Patent application number | Description | Published |
20080268177 | Porogens, Porogenated Precursors and Methods for Using the Same to Provide Porous Organosilica Glass Films with Low Dielectric Constants - A chemical vapor deposition method for producing a porous organosilica glass film comprising: introducing into a vacuum chamber gaseous reagents including at least one precursor selected from the group consisting of an organosilane and an organosiloxane, and a porogen that is distinct from the precursor, wherein the porogen is a C | 10-30-2008 |
20080271640 | Porogens, Porogenated Precursors and Methods for Using the Same to Provide Porous Organosilica Glass Films with Low Dielectric Constants - A porous organosilica glass (OSG) film consists of a single phase of a material represented by the formula Si | 11-06-2008 |
20090054674 | Mechanical Enhancement of Dense and Porous Organosilicate Materials by UV Exposure - Low dielectric materials and films comprising same have been identified for improved performance when used as interlevel dielectrics in integrated circuits as well as methods for making same. In one aspect of the present invention, an organosilicate glass film is exposed to an ultraviolet light source wherein the film after exposure has an at least 10% or greater improvement in its mechanical properties (i.e., material hardness and elastic modulus) compared to the as-deposited film. | 02-26-2009 |
20110143032 | Porogens, Porogenated Precursors and Methods for Using the Same to Provide Porous Organosilica Glass Films With Low Dielectric Constants - A porous organosilica glass (OSG) film consists of a single phase of a material represented by the formula Si | 06-16-2011 |
20120282415 | Methods For Using Porogens For Low K Porous Organosilica Glass Films - A chemical vapor deposition method for producing a porous organosilica glass film comprising: introducing into a vacuum chamber gaseous reagents including at least one precursor selected from the group consisting of an organosilane and an organosiloxane, and a porogen that is distinct from the precursor; applying energy to the gaseous reagents in the vacuum chamber to induce reaction of the gaseous reagents to deposit a preliminary film on the substrate, wherein the preliminary film contains the porogen; and removing from the preliminary film substantially all of the porogen to provide the porous film with pores and a dielectric constant less than 2.6. | 11-08-2012 |
20130095255 | Porogens, Porogenated Precursors and Methods for Using the Same to Provide Porous Organosilica Glass Films with Low Dielectric Constants - A chemical vapor deposition method for producing a porous organosilica glass film comprising: introducing into a vacuum chamber gaseous reagents including at least one precursor selected from the group consisting of an organosilane and an organosiloxane, and a porogen that is distinct from the precursor, wherein the porogen is a C | 04-18-2013 |
20130157435 | Materials and Methods of Forming Controlled Void - The present invention is a process for forming an air gap within a substrate, the process comprising: providing a substrate; depositing a sacrificial material by deposition of at least one sacrificial material precursor; depositing a composite layer; removal of the porogen material in the composite layer to form a porous layer and contacting the layered substrate with a removal media to substantially remove the sacrificial material and provide the air gaps within the substrate; wherein the at least one sacrificial material precursor is selected from the group consisting of: an organic porogen; silicon, and a polar solvent soluble metal oxide and mixtures thereof. | 06-20-2013 |
20140363950 | Materials and Methods of Forming Controlled Void - The present invention is a process for forming an air gap within a substrate, the process comprising: providing a substrate; depositing a sacrificial material by deposition of at least one sacrificial material precursor; depositing a composite layer; removal of the porogen material in the composite layer to form a porous layer and contacting the layered substrate with a removal media to substantially remove the sacrificial material and provide the air gaps within the substrate; wherein the at least one sacrificial material precursor is selected from the group consisting of: an organic porogen; silicon, and a polar solvent soluble metal oxide and mixtures thereof. | 12-11-2014 |
Patent application number | Description | Published |
20090154809 | Method and apparatus for identifying an imaging device - A new technique for identifying whether images are derived from a common imager, e.g., a camera, or other imaging device such as a scanner, based on the device's measured or inferred reference noise pattern, a unique stochastic characteristic of all common digital imaging sensors, including CCD, CMOS (Foveon™ X3), and JFET. The measured or inferred noise pattern of two images may be extracted and then cross correlated, with a high correlation being consistent with a common imager. Various preprocessing techniques may be used to improve tolerance to various types of image transform. It is also possible to perform the analysis without explicit separation of inferred image and inferred noise. | 06-18-2009 |
20090257671 | Method and apparatus for identifying an imaging device - A new technique for identifying from images a camera, or other imaging device such as a scanner, is based on the device's reference noise pattern, a unique stochastic characteristic of all common digital imaging sensors, including CCD, CMOS (Foveon™ X3), and JFET. First, one determines from images the sensor's reference pattern noise, which uniquely identifies each sensor. To identify the sensor from a given image, the presence or absence of the reference pattern noise in the image under examination is established using a correlation detector or other means. | 10-15-2009 |
20120230536 | DETERMINING WHETHER OR NOT A DIGITAL IMAGE HAS BEEN TAMPERED WITH - Apparatus and method to verify the integrity of a digital image (i.e., deciding whether or not the entire image or just a portion has been tampered with, and/or finding the doctored area in the image). One first determines the imaging sensor's reference pattern noise, which serves as a unique fingerprint that identifies the imaging sensor that captured the image. To verify the integrity of the content in a region of the image, a correlation detector determines the presence or absence of the imaging sensor's reference pattern noise in that region, thereby verifying whether or not the image has integrity. The correlation detector can also find automatically one or more regions in the image that were tampered with. | 09-13-2012 |
Patent application number | Description | Published |
