingly, judgment that the aforementioned products infringe both claims 1 and 2 of the '491 patent is appropriate. Under the court’s construction of “group,” Belden cannot demonstrate that multiple accused products infringe the asserted claims of the '491 patent. These accused products generally have 3 separate insulation thicknesses arranged in the following illustrative manner: Tj for the green pair; T2 for the blue pair; T3 for the orange pair; and for the brown pair. In this configuration, the green and brown pairs form one “group” because each pair has the same insulation thickness. Because the insulation thicknesses differ for the blue pair and the orange pair, these cables necessarily lack a “second group.” The following accused products contain this (or an equivalent) configuration of twisted pairs: the lOGain; the NextGain; the Bundled Category 6; the DataGain 6 + CMP; the DataGain Limited; the Category 6 CMP; and the Marathon cables. No reasonable jury could find that these products contain two distinct groups as required by claims 1 and 2 of the '491 patent. The court next considers Superior Essex’s cross motion for summary judgment that the NextGain, DataGain 6+ CMP, DataGain 6+ Limited, Category 6 CMP and Marathon cables do not infringe of the '491 patent. Construing the facts in favor of Belden as the nonmoving party, a reasonable jury could only find in favor of Superior Essex because these products do not have two “groups.” b. OSP products In its cross motion, Superior Essex also argues that summary judgment that the accused OSP products do not infringe the '491 patent is appropriate because Superior Essex has a license to practice the '491 patent for these outdoor products. (See D.I. 125, ex. 52) A patent license, express or implied, is a defense to patent infringement. See Carborundum Co. v. Molten Metal Equip. Innovations, Inc., 72 F.3d 872, 878 (Fed.Cir.1995). Belden argues that several fact issues preclude a grant of summary judgment. First, Belden maintains that, pursuant to the Belden Asset Purchase Agreement, Superior Essex was required to seek a further specific assignment of the '491 patent from Belden. (D.I. 152, ex. 2) Section 5.18 of the Belden Asset Purchase Agreement directed the parties “to determine which rights contained in the Patent Licenses are necessary and/or useful for [Superior Essex] to make, use or sell the Products in connection with the Conveyed Assets.” (Id. at 28) The '491 patent, licensed to Belden by NORDX, is excluded by omission from the definition of “Patent Licenses” and, thus, does not fall within the “notice” provision of the Belden Asset Purchase Agreement. Alternatively, Belden supports its argument by reference to a draft of the Belden Asset Purchase Agreement in which Superior Essex was required to notify Belden if it desired an assignment of the '491 patent. (Id., ex. 3) The record demonstrates that such notice must have been provided, as the '491 patent appears on the final list of Conveyed Intellectual Property. (D.I. 180, ex. 125 at 2) Second, Belden argues that a genuine issue of material fact presents itself as to whether the OSP products fall within the scope of Superior Essex’s license. The scope of Belden’s license to Superior Essex in the Belden Asset Purchase Agreement is governed by the NORDX license, which granted Belden a license to the '491 patent with respect to “Outside Plant Products,” defined by the license to include “outdoor outside plant cables and outdoor feeder & distribution cables” and “any products that have a substantially similar primary outdoor use.” (D.I. 125, ex. 52) As previously stated, Superior Essex has designated these products as “outside plant” cables. (Id., exs. 56, 126) Each of the accused OSP products includes a filling compound to inhibit water ingress and a sunlight resistant jacket. (Id.) These cables further include a corrugated copper clad armor which protects the integrity of the cable against rodents and accidental contact during digging. (Id.) Finally, these cables have no UL rating, which renders the OSP products an undesirable candidate for indoor use. (Id.) Each of these factors alone emphasize the outdoor nature of the accused OSP products. Viewing the aforementioned factors together, no reasonable jury could find other than that the OSP products have a “primary outdoor use” and, as such, fall within the scope of Superior Essex’s license under the '491 patent. C. Invalidity The standard of proof to establish the invalidity of a patent is “clear and convincing evidence.” Golden Blount, Inc. v. Robert H. Peterson Co., 365 F.3d 1054, 1058 (Fed.Cir.2004). In conjunction with this burden, the Federal Circuit has explained that, [w]hen no prior art other than that which was considered by the PTO examiner is relied on by the attacker, he has the added burden of overcoming the deference that is due to a qualified government agency presumed to have properly done its job, which includes one or more examiners who are assumed to have some expertise in interpreting the references and to be familiar from their work with the level of skill in the art and whose duty it is to issue only valid patents. PowerOasis, Inc. v. T-Mobile USA, Inc., 522 F.3d 1299, 1304 (Fed.Cir.2008) (quoting Am. Hoist & Derrick Co. v. Sowa & Sons, 725 F.2d 1350, 1359 (Fed.Cir.1984)). 1. Anticipation An anticipation inquiry involves two steps. First, the court must construe the claims of the patent in suit as a matter of law. See Key Pharms. v. Hercon Labs. Corp., 161 F.3d 709, 714 (Fed.Cir.1998). Second, the finder of fact must compare the construed claims against the prior art. See id. Proving a patent invalid by anticipation “requires that the four corners of a single, prior art document describe every element of the claimed invention, either expressly or inherently, such that a person of ordinary skill in the art could practice the invention without undue experimentation.” Advanced Display Sys. Inc. v. Kent State Univ., 212 F.3d 1272, 1282 (Fed.Cir.2000) (citations omitted). The Federal Circuit has stated that “[t]here must be no difference between the claimed invention and the referenced disclosure, as viewed by a person of ordinary skill in the field of the invention.” Scripps Clinic & Research Found, v. Genentech, Inc., 927 F.2d 1565, 1576 (Fed.Cir.1991). The elements of the prior art must be arranged or combined in the same manner as in the claim at issue, but the reference need not satisfy an ipsissimis verbis test. In re Cleave, 560 F.3d 1331, 1334 (Fed.Cir.2009) (citations omitted). “In determining whether a patented invention is [explicitly] anticipated, the claims are read in the context of the patent specification in which they arise and in which the invention is described.” Glaverbel Societe Anonyme v. Northlake Mktg. & Supply, Inc., 45 F.3d 1550, 1554 (Fed.Cir.1995). The prosecution history and the prior art may be consulted “[i]f needed to impart clarity or avoid ambiguity” in ascertaining whether the invention is novel or was previously known in the art. Id. (internal citations omitted). The parties have filed cross motions with respect to the anticipation of the patents in suit. For each patent, the court first considers whether Superior Essex has carried its burden and, failing to do so, whether Belden has demonstrated that no reasonable jury could find the patent inval