20130219497 | NETWORK INTRUSION DETECTION IN A NETWORK THAT INCLUDES A DISTRIBUTED VIRTUAL SWITCH FABRIC - A network intrusion detection system (NIDS) works in conjunction with a distributed virtual switch fabric to provide enhanced network intrusion detection in a way that does not require as much human intervention, autonomically adjusts to hardware changes in the network, and responds much more quickly than known network intrusion detection systems. The NIDS accesses network information from the distributed virtual switch fabric, which gives the NIDS access to a virtual view that includes hardware information for all networking devices in the network. This allows the NIDS to automatically determine network topology, update itself as hardware in the network is added or changed, and promptly take automated service actions in response to detected network intrusions. The result is a NIDS that is easier to configure, maintain, and use, and that provides enhanced network security. | 08-22-2013 |
20130219500 | NETWORK INTRUSION DETECTION IN A NETWORK THAT INCLUDES A DISTRIBUTED VIRTUAL SWITCH FABRIC - A network intrusion detection system (NIDS) works in conjunction with a distributed virtual switch fabric to provide enhanced network intrusion detection in a way that does not require as much human intervention, autonomically adjusts to hardware changes in the network, and responds much more quickly than known network intrusion detection systems. The NIDS accesses network information from the distributed virtual switch fabric, which gives the NIDS access to a virtual view that includes hardware information for all networking devices in the network. This allows the NIDS to automatically determine network topology, update itself as hardware in the network is added or changed, and promptly take automated service actions in response to detected network intrusions. The result is a NIDS that is easier to configure, maintain, and use, and that provides enhanced network security. | 08-22-2013 |
20140136475 | AUTOMATICALLY ADDRESSING PERFORMANCE ISSUES IN A DISTRIBUTED DATABASE - A database performance monitor monitors performance of a distributed database, identifies a database performance issue for the distributed database, determines from a distributed virtual network mechanism which physical networks are related to the database performance issue, determines a potential solution to the database performance issue that changes configuration of the distributed database, and applies the potential solution by automatically changing configuration of the distributed database without intervention of a user to address the database performance issue. | 05-15-2014 |
20140136682 | AUTOMATICALLY ADDRESSING PERFORMANCE ISSUES IN A DISTRIBUTED DATABASE - A database performance monitor monitors performance of a distributed database, identifies a database performance issue for the distributed database, determines from a distributed virtual network mechanism which physical networks are related to the database performance issue, determines a potential solution to the database performance issue that changes configuration of the distributed database, and applies the potential solution by automatically changing configuration of the distributed database without intervention of a user to address the database performance issue. | 05-15-2014 |
20140281745 | Tracking Errors In A Computing System - Tracking errors in a computing system that includes a plurality of current error buckets and a plurality of historical error buckets, including: inserting, by an error repository manager into a current error bucket, error information describing a first error identified by a timestamp; moving, by the error repository manager, the error information in the current error bucket to a historical error bucket upon the expiration of the bucket interval, wherein each historical error bucket has a storage interval determined in dependence upon the base time interval associated with the error and a bucket number associated with the historical error bucket; and moving, by the error repository manager, the error information in a source historical error bucket to a destination historical error bucket upon the expiration of the storage interval associated with the source historical error bucket. | 09-18-2014 |
20140281757 | Tracking Errors In A Computing System - Tracking errors in a computing system that includes a plurality of current error buckets and a plurality of historical error buckets, including: inserting, by an error repository manager into a current error bucket, error information describing a first error identified by a timestamp; moving, by the error repository manager, the error information in the current error bucket to a historical error bucket upon the expiration of the bucket interval, wherein each historical error bucket has a storage interval determined in dependence upon the base time interval associated with the error and a bucket number associated with the historical error bucket; and moving, by the error repository manager, the error information in a source historical error bucket to a destination historical error bucket upon the expiration of the storage interval associated with the source historical error bucket. | 09-18-2014 |
Patent application number | Description | Published |
20090068642 | Composition and pharmacology of novel alpha6-containing nicotinic acetylcholine receptors - Nicotinic acetylcholine receptors (nAChRs) comprising the α6 receptor subunit; nucleic acids, including vectors, comprising subunit incoding sequences; cells expressing the nAChRs of the invention; and methods of screening compounds are provided. | 03-12-2009 |
20130150357 | HYDROXYBUPROPION ANALOGUES FOR TREATING DRUG DEPENDENCE - The invention provides hydroxybupropion analogues capable of inhibiting the reuptake of one or more monoamines and/or acting as antagonists at nicotinic acetylcholine receptors. The compounds may selectively bind to one or more monoamine transporters, including those for dopamine, norepinephrine, and serotonin and/or may selectively bind to one or more nicotinic acetylcholine receptor subtypes. Such compounds may be used to treat conditions that are responsive to modification of monoamine levels and/or antagonism of nicotinic acetylcholine receptors, including drug dependency, depression, and obesity. | 06-13-2013 |
20140364463 | NICOTINIC ATTENUATION OF CNS INFLAMMATION AND AUTOIMMUNITY - The present invention relates to methods of treating and/or ameliorating the severity of inflammation and autoimmunity in the central nervous system (CNS). In one embodiment, the present invention provides a method of treating multiple sclerosis by administering a therapeutically effective dosage of nicotine, or a pharmaceutical equivalent, analog, derivative, or salt thereof. | 12-11-2014 |